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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

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# Installation
> `npm install --save @types/d3-array`
# Summary
This package contains type definitions for d3-array (https://github.com/d3/d3-array).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-array.
### Additional Details
* Last updated: Tue, 07 Nov 2023 15:11:36 GMT
* Dependencies: none
# Credits
These definitions were written by [Alex Ford](https://github.com/gustavderdrache), [Boris Yankov](https://github.com/borisyankov), [Tom Wanzek](https://github.com/tomwanzek), [denisname](https://github.com/denisname), [Hugues Stefanski](https://github.com/ledragon), [Nathan Bierema](https://github.com/Methuselah96), and [Fil](https://github.com/Fil).

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{
"name": "@types/d3-array",
"version": "3.2.1",
"description": "TypeScript definitions for d3-array",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-array",
"license": "MIT",
"contributors": [
{
"name": "Alex Ford",
"githubUsername": "gustavderdrache",
"url": "https://github.com/gustavderdrache"
},
{
"name": "Boris Yankov",
"githubUsername": "borisyankov",
"url": "https://github.com/borisyankov"
},
{
"name": "Tom Wanzek",
"githubUsername": "tomwanzek",
"url": "https://github.com/tomwanzek"
},
{
"name": "denisname",
"githubUsername": "denisname",
"url": "https://github.com/denisname"
},
{
"name": "Hugues Stefanski",
"githubUsername": "ledragon",
"url": "https://github.com/ledragon"
},
{
"name": "Nathan Bierema",
"githubUsername": "Methuselah96",
"url": "https://github.com/Methuselah96"
},
{
"name": "Fil",
"githubUsername": "Fil",
"url": "https://github.com/Fil"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/d3-array"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "b50eff598f27d034f8e6ff5b0f00103f3ba911073f16fe68999f19bc15ee6fc2",
"typeScriptVersion": "4.5"
}

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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

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# Installation
> `npm install --save @types/d3-color`
# Summary
This package contains type definitions for d3-color (https://github.com/d3/d3-color/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-color.
### Additional Details
* Last updated: Tue, 07 Nov 2023 15:11:36 GMT
* Dependencies: none
# Credits
These definitions were written by [Tom Wanzek](https://github.com/tomwanzek), [Alex Ford](https://github.com/gustavderdrache), [Boris Yankov](https://github.com/borisyankov), [denisname](https://github.com/denisname), [Hugues Stefanski](https://github.com/ledragon), [Nathan Bierema](https://github.com/Methuselah96), and [Fil](https://github.com/Fil).

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// Last module patch version validated against: 3.1.0
// ---------------------------------------------------------------------------
// Shared Type Definitions and Interfaces
// ---------------------------------------------------------------------------
/**
* Type allowing for color objects from a specified color space
*/
export type ColorSpaceObject = RGBColor | HSLColor | LabColor | HCLColor | CubehelixColor;
/**
* A helper interface of methods common to color objects (including colors defined outside the d3-color standard module,
* e.g. in d3-hsv). This interface
*/
export interface ColorCommonInstance {
/**
* Returns true if and only if the color is displayable on standard hardware.
* For example, this returns false for an RGB color if any channel value is less than zero or greater than 255, or if the opacity is not in the range [0, 1].
*/
displayable(): boolean;
/**
* Returns a string representing this color according to the CSS Object Model specification,
* such as rgb(247, 234, 186) or rgba(247, 234, 186, 0.2).
* If this color is not displayable, a suitable displayable color is returned instead.
* For example, RGB channel values greater than 255 are clamped to 255.
*/
toString(): string;
/**
* Returns a brighter copy of this color. If k is specified, it controls how much brighter the returned color should be.
* If k is not specified, it defaults to 1. The behavior of this method is dependent on the implementing color space.
*
* @param k A color space dependent number to determine, how much brighter the returned color should be.
*/
brighter(k?: number): this;
/**
* Returns a darker copy of this color. If k is specified, it controls how much darker the returned color should be.
* If k is not specified, it defaults to 1. The behavior of this method is dependent on the implementing color space.
*
* @param k A color space dependent number to determine, how much darker the returned color should be.
*/
darker(k?: number): this;
/**
* Returns the RGB equivalent of this color. For RGB colors, thats "this".
*/
rgb(): RGBColor;
/**
* Returns a hexadecimal string representing this color.
* If this color is not displayable, a suitable displayable color is returned instead.
* For example, RGB channel values greater than 255 are clamped to 255.
*/
hex(): string;
}
/**
* A Color object which serves as a base class for
* colorspace-specific sub-class implementations.
*/
export interface Color {
/**
* Returns true if and only if the color is displayable on standard hardware.
* For example, this returns false for an RGB color if any channel value is less than zero or greater than 255, or if the opacity is not in the range [0, 1].
*/
displayable(): boolean; // Note: While this method is used in prototyping for colors of specific colorspaces, it should not be called directly, as 'this.rgb' would not be implemented on Color
/**
* Returns a string representing this color according to the CSS Object Model specification,
* such as rgb(247, 234, 186) or rgba(247, 234, 186, 0.2).
* If this color is not displayable, a suitable displayable color is returned instead.
* For example, RGB channel values greater than 255 are clamped to 255.
*/
toString(): string; // Note: While this method is used in prototyping for colors of specific colorspaces, it should not be called directly, as 'this.rgb' would not be implemented on Color
/**
* Returns a hexadecimal string representing this color in RGB space, such as #f7eaba.
* If this color is not displayable, a suitable displayable color is returned instead.
* For example, RGB channel values greater than 255 are clamped to 255.
*/
formatHex(): string;
/**
* Returns a hexadecimal string representing this color in RGBA space, such as #f7eaba90.
* If this color is not displayable, a suitable displayable color is returned instead.
* For example, RGB channel values greater than 255 are clamped to 255.
*/
formatHex8(): string;
/**
* Returns a string representing this color according to the CSS Color Module Level 3 specification, such as hsl(257, 50%, 80%) or hsla(257, 50%, 80%, 0.2).
* If this color is not displayable, a suitable displayable color is returned instead by clamping S and L channel values to the interval [0, 100].
*/
formatHsl(): string;
/**
* Returns a string representing this color according to the CSS Object Model specification, such as rgb(247, 234, 186) or rgba(247, 234, 186, 0.2).
* If this color is not displayable, a suitable displayable color is returned instead by clamping RGB channel values to the interval [0, 255].
*/
formatRgb(): string;
/**
* @deprecated Use color.formatHex.
*/
hex(): string;
}
/**
* A Color factory object, which may also be used with instanceof to test if an object is a color instance.
*/
export interface ColorFactory extends Function {
/**
* Parses the specified CSS Color Module Level 3 specifier string, returning an RGB or HSL color.
* If the specifier was not valid, null is returned.
*
* @param cssColorSpecifier A CSS Color Module Level 3 specifier string.
*/
(cssColorSpecifier: string): RGBColor | HSLColor | null;
/**
* Converts the provided color instance and returns an RGB or HSL color.
*
* @param color A permissible color space instance.
*/
(color: ColorSpaceObject | ColorCommonInstance): RGBColor | HSLColor;
/**
* Prototype of the factory, which can be used for instanceof testing
*/
readonly prototype: Color;
}
/**
* An RGB color object.
*/
export interface RGBColor extends Color {
/**
* Value of red channel
*/
r: number;
/**
* Value of green channel
*/
g: number;
/**
* Value of blue channel
*/
b: number;
/**
* Opacity value
*/
opacity: number;
/**
* Returns a brighter copy of this color. If k is specified, it controls how much brighter the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much brighter the returned color should be.
*/
brighter(k?: number): this;
/**
* Returns a darker copy of this color. If k is specified, it controls how much darker the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much darker the returned color should be.
*/
darker(k?: number): this;
/**
* Returns the RGB equivalent of this color.
*/
rgb(): this;
/**
* Returns a copy of this color.
*
* @param values If values is specified, any enumerable own properties of values are assigned to the new returned color.
*/
copy(
values?: {
r?: number | undefined;
g?: number | undefined;
b?: number | undefined;
opacity?: number | undefined;
},
): this;
/**
* Returns a new RGB color where the r, g, and b channels are clamped to the range [0, 255] and rounded to the nearest integer value,
* and the opacity is clamped to the range [0, 1].
*/
clamp(): this;
}
/**
* An RGB color factory object, which may also be used with instanceof to test if an object
* is an RGB color instance.
*/
export interface RGBColorFactory extends Function {
/**
* Constructs a new RGB color based on the specified channel values and opacity.
*
* @param r Red channel value.
* @param g Green channel value.
* @param b Blue channel value.
* @param opacity Optional opacity value, defaults to 1.
*/
(r: number, g: number, b: number, opacity?: number): RGBColor;
/**
* Parses the specified CSS Color Module Level 3 specifier string, returning an RGB color.
* If the specifier was not valid, null is returned.
*
* @param cssColorSpecifier A CSS Color Module Level 3 specifier string.
*/
(cssColorSpecifier: string): RGBColor;
/**
* Converts the provided color instance and returns an RGB color. The color instance is converted to the RGB color space using color.rgb.
* Note that unlike color.rgb this method always returns a new instance, even if color is already an RGB color.
*
* @param color A permissible color space instance.
*/
// tslint:disable-next-line:unified-signatures
(color: ColorSpaceObject | ColorCommonInstance): RGBColor;
/**
* Prototype of the factory, which can be used for instanceof testing
*/
readonly prototype: RGBColor;
}
/**
* An HSL color object.
*/
export interface HSLColor extends Color {
/**
* Hue channel value.
*/
h: number;
/**
* Saturation channel value.
*/
s: number;
/**
* Lightness channel value.
*/
l: number;
/**
* Opacity value.
*/
opacity: number;
/**
* Returns a brighter copy of this color. If k is specified, it controls how much brighter the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much brighter the returned color should be.
*/
brighter(k?: number): this;
/**
* Returns a darker copy of this color. If k is specified, it controls how much darker the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much darker the returned color should be.
*/
darker(k?: number): this;
/**
* Returns the RGB color equivalent of this color.
*/
rgb(): RGBColor;
/**
* Returns a copy of this color.
*
* @param values If values is specified, any enumerable own properties of values are assigned to the new returned color.
*/
copy(
values?: {
h?: number | undefined;
s?: number | undefined;
l?: number | undefined;
opacity?: number | undefined;
},
): this;
/**
* Returns a new HSL color where the h channel is clamped to the range [0, 360), and the s, l, and opacity channels are clamped to the range [0, 1].
*/
clamp(): this;
}
/**
* An HSL color factory object, which may also be used with instanceof to test if an object
* is an HSL color instance.
*/
export interface HSLColorFactory extends Function {
/**
* Constructs a new HSL color based on the specified channel values and opacity.
*
* @param h Hue channel value.
* @param s Saturation channel value.
* @param l Lightness channel value.
* @param opacity Optional opacity value, defaults to 1.
*/
(h: number, s: number, l: number, opacity?: number): HSLColor;
/**
* Parses the specified CSS Color Module Level 3 specifier string, returning an HSL color.
* If the specifier was not valid, null is returned.
*
* @param cssColorSpecifier A CSS Color Module Level 3 specifier string.
*/
(cssColorSpecifier: string): HSLColor;
/**
* Converts the provided color instance and returns an HSL color.
* The color instance is converted to the RGB color space using color.rgb and then converted to HSL.
* (Colors already in the HSL color space skip the conversion to RGB.)
*
* @param color A permissible color space instance.
*/
// tslint:disable-next-line:unified-signatures
(color: ColorSpaceObject | ColorCommonInstance): HSLColor;
/**
* Prototype of the factory, which can be used for instanceof testing
*/
readonly prototype: HSLColor;
}
/**
* A Lab (CIELAB) color object.
*/
export interface LabColor extends Color {
/**
* Lightness typically in the range [0, 100].
*/
l: number;
/**
* Position between red/magenta and green typically in [-160, +160].
*/
a: number;
/**
* Position between yellow and blue typically in [-160, +160].
*/
b: number;
/**
* Opacity value
*/
opacity: number;
/**
* Returns a brighter copy of this color. If k is specified, it controls how much brighter the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much brighter the returned color should be.
*/
brighter(k?: number): this;
/**
* Returns a darker copy of this color. If k is specified, it controls how much darker the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much darker the returned color should be.
*/
darker(k?: number): this;
/**
* Returns the RGB color equivalent of this color.
*/
rgb(): RGBColor;
/**
* Returns a copy of this color.
*
* @param values If values is specified, any enumerable own properties of values are assigned to the new returned color.
*/
copy(
values?: {
l?: number | undefined;
a?: number | undefined;
b?: number | undefined;
opacity?: number | undefined;
},
): this;
}
/**
* A Lab (CIELAB) color factory object, which may also be used with instanceof to test if an object
* is a Lab color instance.
*/
export interface LabColorFactory extends Function {
/**
* Constructs a new CIELAB color based on the specified channel values and opacity.
*
* @param l Lightness typically in the range [0, 100].
* @param a Position between red/magenta and green typically in [-160, +160].
* @param b Position between yellow and blue typically in [-160, +160].
* @param opacity Optional opacity value, defaults to 1.
*/
(l: number, a: number, b: number, opacity?: number): LabColor;
/**
* Parses the specified CSS Color Module Level 3 specifier string, returning a Lab color.
* If the specifier was not valid, null is returned.
*
* @param cssColorSpecifier A CSS Color Module Level 3 specifier string.
*/
(cssColorSpecifier: string): LabColor;
/**
* Converts the provided color instance and returns a Lab color.
* The color instance is converted to the RGB color space using color.rgb and then converted to CIELAB.
* (Colors already in the Lab color space skip the conversion to RGB,
* and colors in the HCL color space are converted directly to CIELAB.)
*
* @param color A permissible color space instance.
*/
// tslint:disable-next-line:unified-signatures
(color: ColorSpaceObject | ColorCommonInstance): LabColor;
/**
* Prototype of the factory, which can be used for instanceof testing
*/
readonly prototype: LabColor;
}
/**
* A gray color factory for Lab (CIELAB) colors.
*/
export type GrayColorFactory =
/**
* Constructs a new CIELAB color with the specified l value and a = b = 0.
*
* @param l Lightness typically in the range [0, 100].
* @param opacity Optional opacity value, defaults to 1.
*/
(l: number, opacity?: number) => LabColor;
/**
* An HCL (CIELCH) color object.
*/
export interface HCLColor extends Color {
/**
* Hue channel value typically in [0, 360).
*/
h: number;
/**
* Chroma channel value typically in [0, 230].
*/
c: number;
/**
* Luminance channel value typically in the range [0, 100].
*/
l: number;
/**
* Opacity value
*/
opacity: number;
/**
* Returns a brighter copy of this color. If k is specified, it controls how much brighter the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much brighter the returned color should be.
*/
brighter(k?: number): this;
/**
* Returns a darker copy of this color. If k is specified, it controls how much darker the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much darker the returned color should be.
*/
darker(k?: number): this;
/**
* Returns the RGB color equivalent of this color.
*/
rgb(): RGBColor;
/**
* Returns a copy of this color.
*
* @param values If values is specified, any enumerable own properties of values are assigned to the new returned color.
*/
copy(
values?: {
h?: number | undefined;
c?: number | undefined;
l?: number | undefined;
opacity?: number | undefined;
},
): this;
}
/**
* An HCL (CIELCH) color factory object, which may also be used with instanceof to test if an object
* is an HCL color instance.
*/
export interface HCLColorFactory extends Function {
/**
* Constructs a new HCL color based on the specified channel values and opacity.
*
* @param h Hue channel value typically in [0, 360).
* @param c Chroma channel value typically in [0, 230].
* @param l Luminance channel value typically in the range [0, 100].
* @param opacity Optional opacity value, defaults to 1.
*/
(h: number, c: number, l: number, opacity?: number): HCLColor;
/**
* Parses the specified CSS Color Module Level 3 specifier string, returning an HCL color.
* If the specifier was not valid, null is returned.
*
* @param cssColorSpecifier A CSS Color Module Level 3 specifier string.
*/
(cssColorSpecifier: string): HCLColor;
/**
* Converts the provided color instance and returns an HCL color.
* The color instance is converted to the RGB color space using color.rgb and then converted to HCL.
* (Colors already in the HCL color space skip the conversion to RGB,
* and colors in the Lab color space are converted directly to HCL.)
*
* @param color A permissible color space instance.
*/
// tslint:disable-next-line:unified-signatures
(color: ColorSpaceObject | ColorCommonInstance): HCLColor;
/**
* Prototype of the factory, which can be used for instanceof testing
*/
readonly prototype: HCLColor;
}
/**
* An LCH (CIELCH) color factory function to create an HCL color object.
*/
export interface LCHColorFactory {
/**
* Constructs a new HCL color based on the specified channel values and opacity.
*
* @param l Luminance channel value typically in the range [0, 100].
* @param c Chroma channel value typically in [0, 230].
* @param h Hue channel value typically in [0, 360).
* @param opacity Optional opacity value, defaults to 1.
*/
(l: number, c: number, h: number, opacity?: number): HCLColor;
/**
* Parses the specified CSS Color Module Level 3 specifier string, returning an HCL color.
* If the specifier was not valid, null is returned.
*
* @param cssColorSpecifier A CSS color Module Level 3 specifier string.
*/
(cssColorSpecifier: string): HCLColor;
/**
* Converts the provided color instance and returns an HCL color.
* The color instance is converted to the RGB color space using color.rgb and then converted to HCL.
* (Colors already in the HCL color space skip the conversion to RGB,
* and colors in the Lab color space are converted directly to HCL.)
*
* @param color A permissible color space instance.
*/
// tslint:disable-next-line:unified-signatures
(color: ColorSpaceObject | ColorCommonInstance): HCLColor;
}
/**
* Dave Greens Cubehelix color object.
*/
export interface CubehelixColor extends Color {
/**
* Hue channel value.
*/
h: number;
/**
* Saturation channel value.
*/
s: number;
/**
* Lightness channel value.
*/
l: number;
/**
* Opacity value.
*/
opacity: number;
/**
* Returns a brighter copy of this color. If k is specified, it controls how much brighter the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much brighter the returned color should be.
*/
brighter(k?: number): this;
/**
* Returns a darker copy of this color. If k is specified, it controls how much darker the returned color should be.
* If k is not specified, it defaults to 1.
*
* @param k A color space dependent number to determine, how much darker the returned color should be.
*/
darker(k?: number): this;
/**
* Returns the RGB color equivalent of this color.
*/
rgb(): RGBColor;
/**
* Returns a copy of this color.
*
* @param values If values is specified, any enumerable own properties of values are assigned to the new returned color.
*/
copy(
values?: {
h?: number | undefined;
s?: number | undefined;
l?: number | undefined;
opacity?: number | undefined;
},
): this;
}
/**
* A color factory object for Dave Green's Cubehelix colors, which may also be used with instanceof to test if an object
* is a Cubehelix color instance.
*/
export interface CubehelixColorFactory extends Function {
/**
* Constructs a new Cubehelix color based on the specified channel values and opacity.
*
* @param h Hue channel value.
* @param s Saturation channel value.
* @param l Lightness channel value.
* @param opacity Optional opacity value, defaults to 1.
*/
(h: number, s: number, l: number, opacity?: number): CubehelixColor;
/**
* Parses the specified CSS Color Module Level 3 specifier string, returning an Cubehelix color.
* If the specifier was not valid, null is returned.
*
* @param cssColorSpecifier A CSS Color Module Level 3 specifier string.
*/
(cssColorSpecifier: string): CubehelixColor;
/**
* Converts the provided color instance and returns a Cubehelix color.
* The color instance is specified, it is converted to the RGB color space using color.rgb and then converted to Cubehelix.
* (Colors already in the Cubehelix color space skip the conversion to RGB.)
*
* @param color A permissible color space instance.
*/
// tslint:disable-next-line:unified-signatures
(color: ColorSpaceObject | ColorCommonInstance): CubehelixColor;
/**
* Prototype of the factory, which can be used for instanceof testing
*/
readonly prototype: CubehelixColor;
}
// --------------------------------------------------------------------------
// Color object factories
// --------------------------------------------------------------------------
/**
* A Color factory object, which may also be used with instanceof to test if an object is a color instance.
*/
export const color: ColorFactory;
/**
* An RGB color factory object, which may also be used with instanceof to test if an object
* is an RGB color instance.
*/
export const rgb: RGBColorFactory;
/**
* An HSL color factory object, which may also be used with instanceof to test if an object
* is an HSL color instance.
*/
export const hsl: HSLColorFactory;
/**
* A Lab (CIELAB) color factory object, which may also be used with instanceof to test if an object
* is a Lab color instance.
*/
export const lab: LabColorFactory;
/**
* A gray color factory for Lab (CIELAB) colors.
*/
export const gray: GrayColorFactory;
/**
* An HCL (CIELCH) color factory object, which may also be used with instanceof to test if an object
* is an HCL color instance.
*/
export const hcl: HCLColorFactory;
/**
* An LCH (CIELCH) color factory function to create an HCL color object.
*/
export const lch: LCHColorFactory;
/**
* A color factory object for Dave Green's Cubehelix colors, which may also be used with instanceof to test if an object
* is a Cubehelix color instance.
*/
export const cubehelix: CubehelixColorFactory;

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{
"name": "@types/d3-color",
"version": "3.1.3",
"description": "TypeScript definitions for d3-color",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-color",
"license": "MIT",
"contributors": [
{
"name": "Tom Wanzek",
"githubUsername": "tomwanzek",
"url": "https://github.com/tomwanzek"
},
{
"name": "Alex Ford",
"githubUsername": "gustavderdrache",
"url": "https://github.com/gustavderdrache"
},
{
"name": "Boris Yankov",
"githubUsername": "borisyankov",
"url": "https://github.com/borisyankov"
},
{
"name": "denisname",
"githubUsername": "denisname",
"url": "https://github.com/denisname"
},
{
"name": "Hugues Stefanski",
"githubUsername": "ledragon",
"url": "https://github.com/ledragon"
},
{
"name": "Nathan Bierema",
"githubUsername": "Methuselah96",
"url": "https://github.com/Methuselah96"
},
{
"name": "Fil",
"githubUsername": "Fil",
"url": "https://github.com/Fil"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/d3-color"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "89cf9357324cddaa31cfb539b1c33d118648ed55319f2a0d26f24b004975a947",
"typeScriptVersion": "4.5"
}

21
node_modules/@types/d3-ease/LICENSE generated vendored Normal file
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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
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# Installation
> `npm install --save @types/d3-ease`
# Summary
This package contains type definitions for d3-ease (https://github.com/d3/d3-ease/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-ease.
### Additional Details
* Last updated: Tue, 07 Nov 2023 15:11:36 GMT
* Dependencies: none
# Credits
These definitions were written by [Tom Wanzek](https://github.com/tomwanzek), [Alex Ford](https://github.com/gustavderdrache), [Boris Yankov](https://github.com/borisyankov), and [Nathan Bierema](https://github.com/Methuselah96).

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// Last module patch version validated against: 3.0.1
// --------------------------------------------------------------------------
// Easing Functions
// --------------------------------------------------------------------------
/**
* Linear easing; the identity function; linear(t) returns t.
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeLinear(normalizedTime: number): number;
/**
* Symmetric quadratic easing; scales quadIn for t in [0, 0.5] and quadOut for t in [0.5, 1]. Also equivalent to poly.exponent(2).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeQuad(normalizedTime: number): number;
/**
* Quadratic easing; equivalent to polyIn.exponent(2).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeQuadIn(normalizedTime: number): number;
/**
* Reverse quadratic easing; equivalent to 1 - quadIn(1 - t). Also equivalent to polyOut.exponent(2).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeQuadOut(normalizedTime: number): number;
/**
* Symmetric quadratic easing; scales quadIn for t in [0, 0.5] and quadOut for t in [0.5, 1]. Also equivalent to poly.exponent(2).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeQuadInOut(normalizedTime: number): number;
/**
* Symmetric cubic easing; scales cubicIn for t in [0, 0.5] and cubicOut for t in [0.5, 1]. Also equivalent to poly.exponent(3).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCubic(normalizedTime: number): number;
/**
* Cubic easing; equivalent to polyIn.exponent(3).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCubicIn(normalizedTime: number): number;
/**
* Reverse cubic easing; equivalent to 1 - cubicIn(1 - t). Also equivalent to polyOut.exponent(3).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCubicOut(normalizedTime: number): number;
/**
* Symmetric cubic easing; scales cubicIn for t in [0, 0.5] and cubicOut for t in [0.5, 1]. Also equivalent to poly.exponent(3).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCubicInOut(normalizedTime: number): number;
/**
* Polynomial easing function factory
*/
export interface PolynomialEasingFactory {
/**
* Calculate eased time.
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
(normalizedTime: number): number;
/**
* Returns a new polynomial easing with the specified exponent e.
* If the exponent is not specified, it defaults to 3, equivalent to cubic.
*
* @param e Exponent for polynomial easing.
*/
exponent(e: number): PolynomialEasingFactory;
}
/**
* Symmetric polynomial easing/easing factory; scales polyIn for t in [0, 0.5] and polyOut for t in [0.5, 1].
* If the exponent is not specified, it defaults to 3, equivalent to cubic.
*/
export const easePoly: PolynomialEasingFactory;
/**
* Polynomial easing/easing factory; raises t to the specified exponent.
* If the exponent is not specified, it defaults to 3, equivalent to cubicIn.
*/
export const easePolyIn: PolynomialEasingFactory;
/**
* Reverse polynomial easing/easing factory; equivalent to 1 - polyIn(1 - t).
* If the exponent is not specified, it defaults to 3, equivalent to cubicOut.
*/
export const easePolyOut: PolynomialEasingFactory;
/**
* Symmetric polynomial easing/easing factory; scales polyIn for t in [0, 0.5] and polyOut for t in [0.5, 1].
* If the exponent is not specified, it defaults to 3, equivalent to cubic.
*/
export const easePolyInOut: PolynomialEasingFactory;
/**
* Symmetric sinusoidal easing; scales sinIn for t in [0, 0.5] and sinOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeSin(normalizedTime: number): number;
/**
* Sinusoidal easing; returns sin(t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeSinIn(normalizedTime: number): number;
/**
* Reverse sinusoidal easing; equivalent to 1 - sinIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeSinOut(normalizedTime: number): number;
/**
* Symmetric sinusoidal easing; scales sinIn for t in [0, 0.5] and sinOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeSinInOut(normalizedTime: number): number;
/**
* Symmetric exponential easing; scales expIn for t in [0, 0.5] and expOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeExp(normalizedTime: number): number;
/**
* Exponential easing; raises 2 to the exponent 10 * (t - 1).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeExpIn(normalizedTime: number): number;
/**
* Reverse exponential easing; equivalent to 1 - expIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeExpOut(normalizedTime: number): number;
/**
* Symmetric exponential easing; scales expIn for t in [0, 0.5] and expOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeExpInOut(normalizedTime: number): number;
/**
* Symmetric circular easing; scales circleIn for t in [0, 0.5] and circleOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCircle(normalizedTime: number): number;
/**
* Circular easing.
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCircleIn(normalizedTime: number): number;
/**
* Reverse circular easing; equivalent to 1 - circleIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCircleOut(normalizedTime: number): number;
/**
* Symmetric circular easing; scales circleIn for t in [0, 0.5] and circleOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeCircleInOut(normalizedTime: number): number;
/**
* Reverse bounce easing; equivalent to 1 - bounceIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeBounce(normalizedTime: number): number;
/**
* Bounce easing, like a rubber ball.
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeBounceIn(normalizedTime: number): number;
/**
* Reverse bounce easing; equivalent to 1 - bounceIn(1 - t).
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeBounceOut(normalizedTime: number): number;
/**
* Symmetric bounce easing; scales bounceIn for t in [0, 0.5] and bounceOut for t in [0.5, 1].
*
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
export function easeBounceInOut(normalizedTime: number): number;
/**
* Anticipatory easing function factory
*/
export interface BackEasingFactory {
/**
* Calculate eased time.
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
(normalizedTime: number): number;
/**
* Returns a new back easing with the specified overshoot s.
* The degree of overshoot is configurable; if not specified, it defaults to 1.70158.
*
* @param s Overshoot parameter
*/
overshoot(s: number): BackEasingFactory;
}
/**
* Symmetric anticipatory easing; scales backIn for t in [0, 0.5] and backOut for t in [0.5, 1].
* The degree of overshoot is configurable; it not specified, it defaults to 1.70158.
*/
export const easeBack: BackEasingFactory;
/**
* Anticipatory easing, like a dancer bending their knees before jumping off the floor.
* The degree of overshoot is configurable; it not specified, it defaults to 1.70158.
*/
export const easeBackIn: BackEasingFactory;
/**
* Reverse anticipatory easing; equivalent to 1 - backIn(1 - t).
* The degree of overshoot is configurable; it not specified, it defaults to 1.70158.
*/
export const easeBackOut: BackEasingFactory;
/**
* Symmetric anticipatory easing; scales backIn for t in [0, 0.5] and backOut for t in [0.5, 1].
* The degree of overshoot is configurable; it not specified, it defaults to 1.70158.
*/
export const easeBackInOut: BackEasingFactory;
/**
* Elastic easing function factory
*/
export interface ElasticEasingFactory {
/**
* Calculate eased time.
* @param normalizedTime Normalized time typically in the range [0, 1]
*/
(normalizedTime: number): number;
/**
* Returns a new elastic easing with the specified amplitude a.
* Defaults to 1,if not specified.
*
* @param a Amplitude for elastic easing.
*/
amplitude(a: number): ElasticEasingFactory;
/**
* Returns a new elastic easing with the specified amplitude a.
* Defaults to 0.3,if not specified.
*
* @param p Period for elastic easing.
*/
period(p: number): ElasticEasingFactory;
}
/**
* Reverse elastic easing; equivalent to 1 - elasticIn(1 - t).
* The amplitude and period of the oscillation are configurable;
* if not specified, they default to 1 and 0.3, respectively.
*/
export const easeElastic: ElasticEasingFactory;
/**
* Elastic easing, like a rubber band.
* The amplitude and period of the oscillation are configurable;
* if not specified, they default to 1 and 0.3, respectively.
*/
export const easeElasticIn: ElasticEasingFactory;
/**
* Reverse elastic easing; equivalent to 1 - elasticIn(1 - t).
* The amplitude and period of the oscillation are configurable;
* if not specified, they default to 1 and 0.3, respectively.
*/
export const easeElasticOut: ElasticEasingFactory;
/**
* Symmetric elastic easing; scales elasticIn for t in [0, 0.5] and elasticOut for t in [0.5, 1].
* The amplitude and period of the oscillation are configurable;
* if not specified, they default to 1 and 0.3, respectively.
*/
export const easeElasticInOut: ElasticEasingFactory;

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node_modules/@types/d3-ease/package.json generated vendored Normal file
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{
"name": "@types/d3-ease",
"version": "3.0.2",
"description": "TypeScript definitions for d3-ease",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-ease",
"license": "MIT",
"contributors": [
{
"name": "Tom Wanzek",
"githubUsername": "tomwanzek",
"url": "https://github.com/tomwanzek"
},
{
"name": "Alex Ford",
"githubUsername": "gustavderdrache",
"url": "https://github.com/gustavderdrache"
},
{
"name": "Boris Yankov",
"githubUsername": "borisyankov",
"url": "https://github.com/borisyankov"
},
{
"name": "Nathan Bierema",
"githubUsername": "Methuselah96",
"url": "https://github.com/Methuselah96"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/d3-ease"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "2995c518f8de4fa6f2abb2f13065cb4fe65acaea9422f9883b24414ef50cd1ab",
"typeScriptVersion": "4.5"
}

21
node_modules/@types/d3-interpolate/LICENSE generated vendored Normal file
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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
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# Installation
> `npm install --save @types/d3-interpolate`
# Summary
This package contains type definitions for d3-interpolate (https://github.com/d3/d3-interpolate/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-interpolate.
### Additional Details
* Last updated: Tue, 07 Nov 2023 15:11:37 GMT
* Dependencies: [@types/d3-color](https://npmjs.com/package/@types/d3-color)
# Credits
These definitions were written by [Tom Wanzek](https://github.com/tomwanzek), [Alex Ford](https://github.com/gustavderdrache), [Boris Yankov](https://github.com/borisyankov), [denisname](https://github.com/denisname), and [Nathan Bierema](https://github.com/Methuselah96).

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// Last module patch version validated against: 3.0.1
import { ColorCommonInstance } from "d3-color";
// ---------------------------------------------------------------------------
// Shared Type Definitions and Interfaces
// ---------------------------------------------------------------------------
export interface ZoomInterpolator extends Function {
(t: number): ZoomView;
/**
* Recommended duration of zoom transition in milliseconds.
*/
duration: number;
/**
* Given a zoom interpolator, returns a new zoom interpolator using the specified curvature rho.
* When rho is close to 0, the interpolator is almost linear.
* The default curvature is sqrt(2).
* @param rho
*/
rho(rho: number): this;
}
export interface ColorGammaInterpolationFactory extends Function {
(a: string | ColorCommonInstance, b: string | ColorCommonInstance): (t: number) => string;
/**
* Returns a new interpolator factory of the same type using the specified *gamma*.
* For example, to interpolate from purple to orange with a gamma of 2.2 in RGB space: `d3.interpolateRgb.gamma(2.2)("purple", "orange")`.
* See Eric Brasseurs article, [Gamma error in picture scaling](https://web.archive.org/web/20160112115812/http://www.4p8.com/eric.brasseur/gamma.html), for more on gamma correction.
*/
gamma(g: number): ColorGammaInterpolationFactory;
}
/**
* Type zoomView is used to represent a numeric array with three elements.
* In order of appearance the elements correspond to:
* - cx: *x*-coordinate of the center of the viewport
* - cy: *y*-coordinate of the center of the viewport
* - width: size of the viewport
*/
export type ZoomView = [number, number, number];
export type TypedArray =
| Int8Array
| Uint8Array
| Int16Array
| Uint16Array
| Int32Array
| Uint32Array
| Uint8ClampedArray
| Float32Array
| Float64Array;
export type NumberArray = TypedArray | DataView;
// ---------------------------------------------------------------------------
// Interpolation Function Factories
// ---------------------------------------------------------------------------
/**
* Returns an `null` constant interpolator.
*/
export function interpolate(a: any, b: null): (t: number) => null;
/**
* Returns an boolean constant interpolator of value `b`.
*/
export function interpolate(a: any, b: boolean): (t: number) => boolean;
/**
* Returns a `interpolateRgb` interpolator.
*/
export function interpolate(a: string | ColorCommonInstance, b: ColorCommonInstance): (t: number) => string;
/**
* Returns a `interpolateDate` interpolator.
*/
export function interpolate(a: Date, b: Date): (t: number) => Date;
/**
* Returns a `interpolateNumber` interpolator.
*/
export function interpolate(
a: number | { valueOf(): number },
b: number | { valueOf(): number },
): (t: number) => number;
/**
* Returns a `interpolateNumberArray` interpolator.
*/
export function interpolate<T extends NumberArray>(a: NumberArray | number[], b: T): (t: number) => T;
/**
* Returns a `interpolateString` interpolator. If `b` is a string coercible to a color use use `interpolateRgb`.
*/
export function interpolate(a: string | { toString(): string }, b: string): (t: number) => string;
/**
* Returns a `interpolateArray` interpolator.
*/
export function interpolate<U extends any[]>(a: any[], b: U): (t: number) => U;
/**
* Returns a `interpolateObject` interpolator.
*/
export function interpolate<U extends object>(a: any, b: U): (t: number) => U;
/**
* Returns an interpolator between the two numbers `a` and `b`.
* The returned interpolator is equivalent to: `(t) => a * (1 - t) + b * t`.
*/
export function interpolateNumber(
a: number | { valueOf(): number },
b: number | { valueOf(): number },
): (t: number) => number;
/**
* Returns an interpolator between the two numbers `a` and `b`; the interpolator is similar to `interpolateNumber`,
* except it will round the resulting value to the nearest integer.
*/
export function interpolateRound(
a: number | { valueOf(): number },
b: number | { valueOf(): number },
): (t: number) => number;
/**
* Returns an interpolator between the two strings `a` and `b`.
* The string interpolator finds numbers embedded in `a` and `b`, where each number is of the form understood by JavaScript.
* A few examples of numbers that will be detected within a string: `-1`, `42`, `3.14159`, and `6.0221413e+23`.
*
* For each number embedded in `b`, the interpolator will attempt to find a corresponding number in `a`.
* If a corresponding number is found, a numeric interpolator is created using `interpolateNumber`.
* The remaining parts of the string `b` are used as a template.
*
* For example, if `a` is `"300 12px sans-serif"`, and `b` is `"500 36px Comic-Sans"`, two embedded numbers are found.
* The remaining static parts (of string `b`) are a space between the two numbers (`" "`), and the suffix (`"px Comic-Sans"`).
* The result of the interpolator at `t` = 0.5 is `"400 24px Comic-Sans"`.
*/
export function interpolateString(
a: string | { toString(): string },
b: string | { toString(): string },
): (t: number) => string;
/**
* Returns an interpolator between the two dates `a` and `b`.
*
* Note: *no defensive copy* of the returned date is created; the same Date instance is returned for every evaluation of the interpolator.
* No copy is made for performance reasons; interpolators are often part of the inner loop of animated transitions.
*/
export function interpolateDate(a: Date, b: Date): (t: number) => Date;
export type ArrayInterpolator<A extends any[]> = (t: number) => A;
/**
* Returns an interpolator between the two arrays `a` and `b`. Internally, an array template is created that is the same length in `b`.
* For each element in `b`, if there exists a corresponding element in `a`, a generic interpolator is created for the two elements using `interpolate`.
* If there is no such element, the static value from `b` is used in the template.
* Then, for the given parameter `t`, the templates embedded interpolators are evaluated. The updated array template is then returned.
*
* For example, if `a` is the array `[0, 1]` and `b` is the array `[1, 10, 100]`, then the result of the interpolator for `t = 0.5` is the array `[0.5, 5.5, 100]`.
*
* Note: *no defensive copy* of the template array is created; modifications of the returned array may adversely affect subsequent evaluation of the interpolator.
* No copy is made for performance reasons; interpolators are often part of the inner loop of animated transitions.
*/
export function interpolateArray<A extends any[]>(a: any[], b: A): ArrayInterpolator<A>;
/**
* interpolateNumberArray is called
*/
export function interpolateArray<T extends NumberArray>(a: NumberArray | number[], b: T): (t: number) => T;
/**
* Returns an interpolator between the two arrays of numbers a and b.
* Internally, an array template is created that is the same type and length as b.
* For each element in b, if there exists a corresponding element in a, the values are directly interpolated in the array template.
* If there is no such element, the static value from b is copied.
* The updated array template is then returned.
*
* Note: For performance reasons, no defensive copy is made of the template array and the arguments a and b; modifications of these arrays may affect subsequent evaluation of the interpolator.
*/
export function interpolateNumberArray<T extends NumberArray | number[]>(
a: NumberArray | number[],
b: T,
): (t: number) => T;
/**
* Returns an interpolator between the two objects `a` and `b`. Internally, an object template is created that has the same properties as `b`.
* For each property in `b`, if there exists a corresponding property in `a`, a generic interpolator is created for the two elements using `interpolate`.
* If there is no such property, the static value from `b` is used in the template.
* Then, for the given parameter `t`, the template's embedded interpolators are evaluated and the updated object template is then returned.
*
* For example, if `a` is the object `{x: 0, y: 1}` and `b` is the object `{x: 1, y: 10, z: 100}`, the result of the interpolator for `t = 0.5` is the object `{x: 0.5, y: 5.5, z: 100}`.
*
* Note: *no defensive copy* of the template object is created; modifications of the returned object may adversely affect subsequent evaluation of the interpolator.
* No copy is made for performance reasons; interpolators are often part of the inner loop of animated transitions.
*/
export function interpolateObject<U extends object>(a: any, b: U): (t: number) => U;
/**
* Returns an interpolator between the two 2D CSS transforms represented by `a` and `b`.
* Each transform is decomposed to a standard representation of translate, rotate, *x*-skew and scale; these component transformations are then interpolated.
* This behavior is standardized by CSS: see [matrix decomposition for animation](http://www.w3.org/TR/css3-2d-transforms/#matrix-decomposition).
*/
export function interpolateTransformCss(a: string, b: string): (t: number) => string;
/**
* Returns an interpolator between the two 2D SVG transforms represented by `a` and `b`.
* Each transform is decomposed to a standard representation of translate, rotate, *x*-skew and scale; these component transformations are then interpolated.
* This behavior is standardized by CSS: see [matrix decomposition for animation](http://www.w3.org/TR/css3-2d-transforms/#matrix-decomposition).
*/
export function interpolateTransformSvg(a: string, b: string): (t: number) => string;
/**
* Returns an interpolator between the two views `a` and `b` of a two-dimensional plane,
* based on [“Smooth and efficient zooming and panning”](http://www.win.tue.nl/~vanwijk/zoompan.pdf).
* Each view is defined as an array of three numbers: *cx*, *cy* and *width*.
* The first two coordinates *cx*, *cy* represent the center of the viewport; the last coordinate *width* represents the size of the viewport.
*
* The returned interpolator exposes a *duration* property which encodes the recommended transition duration in milliseconds.
* This duration is based on the path length of the curved trajectory through *x,y* space.
* If you want to a slower or faster transition, multiply this by an arbitrary scale factor (*V* as described in the original paper).
*/
export function interpolateZoom(a: ZoomView, b: ZoomView): ZoomInterpolator;
/**
* Returns a discrete interpolator for the given array of values. The returned interpolator maps `t` in `[0, 1 / n)` to values[0],
* `t` in `[1 / n, 2 / n)` to `values[1]`, and so on, where `n = values.length`. In effect, this is a lightweight quantize scale with a fixed domain of [0, 1].
*/
export function interpolateDiscrete<T>(values: T[]): (t: number) => T;
// Sampling ------------------------------------------------------------------
/**
* Returns `n` uniformly-spaced samples from the specified `interpolator`, where `n` is an integer greater than one.
* The first sample is always at `t = 0`, and the last sample is always at `t = 1`.
* This can be useful in generating a fixed number of samples from a given interpolator,
* such as to derive the range of a [quantize scale](https://github.com/d3/d3-scale#quantize-scales) from a [continuous interpolator](https://github.com/d3/d3-scale#interpolateWarm).
*
* Caution: this method will not work with interpolators that do not return defensive copies of their output,
* such as `d3.interpolateArray`, `d3.interpolateDate` and `d3.interpolateObject`. For those interpolators, you must wrap the interpolator and create a copy for each returned value.
*/
export function quantize<T>(interpolator: (t: number) => T, n: number): T[];
// Color Spaces
/**
* Returns an RGB color space interpolator between the two colors `a` and `b` with a configurable gamma. If the gamma is not specified, it defaults to 1.0.
* The colors `a` and `b` need not be in RGB; they will be converted to RGB using [`d3.rgb`](https://github.com/d3/d3-color#rgb). The return value of the interpolator is an RGB string.
*/
export const interpolateRgb: ColorGammaInterpolationFactory;
/**
* Returns a uniform nonrational B-spline interpolator through the specified array of *colors*, which are converted to RGB color space.
* Implicit control points are generated such that the interpolator returns `colors[0]` at `t = 0` and `colors[colors.length - 1]` at `t = 1`.
* Opacity interpolation is not currently supported. See also `d3.interpolateBasis`, and see [d3-scale-chromatic](https://github.com/d3/d3-scale-chromatic) for examples.
*/
export function interpolateRgbBasis(colors: Array<string | ColorCommonInstance>): (t: number) => string;
/**
* Returns a uniform nonrational B-spline interpolator through the specified array of colors, which are converted to RGB color space.
* The control points are implicitly repeated such that the resulting spline has cyclical C² continuity when repeated around `t` in [0,1];
* this is useful, for example, to create cyclical color scales. Opacity interpolation is not currently supported.
* See also `d3.interpolateBasisClosed, and see [d3-scale-chromatic](https://github.com/d3/d3-scale-chromatic) for examples.
*/
export function interpolateRgbBasisClosed(colors: Array<string | ColorCommonInstance>): (t: number) => string;
/**
* Returns an HSL color space interpolator between the two colors *a* and *b*. The colors *a* and *b* need not be in HSL;
* they will be converted to HSL using `d3.hsl`. If either colors hue or saturation is NaN, the opposing colors channel value is used.
* The shortest path between hues is used. The return value of the interpolator is an RGB string.
*/
export function interpolateHsl(a: string | ColorCommonInstance, b: string | ColorCommonInstance): (t: number) => string;
/**
* Like `interpolateHsl`, but does not use the shortest path between hues.
*/
export function interpolateHslLong(
a: string | ColorCommonInstance,
b: string | ColorCommonInstance,
): (t: number) => string;
/**
* Returns a Lab color space interpolator between the two colors *a* and *b*. The colors *a* and *b* need not be in Lab;
* they will be converted to Lab using `d3.lab`. The return value of the interpolator is an RGB string.
*/
export function interpolateLab(a: string | ColorCommonInstance, b: string | ColorCommonInstance): (t: number) => string;
/**
* Returns an HCL color space interpolator between the two colors `a` and `b`. The colors `a` and `b` need not be in HCL;
* they will be converted to HCL using `d3.hcl`. If either colors hue or chroma is NaN, the opposing colors channel value is used.
* The shortest path between hues is used. The return value of the interpolator is an RGB string.
*/
export function interpolateHcl(a: string | ColorCommonInstance, b: string | ColorCommonInstance): (t: number) => string;
/**
* Like `interpolateHcl`, but does not use the shortest path between hues.
*/
export function interpolateHclLong(
a: string | ColorCommonInstance,
b: string | ColorCommonInstance,
): (t: number) => string;
/**
* Returns a Cubehelix color space interpolator between the two colors `a` and `b` using a configurable `gamma`.
* If the gamma is not specified, it defaults to 1.0. The colors `a` and `b` need not be in Cubehelix;
* they will be converted to Cubehelix using [`d3.cubehelix`](https://github.com/d3/d3-color#cubehelix).
* If either colors hue or saturation is NaN, the opposing colors channel value is used. The shortest path between hues is used. The return value of the interpolator is an RGB string.
*/
export const interpolateCubehelix: ColorGammaInterpolationFactory;
/**
* Like `interpolateCubehelix`, but does not use the shortest path between hues.
*/
export const interpolateCubehelixLong: ColorGammaInterpolationFactory;
/**
* Returns an interpolator between the two hue angles `a` and `b`. If either hue is NaN, the opposing value is used.
* The shortest path between hues is used. The return value of the interpolator is a number in `[0, 360)`.
*/
export function interpolateHue(a: number, b: number): (t: number) => number;
// Splines -------------------------------------------------------------------
/**
* Returns a uniform nonrational B-spline interpolator through the specified array of `values`, which must be numbers.
* Implicit control points are generated such that the interpolator returns `values[0]` at `t` = 0 and `values[values.length - 1]` at `t` = 1.
* See also [`d3.curveBasis`](https://github.com/d3/d3-shape#curveBasis).
*/
export function interpolateBasis(splineNodes: number[]): (t: number) => number;
/**
* Returns a uniform nonrational B-spline interpolator through the specified array of `values`, which must be numbers.
* The control points are implicitly repeated such that the resulting one-dimensional spline has cyclical C² continuity when repeated around `t` in [0,1].
* See also [`d3.curveBasisClosed`](https://github.com/d3/d3-shape#curveBasisClosed).
*/
export function interpolateBasisClosed(splineNodes: number[]): (t: number) => number;
// Piecewise -----------------------------------------------------------------
/**
* Returns a piecewise zoom interpolator, composing zoom interpolators for each adjacent pair of zoom view.
* The returned interpolator maps `t` in `[0, 1 / (n - 1)]` to `interpolate(values[0], values[1])`, `t` in `[1 / (n - 1), 2 / (n - 1)]` to `interpolate(values[1], values[2])`,
* and so on, where `n = values.length`. In effect, this is a lightweight linear scale.
* For example, to blend through three different zoom views: `d3.piecewise(d3.interpolateZoom, [[0, 0, 1], [0, 0, 10], [0, 0, 15]])`.
*
* interpolate defaults to d3.interpolate.
*/
export function piecewise(values: ZoomView[]): ZoomInterpolator;
/**
* Returns a piecewise zoom interpolator, composing zoom interpolators for each adjacent pair of zoom view.
* The returned interpolator maps `t` in `[0, 1 / (n - 1)]` to `interpolate(values[0], values[1])`, `t` in `[1 / (n - 1), 2 / (n - 1)]` to `interpolate(values[1], values[2])`,
* and so on, where `n = values.length`. In effect, this is a lightweight linear scale.
* For example, to blend through three different zoom views: `d3.piecewise(d3.interpolateZoom, [[0, 0, 1], [0, 0, 10], [0, 0, 15]])`.
*/
export function piecewise(
interpolate: (a: ZoomView, b: ZoomView) => ZoomInterpolator,
values: ZoomView[],
): ZoomInterpolator;
/**
* Returns a piecewise array interpolator, composing array interpolators for each adjacent pair of arrays.
* The returned interpolator maps `t` in `[0, 1 / (n - 1)]` to `interpolate(values[0], values[1])`, `t` in `[1 / (n - 1), 2 / (n - 1)]` to `interpolate(values[1], values[2])`,
* and so on, where `n = values.length`. In effect, this is a lightweight linear scale.
* For example, to blend through three different arrays: `d3.piecewise(d3.interpolateArray, [[0, 0, 1], [0, 0, 10], [0, 0, 15]])`.
*
* interpolate defaults to d3.interpolate.
*/
export function piecewise<A extends any[]>(values: A[]): ArrayInterpolator<A>;
/**
* Returns a piecewise array interpolator, composing array interpolators for each adjacent pair of arrays.
* The returned interpolator maps `t` in `[0, 1 / (n - 1)]` to `interpolate(values[0], values[1])`, `t` in `[1 / (n - 1), 2 / (n - 1)]` to `interpolate(values[1], values[2])`,
* and so on, where `n = values.length`. In effect, this is a lightweight linear scale.
* For example, to blend through three different arrays: `d3.piecewise(d3.interpolateArray, [[0, 0, 1], [0, 0, 10], [0, 0, 15]])`.
*/
export function piecewise<A extends any[]>(
interpolate: (a: any[], b: A) => ArrayInterpolator<A>,
values: A[],
): ArrayInterpolator<A>;
/**
* Returns a piecewise interpolator, composing interpolators for each adjacent pair of values.
* The returned interpolator maps `t` in `[0, 1 / (n - 1)]` to `interpolate(values[0], values[1])`, `t` in `[1 / (n - 1), 2 / (n - 1)]` to `interpolate(values[1], values[2])`,
* and so on, where `n = values.length`. In effect, this is a lightweight linear scale.
* For example, to blend through red, green and blue: `d3.piecewise(d3.interpolateRgb.gamma(2.2), ["red", "green", "blue"])`.
*
* interpolate defaults to d3.interpolate.
*/
export function piecewise(values: unknown[]): (t: number) => any;
/**
* Returns a piecewise interpolator, composing interpolators for each adjacent pair of values.
* The returned interpolator maps `t` in `[0, 1 / (n - 1)]` to `interpolate(values[0], values[1])`, `t` in `[1 / (n - 1), 2 / (n - 1)]` to `interpolate(values[1], values[2])`,
* and so on, where `n = values.length`. In effect, this is a lightweight linear scale.
* For example, to blend through red, green and blue: `d3.piecewise(d3.interpolateRgb.gamma(2.2), ["red", "green", "blue"])`.
*/
export function piecewise<TData>(interpolate: (a: TData, b: TData) => unknown, values: TData[]): (t: number) => any;

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{
"name": "@types/d3-interpolate",
"version": "3.0.4",
"description": "TypeScript definitions for d3-interpolate",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-interpolate",
"license": "MIT",
"contributors": [
{
"name": "Tom Wanzek",
"githubUsername": "tomwanzek",
"url": "https://github.com/tomwanzek"
},
{
"name": "Alex Ford",
"githubUsername": "gustavderdrache",
"url": "https://github.com/gustavderdrache"
},
{
"name": "Boris Yankov",
"githubUsername": "borisyankov",
"url": "https://github.com/borisyankov"
},
{
"name": "denisname",
"githubUsername": "denisname",
"url": "https://github.com/denisname"
},
{
"name": "Nathan Bierema",
"githubUsername": "Methuselah96",
"url": "https://github.com/Methuselah96"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/d3-interpolate"
},
"scripts": {},
"dependencies": {
"@types/d3-color": "*"
},
"typesPublisherContentHash": "d315fc677144695b44f1447ef7429c9ff248886716c2e9f742d031abcb319115",
"typeScriptVersion": "4.5"
}

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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
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# Installation
> `npm install --save @types/d3-path`
# Summary
This package contains type definitions for d3-path (https://github.com/d3/d3-path/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-path.
### Additional Details
* Last updated: Wed, 07 Feb 2024 18:07:36 GMT
* Dependencies: none
# Credits
These definitions were written by [Tom Wanzek](https://github.com/tomwanzek), [Alex Ford](https://github.com/gustavderdrache), [Boris Yankov](https://github.com/borisyankov), and [Nathan Bierema](https://github.com/Methuselah96).

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// Last module patch version validated against: 3.1.0
/**
* A D3 path serializer implementing CanvasPathMethods
*/
export interface Path {
/**
* Move to the specified point ⟨x, y⟩. Equivalent to context.moveTo and SVGs “moveto” command.
*
* @param x x-Coordinate of point to move to
* @param y y-Coordinate of point to move to
*/
moveTo(x: number, y: number): void;
/**
* Ends the current subpath and causes an automatic straight line to be drawn from the current point to the initial point of the current subpath.
* Equivalent to context.closePath and SVGs “closepath” command.
*/
closePath(): void;
/**
* Draws a straight line from the current point to the specified point ⟨x, y⟩.
* Equivalent to context.lineTo and SVGs “lineto” command.
*
* @param x x-Coordinate of point to draw the line to
* @param y y-Coordinate of point to draw the line to
*/
lineTo(x: number, y: number): void;
/**
* Draws a quadratic Bézier segment from the current point to the specified point ⟨x, y⟩, with the specified control point ⟨cpx, cpy⟩.
* Equivalent to context.quadraticCurveTo and SVGs quadratic Bézier curve commands.
*
* @param cpx x-Coordinate of the control point for the quadratic Bézier curve
* @param cpy y-Coordinate of the control point for the quadratic Bézier curve
* @param x x-Coordinate of point to draw the curve to
* @param y y-Coordinate of point to draw the curve to
*/
quadraticCurveTo(cpx: number, cpy: number, x: number, y: number): void;
/**
* Draws a cubic Bézier segment from the current point to the specified point ⟨x, y⟩, with the specified control points ⟨cpx1, cpy1⟩ and ⟨cpx2, cpy2⟩.
* Equivalent to context.bezierCurveTo and SVGs cubic Bézier curve commands.
*
* @param cpx1 x-Coordinate of the first control point for the Bézier curve
* @param cpy1 y-Coordinate of the first control point for the Bézier curve
* @param cpx2 x-Coordinate of the second control point for the Bézier curve
* @param cpy2 y-Coordinate of the second control point for the Bézier curve
* @param x x-Coordinate of point to draw the curve to
* @param y y-Coordinate of point to draw the curve to
*/
bezierCurveTo(cpx1: number, cpy1: number, cpx2: number, cpy2: number, x: number, y: number): void;
/**
* Draws a circular arc segment with the specified radius that starts tangent to the line between the current point and the specified point ⟨x1, y1⟩
* and ends tangent to the line between the specified points ⟨x1, y1⟩ and ⟨x2, y2⟩. If the first tangent point is not equal to the current point,
* a straight line is drawn between the current point and the first tangent point. Equivalent to context.arcTo and uses SVGs elliptical arc curve commands.
*
* @param x1 x-Coordinate of the first tangent point
* @param y1 y-Coordinate of the first tangent point
* @param x2 x-Coordinate of the second tangent point
* @param y2 y-Coordinate of the second tangent point
* @param r Radius of the arc segment
*/
arcTo(x1: number, y1: number, x2: number, y2: number, radius: number): void;
/**
* Draws a circular arc segment with the specified center ⟨x, y⟩, radius, startAngle and endAngle. If anticlockwise is true,
* the arc is drawn in the anticlockwise direction; otherwise, it is drawn in the clockwise direction.
* If the current point is not equal to the starting point of the arc, a straight line is drawn from the current point to the start of the arc.
* Equivalent to context.arc and uses SVGs elliptical arc curve commands.
*
* @param x x-Coordinate of the center point of the arc segment
* @param y y-Coordinate of the center point of the arc segment
* @param startAngle Start angle of arc segment
* @param endAngle End angle of arc segment
* @param anticlockwise Flag indicating directionality (true = anti-clockwise, false = clockwise)
*/
arc(x: number, y: number, radius: number, startAngle: number, endAngle: number, anticlockwise?: boolean): void;
/**
* Creates a new subpath containing just the four points ⟨x, y⟩, ⟨x + w, y⟩, ⟨x + w, y + h⟩, ⟨x, y + h⟩,
* with those four points connected by straight lines, and then marks the subpath as closed. Equivalent to context.rect and uses SVGs “lineto” commands.
*
* @param x x-Coordinate of starting point for drawing the rectangle
* @param y y-Coordinate of starting point for drawing the rectangle
* @param w Width of rectangle
* @param h Height of rectangle
*/
rect(x: number, y: number, w: number, h: number): void;
/**
* Returns the string representation of this path according to SVGs path data specification.
*/
toString(): string;
}
/**
* Construct a D3 Path serializer
*/
export function path(): Path;
/**
* Like {@link path}, except limits the digits after the decimal to the specified number of digits.
* Useful for reducing the size of generated SVG path data.
*/
export function pathRound(digits?: number): Path;

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{
"name": "@types/d3-path",
"version": "3.1.0",
"description": "TypeScript definitions for d3-path",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-path",
"license": "MIT",
"contributors": [
{
"name": "Tom Wanzek",
"githubUsername": "tomwanzek",
"url": "https://github.com/tomwanzek"
},
{
"name": "Alex Ford",
"githubUsername": "gustavderdrache",
"url": "https://github.com/gustavderdrache"
},
{
"name": "Boris Yankov",
"githubUsername": "borisyankov",
"url": "https://github.com/borisyankov"
},
{
"name": "Nathan Bierema",
"githubUsername": "Methuselah96",
"url": "https://github.com/Methuselah96"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/d3-path"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "cc456421f831e8c7ca2f1fcb6ccf69ab407b9e48cc962833feed68539f5d8099",
"typeScriptVersion": "4.6"
}

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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

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# Installation
> `npm install --save @types/d3-scale`
# Summary
This package contains type definitions for d3-scale (https://github.com/d3/d3-scale/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-scale.
### Additional Details
* Last updated: Tue, 07 Nov 2023 15:11:37 GMT
* Dependencies: [@types/d3-time](https://npmjs.com/package/@types/d3-time)
# Credits
These definitions were written by [Tom Wanzek](https://github.com/tomwanzek), [Alex Ford](https://github.com/gustavderdrache), [Boris Yankov](https://github.com/borisyankov), [denisname](https://github.com/denisname), [rulonder](https://github.com/rulonder), and [Nathan Bierema](https://github.com/Methuselah96).

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node_modules/@types/d3-scale/package.json generated vendored Normal file
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{
"name": "@types/d3-scale",
"version": "4.0.8",
"description": "TypeScript definitions for d3-scale",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-scale",
"license": "MIT",
"contributors": [
{
"name": "Tom Wanzek",
"githubUsername": "tomwanzek",
"url": "https://github.com/tomwanzek"
},
{
"name": "Alex Ford",
"githubUsername": "gustavderdrache",
"url": "https://github.com/gustavderdrache"
},
{
"name": "Boris Yankov",
"githubUsername": "borisyankov",
"url": "https://github.com/borisyankov"
},
{
"name": "denisname",
"githubUsername": "denisname",
"url": "https://github.com/denisname"
},
{
"name": "rulonder",
"githubUsername": "rulonder",
"url": "https://github.com/rulonder"
},
{
"name": "Nathan Bierema",
"githubUsername": "Methuselah96",
"url": "https://github.com/Methuselah96"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/d3-scale"
},
"scripts": {},
"dependencies": {
"@types/d3-time": "*"
},
"typesPublisherContentHash": "d011a6aa109574819bfac8622eeec1dd82871341c6ab8945703ee10ef27013cc",
"typeScriptVersion": "4.5"
}

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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

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# Installation
> `npm install --save @types/d3-shape`
# Summary
This package contains type definitions for d3-shape (https://github.com/d3/d3-shape/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-shape.
### Additional Details
* Last updated: Mon, 20 Nov 2023 23:36:24 GMT
* Dependencies: [@types/d3-path](https://npmjs.com/package/@types/d3-path)
# Credits
These definitions were written by [Tom Wanzek](https://github.com/tomwanzek), [Alex Ford](https://github.com/gustavderdrache), [Boris Yankov](https://github.com/borisyankov), [denisname](https://github.com/denisname), [Nathan Bierema](https://github.com/Methuselah96), and [Fil](https://github.com/Fil).

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{
"name": "@types/d3-shape",
"version": "3.1.6",
"description": "TypeScript definitions for d3-shape",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-shape",
"license": "MIT",
"contributors": [
{
"name": "Tom Wanzek",
"githubUsername": "tomwanzek",
"url": "https://github.com/tomwanzek"
},
{
"name": "Alex Ford",
"githubUsername": "gustavderdrache",
"url": "https://github.com/gustavderdrache"
},
{
"name": "Boris Yankov",
"githubUsername": "borisyankov",
"url": "https://github.com/borisyankov"
},
{
"name": "denisname",
"githubUsername": "denisname",
"url": "https://github.com/denisname"
},
{
"name": "Nathan Bierema",
"githubUsername": "Methuselah96",
"url": "https://github.com/Methuselah96"
},
{
"name": "Fil",
"githubUsername": "Fil",
"url": "https://github.com/Fil"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/d3-shape"
},
"scripts": {},
"dependencies": {
"@types/d3-path": "*"
},
"typesPublisherContentHash": "4aad0e2be93cb4cd6d504f63aaf9eac0fc2d55c130084c39371f93dc8fa80520",
"typeScriptVersion": "4.5"
}

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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

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# Installation
> `npm install --save @types/d3-time`
# Summary
This package contains type definitions for d3-time (https://github.com/d3/d3-time/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-time.
### Additional Details
* Last updated: Tue, 07 Nov 2023 15:11:37 GMT
* Dependencies: none
# Credits
These definitions were written by [Tom Wanzek](https://github.com/tomwanzek), [Alex Ford](https://github.com/gustavderdrache), [Boris Yankov](https://github.com/borisyankov), [denisname](https://github.com/denisname), and [Nathan Bierema](https://github.com/Methuselah96).

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// Last module patch version validated against: 3.0.0
// ---------------------------------------------------------------
// Interfaces
// ---------------------------------------------------------------
/**
* A D3 Time Interval
*/
export interface TimeInterval {
/**
* Returns a new date representing the latest interval boundary date before or equal to date.
* Equivalent to interval.floor, except it date is not specified, it defaults to the current time.
* For example, d3.timeYear(date) and d3.timeYear.floor(date) are equivalent.
*
* For example, timeDay(date) typically returns 12:00 AM local time on the given date.
*
* This function is idempotent: if the specified date is already floored to the current interval,
* a new date with an identical time is returned.
* Furthermore, the returned date is the minimum expressible value of the associated interval,
* such that interval.floor(interval.floor(date) - 1) returns the preceding interval boundary date.
*
* Note that the == and === operators do not compare by value with Date objects,
* and thus you cannot use them to tell whether the specified date has already been floored.
* Instead, coerce to a number and then compare.
*
* This is more reliable than testing whether the time is 12:00 AM, as in some time zones midnight may not exist due to daylight saving.
*
* @param date A date object.
*/
(date?: Date): Date;
/**
* Returns a new date representing the latest interval boundary date before or equal to date.
*
* For example, timeDay.floor(date) typically returns 12:00 AM local time on the given date.
*
* This method is idempotent: if the specified date is already floored to the current interval,
* a new date with an identical time is returned.
* Furthermore, the returned date is the minimum expressible value of the associated interval,
* such that interval.floor(interval.floor(date) - 1) returns the preceding interval boundary date.
*
* Note that the == and === operators do not compare by value with Date objects,
* and thus you cannot use them to tell whether the specified date has already been floored.
* Instead, coerce to a number and then compare.
*
* This is more reliable than testing whether the time is 12:00 AM, as in some time zones midnight may not exist due to daylight saving.
*
* @param date A date object.
*/
floor(date: Date): Date;
/**
* Returns a new date representing the closest interval boundary date to date.
*
* For example, timeDay.round(date) typically returns 12:00 AM local time on the given date if it is on or before noon,
* and 12:00 AM of the following day if it is after noon.
*
* This method is idempotent: if the specified date is already rounded to the current interval, a new date with an identical time is returned.
*
* @param date A date object.
*/
round(date: Date): Date;
/**
* Returns a new date representing the earliest interval boundary date after or equal to date.
*
* For example, timeDay.ceil(date) typically returns 12:00 AM local time on the date following the given date.
*
* This method is idempotent: if the specified date is already ceilinged to the current interval,
* a new date with an identical time is returned. Furthermore,
* the returned date is the maximum expressible value of the associated interval,
* such that interval.ceil(interval.ceil(date) + 1) returns the following interval boundary date.
*
* @param date A date object.
*/
ceil(date: Date): Date;
/**
* Returns a new date equal to date plus step intervals.
*
* If step is not specified it defaults to 1.
*
* This method does not round the specified date to the interval. For example, if date is today at 5:34 PM,
* then timeDay.offset(date, 1) returns 5:34 PM tomorrow (even if daylight saving changes!).
*
* @param date A date object.
* @param step An optional number of steps to apply when calculating the offset date.
* If step is negative, then the returned date will be before the specified date;
* if step is zero, then a copy of the specified date is returned; if step is not an integer, it is floored.
*/
offset(date: Date, step?: number): Date;
/**
* Returns an array of dates representing every interval boundary after or equal to start (inclusive) and before stop (exclusive).
*
* If step is specified, then every step-th boundary will be returned; for example,
* for the timeDay interval a step of 2 will return every other day.
* If step is not an integer, it is floored.
*
* The first date in the returned array is the earliest boundary after or equal to start;
* subsequent dates are offset by step intervals and floored.
* Thus, two overlapping ranges may be inconsistent.
*
* To make ranges consistent when a step is specified, use CountableInterval.every instead.
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
range(start: Date, stop: Date, step?: number): Date[];
/**
* Returns a new interval that is a filtered subset of this interval using the specified test function.
*
* @param test A test function which is passed a date and should return true if and only if
* the specified date should be considered part of the interval.
*/
filter(test: (date: Date) => boolean): TimeInterval;
}
/**
* A D3 Countable Time Interval
*/
export interface CountableTimeInterval extends TimeInterval {
/**
* Returns the number of interval boundaries after start (exclusive) and before or equal to end (inclusive).
*
* Note that this behavior is slightly different than interval.range,
* because its purpose is to return the zero-based number of the specified end date relative to the specified start date.
*
* @param start A start date object.
* @param end An end date object.
*/
count(start: Date, end: Date): number;
/**
* Returns a filtered view of this interval representing every stepth date.
*
* The meaning of step is dependent on this intervals parent interval as defined by the field function.
*
* For example, timeMinute.every(15) returns an interval representing every fifteen minutes,
* starting on the hour: :00, :15, :30, :45, etc. Note that for some intervals,
* the resulting dates may not be uniformly-spaced;
* timeDays parent interval is timeMonth, and thus the interval number resets at the start of each month.
*
* If step is not valid, returns null. If step is one, returns this interval.
*
* This method can be used in conjunction with interval.range to ensure that two overlapping ranges are consistent.
*
* The returned filtered interval does not support interval.count. See also interval.filter.
*
* @param step Number of steps.
*/
every(step: number): TimeInterval | null;
}
// ---------------------------------------------------------------
// Custom (Countable)Interval Factories
// ---------------------------------------------------------------
/**
* Constructs a new custom interval given the specified floor and offset functions.
*
* The returned custom interval is not countable, i.e. does not expose the methods "count(..)" and "every(...)".
*
* @param floor A floor function which takes a single date as an argument and rounds it down to the nearest interval boundary.
* @param offset An offset function which takes a date and an integer step as arguments and advances
* the specified date by the specified number of boundaries; the step may be positive, negative or zero.
*/
export function timeInterval(
floor: (date: Date) => void,
offset: (date: Date, step: number) => void,
): TimeInterval;
/**
* Constructs a new custom interval given the specified floor, offset and count functions.
*
* The returned custom interval is countable and exposes the methods "count(..)" and "every(...)".
*
* Note: due to an internal optimization, the specified count function must not invoke interval.count on other time intervals.
*
* @param floor A floor function which takes a single date as an argument and rounds it down to the nearest interval boundary.
* @param offset An offset function which takes a date and an integer step as arguments and advances
* the specified date by the specified number of boundaries; the step may be positive, negative or zero.
* @param count A count function which takes a start date and an end date, already floored to the current interval,
* and returns the number of boundaries between the start (exclusive) and end (inclusive).
* Note: due to an internal optimization, the specified count function must not invoke interval.count on other time intervals.
* @param field An optional field function which takes a date, already floored to the current interval,
* and returns the field value of the specified date,
* corresponding to the number of boundaries between this date (exclusive) and the latest previous parent boundary.
* For example, for the timeDay interval, this returns the number of days since the start of the month.
* If a field function is not specified, it defaults to counting the number of interval boundaries since
* the UNIX epoch of January 1, 1970 UTC. The field function defines the behavior of interval.every.
*/
export function timeInterval(
floor: (date: Date) => void,
offset: (date: Date, step: number) => void,
count: (start: Date, end: Date) => number,
field?: (date: Date) => number,
): CountableTimeInterval;
// ---------------------------------------------------------------
// Built-In Factories and Date Array Creators
// ---------------------------------------------------------------
// local time ----------------------------------------------------------
/**
* Milliseconds Interval in Local Time; the shortest available time unit.
*/
export const timeMillisecond: CountableTimeInterval;
/**
* This is a convenience alias for timeMillisecond.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeMilliseconds(start: Date, stop: Date, step?: number): Date[];
/**
* Seconds Interval in Local Time; seconds (e.g., 01:23:45.0000 AM); 1,000 milliseconds.
*/
export const timeSecond: CountableTimeInterval;
/**
* This is a convenience alias for timeSecond.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeSeconds(start: Date, stop: Date, step?: number): Date[];
/**
* Minutes Interval in Local Time; minutes (e.g., 01:02:00 AM); 60 seconds. Note that ECMAScript ignores leap seconds.
*/
export const timeMinute: CountableTimeInterval;
/**
* This is a convenience alias for timeMinute.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeMinutes(start: Date, stop: Date, step?: number): Date[];
/**
* Hours Interval in Local Time; Hours (e.g., 01:00 AM); 60 minutes.
*
* Note that advancing time by one hour in local time can return the same hour or skip an hour due to daylight saving.
*/
export const timeHour: CountableTimeInterval;
/**
* This is a convenience alias for timeHour.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeHours(start: Date, stop: Date, step?: number): Date[];
/**
* Days Interval in Local Time; days (e.g., February 7, 2012 at 12:00 AM); typically 24 hours.
* Days in local time may range from 23 to 25 hours due to daylight saving.
*/
export const timeDay: CountableTimeInterval;
/**
* This is a convenience alias for timeDay.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeDays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval in Local Time. Alias for sunday; 7 days and typically 168 hours.
*
* Weeks in local time may range from 167 to 169 hours due on daylight saving.
*/
export const timeWeek: CountableTimeInterval;
/**
* This is a convenience alias for timeWeek.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeWeeks(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Sunday-based weeks in Local Time (e.g., February 5, 2012 at 12:00 AM).
* 7 days and typically 168 hours.
*
* Weeks in local time may range from 167 to 169 hours due on daylight saving.
*/
export const timeSunday: CountableTimeInterval;
/**
* This is a convenience alias for timeSunday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeSundays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Monday-based weeks in Local Time (e.g., February 6, 2012 at 12:00 AM).
* 7 days and typically 168 hours.
*
* Weeks in local time may range from 167 to 169 hours due on daylight saving.
*/
export const timeMonday: CountableTimeInterval;
/**
* This is a convenience alias for timeMonday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeMondays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Tuesday-based weeks in Local Time (e.g., February 7, 2012 at 12:00 AM).
* 7 days and typically 168 hours.
*
* Weeks in local time may range from 167 to 169 hours due on daylight saving.
*/
export const timeTuesday: CountableTimeInterval;
/**
* This is a convenience alias for timeTuesday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeTuesdays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Wednesday-based weeks in Local Time (e.g., February 8, 2012 at 12:00 AM).
* 7 days and typically 168 hours.
*
* Weeks in local time may range from 167 to 169 hours due on daylight saving.
*/
export const timeWednesday: CountableTimeInterval;
/**
* This is a convenience alias for timeWednesday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeWednesdays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Thursday-based weeks in Local Time (e.g., February 9, 2012 at 12:00 AM).
* 7 days and typically 168 hours.
*
* Weeks in local time may range from 167 to 169 hours due on daylight saving.
*/
export const timeThursday: CountableTimeInterval;
/**
* This is a convenience alias for timeThursday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeThursdays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Friday-based weeks in Local Time (e.g., February 10, 2012 at 12:00 AM).
* 7 days and typically 168 hours.
*
* Weeks in local time may range from 167 to 169 hours due on daylight saving.
*/
export const timeFriday: CountableTimeInterval;
/**
* This is a convenience alias for timeFriday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeFridays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Saturday-based weeks in Local Time (e.g., February 11, 2012 at 12:00 AM).
* 7 days and typically 168 hours.
*
* Weeks in local time may range from 167 to 169 hours due on daylight saving.
*/
export const timeSaturday: CountableTimeInterval;
/**
* This is a convenience alias for timeSaturday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeSaturdays(start: Date, stop: Date, step?: number): Date[];
/**
* Month Interval in Local Time; months (e.g., February 1, 2012 at 12:00 AM); ranges from 28 to 31 days.
*/
export const timeMonth: CountableTimeInterval;
/**
* This is a convenience alias for timeMonth.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeMonths(start: Date, stop: Date, step?: number): Date[];
/**
* Year Interval in Local Time; years (e.g., January 1, 2012 at 12:00 AM); ranges from 365 to 366 days.
*/
export const timeYear: CountableTimeInterval;
/**
* This is a convenience alias for timeYear.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function timeYears(start: Date, stop: Date, step?: number): Date[];
// utc Coordinated Universal Time ----------------------------------------------------------
/**
* Milliseconds Interval in Coordinated Universal Time (UTC); the shortest available time unit.
*/
export const utcMillisecond: CountableTimeInterval;
/**
* This is a convenience alias for utcMillisecond.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcMilliseconds(start: Date, stop: Date, step?: number): Date[];
/**
* Seconds Interval in Coordinated Universal Time (UTC); seconds (e.g., 01:23:45.0000 AM); 1,000 milliseconds.
*/
export const utcSecond: CountableTimeInterval;
/**
* This is a convenience alias for utcSecond.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcSeconds(start: Date, stop: Date, step?: number): Date[];
/**
* Minutes Interval in Coordinated Universal Time (UTC); minutes (e.g., 01:02:00 AM); 60 seconds.
* Note that ECMAScript ignores leap seconds.
*/
export const utcMinute: CountableTimeInterval;
/**
* This is a convenience alias for utcMinute.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcMinutes(start: Date, stop: Date, step?: number): Date[];
/**
* Hours Interval in Coordinated Universal Time (UTC); Hours (e.g., 01:00 AM); 60 minutes.
*/
export const utcHour: CountableTimeInterval;
/**
* This is a convenience alias for utcHour.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcHours(start: Date, stop: Date, step?: number): Date[];
/**
* Days Interval in Coordinated Universal Time (UTC); days (e.g., February 7, 2012 at 12:00 AM); 24 hours.
*/
export const utcDay: CountableTimeInterval;
/**
* This is a convenience alias for utcDay.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcDays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval in Local Time. Alias for sunday; 7 days and 168 hours.
*/
export const utcWeek: CountableTimeInterval;
/**
* This is a convenience alias for utcWeek.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcWeeks(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Sunday-based weeks in Coordinated Universal Time (UTC) (e.g., February 5, 2012 at 12:00 AM).
* 7 days and 168 hours.
*/
export const utcSunday: CountableTimeInterval;
/**
* This is a convenience alias for utcSunday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcSundays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Monday-based weeks in Coordinated Universal Time (UTC) (e.g., February 6, 2012 at 12:00 AM).
* 7 days and 168 hours.
*/
export const utcMonday: CountableTimeInterval;
/**
* This is a convenience alias for utcMonday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcMondays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Tuesday-based weeks in Coordinated Universal Time (UTC) (e.g., February 7, 2012 at 12:00 AM).
* 7 days and 168 hours.
*/
export const utcTuesday: CountableTimeInterval;
/**
* This is a convenience alias for utcTuesday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcTuesdays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Wednesday-based weeks in Coordinated Universal Time (UTC) (e.g., February 8, 2012 at 12:00 AM).
* 7 days and 168 hours.
*/
export const utcWednesday: CountableTimeInterval;
/**
* This is a convenience alias for utcWednesday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcWednesdays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Thursday-based weeks in Coordinated Universal Time (UTC) (e.g., February 9, 2012 at 12:00 AM).
* 7 days and 168 hours.
*/
export const utcThursday: CountableTimeInterval;
/**
* This is a convenience alias for utcThursday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcThursdays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Friday-based weeks in Coordinated Universal Time (UTC) (e.g., February 10, 2012 at 12:00 AM).
* 7 days and 168 hours.
*/
export const utcFriday: CountableTimeInterval;
/**
* This is a convenience alias for utcFriday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcFridays(start: Date, stop: Date, step?: number): Date[];
/**
* Week Interval for Saturday-based weeks in Coordinated Universal Time (UTC) (e.g., February 11, 2012 at 12:00 AM).
* 7 days and 168 hours.
*/
export const utcSaturday: CountableTimeInterval;
/**
* This is a convenience alias for utcSaturday.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcSaturdays(start: Date, stop: Date, step?: number): Date[];
/**
* Month Interval in Coordinated Universal Time (UTC); months (e.g., February 1, 2012 at 12:00 AM); ranges from 28 to 31 days.
*/
export const utcMonth: CountableTimeInterval;
/**
* This is a convenience alias for utcMonth.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcMonths(start: Date, stop: Date, step?: number): Date[];
/**
* Year Interval in Coordinated Universal Time (UTC); years (e.g., January 1, 2012 at 12:00 AM); ranges from 365 to 366 days.
*/
export const utcYear: CountableTimeInterval;
/**
* This is a convenience alias for utcYear.range(...).
*
* @param start A start date object for the range.
* @param stop A stop date object for the range.
* @param step An optional number of steps to apply when calculating the dates in the range.
*/
export function utcYears(start: Date, stop: Date, step?: number): Date[];
/**
* Equivalent to d3.utcTicks, but in local time.
*/
export function timeTicks(start: Date, stop: Date, count: number): Date[];
/**
* Returns the time interval that would be used by d3.timeTicks given the same arguments.
*/
export function timeTickInterval(start: Date, stop: Date, count: number): TimeInterval | null;
/**
* Returns an array of approximately count dates at regular intervals between start and stop (inclusive).
* If stop is before start, dates are returned in reverse chronological order; otherwise dates are returned in chronological order.
*/
export function utcTicks(start: Date, stop: Date, count: number): Date[];
/**
* Returns the time interval that would be used by d3.utcTicks given the same arguments.
* If there is no associated interval, such as when start or stop is invalid, returns null.
*/
export function utcTickInterval(start: Date, stop: Date, count: number): TimeInterval | null;

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{
"name": "@types/d3-time",
"version": "3.0.3",
"description": "TypeScript definitions for d3-time",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-time",
"license": "MIT",
"contributors": [
{
"name": "Tom Wanzek",
"githubUsername": "tomwanzek",
"url": "https://github.com/tomwanzek"
},
{
"name": "Alex Ford",
"githubUsername": "gustavderdrache",
"url": "https://github.com/gustavderdrache"
},
{
"name": "Boris Yankov",
"githubUsername": "borisyankov",
"url": "https://github.com/borisyankov"
},
{
"name": "denisname",
"githubUsername": "denisname",
"url": "https://github.com/denisname"
},
{
"name": "Nathan Bierema",
"githubUsername": "Methuselah96",
"url": "https://github.com/Methuselah96"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/d3-time"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "ab477b0625f6f9bfbf98fdbdd6d7d30d9b1e2fb1f9be4fc7d3dc0af65f198ba2",
"typeScriptVersion": "4.5"
}

21
node_modules/@types/d3-timer/LICENSE generated vendored Normal file
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@@ -0,0 +1,21 @@
MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
node_modules/@types/d3-timer/README.md generated vendored Normal file
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# Installation
> `npm install --save @types/d3-timer`
# Summary
This package contains type definitions for d3-timer (https://github.com/d3/d3-timer/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-timer.
### Additional Details
* Last updated: Tue, 07 Nov 2023 15:11:37 GMT
* Dependencies: none
# Credits
These definitions were written by [Tom Wanzek](https://github.com/tomwanzek), [Alex Ford](https://github.com/gustavderdrache), [Boris Yankov](https://github.com/borisyankov), [denisname](https://github.com/denisname), and [Nathan Bierema](https://github.com/Methuselah96).

68
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// Last module patch version validated against: 3.0.1
/**
* Returns the current time as defined by performance.now if available, and Date.now if not.
* The current time is updated at the start of a frame; it is thus consistent during the frame, and any timers scheduled during the same frame will be synchronized.
* If this method is called outside of a frame, such as in response to a user event, the current time is calculated and then fixed until the next frame,
* again ensuring consistent timing during event handling.
*/
export function now(): number;
export interface Timer {
/**
* Restart a timer with the specified callback and optional delay and time.
* This is equivalent to stopping this timer and creating a new timer with the specified arguments,
* although this timer retains the original invocation priority.
*
* @param callback A callback function to be invoked and passed in the apparent
* elapsed time since the timer became active in milliseconds.
* @param delay An optional numeric delay in milliseconds (default = 0) relative to time.
* @param time An optional time in milliseconds relative to which the delay is calculated (default = now).
*/
restart(callbackFn: (elapsed: number) => void, delay?: number, time?: number): void;
/**
* Stop the timer.
*/
stop(): void;
}
/**
* Schedules and returns a new timer, invoking the specified callback repeatedly until the timer is stopped.
* The callback is passed the (apparent) elapsed time since the timer became active.
*
* @param callback A callback function to be invoked and passed in the apparent
* elapsed time since the timer became active in milliseconds.
* @param delay An optional numeric delay in milliseconds (default = 0) relative to time.
* @param time An optional time in milliseconds relative to which the delay is calculated (default = now).
*/
export function timer(callback: (elapsed: number) => void, delay?: number, time?: number): Timer;
/**
* Immediately invoke any eligible timer callbacks.
*/
export function timerFlush(): void;
/**
* Schedules and returns a new timer, invoking the specified callback. The timer is stopped automatically
* on its first callback. The callback is passed the (apparent) elapsed time since the timer became active.
*
* @param callback A callback function to be invoked and passed in the apparent
* elapsed time since the timer became active in milliseconds.
* @param delay An optional numeric delay in milliseconds (default = 0) relative to time.
* @param time An optional time in milliseconds relative to which the delay is calculated (default = now).
*/
export function timeout(callback: (elapsed: number) => void, delay?: number, time?: number): Timer;
/**
* Schedules and returns a new timer, invoking the specified callback repeatedly every 'delay' milliseconds
* until the timer is stopped.
* The callback is passed the (apparent) elapsed time since the timer became active.
*
* @param callback A callback function to be invoked and passed in the apparent
* elapsed time since the timer became active in milliseconds.
* @param delay An optional numeric delay in milliseconds between repeat invocations of the callback.
* If not specified, the interval timer behaves like the regular timer.
* @param time An optional time in milliseconds relative to which the initial delay is calculated (default = now).
*/
export function interval(callback: (elapsed: number) => void, delay?: number, time?: number): Timer;

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node_modules/@types/d3-timer/package.json generated vendored Normal file
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{
"name": "@types/d3-timer",
"version": "3.0.2",
"description": "TypeScript definitions for d3-timer",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/d3-timer",
"license": "MIT",
"contributors": [
{
"name": "Tom Wanzek",
"githubUsername": "tomwanzek",
"url": "https://github.com/tomwanzek"
},
{
"name": "Alex Ford",
"githubUsername": "gustavderdrache",
"url": "https://github.com/gustavderdrache"
},
{
"name": "Boris Yankov",
"githubUsername": "borisyankov",
"url": "https://github.com/borisyankov"
},
{
"name": "denisname",
"githubUsername": "denisname",
"url": "https://github.com/denisname"
},
{
"name": "Nathan Bierema",
"githubUsername": "Methuselah96",
"url": "https://github.com/Methuselah96"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/d3-timer"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "a51fc6981e6d12715fd052f7e598dd291c354465025cbb33ece1895bdab4109c",
"typeScriptVersion": "4.5"
}

21
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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

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# Installation
> `npm install --save @types/debug`
# Summary
This package contains type definitions for debug (https://github.com/debug-js/debug).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/debug.
## [index.d.ts](https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/debug/index.d.ts)
````ts
declare var debug: debug.Debug & { debug: debug.Debug; default: debug.Debug };
export = debug;
export as namespace debug;
declare namespace debug {
interface Debug {
(namespace: string): Debugger;
coerce: (val: any) => any;
disable: () => string;
enable: (namespaces: string) => void;
enabled: (namespaces: string) => boolean;
formatArgs: (this: Debugger, args: any[]) => void;
log: (...args: any[]) => any;
selectColor: (namespace: string) => string | number;
humanize: typeof import("ms");
names: RegExp[];
skips: RegExp[];
formatters: Formatters;
inspectOpts?: {
hideDate?: boolean | number | null;
colors?: boolean | number | null;
depth?: boolean | number | null;
showHidden?: boolean | number | null;
};
}
type IDebug = Debug;
interface Formatters {
[formatter: string]: (v: any) => string;
}
type IDebugger = Debugger;
interface Debugger {
(formatter: any, ...args: any[]): void;
color: string;
diff: number;
enabled: boolean;
log: (...args: any[]) => any;
namespace: string;
destroy: () => boolean;
extend: (namespace: string, delimiter?: string) => Debugger;
}
}
````
### Additional Details
* Last updated: Thu, 09 Nov 2023 03:06:57 GMT
* Dependencies: [@types/ms](https://npmjs.com/package/@types/ms)
# Credits
These definitions were written by [Seon-Wook Park](https://github.com/swook), [Gal Talmor](https://github.com/galtalmor), [John McLaughlin](https://github.com/zamb3zi), [Brasten Sager](https://github.com/brasten), [Nicolas Penin](https://github.com/npenin), [Kristian Brünn](https://github.com/kristianmitk), and [Caleb Gregory](https://github.com/calebgregory).

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declare var debug: debug.Debug & { debug: debug.Debug; default: debug.Debug };
export = debug;
export as namespace debug;
declare namespace debug {
interface Debug {
(namespace: string): Debugger;
coerce: (val: any) => any;
disable: () => string;
enable: (namespaces: string) => void;
enabled: (namespaces: string) => boolean;
formatArgs: (this: Debugger, args: any[]) => void;
log: (...args: any[]) => any;
selectColor: (namespace: string) => string | number;
humanize: typeof import("ms");
names: RegExp[];
skips: RegExp[];
formatters: Formatters;
inspectOpts?: {
hideDate?: boolean | number | null;
colors?: boolean | number | null;
depth?: boolean | number | null;
showHidden?: boolean | number | null;
};
}
type IDebug = Debug;
interface Formatters {
[formatter: string]: (v: any) => string;
}
type IDebugger = Debugger;
interface Debugger {
(formatter: any, ...args: any[]): void;
color: string;
diff: number;
enabled: boolean;
log: (...args: any[]) => any;
namespace: string;
destroy: () => boolean;
extend: (namespace: string, delimiter?: string) => Debugger;
}
}

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{
"name": "@types/debug",
"version": "4.1.12",
"description": "TypeScript definitions for debug",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/debug",
"license": "MIT",
"contributors": [
{
"name": "Seon-Wook Park",
"githubUsername": "swook",
"url": "https://github.com/swook"
},
{
"name": "Gal Talmor",
"githubUsername": "galtalmor",
"url": "https://github.com/galtalmor"
},
{
"name": "John McLaughlin",
"githubUsername": "zamb3zi",
"url": "https://github.com/zamb3zi"
},
{
"name": "Brasten Sager",
"githubUsername": "brasten",
"url": "https://github.com/brasten"
},
{
"name": "Nicolas Penin",
"githubUsername": "npenin",
"url": "https://github.com/npenin"
},
{
"name": "Kristian Brünn",
"githubUsername": "kristianmitk",
"url": "https://github.com/kristianmitk"
},
{
"name": "Caleb Gregory",
"githubUsername": "calebgregory",
"url": "https://github.com/calebgregory"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/debug"
},
"scripts": {},
"dependencies": {
"@types/ms": "*"
},
"typesPublisherContentHash": "1053110a8e5e302f35fb57f45389304fa5a4f53bb8982b76b8065bcfd7083731",
"typeScriptVersion": "4.5"
}

21
node_modules/@types/estree-jsx/LICENSE generated vendored Normal file
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@@ -0,0 +1,21 @@
MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
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# Installation
> `npm install --save @types/estree-jsx`
# Summary
This package contains type definitions for estree-jsx (https://github.com/facebook/jsx).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/estree-jsx.
### Additional Details
* Last updated: Fri, 23 Feb 2024 02:11:41 GMT
* Dependencies: [@types/estree](https://npmjs.com/package/@types/estree)
# Credits
These definitions were written by [Tony Ross](https://github.com/antross).

114
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// Based on https://github.com/facebook/jsx/blob/master/AST.md.
// Extends existing types for ESTree AST from `@types/estree`.
import { BaseExpression, BaseNode, Expression, Literal } from "estree";
export * from "estree";
declare module "estree" {
interface ExpressionMap {
JSXElement: JSXElement;
JSXFragment: JSXFragment;
}
interface NodeMap {
JSXIdentifier: JSXIdentifier;
JSXNamespacedName: JSXNamespacedName;
JSXMemberExpression: JSXMemberExpression;
JSXEmptyExpression: JSXEmptyExpression;
JSXExpressionContainer: JSXExpressionContainer;
JSXSpreadAttribute: JSXSpreadAttribute;
JSXAttribute: JSXAttribute;
JSXOpeningElement: JSXOpeningElement;
JSXOpeningFragment: JSXOpeningFragment;
JSXClosingElement: JSXClosingElement;
JSXClosingFragment: JSXClosingFragment;
JSXElement: JSXElement;
JSXFragment: JSXFragment;
JSXText: JSXText;
}
}
export interface JSXIdentifier extends BaseNode {
type: "JSXIdentifier";
name: string;
}
export interface JSXMemberExpression extends BaseExpression {
type: "JSXMemberExpression";
object: JSXMemberExpression | JSXIdentifier;
property: JSXIdentifier;
}
export interface JSXNamespacedName extends BaseExpression {
type: "JSXNamespacedName";
namespace: JSXIdentifier;
name: JSXIdentifier;
}
export interface JSXEmptyExpression extends BaseNode {
type: "JSXEmptyExpression";
}
export interface JSXExpressionContainer extends BaseNode {
type: "JSXExpressionContainer";
expression: Expression | JSXEmptyExpression;
}
export interface JSXSpreadChild extends BaseNode {
type: "JSXSpreadChild";
expression: Expression;
}
interface JSXBoundaryElement extends BaseNode {
name: JSXIdentifier | JSXMemberExpression | JSXNamespacedName;
}
export interface JSXOpeningElement extends JSXBoundaryElement {
type: "JSXOpeningElement";
attributes: Array<JSXAttribute | JSXSpreadAttribute>;
selfClosing: boolean;
}
export interface JSXClosingElement extends JSXBoundaryElement {
type: "JSXClosingElement";
}
export interface JSXAttribute extends BaseNode {
type: "JSXAttribute";
name: JSXIdentifier | JSXNamespacedName;
value: Literal | JSXExpressionContainer | JSXElement | JSXFragment | null;
}
export interface JSXSpreadAttribute extends BaseNode {
type: "JSXSpreadAttribute";
argument: Expression;
}
export interface JSXText extends BaseNode {
type: "JSXText";
value: string;
raw: string;
}
export interface JSXElement extends BaseExpression {
type: "JSXElement";
openingElement: JSXOpeningElement;
children: Array<JSXText | JSXExpressionContainer | JSXSpreadChild | JSXElement | JSXFragment>;
closingElement: JSXClosingElement | null;
}
export interface JSXFragment extends BaseExpression {
type: "JSXFragment";
openingFragment: JSXOpeningFragment;
children: Array<JSXText | JSXExpressionContainer | JSXSpreadChild | JSXElement | JSXFragment>;
closingFragment: JSXClosingFragment;
}
export interface JSXOpeningFragment extends BaseNode {
type: "JSXOpeningFragment";
}
export interface JSXClosingFragment extends BaseNode {
type: "JSXClosingFragment";
}

27
node_modules/@types/estree-jsx/package.json generated vendored Normal file
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{
"name": "@types/estree-jsx",
"version": "1.0.5",
"description": "TypeScript definitions for estree-jsx",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/estree-jsx",
"license": "MIT",
"contributors": [
{
"name": "Tony Ross",
"githubUsername": "antross",
"url": "https://github.com/antross"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/estree-jsx"
},
"scripts": {},
"dependencies": {
"@types/estree": "*"
},
"typesPublisherContentHash": "42fda803cc34f935c5a60a45e66b78e18fac56ef350d2d47c00759e16d4fef7f",
"typeScriptVersion": "4.6"
}

21
node_modules/@types/estree/LICENSE generated vendored Normal file
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@@ -0,0 +1,21 @@
MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
node_modules/@types/estree/README.md generated vendored Normal file
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@@ -0,0 +1,15 @@
# Installation
> `npm install --save @types/estree`
# Summary
This package contains type definitions for estree (https://github.com/estree/estree).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/estree.
### Additional Details
* Last updated: Wed, 18 Sep 2024 09:37:00 GMT
* Dependencies: none
# Credits
These definitions were written by [RReverser](https://github.com/RReverser).

167
node_modules/@types/estree/flow.d.ts generated vendored Normal file
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declare namespace ESTree {
interface FlowTypeAnnotation extends Node {}
interface FlowBaseTypeAnnotation extends FlowTypeAnnotation {}
interface FlowLiteralTypeAnnotation extends FlowTypeAnnotation, Literal {}
interface FlowDeclaration extends Declaration {}
interface AnyTypeAnnotation extends FlowBaseTypeAnnotation {}
interface ArrayTypeAnnotation extends FlowTypeAnnotation {
elementType: FlowTypeAnnotation;
}
interface BooleanLiteralTypeAnnotation extends FlowLiteralTypeAnnotation {}
interface BooleanTypeAnnotation extends FlowBaseTypeAnnotation {}
interface ClassImplements extends Node {
id: Identifier;
typeParameters?: TypeParameterInstantiation | null;
}
interface ClassProperty {
key: Expression;
value?: Expression | null;
typeAnnotation?: TypeAnnotation | null;
computed: boolean;
static: boolean;
}
interface DeclareClass extends FlowDeclaration {
id: Identifier;
typeParameters?: TypeParameterDeclaration | null;
body: ObjectTypeAnnotation;
extends: InterfaceExtends[];
}
interface DeclareFunction extends FlowDeclaration {
id: Identifier;
}
interface DeclareModule extends FlowDeclaration {
id: Literal | Identifier;
body: BlockStatement;
}
interface DeclareVariable extends FlowDeclaration {
id: Identifier;
}
interface FunctionTypeAnnotation extends FlowTypeAnnotation {
params: FunctionTypeParam[];
returnType: FlowTypeAnnotation;
rest?: FunctionTypeParam | null;
typeParameters?: TypeParameterDeclaration | null;
}
interface FunctionTypeParam {
name: Identifier;
typeAnnotation: FlowTypeAnnotation;
optional: boolean;
}
interface GenericTypeAnnotation extends FlowTypeAnnotation {
id: Identifier | QualifiedTypeIdentifier;
typeParameters?: TypeParameterInstantiation | null;
}
interface InterfaceExtends extends Node {
id: Identifier | QualifiedTypeIdentifier;
typeParameters?: TypeParameterInstantiation | null;
}
interface InterfaceDeclaration extends FlowDeclaration {
id: Identifier;
typeParameters?: TypeParameterDeclaration | null;
extends: InterfaceExtends[];
body: ObjectTypeAnnotation;
}
interface IntersectionTypeAnnotation extends FlowTypeAnnotation {
types: FlowTypeAnnotation[];
}
interface MixedTypeAnnotation extends FlowBaseTypeAnnotation {}
interface NullableTypeAnnotation extends FlowTypeAnnotation {
typeAnnotation: TypeAnnotation;
}
interface NumberLiteralTypeAnnotation extends FlowLiteralTypeAnnotation {}
interface NumberTypeAnnotation extends FlowBaseTypeAnnotation {}
interface StringLiteralTypeAnnotation extends FlowLiteralTypeAnnotation {}
interface StringTypeAnnotation extends FlowBaseTypeAnnotation {}
interface TupleTypeAnnotation extends FlowTypeAnnotation {
types: FlowTypeAnnotation[];
}
interface TypeofTypeAnnotation extends FlowTypeAnnotation {
argument: FlowTypeAnnotation;
}
interface TypeAlias extends FlowDeclaration {
id: Identifier;
typeParameters?: TypeParameterDeclaration | null;
right: FlowTypeAnnotation;
}
interface TypeAnnotation extends Node {
typeAnnotation: FlowTypeAnnotation;
}
interface TypeCastExpression extends Expression {
expression: Expression;
typeAnnotation: TypeAnnotation;
}
interface TypeParameterDeclaration extends Node {
params: Identifier[];
}
interface TypeParameterInstantiation extends Node {
params: FlowTypeAnnotation[];
}
interface ObjectTypeAnnotation extends FlowTypeAnnotation {
properties: ObjectTypeProperty[];
indexers: ObjectTypeIndexer[];
callProperties: ObjectTypeCallProperty[];
}
interface ObjectTypeCallProperty extends Node {
value: FunctionTypeAnnotation;
static: boolean;
}
interface ObjectTypeIndexer extends Node {
id: Identifier;
key: FlowTypeAnnotation;
value: FlowTypeAnnotation;
static: boolean;
}
interface ObjectTypeProperty extends Node {
key: Expression;
value: FlowTypeAnnotation;
optional: boolean;
static: boolean;
}
interface QualifiedTypeIdentifier extends Node {
qualification: Identifier | QualifiedTypeIdentifier;
id: Identifier;
}
interface UnionTypeAnnotation extends FlowTypeAnnotation {
types: FlowTypeAnnotation[];
}
interface VoidTypeAnnotation extends FlowBaseTypeAnnotation {}
}

684
node_modules/@types/estree/index.d.ts generated vendored Normal file
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// This definition file follows a somewhat unusual format. ESTree allows
// runtime type checks based on the `type` parameter. In order to explain this
// to typescript we want to use discriminated union types:
// https://github.com/Microsoft/TypeScript/pull/9163
//
// For ESTree this is a bit tricky because the high level interfaces like
// Node or Function are pulling double duty. We want to pass common fields down
// to the interfaces that extend them (like Identifier or
// ArrowFunctionExpression), but you can't extend a type union or enforce
// common fields on them. So we've split the high level interfaces into two
// types, a base type which passes down inherited fields, and a type union of
// all types which extend the base type. Only the type union is exported, and
// the union is how other types refer to the collection of inheriting types.
//
// This makes the definitions file here somewhat more difficult to maintain,
// but it has the notable advantage of making ESTree much easier to use as
// an end user.
export interface BaseNodeWithoutComments {
// Every leaf interface that extends BaseNode must specify a type property.
// The type property should be a string literal. For example, Identifier
// has: `type: "Identifier"`
type: string;
loc?: SourceLocation | null | undefined;
range?: [number, number] | undefined;
}
export interface BaseNode extends BaseNodeWithoutComments {
leadingComments?: Comment[] | undefined;
trailingComments?: Comment[] | undefined;
}
export interface NodeMap {
AssignmentProperty: AssignmentProperty;
CatchClause: CatchClause;
Class: Class;
ClassBody: ClassBody;
Expression: Expression;
Function: Function;
Identifier: Identifier;
Literal: Literal;
MethodDefinition: MethodDefinition;
ModuleDeclaration: ModuleDeclaration;
ModuleSpecifier: ModuleSpecifier;
Pattern: Pattern;
PrivateIdentifier: PrivateIdentifier;
Program: Program;
Property: Property;
PropertyDefinition: PropertyDefinition;
SpreadElement: SpreadElement;
Statement: Statement;
Super: Super;
SwitchCase: SwitchCase;
TemplateElement: TemplateElement;
VariableDeclarator: VariableDeclarator;
}
export type Node = NodeMap[keyof NodeMap];
export interface Comment extends BaseNodeWithoutComments {
type: "Line" | "Block";
value: string;
}
export interface SourceLocation {
source?: string | null | undefined;
start: Position;
end: Position;
}
export interface Position {
/** >= 1 */
line: number;
/** >= 0 */
column: number;
}
export interface Program extends BaseNode {
type: "Program";
sourceType: "script" | "module";
body: Array<Directive | Statement | ModuleDeclaration>;
comments?: Comment[] | undefined;
}
export interface Directive extends BaseNode {
type: "ExpressionStatement";
expression: Literal;
directive: string;
}
export interface BaseFunction extends BaseNode {
params: Pattern[];
generator?: boolean | undefined;
async?: boolean | undefined;
// The body is either BlockStatement or Expression because arrow functions
// can have a body that's either. FunctionDeclarations and
// FunctionExpressions have only BlockStatement bodies.
body: BlockStatement | Expression;
}
export type Function = FunctionDeclaration | FunctionExpression | ArrowFunctionExpression;
export type Statement =
| ExpressionStatement
| BlockStatement
| StaticBlock
| EmptyStatement
| DebuggerStatement
| WithStatement
| ReturnStatement
| LabeledStatement
| BreakStatement
| ContinueStatement
| IfStatement
| SwitchStatement
| ThrowStatement
| TryStatement
| WhileStatement
| DoWhileStatement
| ForStatement
| ForInStatement
| ForOfStatement
| Declaration;
export interface BaseStatement extends BaseNode {}
export interface EmptyStatement extends BaseStatement {
type: "EmptyStatement";
}
export interface BlockStatement extends BaseStatement {
type: "BlockStatement";
body: Statement[];
innerComments?: Comment[] | undefined;
}
export interface StaticBlock extends Omit<BlockStatement, "type"> {
type: "StaticBlock";
}
export interface ExpressionStatement extends BaseStatement {
type: "ExpressionStatement";
expression: Expression;
}
export interface IfStatement extends BaseStatement {
type: "IfStatement";
test: Expression;
consequent: Statement;
alternate?: Statement | null | undefined;
}
export interface LabeledStatement extends BaseStatement {
type: "LabeledStatement";
label: Identifier;
body: Statement;
}
export interface BreakStatement extends BaseStatement {
type: "BreakStatement";
label?: Identifier | null | undefined;
}
export interface ContinueStatement extends BaseStatement {
type: "ContinueStatement";
label?: Identifier | null | undefined;
}
export interface WithStatement extends BaseStatement {
type: "WithStatement";
object: Expression;
body: Statement;
}
export interface SwitchStatement extends BaseStatement {
type: "SwitchStatement";
discriminant: Expression;
cases: SwitchCase[];
}
export interface ReturnStatement extends BaseStatement {
type: "ReturnStatement";
argument?: Expression | null | undefined;
}
export interface ThrowStatement extends BaseStatement {
type: "ThrowStatement";
argument: Expression;
}
export interface TryStatement extends BaseStatement {
type: "TryStatement";
block: BlockStatement;
handler?: CatchClause | null | undefined;
finalizer?: BlockStatement | null | undefined;
}
export interface WhileStatement extends BaseStatement {
type: "WhileStatement";
test: Expression;
body: Statement;
}
export interface DoWhileStatement extends BaseStatement {
type: "DoWhileStatement";
body: Statement;
test: Expression;
}
export interface ForStatement extends BaseStatement {
type: "ForStatement";
init?: VariableDeclaration | Expression | null | undefined;
test?: Expression | null | undefined;
update?: Expression | null | undefined;
body: Statement;
}
export interface BaseForXStatement extends BaseStatement {
left: VariableDeclaration | Pattern;
right: Expression;
body: Statement;
}
export interface ForInStatement extends BaseForXStatement {
type: "ForInStatement";
}
export interface DebuggerStatement extends BaseStatement {
type: "DebuggerStatement";
}
export type Declaration = FunctionDeclaration | VariableDeclaration | ClassDeclaration;
export interface BaseDeclaration extends BaseStatement {}
export interface MaybeNamedFunctionDeclaration extends BaseFunction, BaseDeclaration {
type: "FunctionDeclaration";
/** It is null when a function declaration is a part of the `export default function` statement */
id: Identifier | null;
body: BlockStatement;
}
export interface FunctionDeclaration extends MaybeNamedFunctionDeclaration {
id: Identifier;
}
export interface VariableDeclaration extends BaseDeclaration {
type: "VariableDeclaration";
declarations: VariableDeclarator[];
kind: "var" | "let" | "const";
}
export interface VariableDeclarator extends BaseNode {
type: "VariableDeclarator";
id: Pattern;
init?: Expression | null | undefined;
}
export interface ExpressionMap {
ArrayExpression: ArrayExpression;
ArrowFunctionExpression: ArrowFunctionExpression;
AssignmentExpression: AssignmentExpression;
AwaitExpression: AwaitExpression;
BinaryExpression: BinaryExpression;
CallExpression: CallExpression;
ChainExpression: ChainExpression;
ClassExpression: ClassExpression;
ConditionalExpression: ConditionalExpression;
FunctionExpression: FunctionExpression;
Identifier: Identifier;
ImportExpression: ImportExpression;
Literal: Literal;
LogicalExpression: LogicalExpression;
MemberExpression: MemberExpression;
MetaProperty: MetaProperty;
NewExpression: NewExpression;
ObjectExpression: ObjectExpression;
SequenceExpression: SequenceExpression;
TaggedTemplateExpression: TaggedTemplateExpression;
TemplateLiteral: TemplateLiteral;
ThisExpression: ThisExpression;
UnaryExpression: UnaryExpression;
UpdateExpression: UpdateExpression;
YieldExpression: YieldExpression;
}
export type Expression = ExpressionMap[keyof ExpressionMap];
export interface BaseExpression extends BaseNode {}
export type ChainElement = SimpleCallExpression | MemberExpression;
export interface ChainExpression extends BaseExpression {
type: "ChainExpression";
expression: ChainElement;
}
export interface ThisExpression extends BaseExpression {
type: "ThisExpression";
}
export interface ArrayExpression extends BaseExpression {
type: "ArrayExpression";
elements: Array<Expression | SpreadElement | null>;
}
export interface ObjectExpression extends BaseExpression {
type: "ObjectExpression";
properties: Array<Property | SpreadElement>;
}
export interface PrivateIdentifier extends BaseNode {
type: "PrivateIdentifier";
name: string;
}
export interface Property extends BaseNode {
type: "Property";
key: Expression | PrivateIdentifier;
value: Expression | Pattern; // Could be an AssignmentProperty
kind: "init" | "get" | "set";
method: boolean;
shorthand: boolean;
computed: boolean;
}
export interface PropertyDefinition extends BaseNode {
type: "PropertyDefinition";
key: Expression | PrivateIdentifier;
value?: Expression | null | undefined;
computed: boolean;
static: boolean;
}
export interface FunctionExpression extends BaseFunction, BaseExpression {
id?: Identifier | null | undefined;
type: "FunctionExpression";
body: BlockStatement;
}
export interface SequenceExpression extends BaseExpression {
type: "SequenceExpression";
expressions: Expression[];
}
export interface UnaryExpression extends BaseExpression {
type: "UnaryExpression";
operator: UnaryOperator;
prefix: true;
argument: Expression;
}
export interface BinaryExpression extends BaseExpression {
type: "BinaryExpression";
operator: BinaryOperator;
left: Expression | PrivateIdentifier;
right: Expression;
}
export interface AssignmentExpression extends BaseExpression {
type: "AssignmentExpression";
operator: AssignmentOperator;
left: Pattern | MemberExpression;
right: Expression;
}
export interface UpdateExpression extends BaseExpression {
type: "UpdateExpression";
operator: UpdateOperator;
argument: Expression;
prefix: boolean;
}
export interface LogicalExpression extends BaseExpression {
type: "LogicalExpression";
operator: LogicalOperator;
left: Expression;
right: Expression;
}
export interface ConditionalExpression extends BaseExpression {
type: "ConditionalExpression";
test: Expression;
alternate: Expression;
consequent: Expression;
}
export interface BaseCallExpression extends BaseExpression {
callee: Expression | Super;
arguments: Array<Expression | SpreadElement>;
}
export type CallExpression = SimpleCallExpression | NewExpression;
export interface SimpleCallExpression extends BaseCallExpression {
type: "CallExpression";
optional: boolean;
}
export interface NewExpression extends BaseCallExpression {
type: "NewExpression";
}
export interface MemberExpression extends BaseExpression, BasePattern {
type: "MemberExpression";
object: Expression | Super;
property: Expression | PrivateIdentifier;
computed: boolean;
optional: boolean;
}
export type Pattern = Identifier | ObjectPattern | ArrayPattern | RestElement | AssignmentPattern | MemberExpression;
export interface BasePattern extends BaseNode {}
export interface SwitchCase extends BaseNode {
type: "SwitchCase";
test?: Expression | null | undefined;
consequent: Statement[];
}
export interface CatchClause extends BaseNode {
type: "CatchClause";
param: Pattern | null;
body: BlockStatement;
}
export interface Identifier extends BaseNode, BaseExpression, BasePattern {
type: "Identifier";
name: string;
}
export type Literal = SimpleLiteral | RegExpLiteral | BigIntLiteral;
export interface SimpleLiteral extends BaseNode, BaseExpression {
type: "Literal";
value: string | boolean | number | null;
raw?: string | undefined;
}
export interface RegExpLiteral extends BaseNode, BaseExpression {
type: "Literal";
value?: RegExp | null | undefined;
regex: {
pattern: string;
flags: string;
};
raw?: string | undefined;
}
export interface BigIntLiteral extends BaseNode, BaseExpression {
type: "Literal";
value?: bigint | null | undefined;
bigint: string;
raw?: string | undefined;
}
export type UnaryOperator = "-" | "+" | "!" | "~" | "typeof" | "void" | "delete";
export type BinaryOperator =
| "=="
| "!="
| "==="
| "!=="
| "<"
| "<="
| ">"
| ">="
| "<<"
| ">>"
| ">>>"
| "+"
| "-"
| "*"
| "/"
| "%"
| "**"
| "|"
| "^"
| "&"
| "in"
| "instanceof";
export type LogicalOperator = "||" | "&&" | "??";
export type AssignmentOperator =
| "="
| "+="
| "-="
| "*="
| "/="
| "%="
| "**="
| "<<="
| ">>="
| ">>>="
| "|="
| "^="
| "&="
| "||="
| "&&="
| "??=";
export type UpdateOperator = "++" | "--";
export interface ForOfStatement extends BaseForXStatement {
type: "ForOfStatement";
await: boolean;
}
export interface Super extends BaseNode {
type: "Super";
}
export interface SpreadElement extends BaseNode {
type: "SpreadElement";
argument: Expression;
}
export interface ArrowFunctionExpression extends BaseExpression, BaseFunction {
type: "ArrowFunctionExpression";
expression: boolean;
body: BlockStatement | Expression;
}
export interface YieldExpression extends BaseExpression {
type: "YieldExpression";
argument?: Expression | null | undefined;
delegate: boolean;
}
export interface TemplateLiteral extends BaseExpression {
type: "TemplateLiteral";
quasis: TemplateElement[];
expressions: Expression[];
}
export interface TaggedTemplateExpression extends BaseExpression {
type: "TaggedTemplateExpression";
tag: Expression;
quasi: TemplateLiteral;
}
export interface TemplateElement extends BaseNode {
type: "TemplateElement";
tail: boolean;
value: {
/** It is null when the template literal is tagged and the text has an invalid escape (e.g. - tag`\unicode and \u{55}`) */
cooked?: string | null | undefined;
raw: string;
};
}
export interface AssignmentProperty extends Property {
value: Pattern;
kind: "init";
method: boolean; // false
}
export interface ObjectPattern extends BasePattern {
type: "ObjectPattern";
properties: Array<AssignmentProperty | RestElement>;
}
export interface ArrayPattern extends BasePattern {
type: "ArrayPattern";
elements: Array<Pattern | null>;
}
export interface RestElement extends BasePattern {
type: "RestElement";
argument: Pattern;
}
export interface AssignmentPattern extends BasePattern {
type: "AssignmentPattern";
left: Pattern;
right: Expression;
}
export type Class = ClassDeclaration | ClassExpression;
export interface BaseClass extends BaseNode {
superClass?: Expression | null | undefined;
body: ClassBody;
}
export interface ClassBody extends BaseNode {
type: "ClassBody";
body: Array<MethodDefinition | PropertyDefinition | StaticBlock>;
}
export interface MethodDefinition extends BaseNode {
type: "MethodDefinition";
key: Expression | PrivateIdentifier;
value: FunctionExpression;
kind: "constructor" | "method" | "get" | "set";
computed: boolean;
static: boolean;
}
export interface MaybeNamedClassDeclaration extends BaseClass, BaseDeclaration {
type: "ClassDeclaration";
/** It is null when a class declaration is a part of the `export default class` statement */
id: Identifier | null;
}
export interface ClassDeclaration extends MaybeNamedClassDeclaration {
id: Identifier;
}
export interface ClassExpression extends BaseClass, BaseExpression {
type: "ClassExpression";
id?: Identifier | null | undefined;
}
export interface MetaProperty extends BaseExpression {
type: "MetaProperty";
meta: Identifier;
property: Identifier;
}
export type ModuleDeclaration =
| ImportDeclaration
| ExportNamedDeclaration
| ExportDefaultDeclaration
| ExportAllDeclaration;
export interface BaseModuleDeclaration extends BaseNode {}
export type ModuleSpecifier = ImportSpecifier | ImportDefaultSpecifier | ImportNamespaceSpecifier | ExportSpecifier;
export interface BaseModuleSpecifier extends BaseNode {
local: Identifier;
}
export interface ImportDeclaration extends BaseModuleDeclaration {
type: "ImportDeclaration";
specifiers: Array<ImportSpecifier | ImportDefaultSpecifier | ImportNamespaceSpecifier>;
source: Literal;
}
export interface ImportSpecifier extends BaseModuleSpecifier {
type: "ImportSpecifier";
imported: Identifier | Literal;
}
export interface ImportExpression extends BaseExpression {
type: "ImportExpression";
source: Expression;
}
export interface ImportDefaultSpecifier extends BaseModuleSpecifier {
type: "ImportDefaultSpecifier";
}
export interface ImportNamespaceSpecifier extends BaseModuleSpecifier {
type: "ImportNamespaceSpecifier";
}
export interface ExportNamedDeclaration extends BaseModuleDeclaration {
type: "ExportNamedDeclaration";
declaration?: Declaration | null | undefined;
specifiers: ExportSpecifier[];
source?: Literal | null | undefined;
}
export interface ExportSpecifier extends Omit<BaseModuleSpecifier, "local"> {
type: "ExportSpecifier";
local: Identifier | Literal;
exported: Identifier | Literal;
}
export interface ExportDefaultDeclaration extends BaseModuleDeclaration {
type: "ExportDefaultDeclaration";
declaration: MaybeNamedFunctionDeclaration | MaybeNamedClassDeclaration | Expression;
}
export interface ExportAllDeclaration extends BaseModuleDeclaration {
type: "ExportAllDeclaration";
exported: Identifier | Literal | null;
source: Literal;
}
export interface AwaitExpression extends BaseExpression {
type: "AwaitExpression";
argument: Expression;
}

26
node_modules/@types/estree/package.json generated vendored Normal file
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{
"name": "@types/estree",
"version": "1.0.6",
"description": "TypeScript definitions for estree",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/estree",
"license": "MIT",
"contributors": [
{
"name": "RReverser",
"githubUsername": "RReverser",
"url": "https://github.com/RReverser"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/estree"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "0310b41994a6f8d7530af6c53d47d8b227f32925e43718507fdb1178e05006b1",
"typeScriptVersion": "4.8",
"nonNpm": true
}

21
node_modules/@types/hast/LICENSE generated vendored Normal file
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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
node_modules/@types/hast/README.md generated vendored Normal file
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# Installation
> `npm install --save @types/hast`
# Summary
This package contains type definitions for hast (https://github.com/syntax-tree/hast).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/hast.
### Additional Details
* Last updated: Tue, 30 Jan 2024 21:35:45 GMT
* Dependencies: [@types/unist](https://npmjs.com/package/@types/unist)
# Credits
These definitions were written by [lukeggchapman](https://github.com/lukeggchapman), [Junyoung Choi](https://github.com/rokt33r), [Christian Murphy](https://github.com/ChristianMurphy), and [Remco Haszing](https://github.com/remcohaszing).

282
node_modules/@types/hast/index.d.ts generated vendored Normal file
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import type { Data as UnistData, Literal as UnistLiteral, Node as UnistNode, Parent as UnistParent } from "unist";
// ## Interfaces
/**
* Info associated with hast nodes by the ecosystem.
*
* This space is guaranteed to never be specified by unist or hast.
* But you can use it in utilities and plugins to store data.
*
* This type can be augmented to register custom data.
* For example:
*
* ```ts
* declare module 'hast' {
* interface Data {
* // `someNode.data.myId` is typed as `number | undefined`
* myId?: number | undefined
* }
* }
* ```
*/
export interface Data extends UnistData {}
/**
* Info associated with an element.
*/
export interface Properties {
[PropertyName: string]: boolean | number | string | null | undefined | Array<string | number>;
}
// ## Content maps
/**
* Union of registered hast nodes that can occur in {@link Element}.
*
* To register mote custom hast nodes, add them to {@link ElementContentMap}.
* They will be automatically added here.
*/
export type ElementContent = ElementContentMap[keyof ElementContentMap];
/**
* Registry of all hast nodes that can occur as children of {@link Element}.
*
* For a union of all {@link Element} children, see {@link ElementContent}.
*/
export interface ElementContentMap {
comment: Comment;
element: Element;
text: Text;
}
/**
* Union of registered hast nodes that can occur in {@link Root}.
*
* To register custom hast nodes, add them to {@link RootContentMap}.
* They will be automatically added here.
*/
export type RootContent = RootContentMap[keyof RootContentMap];
/**
* Registry of all hast nodes that can occur as children of {@link Root}.
*
* > 👉 **Note**: {@link Root} does not need to be an entire document.
* > it can also be a fragment.
*
* For a union of all {@link Root} children, see {@link RootContent}.
*/
export interface RootContentMap {
comment: Comment;
doctype: Doctype;
element: Element;
text: Text;
}
// ### Special content types
/**
* Union of registered hast nodes that can occur in {@link Root}.
*
* @deprecated Use {@link RootContent} instead.
*/
export type Content = RootContent;
/**
* Union of registered hast literals.
*
* To register custom hast nodes, add them to {@link RootContentMap} and other
* places where relevant.
* They will be automatically added here.
*/
export type Literals = Extract<Nodes, UnistLiteral>;
/**
* Union of registered hast nodes.
*
* To register custom hast nodes, add them to {@link RootContentMap} and other
* places where relevant.
* They will be automatically added here.
*/
export type Nodes = Root | RootContent;
/**
* Union of registered hast parents.
*
* To register custom hast nodes, add them to {@link RootContentMap} and other
* places where relevant.
* They will be automatically added here.
*/
export type Parents = Extract<Nodes, UnistParent>;
// ## Abstract nodes
/**
* Abstract hast node.
*
* This interface is supposed to be extended.
* If you can use {@link Literal} or {@link Parent}, you should.
* But for example in HTML, a `Doctype` is neither literal nor parent, but
* still a node.
*
* To register custom hast nodes, add them to {@link RootContentMap} and other
* places where relevant (such as {@link ElementContentMap}).
*
* For a union of all registered hast nodes, see {@link Nodes}.
*/
export interface Node extends UnistNode {
/**
* Info from the ecosystem.
*/
data?: Data | undefined;
}
/**
* Abstract hast node that contains the smallest possible value.
*
* This interface is supposed to be extended if you make custom hast nodes.
*
* For a union of all registered hast literals, see {@link Literals}.
*/
export interface Literal extends Node {
/**
* Plain-text value.
*/
value: string;
}
/**
* Abstract hast node that contains other hast nodes (*children*).
*
* This interface is supposed to be extended if you make custom hast nodes.
*
* For a union of all registered hast parents, see {@link Parents}.
*/
export interface Parent extends Node {
/**
* List of children.
*/
children: RootContent[];
}
// ## Concrete nodes
/**
* HTML comment.
*/
export interface Comment extends Literal {
/**
* Node type of HTML comments in hast.
*/
type: "comment";
/**
* Data associated with the comment.
*/
data?: CommentData | undefined;
}
/**
* Info associated with hast comments by the ecosystem.
*/
export interface CommentData extends Data {}
/**
* HTML document type.
*/
export interface Doctype extends UnistNode {
/**
* Node type of HTML document types in hast.
*/
type: "doctype";
/**
* Data associated with the doctype.
*/
data?: DoctypeData | undefined;
}
/**
* Info associated with hast doctypes by the ecosystem.
*/
export interface DoctypeData extends Data {}
/**
* HTML element.
*/
export interface Element extends Parent {
/**
* Node type of elements.
*/
type: "element";
/**
* Tag name (such as `'body'`) of the element.
*/
tagName: string;
/**
* Info associated with the element.
*/
properties: Properties;
/**
* Children of element.
*/
children: ElementContent[];
/**
* When the `tagName` field is `'template'`, a `content` field can be
* present.
*/
content?: Root | undefined;
/**
* Data associated with the element.
*/
data?: ElementData | undefined;
}
/**
* Info associated with hast elements by the ecosystem.
*/
export interface ElementData extends Data {}
/**
* Document fragment or a whole document.
*
* Should be used as the root of a tree and must not be used as a child.
*
* Can also be used as the value for the content field on a `'template'` element.
*/
export interface Root extends Parent {
/**
* Node type of hast root.
*/
type: "root";
/**
* Children of root.
*/
children: RootContent[];
/**
* Data associated with the hast root.
*/
data?: RootData | undefined;
}
/**
* Info associated with hast root nodes by the ecosystem.
*/
export interface RootData extends Data {}
/**
* HTML character data (plain text).
*/
export interface Text extends Literal {
/**
* Node type of HTML character data (plain text) in hast.
*/
type: "text";
/**
* Data associated with the text.
*/
data?: TextData | undefined;
}
/**
* Info associated with hast texts by the ecosystem.
*/
export interface TextData extends Data {}

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{
"name": "@types/hast",
"version": "3.0.4",
"description": "TypeScript definitions for hast",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/hast",
"license": "MIT",
"contributors": [
{
"name": "lukeggchapman",
"githubUsername": "lukeggchapman",
"url": "https://github.com/lukeggchapman"
},
{
"name": "Junyoung Choi",
"githubUsername": "rokt33r",
"url": "https://github.com/rokt33r"
},
{
"name": "Christian Murphy",
"githubUsername": "ChristianMurphy",
"url": "https://github.com/ChristianMurphy"
},
{
"name": "Remco Haszing",
"githubUsername": "remcohaszing",
"url": "https://github.com/remcohaszing"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/hast"
},
"scripts": {},
"dependencies": {
"@types/unist": "*"
},
"typesPublisherContentHash": "3f3f73826d79157c12087f5bb36195319c6f435b9e218fa7a8de88d1cc64d097",
"typeScriptVersion": "4.6"
}

21
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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
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# Installation
> `npm install --save @types/json-schema`
# Summary
This package contains type definitions for json-schema (https://github.com/kriszyp/json-schema).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/json-schema.
### Additional Details
* Last updated: Tue, 07 Nov 2023 03:09:37 GMT
* Dependencies: none
# Credits
These definitions were written by [Boris Cherny](https://github.com/bcherny), [Lucian Buzzo](https://github.com/lucianbuzzo), [Roland Groza](https://github.com/rolandjitsu), and [Jason Kwok](https://github.com/JasonHK).

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// ==================================================================================================
// JSON Schema Draft 04
// ==================================================================================================
/**
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.1
*/
export type JSONSchema4TypeName =
| "string" //
| "number"
| "integer"
| "boolean"
| "object"
| "array"
| "null"
| "any";
/**
* @see https://tools.ietf.org/html/draft-zyp-json-schema-04#section-3.5
*/
export type JSONSchema4Type =
| string //
| number
| boolean
| JSONSchema4Object
| JSONSchema4Array
| null;
// Workaround for infinite type recursion
export interface JSONSchema4Object {
[key: string]: JSONSchema4Type;
}
// Workaround for infinite type recursion
// https://github.com/Microsoft/TypeScript/issues/3496#issuecomment-128553540
export interface JSONSchema4Array extends Array<JSONSchema4Type> {}
/**
* Meta schema
*
* Recommended values:
* - 'http://json-schema.org/schema#'
* - 'http://json-schema.org/hyper-schema#'
* - 'http://json-schema.org/draft-04/schema#'
* - 'http://json-schema.org/draft-04/hyper-schema#'
* - 'http://json-schema.org/draft-03/schema#'
* - 'http://json-schema.org/draft-03/hyper-schema#'
*
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-5
*/
export type JSONSchema4Version = string;
/**
* JSON Schema V4
* @see https://tools.ietf.org/html/draft-zyp-json-schema-04
*/
export interface JSONSchema4 {
id?: string | undefined;
$ref?: string | undefined;
$schema?: JSONSchema4Version | undefined;
/**
* This attribute is a string that provides a short description of the
* instance property.
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.21
*/
title?: string | undefined;
/**
* This attribute is a string that provides a full description of the of
* purpose the instance property.
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.22
*/
description?: string | undefined;
default?: JSONSchema4Type | undefined;
multipleOf?: number | undefined;
maximum?: number | undefined;
exclusiveMaximum?: boolean | undefined;
minimum?: number | undefined;
exclusiveMinimum?: boolean | undefined;
maxLength?: number | undefined;
minLength?: number | undefined;
pattern?: string | undefined;
/**
* May only be defined when "items" is defined, and is a tuple of JSONSchemas.
*
* This provides a definition for additional items in an array instance
* when tuple definitions of the items is provided. This can be false
* to indicate additional items in the array are not allowed, or it can
* be a schema that defines the schema of the additional items.
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.6
*/
additionalItems?: boolean | JSONSchema4 | undefined;
/**
* This attribute defines the allowed items in an instance array, and
* MUST be a schema or an array of schemas. The default value is an
* empty schema which allows any value for items in the instance array.
*
* When this attribute value is a schema and the instance value is an
* array, then all the items in the array MUST be valid according to the
* schema.
*
* When this attribute value is an array of schemas and the instance
* value is an array, each position in the instance array MUST conform
* to the schema in the corresponding position for this array. This
* called tuple typing. When tuple typing is used, additional items are
* allowed, disallowed, or constrained by the "additionalItems"
* (Section 5.6) attribute using the same rules as
* "additionalProperties" (Section 5.4) for objects.
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.5
*/
items?: JSONSchema4 | JSONSchema4[] | undefined;
maxItems?: number | undefined;
minItems?: number | undefined;
uniqueItems?: boolean | undefined;
maxProperties?: number | undefined;
minProperties?: number | undefined;
/**
* This attribute indicates if the instance must have a value, and not
* be undefined. This is false by default, making the instance
* optional.
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.7
*/
required?: boolean | string[] | undefined;
/**
* This attribute defines a schema for all properties that are not
* explicitly defined in an object type definition. If specified, the
* value MUST be a schema or a boolean. If false is provided, no
* additional properties are allowed beyond the properties defined in
* the schema. The default value is an empty schema which allows any
* value for additional properties.
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.4
*/
additionalProperties?: boolean | JSONSchema4 | undefined;
definitions?: {
[k: string]: JSONSchema4;
} | undefined;
/**
* This attribute is an object with property definitions that define the
* valid values of instance object property values. When the instance
* value is an object, the property values of the instance object MUST
* conform to the property definitions in this object. In this object,
* each property definition's value MUST be a schema, and the property's
* name MUST be the name of the instance property that it defines. The
* instance property value MUST be valid according to the schema from
* the property definition. Properties are considered unordered, the
* order of the instance properties MAY be in any order.
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.2
*/
properties?: {
[k: string]: JSONSchema4;
} | undefined;
/**
* This attribute is an object that defines the schema for a set of
* property names of an object instance. The name of each property of
* this attribute's object is a regular expression pattern in the ECMA
* 262/Perl 5 format, while the value is a schema. If the pattern
* matches the name of a property on the instance object, the value of
* the instance's property MUST be valid against the pattern name's
* schema value.
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.3
*/
patternProperties?: {
[k: string]: JSONSchema4;
} | undefined;
dependencies?: {
[k: string]: JSONSchema4 | string[];
} | undefined;
/**
* This provides an enumeration of all possible values that are valid
* for the instance property. This MUST be an array, and each item in
* the array represents a possible value for the instance value. If
* this attribute is defined, the instance value MUST be one of the
* values in the array in order for the schema to be valid.
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.19
*/
enum?: JSONSchema4Type[] | undefined;
/**
* A single type, or a union of simple types
*/
type?: JSONSchema4TypeName | JSONSchema4TypeName[] | undefined;
allOf?: JSONSchema4[] | undefined;
anyOf?: JSONSchema4[] | undefined;
oneOf?: JSONSchema4[] | undefined;
not?: JSONSchema4 | undefined;
/**
* The value of this property MUST be another schema which will provide
* a base schema which the current schema will inherit from. The
* inheritance rules are such that any instance that is valid according
* to the current schema MUST be valid according to the referenced
* schema. This MAY also be an array, in which case, the instance MUST
* be valid for all the schemas in the array. A schema that extends
* another schema MAY define additional attributes, constrain existing
* attributes, or add other constraints.
*
* Conceptually, the behavior of extends can be seen as validating an
* instance against all constraints in the extending schema as well as
* the extended schema(s).
*
* @see https://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.26
*/
extends?: string | string[] | undefined;
/**
* @see https://tools.ietf.org/html/draft-zyp-json-schema-04#section-5.6
*/
[k: string]: any;
format?: string | undefined;
}
// ==================================================================================================
// JSON Schema Draft 06
// ==================================================================================================
export type JSONSchema6TypeName =
| "string" //
| "number"
| "integer"
| "boolean"
| "object"
| "array"
| "null"
| "any";
export type JSONSchema6Type =
| string //
| number
| boolean
| JSONSchema6Object
| JSONSchema6Array
| null;
// Workaround for infinite type recursion
export interface JSONSchema6Object {
[key: string]: JSONSchema6Type;
}
// Workaround for infinite type recursion
// https://github.com/Microsoft/TypeScript/issues/3496#issuecomment-128553540
export interface JSONSchema6Array extends Array<JSONSchema6Type> {}
/**
* Meta schema
*
* Recommended values:
* - 'http://json-schema.org/schema#'
* - 'http://json-schema.org/hyper-schema#'
* - 'http://json-schema.org/draft-06/schema#'
* - 'http://json-schema.org/draft-06/hyper-schema#'
*
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-5
*/
export type JSONSchema6Version = string;
/**
* JSON Schema V6
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01
*/
export type JSONSchema6Definition = JSONSchema6 | boolean;
export interface JSONSchema6 {
$id?: string | undefined;
$ref?: string | undefined;
$schema?: JSONSchema6Version | undefined;
/**
* Must be strictly greater than 0.
* A numeric instance is valid only if division by this keyword's value results in an integer.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.1
*/
multipleOf?: number | undefined;
/**
* Representing an inclusive upper limit for a numeric instance.
* This keyword validates only if the instance is less than or exactly equal to "maximum".
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.2
*/
maximum?: number | undefined;
/**
* Representing an exclusive upper limit for a numeric instance.
* This keyword validates only if the instance is strictly less than (not equal to) to "exclusiveMaximum".
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.3
*/
exclusiveMaximum?: number | undefined;
/**
* Representing an inclusive lower limit for a numeric instance.
* This keyword validates only if the instance is greater than or exactly equal to "minimum".
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.4
*/
minimum?: number | undefined;
/**
* Representing an exclusive lower limit for a numeric instance.
* This keyword validates only if the instance is strictly greater than (not equal to) to "exclusiveMinimum".
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.5
*/
exclusiveMinimum?: number | undefined;
/**
* Must be a non-negative integer.
* A string instance is valid against this keyword if its length is less than, or equal to, the value of this keyword.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.6
*/
maxLength?: number | undefined;
/**
* Must be a non-negative integer.
* A string instance is valid against this keyword if its length is greater than, or equal to, the value of this keyword.
* Omitting this keyword has the same behavior as a value of 0.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.7
*/
minLength?: number | undefined;
/**
* Should be a valid regular expression, according to the ECMA 262 regular expression dialect.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.8
*/
pattern?: string | undefined;
/**
* This keyword determines how child instances validate for arrays, and does not directly validate the immediate instance itself.
* Omitting this keyword has the same behavior as an empty schema.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.9
*/
items?: JSONSchema6Definition | JSONSchema6Definition[] | undefined;
/**
* This keyword determines how child instances validate for arrays, and does not directly validate the immediate instance itself.
* If "items" is an array of schemas, validation succeeds if every instance element
* at a position greater than the size of "items" validates against "additionalItems".
* Otherwise, "additionalItems" MUST be ignored, as the "items" schema
* (possibly the default value of an empty schema) is applied to all elements.
* Omitting this keyword has the same behavior as an empty schema.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.10
*/
additionalItems?: JSONSchema6Definition | undefined;
/**
* Must be a non-negative integer.
* An array instance is valid against "maxItems" if its size is less than, or equal to, the value of this keyword.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.11
*/
maxItems?: number | undefined;
/**
* Must be a non-negative integer.
* An array instance is valid against "maxItems" if its size is greater than, or equal to, the value of this keyword.
* Omitting this keyword has the same behavior as a value of 0.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.12
*/
minItems?: number | undefined;
/**
* If this keyword has boolean value false, the instance validates successfully.
* If it has boolean value true, the instance validates successfully if all of its elements are unique.
* Omitting this keyword has the same behavior as a value of false.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.13
*/
uniqueItems?: boolean | undefined;
/**
* An array instance is valid against "contains" if at least one of its elements is valid against the given schema.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.14
*/
contains?: JSONSchema6Definition | undefined;
/**
* Must be a non-negative integer.
* An object instance is valid against "maxProperties" if its number of properties is less than, or equal to, the value of this keyword.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.15
*/
maxProperties?: number | undefined;
/**
* Must be a non-negative integer.
* An object instance is valid against "maxProperties" if its number of properties is greater than,
* or equal to, the value of this keyword.
* Omitting this keyword has the same behavior as a value of 0.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.16
*/
minProperties?: number | undefined;
/**
* Elements of this array must be unique.
* An object instance is valid against this keyword if every item in the array is the name of a property in the instance.
* Omitting this keyword has the same behavior as an empty array.
*
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.17
*/
required?: string[] | undefined;
/**
* This keyword determines how child instances validate for objects, and does not directly validate the immediate instance itself.
* Validation succeeds if, for each name that appears in both the instance and as a name within this keyword's value,
* the child instance for that name successfully validates against the corresponding schema.
* Omitting this keyword has the same behavior as an empty object.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.18
*/
properties?: {
[k: string]: JSONSchema6Definition;
} | undefined;
/**
* This attribute is an object that defines the schema for a set of property names of an object instance.
* The name of each property of this attribute's object is a regular expression pattern in the ECMA 262, while the value is a schema.
* If the pattern matches the name of a property on the instance object, the value of the instance's property
* MUST be valid against the pattern name's schema value.
* Omitting this keyword has the same behavior as an empty object.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.19
*/
patternProperties?: {
[k: string]: JSONSchema6Definition;
} | undefined;
/**
* This attribute defines a schema for all properties that are not explicitly defined in an object type definition.
* If specified, the value MUST be a schema or a boolean.
* If false is provided, no additional properties are allowed beyond the properties defined in the schema.
* The default value is an empty schema which allows any value for additional properties.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.20
*/
additionalProperties?: JSONSchema6Definition | undefined;
/**
* This keyword specifies rules that are evaluated if the instance is an object and contains a certain property.
* Each property specifies a dependency.
* If the dependency value is an array, each element in the array must be unique.
* Omitting this keyword has the same behavior as an empty object.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.21
*/
dependencies?: {
[k: string]: JSONSchema6Definition | string[];
} | undefined;
/**
* Takes a schema which validates the names of all properties rather than their values.
* Note the property name that the schema is testing will always be a string.
* Omitting this keyword has the same behavior as an empty schema.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.22
*/
propertyNames?: JSONSchema6Definition | undefined;
/**
* This provides an enumeration of all possible values that are valid
* for the instance property. This MUST be an array, and each item in
* the array represents a possible value for the instance value. If
* this attribute is defined, the instance value MUST be one of the
* values in the array in order for the schema to be valid.
*
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.23
*/
enum?: JSONSchema6Type[] | undefined;
/**
* More readable form of a one-element "enum"
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.24
*/
const?: JSONSchema6Type | undefined;
/**
* A single type, or a union of simple types
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.25
*/
type?: JSONSchema6TypeName | JSONSchema6TypeName[] | undefined;
/**
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.26
*/
allOf?: JSONSchema6Definition[] | undefined;
/**
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.27
*/
anyOf?: JSONSchema6Definition[] | undefined;
/**
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.28
*/
oneOf?: JSONSchema6Definition[] | undefined;
/**
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-6.29
*/
not?: JSONSchema6Definition | undefined;
/**
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-7.1
*/
definitions?: {
[k: string]: JSONSchema6Definition;
} | undefined;
/**
* This attribute is a string that provides a short description of the instance property.
*
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-7.2
*/
title?: string | undefined;
/**
* This attribute is a string that provides a full description of the of purpose the instance property.
*
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-7.2
*/
description?: string | undefined;
/**
* This keyword can be used to supply a default JSON value associated with a particular schema.
* It is RECOMMENDED that a default value be valid against the associated schema.
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-7.3
*/
default?: JSONSchema6Type | undefined;
/**
* Array of examples with no validation effect the value of "default" is usable as an example without repeating it under this keyword
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-7.4
*/
examples?: JSONSchema6Type[] | undefined;
/**
* @see https://tools.ietf.org/html/draft-wright-json-schema-validation-01#section-8
*/
format?: string | undefined;
}
// ==================================================================================================
// JSON Schema Draft 07
// ==================================================================================================
// https://tools.ietf.org/html/draft-handrews-json-schema-validation-01
// --------------------------------------------------------------------------------------------------
/**
* Primitive type
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-6.1.1
*/
export type JSONSchema7TypeName =
| "string" //
| "number"
| "integer"
| "boolean"
| "object"
| "array"
| "null";
/**
* Primitive type
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-6.1.1
*/
export type JSONSchema7Type =
| string //
| number
| boolean
| JSONSchema7Object
| JSONSchema7Array
| null;
// Workaround for infinite type recursion
export interface JSONSchema7Object {
[key: string]: JSONSchema7Type;
}
// Workaround for infinite type recursion
// https://github.com/Microsoft/TypeScript/issues/3496#issuecomment-128553540
export interface JSONSchema7Array extends Array<JSONSchema7Type> {}
/**
* Meta schema
*
* Recommended values:
* - 'http://json-schema.org/schema#'
* - 'http://json-schema.org/hyper-schema#'
* - 'http://json-schema.org/draft-07/schema#'
* - 'http://json-schema.org/draft-07/hyper-schema#'
*
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-5
*/
export type JSONSchema7Version = string;
/**
* JSON Schema v7
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01
*/
export type JSONSchema7Definition = JSONSchema7 | boolean;
export interface JSONSchema7 {
$id?: string | undefined;
$ref?: string | undefined;
$schema?: JSONSchema7Version | undefined;
$comment?: string | undefined;
/**
* @see https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-8.2.4
* @see https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-validation-00#appendix-A
*/
$defs?: {
[key: string]: JSONSchema7Definition;
} | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-6.1
*/
type?: JSONSchema7TypeName | JSONSchema7TypeName[] | undefined;
enum?: JSONSchema7Type[] | undefined;
const?: JSONSchema7Type | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-6.2
*/
multipleOf?: number | undefined;
maximum?: number | undefined;
exclusiveMaximum?: number | undefined;
minimum?: number | undefined;
exclusiveMinimum?: number | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-6.3
*/
maxLength?: number | undefined;
minLength?: number | undefined;
pattern?: string | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-6.4
*/
items?: JSONSchema7Definition | JSONSchema7Definition[] | undefined;
additionalItems?: JSONSchema7Definition | undefined;
maxItems?: number | undefined;
minItems?: number | undefined;
uniqueItems?: boolean | undefined;
contains?: JSONSchema7Definition | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-6.5
*/
maxProperties?: number | undefined;
minProperties?: number | undefined;
required?: string[] | undefined;
properties?: {
[key: string]: JSONSchema7Definition;
} | undefined;
patternProperties?: {
[key: string]: JSONSchema7Definition;
} | undefined;
additionalProperties?: JSONSchema7Definition | undefined;
dependencies?: {
[key: string]: JSONSchema7Definition | string[];
} | undefined;
propertyNames?: JSONSchema7Definition | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-6.6
*/
if?: JSONSchema7Definition | undefined;
then?: JSONSchema7Definition | undefined;
else?: JSONSchema7Definition | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-6.7
*/
allOf?: JSONSchema7Definition[] | undefined;
anyOf?: JSONSchema7Definition[] | undefined;
oneOf?: JSONSchema7Definition[] | undefined;
not?: JSONSchema7Definition | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-7
*/
format?: string | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-8
*/
contentMediaType?: string | undefined;
contentEncoding?: string | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-9
*/
definitions?: {
[key: string]: JSONSchema7Definition;
} | undefined;
/**
* @see https://tools.ietf.org/html/draft-handrews-json-schema-validation-01#section-10
*/
title?: string | undefined;
description?: string | undefined;
default?: JSONSchema7Type | undefined;
readOnly?: boolean | undefined;
writeOnly?: boolean | undefined;
examples?: JSONSchema7Type | undefined;
}
export interface ValidationResult {
valid: boolean;
errors: ValidationError[];
}
export interface ValidationError {
property: string;
message: string;
}
/**
* To use the validator call JSONSchema.validate with an instance object and an optional schema object.
* If a schema is provided, it will be used to validate. If the instance object refers to a schema (self-validating),
* that schema will be used to validate and the schema parameter is not necessary (if both exist,
* both validations will occur).
*/
export function validate(instance: {}, schema: JSONSchema4 | JSONSchema6 | JSONSchema7): ValidationResult;
/**
* The checkPropertyChange method will check to see if an value can legally be in property with the given schema
* This is slightly different than the validate method in that it will fail if the schema is readonly and it will
* not check for self-validation, it is assumed that the passed in value is already internally valid.
*/
export function checkPropertyChange(
value: any,
schema: JSONSchema4 | JSONSchema6 | JSONSchema7,
property: string,
): ValidationResult;
/**
* This checks to ensure that the result is valid and will throw an appropriate error message if it is not.
*/
export function mustBeValid(result: ValidationResult): void;

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{
"name": "@types/json-schema",
"version": "7.0.15",
"description": "TypeScript definitions for json-schema",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/json-schema",
"license": "MIT",
"contributors": [
{
"name": "Boris Cherny",
"githubUsername": "bcherny",
"url": "https://github.com/bcherny"
},
{
"name": "Lucian Buzzo",
"githubUsername": "lucianbuzzo",
"url": "https://github.com/lucianbuzzo"
},
{
"name": "Roland Groza",
"githubUsername": "rolandjitsu",
"url": "https://github.com/rolandjitsu"
},
{
"name": "Jason Kwok",
"githubUsername": "JasonHK",
"url": "https://github.com/JasonHK"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/json-schema"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "79984fd70cd25c3f7d72b84368778c763c89728ea0073832d745d4691b705257",
"typeScriptVersion": "4.5"
}

21
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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
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# Installation
> `npm install --save @types/mdast`
# Summary
This package contains type definitions for mdast (https://github.com/syntax-tree/mdast).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/mdast.
### Additional Details
* Last updated: Tue, 14 May 2024 07:35:36 GMT
* Dependencies: [@types/unist](https://npmjs.com/package/@types/unist)
# Credits
These definitions were written by [Christian Murphy](https://github.com/ChristianMurphy), [Jun Lu](https://github.com/lujun2), [Remco Haszing](https://github.com/remcohaszing), [Titus Wormer](https://github.com/wooorm), and [Remco Haszing](https://github.com/remcohaszing).

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{
"name": "@types/mdast",
"version": "4.0.4",
"description": "TypeScript definitions for mdast",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/mdast",
"license": "MIT",
"contributors": [
{
"name": "Christian Murphy",
"githubUsername": "ChristianMurphy",
"url": "https://github.com/ChristianMurphy"
},
{
"name": "Jun Lu",
"githubUsername": "lujun2",
"url": "https://github.com/lujun2"
},
{
"name": "Remco Haszing",
"githubUsername": "remcohaszing",
"url": "https://github.com/remcohaszing"
},
{
"name": "Titus Wormer",
"githubUsername": "wooorm",
"url": "https://github.com/wooorm"
},
{
"name": "Remco Haszing",
"githubUsername": "remcohaszing",
"url": "https://github.com/remcohaszing"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/mdast"
},
"scripts": {},
"dependencies": {
"@types/unist": "*"
},
"typesPublisherContentHash": "1599d3ca45533e9d9248231c90843306b49c07fe13ad94ebf7345da44d8fd4bd",
"typeScriptVersion": "4.7"
}

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MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

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# Installation
> `npm install --save @types/ms`
# Summary
This package contains type definitions for ms (https://github.com/vercel/ms).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/ms.
## [index.d.ts](https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/ms/index.d.ts)
````ts
/**
* Short/Long format for `value`.
*
* @param {Number} value
* @param {{long: boolean}} options
* @return {String}
*/
declare function ms(value: number, options?: { long: boolean }): string;
/**
* Parse the given `value` and return milliseconds.
*
* @param {ms.StringValue} value
* @return {Number}
*/
declare function ms(value: ms.StringValue): number;
declare namespace ms {
// Unit, UnitAnyCase, and StringValue are backported from ms@3
// https://github.com/vercel/ms/blob/8b5923d1d86c84a9f6aba8022d416dcf2361aa8d/src/index.ts
type Unit =
| "Years"
| "Year"
| "Yrs"
| "Yr"
| "Y"
| "Weeks"
| "Week"
| "W"
| "Days"
| "Day"
| "D"
| "Hours"
| "Hour"
| "Hrs"
| "Hr"
| "H"
| "Minutes"
| "Minute"
| "Mins"
| "Min"
| "M"
| "Seconds"
| "Second"
| "Secs"
| "Sec"
| "s"
| "Milliseconds"
| "Millisecond"
| "Msecs"
| "Msec"
| "Ms";
type UnitAnyCase = Unit | Uppercase<Unit> | Lowercase<Unit>;
type StringValue =
| `${number}`
| `${number}${UnitAnyCase}`
| `${number} ${UnitAnyCase}`;
}
export = ms;
````
### Additional Details
* Last updated: Thu, 16 Jan 2025 21:02:45 GMT
* Dependencies: none
# Credits
These definitions were written by [Zhiyuan Wang](https://github.com/danny8002).

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/**
* Short/Long format for `value`.
*
* @param {Number} value
* @param {{long: boolean}} options
* @return {String}
*/
declare function ms(value: number, options?: { long: boolean }): string;
/**
* Parse the given `value` and return milliseconds.
*
* @param {ms.StringValue} value
* @return {Number}
*/
declare function ms(value: ms.StringValue): number;
declare namespace ms {
// Unit, UnitAnyCase, and StringValue are backported from ms@3
// https://github.com/vercel/ms/blob/8b5923d1d86c84a9f6aba8022d416dcf2361aa8d/src/index.ts
type Unit =
| "Years"
| "Year"
| "Yrs"
| "Yr"
| "Y"
| "Weeks"
| "Week"
| "W"
| "Days"
| "Day"
| "D"
| "Hours"
| "Hour"
| "Hrs"
| "Hr"
| "H"
| "Minutes"
| "Minute"
| "Mins"
| "Min"
| "M"
| "Seconds"
| "Second"
| "Secs"
| "Sec"
| "s"
| "Milliseconds"
| "Millisecond"
| "Msecs"
| "Msec"
| "Ms";
type UnitAnyCase = Unit | Uppercase<Unit> | Lowercase<Unit>;
type StringValue =
| `${number}`
| `${number}${UnitAnyCase}`
| `${number} ${UnitAnyCase}`;
}
export = ms;

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{
"name": "@types/ms",
"version": "2.1.0",
"description": "TypeScript definitions for ms",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/ms",
"license": "MIT",
"contributors": [
{
"name": "Zhiyuan Wang",
"githubUsername": "danny8002",
"url": "https://github.com/danny8002"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/ms"
},
"scripts": {},
"dependencies": {},
"peerDependencies": {},
"typesPublisherContentHash": "2c8651ce1714fdc6bcbc0f262c93a790f1d127fb1c2dc8edbb583decef56fd39",
"typeScriptVersion": "5.0"
}

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node_modules/@types/node/LICENSE generated vendored Normal file
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@@ -0,0 +1,21 @@
MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE

15
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# Installation
> `npm install --save @types/node`
# Summary
This package contains type definitions for node (https://nodejs.org/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/node.
### Additional Details
* Last updated: Wed, 23 Oct 2024 03:36:41 GMT
* Dependencies: [undici-types](https://npmjs.com/package/undici-types)
# Credits
These definitions were written by [Microsoft TypeScript](https://github.com/Microsoft), [Alberto Schiabel](https://github.com/jkomyno), [Alvis HT Tang](https://github.com/alvis), [Andrew Makarov](https://github.com/r3nya), [Benjamin Toueg](https://github.com/btoueg), [Chigozirim C.](https://github.com/smac89), [David Junger](https://github.com/touffy), [Deividas Bakanas](https://github.com/DeividasBakanas), [Eugene Y. Q. Shen](https://github.com/eyqs), [Hannes Magnusson](https://github.com/Hannes-Magnusson-CK), [Huw](https://github.com/hoo29), [Kelvin Jin](https://github.com/kjin), [Klaus Meinhardt](https://github.com/ajafff), [Lishude](https://github.com/islishude), [Mariusz Wiktorczyk](https://github.com/mwiktorczyk), [Mohsen Azimi](https://github.com/mohsen1), [Nikita Galkin](https://github.com/galkin), [Parambir Singh](https://github.com/parambirs), [Sebastian Silbermann](https://github.com/eps1lon), [Thomas den Hollander](https://github.com/ThomasdenH), [Wilco Bakker](https://github.com/WilcoBakker), [wwwy3y3](https://github.com/wwwy3y3), [Samuel Ainsworth](https://github.com/samuela), [Kyle Uehlein](https://github.com/kuehlein), [Thanik Bhongbhibhat](https://github.com/bhongy), [Marcin Kopacz](https://github.com/chyzwar), [Trivikram Kamat](https://github.com/trivikr), [Junxiao Shi](https://github.com/yoursunny), [Ilia Baryshnikov](https://github.com/qwelias), [ExE Boss](https://github.com/ExE-Boss), [Piotr Błażejewicz](https://github.com/peterblazejewicz), [Anna Henningsen](https://github.com/addaleax), [Victor Perin](https://github.com/victorperin), [Yongsheng Zhang](https://github.com/ZYSzys), [NodeJS Contributors](https://github.com/NodeJS), [Linus Unnebäck](https://github.com/LinusU), [wafuwafu13](https://github.com/wafuwafu13), [Matteo Collina](https://github.com/mcollina), and [Dmitry Semigradsky](https://github.com/Semigradsky).

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declare module "assert/strict" {
import { strict } from "node:assert";
export = strict;
}
declare module "node:assert/strict" {
import { strict } from "node:assert";
export = strict;
}

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/**
* We strongly discourage the use of the `async_hooks` API.
* Other APIs that can cover most of its use cases include:
*
* * [`AsyncLocalStorage`](https://nodejs.org/docs/latest-v22.x/api/async_context.html#class-asynclocalstorage) tracks async context
* * [`process.getActiveResourcesInfo()`](https://nodejs.org/docs/latest-v22.x/api/process.html#processgetactiveresourcesinfo) tracks active resources
*
* The `node:async_hooks` module provides an API to track asynchronous resources.
* It can be accessed using:
*
* ```js
* import async_hooks from 'node:async_hooks';
* ```
* @experimental
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/async_hooks.js)
*/
declare module "async_hooks" {
/**
* ```js
* import { executionAsyncId } from 'node:async_hooks';
* import fs from 'node:fs';
*
* console.log(executionAsyncId()); // 1 - bootstrap
* const path = '.';
* fs.open(path, 'r', (err, fd) => {
* console.log(executionAsyncId()); // 6 - open()
* });
* ```
*
* The ID returned from `executionAsyncId()` is related to execution timing, not
* causality (which is covered by `triggerAsyncId()`):
*
* ```js
* const server = net.createServer((conn) => {
* // Returns the ID of the server, not of the new connection, because the
* // callback runs in the execution scope of the server's MakeCallback().
* async_hooks.executionAsyncId();
*
* }).listen(port, () => {
* // Returns the ID of a TickObject (process.nextTick()) because all
* // callbacks passed to .listen() are wrapped in a nextTick().
* async_hooks.executionAsyncId();
* });
* ```
*
* Promise contexts may not get precise `executionAsyncIds` by default.
* See the section on [promise execution tracking](https://nodejs.org/docs/latest-v22.x/api/async_hooks.html#promise-execution-tracking).
* @since v8.1.0
* @return The `asyncId` of the current execution context. Useful to track when something calls.
*/
function executionAsyncId(): number;
/**
* Resource objects returned by `executionAsyncResource()` are most often internal
* Node.js handle objects with undocumented APIs. Using any functions or properties
* on the object is likely to crash your application and should be avoided.
*
* Using `executionAsyncResource()` in the top-level execution context will
* return an empty object as there is no handle or request object to use,
* but having an object representing the top-level can be helpful.
*
* ```js
* import { open } from 'node:fs';
* import { executionAsyncId, executionAsyncResource } from 'node:async_hooks';
*
* console.log(executionAsyncId(), executionAsyncResource()); // 1 {}
* open(new URL(import.meta.url), 'r', (err, fd) => {
* console.log(executionAsyncId(), executionAsyncResource()); // 7 FSReqWrap
* });
* ```
*
* This can be used to implement continuation local storage without the
* use of a tracking `Map` to store the metadata:
*
* ```js
* import { createServer } from 'node:http';
* import {
* executionAsyncId,
* executionAsyncResource,
* createHook,
* } from 'node:async_hooks';
* const sym = Symbol('state'); // Private symbol to avoid pollution
*
* createHook({
* init(asyncId, type, triggerAsyncId, resource) {
* const cr = executionAsyncResource();
* if (cr) {
* resource[sym] = cr[sym];
* }
* },
* }).enable();
*
* const server = createServer((req, res) => {
* executionAsyncResource()[sym] = { state: req.url };
* setTimeout(function() {
* res.end(JSON.stringify(executionAsyncResource()[sym]));
* }, 100);
* }).listen(3000);
* ```
* @since v13.9.0, v12.17.0
* @return The resource representing the current execution. Useful to store data within the resource.
*/
function executionAsyncResource(): object;
/**
* ```js
* const server = net.createServer((conn) => {
* // The resource that caused (or triggered) this callback to be called
* // was that of the new connection. Thus the return value of triggerAsyncId()
* // is the asyncId of "conn".
* async_hooks.triggerAsyncId();
*
* }).listen(port, () => {
* // Even though all callbacks passed to .listen() are wrapped in a nextTick()
* // the callback itself exists because the call to the server's .listen()
* // was made. So the return value would be the ID of the server.
* async_hooks.triggerAsyncId();
* });
* ```
*
* Promise contexts may not get valid `triggerAsyncId`s by default. See
* the section on [promise execution tracking](https://nodejs.org/docs/latest-v22.x/api/async_hooks.html#promise-execution-tracking).
* @return The ID of the resource responsible for calling the callback that is currently being executed.
*/
function triggerAsyncId(): number;
interface HookCallbacks {
/**
* Called when a class is constructed that has the possibility to emit an asynchronous event.
* @param asyncId A unique ID for the async resource
* @param type The type of the async resource
* @param triggerAsyncId The unique ID of the async resource in whose execution context this async resource was created
* @param resource Reference to the resource representing the async operation, needs to be released during destroy
*/
init?(asyncId: number, type: string, triggerAsyncId: number, resource: object): void;
/**
* When an asynchronous operation is initiated or completes a callback is called to notify the user.
* The before callback is called just before said callback is executed.
* @param asyncId the unique identifier assigned to the resource about to execute the callback.
*/
before?(asyncId: number): void;
/**
* Called immediately after the callback specified in `before` is completed.
*
* If an uncaught exception occurs during execution of the callback, then `after` will run after the `'uncaughtException'` event is emitted or a `domain`'s handler runs.
* @param asyncId the unique identifier assigned to the resource which has executed the callback.
*/
after?(asyncId: number): void;
/**
* Called when a promise has resolve() called. This may not be in the same execution id
* as the promise itself.
* @param asyncId the unique id for the promise that was resolve()d.
*/
promiseResolve?(asyncId: number): void;
/**
* Called after the resource corresponding to asyncId is destroyed
* @param asyncId a unique ID for the async resource
*/
destroy?(asyncId: number): void;
}
interface AsyncHook {
/**
* Enable the callbacks for a given AsyncHook instance. If no callbacks are provided enabling is a noop.
*/
enable(): this;
/**
* Disable the callbacks for a given AsyncHook instance from the global pool of AsyncHook callbacks to be executed. Once a hook has been disabled it will not be called again until enabled.
*/
disable(): this;
}
/**
* Registers functions to be called for different lifetime events of each async
* operation.
*
* The callbacks `init()`/`before()`/`after()`/`destroy()` are called for the
* respective asynchronous event during a resource's lifetime.
*
* All callbacks are optional. For example, if only resource cleanup needs to
* be tracked, then only the `destroy` callback needs to be passed. The
* specifics of all functions that can be passed to `callbacks` is in the `Hook Callbacks` section.
*
* ```js
* import { createHook } from 'node:async_hooks';
*
* const asyncHook = createHook({
* init(asyncId, type, triggerAsyncId, resource) { },
* destroy(asyncId) { },
* });
* ```
*
* The callbacks will be inherited via the prototype chain:
*
* ```js
* class MyAsyncCallbacks {
* init(asyncId, type, triggerAsyncId, resource) { }
* destroy(asyncId) {}
* }
*
* class MyAddedCallbacks extends MyAsyncCallbacks {
* before(asyncId) { }
* after(asyncId) { }
* }
*
* const asyncHook = async_hooks.createHook(new MyAddedCallbacks());
* ```
*
* Because promises are asynchronous resources whose lifecycle is tracked
* via the async hooks mechanism, the `init()`, `before()`, `after()`, and`destroy()` callbacks _must not_ be async functions that return promises.
* @since v8.1.0
* @param callbacks The `Hook Callbacks` to register
* @return Instance used for disabling and enabling hooks
*/
function createHook(callbacks: HookCallbacks): AsyncHook;
interface AsyncResourceOptions {
/**
* The ID of the execution context that created this async event.
* @default executionAsyncId()
*/
triggerAsyncId?: number | undefined;
/**
* Disables automatic `emitDestroy` when the object is garbage collected.
* This usually does not need to be set (even if `emitDestroy` is called
* manually), unless the resource's `asyncId` is retrieved and the
* sensitive API's `emitDestroy` is called with it.
* @default false
*/
requireManualDestroy?: boolean | undefined;
}
/**
* The class `AsyncResource` is designed to be extended by the embedder's async
* resources. Using this, users can easily trigger the lifetime events of their
* own resources.
*
* The `init` hook will trigger when an `AsyncResource` is instantiated.
*
* The following is an overview of the `AsyncResource` API.
*
* ```js
* import { AsyncResource, executionAsyncId } from 'node:async_hooks';
*
* // AsyncResource() is meant to be extended. Instantiating a
* // new AsyncResource() also triggers init. If triggerAsyncId is omitted then
* // async_hook.executionAsyncId() is used.
* const asyncResource = new AsyncResource(
* type, { triggerAsyncId: executionAsyncId(), requireManualDestroy: false },
* );
*
* // Run a function in the execution context of the resource. This will
* // * establish the context of the resource
* // * trigger the AsyncHooks before callbacks
* // * call the provided function `fn` with the supplied arguments
* // * trigger the AsyncHooks after callbacks
* // * restore the original execution context
* asyncResource.runInAsyncScope(fn, thisArg, ...args);
*
* // Call AsyncHooks destroy callbacks.
* asyncResource.emitDestroy();
*
* // Return the unique ID assigned to the AsyncResource instance.
* asyncResource.asyncId();
*
* // Return the trigger ID for the AsyncResource instance.
* asyncResource.triggerAsyncId();
* ```
*/
class AsyncResource {
/**
* AsyncResource() is meant to be extended. Instantiating a
* new AsyncResource() also triggers init. If triggerAsyncId is omitted then
* async_hook.executionAsyncId() is used.
* @param type The type of async event.
* @param triggerAsyncId The ID of the execution context that created
* this async event (default: `executionAsyncId()`), or an
* AsyncResourceOptions object (since v9.3.0)
*/
constructor(type: string, triggerAsyncId?: number | AsyncResourceOptions);
/**
* Binds the given function to the current execution context.
* @since v14.8.0, v12.19.0
* @param fn The function to bind to the current execution context.
* @param type An optional name to associate with the underlying `AsyncResource`.
*/
static bind<Func extends (this: ThisArg, ...args: any[]) => any, ThisArg>(
fn: Func,
type?: string,
thisArg?: ThisArg,
): Func;
/**
* Binds the given function to execute to this `AsyncResource`'s scope.
* @since v14.8.0, v12.19.0
* @param fn The function to bind to the current `AsyncResource`.
*/
bind<Func extends (...args: any[]) => any>(fn: Func): Func;
/**
* Call the provided function with the provided arguments in the execution context
* of the async resource. This will establish the context, trigger the AsyncHooks
* before callbacks, call the function, trigger the AsyncHooks after callbacks, and
* then restore the original execution context.
* @since v9.6.0
* @param fn The function to call in the execution context of this async resource.
* @param thisArg The receiver to be used for the function call.
* @param args Optional arguments to pass to the function.
*/
runInAsyncScope<This, Result>(
fn: (this: This, ...args: any[]) => Result,
thisArg?: This,
...args: any[]
): Result;
/**
* Call all `destroy` hooks. This should only ever be called once. An error will
* be thrown if it is called more than once. This **must** be manually called. If
* the resource is left to be collected by the GC then the `destroy` hooks will
* never be called.
* @return A reference to `asyncResource`.
*/
emitDestroy(): this;
/**
* @return The unique `asyncId` assigned to the resource.
*/
asyncId(): number;
/**
* @return The same `triggerAsyncId` that is passed to the `AsyncResource` constructor.
*/
triggerAsyncId(): number;
}
/**
* This class creates stores that stay coherent through asynchronous operations.
*
* While you can create your own implementation on top of the `node:async_hooks` module, `AsyncLocalStorage` should be preferred as it is a performant and memory
* safe implementation that involves significant optimizations that are non-obvious
* to implement.
*
* The following example uses `AsyncLocalStorage` to build a simple logger
* that assigns IDs to incoming HTTP requests and includes them in messages
* logged within each request.
*
* ```js
* import http from 'node:http';
* import { AsyncLocalStorage } from 'node:async_hooks';
*
* const asyncLocalStorage = new AsyncLocalStorage();
*
* function logWithId(msg) {
* const id = asyncLocalStorage.getStore();
* console.log(`${id !== undefined ? id : '-'}:`, msg);
* }
*
* let idSeq = 0;
* http.createServer((req, res) => {
* asyncLocalStorage.run(idSeq++, () => {
* logWithId('start');
* // Imagine any chain of async operations here
* setImmediate(() => {
* logWithId('finish');
* res.end();
* });
* });
* }).listen(8080);
*
* http.get('http://localhost:8080');
* http.get('http://localhost:8080');
* // Prints:
* // 0: start
* // 1: start
* // 0: finish
* // 1: finish
* ```
*
* Each instance of `AsyncLocalStorage` maintains an independent storage context.
* Multiple instances can safely exist simultaneously without risk of interfering
* with each other's data.
* @since v13.10.0, v12.17.0
*/
class AsyncLocalStorage<T> {
/**
* Binds the given function to the current execution context.
* @since v19.8.0
* @experimental
* @param fn The function to bind to the current execution context.
* @return A new function that calls `fn` within the captured execution context.
*/
static bind<Func extends (...args: any[]) => any>(fn: Func): Func;
/**
* Captures the current execution context and returns a function that accepts a
* function as an argument. Whenever the returned function is called, it
* calls the function passed to it within the captured context.
*
* ```js
* const asyncLocalStorage = new AsyncLocalStorage();
* const runInAsyncScope = asyncLocalStorage.run(123, () => AsyncLocalStorage.snapshot());
* const result = asyncLocalStorage.run(321, () => runInAsyncScope(() => asyncLocalStorage.getStore()));
* console.log(result); // returns 123
* ```
*
* AsyncLocalStorage.snapshot() can replace the use of AsyncResource for simple
* async context tracking purposes, for example:
*
* ```js
* class Foo {
* #runInAsyncScope = AsyncLocalStorage.snapshot();
*
* get() { return this.#runInAsyncScope(() => asyncLocalStorage.getStore()); }
* }
*
* const foo = asyncLocalStorage.run(123, () => new Foo());
* console.log(asyncLocalStorage.run(321, () => foo.get())); // returns 123
* ```
* @since v19.8.0
* @experimental
* @return A new function with the signature `(fn: (...args) : R, ...args) : R`.
*/
static snapshot(): <R, TArgs extends any[]>(fn: (...args: TArgs) => R, ...args: TArgs) => R;
/**
* Disables the instance of `AsyncLocalStorage`. All subsequent calls
* to `asyncLocalStorage.getStore()` will return `undefined` until `asyncLocalStorage.run()` or `asyncLocalStorage.enterWith()` is called again.
*
* When calling `asyncLocalStorage.disable()`, all current contexts linked to the
* instance will be exited.
*
* Calling `asyncLocalStorage.disable()` is required before the `asyncLocalStorage` can be garbage collected. This does not apply to stores
* provided by the `asyncLocalStorage`, as those objects are garbage collected
* along with the corresponding async resources.
*
* Use this method when the `asyncLocalStorage` is not in use anymore
* in the current process.
* @since v13.10.0, v12.17.0
* @experimental
*/
disable(): void;
/**
* Returns the current store.
* If called outside of an asynchronous context initialized by
* calling `asyncLocalStorage.run()` or `asyncLocalStorage.enterWith()`, it
* returns `undefined`.
* @since v13.10.0, v12.17.0
*/
getStore(): T | undefined;
/**
* Runs a function synchronously within a context and returns its
* return value. The store is not accessible outside of the callback function.
* The store is accessible to any asynchronous operations created within the
* callback.
*
* The optional `args` are passed to the callback function.
*
* If the callback function throws an error, the error is thrown by `run()` too.
* The stacktrace is not impacted by this call and the context is exited.
*
* Example:
*
* ```js
* const store = { id: 2 };
* try {
* asyncLocalStorage.run(store, () => {
* asyncLocalStorage.getStore(); // Returns the store object
* setTimeout(() => {
* asyncLocalStorage.getStore(); // Returns the store object
* }, 200);
* throw new Error();
* });
* } catch (e) {
* asyncLocalStorage.getStore(); // Returns undefined
* // The error will be caught here
* }
* ```
* @since v13.10.0, v12.17.0
*/
run<R>(store: T, callback: () => R): R;
run<R, TArgs extends any[]>(store: T, callback: (...args: TArgs) => R, ...args: TArgs): R;
/**
* Runs a function synchronously outside of a context and returns its
* return value. The store is not accessible within the callback function or
* the asynchronous operations created within the callback. Any `getStore()` call done within the callback function will always return `undefined`.
*
* The optional `args` are passed to the callback function.
*
* If the callback function throws an error, the error is thrown by `exit()` too.
* The stacktrace is not impacted by this call and the context is re-entered.
*
* Example:
*
* ```js
* // Within a call to run
* try {
* asyncLocalStorage.getStore(); // Returns the store object or value
* asyncLocalStorage.exit(() => {
* asyncLocalStorage.getStore(); // Returns undefined
* throw new Error();
* });
* } catch (e) {
* asyncLocalStorage.getStore(); // Returns the same object or value
* // The error will be caught here
* }
* ```
* @since v13.10.0, v12.17.0
* @experimental
*/
exit<R, TArgs extends any[]>(callback: (...args: TArgs) => R, ...args: TArgs): R;
/**
* Transitions into the context for the remainder of the current
* synchronous execution and then persists the store through any following
* asynchronous calls.
*
* Example:
*
* ```js
* const store = { id: 1 };
* // Replaces previous store with the given store object
* asyncLocalStorage.enterWith(store);
* asyncLocalStorage.getStore(); // Returns the store object
* someAsyncOperation(() => {
* asyncLocalStorage.getStore(); // Returns the same object
* });
* ```
*
* This transition will continue for the _entire_ synchronous execution.
* This means that if, for example, the context is entered within an event
* handler subsequent event handlers will also run within that context unless
* specifically bound to another context with an `AsyncResource`. That is why `run()` should be preferred over `enterWith()` unless there are strong reasons
* to use the latter method.
*
* ```js
* const store = { id: 1 };
*
* emitter.on('my-event', () => {
* asyncLocalStorage.enterWith(store);
* });
* emitter.on('my-event', () => {
* asyncLocalStorage.getStore(); // Returns the same object
* });
*
* asyncLocalStorage.getStore(); // Returns undefined
* emitter.emit('my-event');
* asyncLocalStorage.getStore(); // Returns the same object
* ```
* @since v13.11.0, v12.17.0
* @experimental
*/
enterWith(store: T): void;
}
}
declare module "node:async_hooks" {
export * from "async_hooks";
}

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declare module "buffer" {
global {
interface BufferConstructor {
// see buffer.d.ts for implementation shared with all TypeScript versions
/**
* Allocates a new buffer containing the given {str}.
*
* @param str String to store in buffer.
* @param encoding encoding to use, optional. Default is 'utf8'
* @deprecated since v10.0.0 - Use `Buffer.from(string[, encoding])` instead.
*/
new(str: string, encoding?: BufferEncoding): Buffer<ArrayBuffer>;
/**
* Allocates a new buffer of {size} octets.
*
* @param size count of octets to allocate.
* @deprecated since v10.0.0 - Use `Buffer.alloc()` instead (also see `Buffer.allocUnsafe()`).
*/
new(size: number): Buffer<ArrayBuffer>;
/**
* Allocates a new buffer containing the given {array} of octets.
*
* @param array The octets to store.
* @deprecated since v10.0.0 - Use `Buffer.from(array)` instead.
*/
new(array: Uint8Array): Buffer<ArrayBuffer>;
/**
* Produces a Buffer backed by the same allocated memory as
* the given {ArrayBuffer}/{SharedArrayBuffer}.
*
* @param arrayBuffer The ArrayBuffer with which to share memory.
* @deprecated since v10.0.0 - Use `Buffer.from(arrayBuffer[, byteOffset[, length]])` instead.
*/
new<TArrayBuffer extends ArrayBufferLike = ArrayBuffer>(arrayBuffer: TArrayBuffer): Buffer<TArrayBuffer>;
/**
* Allocates a new buffer containing the given {array} of octets.
*
* @param array The octets to store.
* @deprecated since v10.0.0 - Use `Buffer.from(array)` instead.
*/
new(array: readonly any[]): Buffer<ArrayBuffer>;
/**
* Copies the passed {buffer} data onto a new {Buffer} instance.
*
* @param buffer The buffer to copy.
* @deprecated since v10.0.0 - Use `Buffer.from(buffer)` instead.
*/
new(buffer: Buffer): Buffer<ArrayBuffer>;
/**
* Allocates a new `Buffer` using an `array` of bytes in the range `0` `255`.
* Array entries outside that range will be truncated to fit into it.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* // Creates a new Buffer containing the UTF-8 bytes of the string 'buffer'.
* const buf = Buffer.from([0x62, 0x75, 0x66, 0x66, 0x65, 0x72]);
* ```
*
* If `array` is an `Array`\-like object (that is, one with a `length` property of
* type `number`), it is treated as if it is an array, unless it is a `Buffer` or
* a `Uint8Array`. This means all other `TypedArray` variants get treated as an `Array`. To create a `Buffer` from the bytes backing a `TypedArray`, use `Buffer.copyBytesFrom()`.
*
* A `TypeError` will be thrown if `array` is not an `Array` or another type
* appropriate for `Buffer.from()` variants.
*
* `Buffer.from(array)` and `Buffer.from(string)` may also use the internal `Buffer` pool like `Buffer.allocUnsafe()` does.
* @since v5.10.0
*/
from<TArrayBuffer extends ArrayBufferLike>(
arrayBuffer: WithImplicitCoercion<TArrayBuffer>,
byteOffset?: number,
length?: number,
): Buffer<TArrayBuffer>;
/**
* Creates a new Buffer using the passed {data}
* @param data data to create a new Buffer
*/
from(data: Uint8Array | readonly number[]): Buffer<ArrayBuffer>;
from(data: WithImplicitCoercion<Uint8Array | readonly number[] | string>): Buffer<ArrayBuffer>;
/**
* Creates a new Buffer containing the given JavaScript string {str}.
* If provided, the {encoding} parameter identifies the character encoding.
* If not provided, {encoding} defaults to 'utf8'.
*/
from(
str:
| WithImplicitCoercion<string>
| {
[Symbol.toPrimitive](hint: "string"): string;
},
encoding?: BufferEncoding,
): Buffer<ArrayBuffer>;
/**
* Creates a new Buffer using the passed {data}
* @param values to create a new Buffer
*/
of(...items: number[]): Buffer<ArrayBuffer>;
/**
* Returns a new `Buffer` which is the result of concatenating all the `Buffer` instances in the `list` together.
*
* If the list has no items, or if the `totalLength` is 0, then a new zero-length `Buffer` is returned.
*
* If `totalLength` is not provided, it is calculated from the `Buffer` instances
* in `list` by adding their lengths.
*
* If `totalLength` is provided, it is coerced to an unsigned integer. If the
* combined length of the `Buffer`s in `list` exceeds `totalLength`, the result is
* truncated to `totalLength`.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* // Create a single `Buffer` from a list of three `Buffer` instances.
*
* const buf1 = Buffer.alloc(10);
* const buf2 = Buffer.alloc(14);
* const buf3 = Buffer.alloc(18);
* const totalLength = buf1.length + buf2.length + buf3.length;
*
* console.log(totalLength);
* // Prints: 42
*
* const bufA = Buffer.concat([buf1, buf2, buf3], totalLength);
*
* console.log(bufA);
* // Prints: <Buffer 00 00 00 00 ...>
* console.log(bufA.length);
* // Prints: 42
* ```
*
* `Buffer.concat()` may also use the internal `Buffer` pool like `Buffer.allocUnsafe()` does.
* @since v0.7.11
* @param list List of `Buffer` or {@link Uint8Array} instances to concatenate.
* @param totalLength Total length of the `Buffer` instances in `list` when concatenated.
*/
concat(list: readonly Uint8Array[], totalLength?: number): Buffer<ArrayBuffer>;
/**
* Copies the underlying memory of `view` into a new `Buffer`.
*
* ```js
* const u16 = new Uint16Array([0, 0xffff]);
* const buf = Buffer.copyBytesFrom(u16, 1, 1);
* u16[1] = 0;
* console.log(buf.length); // 2
* console.log(buf[0]); // 255
* console.log(buf[1]); // 255
* ```
* @since v19.8.0
* @param view The {TypedArray} to copy.
* @param [offset=0] The starting offset within `view`.
* @param [length=view.length - offset] The number of elements from `view` to copy.
*/
copyBytesFrom(view: NodeJS.TypedArray, offset?: number, length?: number): Buffer<ArrayBuffer>;
/**
* Allocates a new `Buffer` of `size` bytes. If `fill` is `undefined`, the`Buffer` will be zero-filled.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* const buf = Buffer.alloc(5);
*
* console.log(buf);
* // Prints: <Buffer 00 00 00 00 00>
* ```
*
* If `size` is larger than {@link constants.MAX_LENGTH} or smaller than 0, `ERR_OUT_OF_RANGE` is thrown.
*
* If `fill` is specified, the allocated `Buffer` will be initialized by calling `buf.fill(fill)`.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* const buf = Buffer.alloc(5, 'a');
*
* console.log(buf);
* // Prints: <Buffer 61 61 61 61 61>
* ```
*
* If both `fill` and `encoding` are specified, the allocated `Buffer` will be
* initialized by calling `buf.fill(fill, encoding)`.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* const buf = Buffer.alloc(11, 'aGVsbG8gd29ybGQ=', 'base64');
*
* console.log(buf);
* // Prints: <Buffer 68 65 6c 6c 6f 20 77 6f 72 6c 64>
* ```
*
* Calling `Buffer.alloc()` can be measurably slower than the alternative `Buffer.allocUnsafe()` but ensures that the newly created `Buffer` instance
* contents will never contain sensitive data from previous allocations, including
* data that might not have been allocated for `Buffer`s.
*
* A `TypeError` will be thrown if `size` is not a number.
* @since v5.10.0
* @param size The desired length of the new `Buffer`.
* @param [fill=0] A value to pre-fill the new `Buffer` with.
* @param [encoding='utf8'] If `fill` is a string, this is its encoding.
*/
alloc(size: number, fill?: string | Uint8Array | number, encoding?: BufferEncoding): Buffer<ArrayBuffer>;
/**
* Allocates a new `Buffer` of `size` bytes. If `size` is larger than {@link constants.MAX_LENGTH} or smaller than 0, `ERR_OUT_OF_RANGE` is thrown.
*
* The underlying memory for `Buffer` instances created in this way is _not_
* _initialized_. The contents of the newly created `Buffer` are unknown and _may contain sensitive data_. Use `Buffer.alloc()` instead to initialize`Buffer` instances with zeroes.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* const buf = Buffer.allocUnsafe(10);
*
* console.log(buf);
* // Prints (contents may vary): <Buffer a0 8b 28 3f 01 00 00 00 50 32>
*
* buf.fill(0);
*
* console.log(buf);
* // Prints: <Buffer 00 00 00 00 00 00 00 00 00 00>
* ```
*
* A `TypeError` will be thrown if `size` is not a number.
*
* The `Buffer` module pre-allocates an internal `Buffer` instance of
* size `Buffer.poolSize` that is used as a pool for the fast allocation of new `Buffer` instances created using `Buffer.allocUnsafe()`, `Buffer.from(array)`,
* and `Buffer.concat()` only when `size` is less than `Buffer.poolSize >>> 1` (floor of `Buffer.poolSize` divided by two).
*
* Use of this pre-allocated internal memory pool is a key difference between
* calling `Buffer.alloc(size, fill)` vs. `Buffer.allocUnsafe(size).fill(fill)`.
* Specifically, `Buffer.alloc(size, fill)` will _never_ use the internal `Buffer`pool, while `Buffer.allocUnsafe(size).fill(fill)`_will_ use the internal`Buffer` pool if `size` is less
* than or equal to half `Buffer.poolSize`. The
* difference is subtle but can be important when an application requires the
* additional performance that `Buffer.allocUnsafe()` provides.
* @since v5.10.0
* @param size The desired length of the new `Buffer`.
*/
allocUnsafe(size: number): Buffer<ArrayBuffer>;
/**
* Allocates a new `Buffer` of `size` bytes. If `size` is larger than {@link constants.MAX_LENGTH} or smaller than 0, `ERR_OUT_OF_RANGE` is thrown. A zero-length `Buffer` is created if
* `size` is 0.
*
* The underlying memory for `Buffer` instances created in this way is _not_
* _initialized_. The contents of the newly created `Buffer` are unknown and _may contain sensitive data_. Use `buf.fill(0)` to initialize
* such `Buffer` instances with zeroes.
*
* When using `Buffer.allocUnsafe()` to allocate new `Buffer` instances,
* allocations under 4 KiB are sliced from a single pre-allocated `Buffer`. This
* allows applications to avoid the garbage collection overhead of creating many
* individually allocated `Buffer` instances. This approach improves both
* performance and memory usage by eliminating the need to track and clean up as
* many individual `ArrayBuffer` objects.
*
* However, in the case where a developer may need to retain a small chunk of
* memory from a pool for an indeterminate amount of time, it may be appropriate
* to create an un-pooled `Buffer` instance using `Buffer.allocUnsafeSlow()` and
* then copying out the relevant bits.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* // Need to keep around a few small chunks of memory.
* const store = [];
*
* socket.on('readable', () => {
* let data;
* while (null !== (data = readable.read())) {
* // Allocate for retained data.
* const sb = Buffer.allocUnsafeSlow(10);
*
* // Copy the data into the new allocation.
* data.copy(sb, 0, 0, 10);
*
* store.push(sb);
* }
* });
* ```
*
* A `TypeError` will be thrown if `size` is not a number.
* @since v5.12.0
* @param size The desired length of the new `Buffer`.
*/
allocUnsafeSlow(size: number): Buffer<ArrayBuffer>;
}
interface Buffer<TArrayBuffer extends ArrayBufferLike = ArrayBufferLike> extends Uint8Array<TArrayBuffer> {
// see buffer.d.ts for implementation shared with all TypeScript versions
/**
* Returns a new `Buffer` that references the same memory as the original, but
* offset and cropped by the `start` and `end` indices.
*
* This method is not compatible with the `Uint8Array.prototype.slice()`,
* which is a superclass of `Buffer`. To copy the slice, use`Uint8Array.prototype.slice()`.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* const buf = Buffer.from('buffer');
*
* const copiedBuf = Uint8Array.prototype.slice.call(buf);
* copiedBuf[0]++;
* console.log(copiedBuf.toString());
* // Prints: cuffer
*
* console.log(buf.toString());
* // Prints: buffer
*
* // With buf.slice(), the original buffer is modified.
* const notReallyCopiedBuf = buf.slice();
* notReallyCopiedBuf[0]++;
* console.log(notReallyCopiedBuf.toString());
* // Prints: cuffer
* console.log(buf.toString());
* // Also prints: cuffer (!)
* ```
* @since v0.3.0
* @deprecated Use `subarray` instead.
* @param [start=0] Where the new `Buffer` will start.
* @param [end=buf.length] Where the new `Buffer` will end (not inclusive).
*/
slice(start?: number, end?: number): Buffer<ArrayBuffer>;
/**
* Returns a new `Buffer` that references the same memory as the original, but
* offset and cropped by the `start` and `end` indices.
*
* Specifying `end` greater than `buf.length` will return the same result as
* that of `end` equal to `buf.length`.
*
* This method is inherited from [`TypedArray.prototype.subarray()`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/TypedArray/subarray).
*
* Modifying the new `Buffer` slice will modify the memory in the original `Buffer`because the allocated memory of the two objects overlap.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* // Create a `Buffer` with the ASCII alphabet, take a slice, and modify one byte
* // from the original `Buffer`.
*
* const buf1 = Buffer.allocUnsafe(26);
*
* for (let i = 0; i < 26; i++) {
* // 97 is the decimal ASCII value for 'a'.
* buf1[i] = i + 97;
* }
*
* const buf2 = buf1.subarray(0, 3);
*
* console.log(buf2.toString('ascii', 0, buf2.length));
* // Prints: abc
*
* buf1[0] = 33;
*
* console.log(buf2.toString('ascii', 0, buf2.length));
* // Prints: !bc
* ```
*
* Specifying negative indexes causes the slice to be generated relative to the
* end of `buf` rather than the beginning.
*
* ```js
* import { Buffer } from 'node:buffer';
*
* const buf = Buffer.from('buffer');
*
* console.log(buf.subarray(-6, -1).toString());
* // Prints: buffe
* // (Equivalent to buf.subarray(0, 5).)
*
* console.log(buf.subarray(-6, -2).toString());
* // Prints: buff
* // (Equivalent to buf.subarray(0, 4).)
*
* console.log(buf.subarray(-5, -2).toString());
* // Prints: uff
* // (Equivalent to buf.subarray(1, 4).)
* ```
* @since v3.0.0
* @param [start=0] Where the new `Buffer` will start.
* @param [end=buf.length] Where the new `Buffer` will end (not inclusive).
*/
subarray(start?: number, end?: number): Buffer<TArrayBuffer>;
}
}
}

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/**
* Clusters of Node.js processes can be used to run multiple instances of Node.js
* that can distribute workloads among their application threads. When process isolation
* is not needed, use the [`worker_threads`](https://nodejs.org/docs/latest-v22.x/api/worker_threads.html)
* module instead, which allows running multiple application threads within a single Node.js instance.
*
* The cluster module allows easy creation of child processes that all share
* server ports.
*
* ```js
* import cluster from 'node:cluster';
* import http from 'node:http';
* import { availableParallelism } from 'node:os';
* import process from 'node:process';
*
* const numCPUs = availableParallelism();
*
* if (cluster.isPrimary) {
* console.log(`Primary ${process.pid} is running`);
*
* // Fork workers.
* for (let i = 0; i < numCPUs; i++) {
* cluster.fork();
* }
*
* cluster.on('exit', (worker, code, signal) => {
* console.log(`worker ${worker.process.pid} died`);
* });
* } else {
* // Workers can share any TCP connection
* // In this case it is an HTTP server
* http.createServer((req, res) => {
* res.writeHead(200);
* res.end('hello world\n');
* }).listen(8000);
*
* console.log(`Worker ${process.pid} started`);
* }
* ```
*
* Running Node.js will now share port 8000 between the workers:
*
* ```console
* $ node server.js
* Primary 3596 is running
* Worker 4324 started
* Worker 4520 started
* Worker 6056 started
* Worker 5644 started
* ```
*
* On Windows, it is not yet possible to set up a named pipe server in a worker.
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/cluster.js)
*/
declare module "cluster" {
import * as child from "node:child_process";
import EventEmitter = require("node:events");
import * as net from "node:net";
type SerializationType = "json" | "advanced";
export interface ClusterSettings {
/**
* List of string arguments passed to the Node.js executable.
* @default process.execArgv
*/
execArgv?: string[] | undefined;
/**
* File path to worker file.
* @default process.argv[1]
*/
exec?: string | undefined;
/**
* String arguments passed to worker.
* @default process.argv.slice(2)
*/
args?: string[] | undefined;
/**
* Whether or not to send output to parent's stdio.
* @default false
*/
silent?: boolean | undefined;
/**
* Configures the stdio of forked processes. Because the cluster module relies on IPC to function, this configuration must
* contain an `'ipc'` entry. When this option is provided, it overrides `silent`. See [`child_prcess.spawn()`](https://nodejs.org/docs/latest-v22.x/api/child_process.html#child_processspawncommand-args-options)'s
* [`stdio`](https://nodejs.org/docs/latest-v22.x/api/child_process.html#optionsstdio).
*/
stdio?: any[] | undefined;
/**
* Sets the user identity of the process. (See [`setuid(2)`](https://man7.org/linux/man-pages/man2/setuid.2.html).)
*/
uid?: number | undefined;
/**
* Sets the group identity of the process. (See [`setgid(2)`](https://man7.org/linux/man-pages/man2/setgid.2.html).)
*/
gid?: number | undefined;
/**
* Sets inspector port of worker. This can be a number, or a function that takes no arguments and returns a number.
* By default each worker gets its own port, incremented from the primary's `process.debugPort`.
*/
inspectPort?: number | (() => number) | undefined;
/**
* Specify the kind of serialization used for sending messages between processes. Possible values are `'json'` and `'advanced'`.
* See [Advanced serialization for `child_process`](https://nodejs.org/docs/latest-v22.x/api/child_process.html#advanced-serialization) for more details.
* @default false
*/
serialization?: SerializationType | undefined;
/**
* Current working directory of the worker process.
* @default undefined (inherits from parent process)
*/
cwd?: string | undefined;
/**
* Hide the forked processes console window that would normally be created on Windows systems.
* @default false
*/
windowsHide?: boolean | undefined;
}
export interface Address {
address: string;
port: number;
/**
* The `addressType` is one of:
*
* * `4` (TCPv4)
* * `6` (TCPv6)
* * `-1` (Unix domain socket)
* * `'udp4'` or `'udp6'` (UDPv4 or UDPv6)
*/
addressType: 4 | 6 | -1 | "udp4" | "udp6";
}
/**
* A `Worker` object contains all public information and method about a worker.
* In the primary it can be obtained using `cluster.workers`. In a worker
* it can be obtained using `cluster.worker`.
* @since v0.7.0
*/
export class Worker extends EventEmitter {
/**
* Each new worker is given its own unique id, this id is stored in the `id`.
*
* While a worker is alive, this is the key that indexes it in `cluster.workers`.
* @since v0.8.0
*/
id: number;
/**
* All workers are created using [`child_process.fork()`](https://nodejs.org/docs/latest-v22.x/api/child_process.html#child_processforkmodulepath-args-options), the returned object
* from this function is stored as `.process`. In a worker, the global `process` is stored.
*
* See: [Child Process module](https://nodejs.org/docs/latest-v22.x/api/child_process.html#child_processforkmodulepath-args-options).
*
* Workers will call `process.exit(0)` if the `'disconnect'` event occurs
* on `process` and `.exitedAfterDisconnect` is not `true`. This protects against
* accidental disconnection.
* @since v0.7.0
*/
process: child.ChildProcess;
/**
* Send a message to a worker or primary, optionally with a handle.
*
* In the primary, this sends a message to a specific worker. It is identical to [`ChildProcess.send()`](https://nodejs.org/docs/latest-v22.x/api/child_process.html#subprocesssendmessage-sendhandle-options-callback).
*
* In a worker, this sends a message to the primary. It is identical to `process.send()`.
*
* This example will echo back all messages from the primary:
*
* ```js
* if (cluster.isPrimary) {
* const worker = cluster.fork();
* worker.send('hi there');
*
* } else if (cluster.isWorker) {
* process.on('message', (msg) => {
* process.send(msg);
* });
* }
* ```
* @since v0.7.0
* @param options The `options` argument, if present, is an object used to parameterize the sending of certain types of handles.
*/
send(message: child.Serializable, callback?: (error: Error | null) => void): boolean;
send(
message: child.Serializable,
sendHandle: child.SendHandle,
callback?: (error: Error | null) => void,
): boolean;
send(
message: child.Serializable,
sendHandle: child.SendHandle,
options?: child.MessageOptions,
callback?: (error: Error | null) => void,
): boolean;
/**
* This function will kill the worker. In the primary worker, it does this by
* disconnecting the `worker.process`, and once disconnected, killing with `signal`. In the worker, it does it by killing the process with `signal`.
*
* The `kill()` function kills the worker process without waiting for a graceful
* disconnect, it has the same behavior as `worker.process.kill()`.
*
* This method is aliased as `worker.destroy()` for backwards compatibility.
*
* In a worker, `process.kill()` exists, but it is not this function;
* it is [`kill()`](https://nodejs.org/docs/latest-v22.x/api/process.html#processkillpid-signal).
* @since v0.9.12
* @param [signal='SIGTERM'] Name of the kill signal to send to the worker process.
*/
kill(signal?: string): void;
destroy(signal?: string): void;
/**
* In a worker, this function will close all servers, wait for the `'close'` event
* on those servers, and then disconnect the IPC channel.
*
* In the primary, an internal message is sent to the worker causing it to call `.disconnect()` on itself.
*
* Causes `.exitedAfterDisconnect` to be set.
*
* After a server is closed, it will no longer accept new connections,
* but connections may be accepted by any other listening worker. Existing
* connections will be allowed to close as usual. When no more connections exist,
* see `server.close()`, the IPC channel to the worker will close allowing it
* to die gracefully.
*
* The above applies _only_ to server connections, client connections are not
* automatically closed by workers, and disconnect does not wait for them to close
* before exiting.
*
* In a worker, `process.disconnect` exists, but it is not this function;
* it is `disconnect()`.
*
* Because long living server connections may block workers from disconnecting, it
* may be useful to send a message, so application specific actions may be taken to
* close them. It also may be useful to implement a timeout, killing a worker if
* the `'disconnect'` event has not been emitted after some time.
*
* ```js
* import net from 'node:net';
*
* if (cluster.isPrimary) {
* const worker = cluster.fork();
* let timeout;
*
* worker.on('listening', (address) => {
* worker.send('shutdown');
* worker.disconnect();
* timeout = setTimeout(() => {
* worker.kill();
* }, 2000);
* });
*
* worker.on('disconnect', () => {
* clearTimeout(timeout);
* });
*
* } else if (cluster.isWorker) {
* const server = net.createServer((socket) => {
* // Connections never end
* });
*
* server.listen(8000);
*
* process.on('message', (msg) => {
* if (msg === 'shutdown') {
* // Initiate graceful close of any connections to server
* }
* });
* }
* ```
* @since v0.7.7
* @return A reference to `worker`.
*/
disconnect(): void;
/**
* This function returns `true` if the worker is connected to its primary via its
* IPC channel, `false` otherwise. A worker is connected to its primary after it
* has been created. It is disconnected after the `'disconnect'` event is emitted.
* @since v0.11.14
*/
isConnected(): boolean;
/**
* This function returns `true` if the worker's process has terminated (either
* because of exiting or being signaled). Otherwise, it returns `false`.
*
* ```js
* import cluster from 'node:cluster';
* import http from 'node:http';
* import { availableParallelism } from 'node:os';
* import process from 'node:process';
*
* const numCPUs = availableParallelism();
*
* if (cluster.isPrimary) {
* console.log(`Primary ${process.pid} is running`);
*
* // Fork workers.
* for (let i = 0; i < numCPUs; i++) {
* cluster.fork();
* }
*
* cluster.on('fork', (worker) => {
* console.log('worker is dead:', worker.isDead());
* });
*
* cluster.on('exit', (worker, code, signal) => {
* console.log('worker is dead:', worker.isDead());
* });
* } else {
* // Workers can share any TCP connection. In this case, it is an HTTP server.
* http.createServer((req, res) => {
* res.writeHead(200);
* res.end(`Current process\n ${process.pid}`);
* process.kill(process.pid);
* }).listen(8000);
* }
* ```
* @since v0.11.14
*/
isDead(): boolean;
/**
* This property is `true` if the worker exited due to `.disconnect()`.
* If the worker exited any other way, it is `false`. If the
* worker has not exited, it is `undefined`.
*
* The boolean `worker.exitedAfterDisconnect` allows distinguishing between
* voluntary and accidental exit, the primary may choose not to respawn a worker
* based on this value.
*
* ```js
* cluster.on('exit', (worker, code, signal) => {
* if (worker.exitedAfterDisconnect === true) {
* console.log('Oh, it was just voluntary no need to worry');
* }
* });
*
* // kill worker
* worker.kill();
* ```
* @since v6.0.0
*/
exitedAfterDisconnect: boolean;
/**
* events.EventEmitter
* 1. disconnect
* 2. error
* 3. exit
* 4. listening
* 5. message
* 6. online
*/
addListener(event: string, listener: (...args: any[]) => void): this;
addListener(event: "disconnect", listener: () => void): this;
addListener(event: "error", listener: (error: Error) => void): this;
addListener(event: "exit", listener: (code: number, signal: string) => void): this;
addListener(event: "listening", listener: (address: Address) => void): this;
addListener(event: "message", listener: (message: any, handle: net.Socket | net.Server) => void): this; // the handle is a net.Socket or net.Server object, or undefined.
addListener(event: "online", listener: () => void): this;
emit(event: string | symbol, ...args: any[]): boolean;
emit(event: "disconnect"): boolean;
emit(event: "error", error: Error): boolean;
emit(event: "exit", code: number, signal: string): boolean;
emit(event: "listening", address: Address): boolean;
emit(event: "message", message: any, handle: net.Socket | net.Server): boolean;
emit(event: "online"): boolean;
on(event: string, listener: (...args: any[]) => void): this;
on(event: "disconnect", listener: () => void): this;
on(event: "error", listener: (error: Error) => void): this;
on(event: "exit", listener: (code: number, signal: string) => void): this;
on(event: "listening", listener: (address: Address) => void): this;
on(event: "message", listener: (message: any, handle: net.Socket | net.Server) => void): this; // the handle is a net.Socket or net.Server object, or undefined.
on(event: "online", listener: () => void): this;
once(event: string, listener: (...args: any[]) => void): this;
once(event: "disconnect", listener: () => void): this;
once(event: "error", listener: (error: Error) => void): this;
once(event: "exit", listener: (code: number, signal: string) => void): this;
once(event: "listening", listener: (address: Address) => void): this;
once(event: "message", listener: (message: any, handle: net.Socket | net.Server) => void): this; // the handle is a net.Socket or net.Server object, or undefined.
once(event: "online", listener: () => void): this;
prependListener(event: string, listener: (...args: any[]) => void): this;
prependListener(event: "disconnect", listener: () => void): this;
prependListener(event: "error", listener: (error: Error) => void): this;
prependListener(event: "exit", listener: (code: number, signal: string) => void): this;
prependListener(event: "listening", listener: (address: Address) => void): this;
prependListener(event: "message", listener: (message: any, handle: net.Socket | net.Server) => void): this; // the handle is a net.Socket or net.Server object, or undefined.
prependListener(event: "online", listener: () => void): this;
prependOnceListener(event: string, listener: (...args: any[]) => void): this;
prependOnceListener(event: "disconnect", listener: () => void): this;
prependOnceListener(event: "error", listener: (error: Error) => void): this;
prependOnceListener(event: "exit", listener: (code: number, signal: string) => void): this;
prependOnceListener(event: "listening", listener: (address: Address) => void): this;
prependOnceListener(event: "message", listener: (message: any, handle: net.Socket | net.Server) => void): this; // the handle is a net.Socket or net.Server object, or undefined.
prependOnceListener(event: "online", listener: () => void): this;
}
export interface Cluster extends EventEmitter {
disconnect(callback?: () => void): void;
/**
* Spawn a new worker process.
*
* This can only be called from the primary process.
* @param env Key/value pairs to add to worker process environment.
* @since v0.6.0
*/
fork(env?: any): Worker;
/** @deprecated since v16.0.0 - use isPrimary. */
readonly isMaster: boolean;
/**
* True if the process is a primary. This is determined by the `process.env.NODE_UNIQUE_ID`. If `process.env.NODE_UNIQUE_ID`
* is undefined, then `isPrimary` is `true`.
* @since v16.0.0
*/
readonly isPrimary: boolean;
/**
* True if the process is not a primary (it is the negation of `cluster.isPrimary`).
* @since v0.6.0
*/
readonly isWorker: boolean;
/**
* The scheduling policy, either `cluster.SCHED_RR` for round-robin or `cluster.SCHED_NONE` to leave it to the operating system. This is a
* global setting and effectively frozen once either the first worker is spawned, or [`.setupPrimary()`](https://nodejs.org/docs/latest-v22.x/api/cluster.html#clustersetupprimarysettings)
* is called, whichever comes first.
*
* `SCHED_RR` is the default on all operating systems except Windows. Windows will change to `SCHED_RR` once libuv is able to effectively distribute
* IOCP handles without incurring a large performance hit.
*
* `cluster.schedulingPolicy` can also be set through the `NODE_CLUSTER_SCHED_POLICY` environment variable. Valid values are `'rr'` and `'none'`.
* @since v0.11.2
*/
schedulingPolicy: number;
/**
* After calling [`.setupPrimary()`](https://nodejs.org/docs/latest-v22.x/api/cluster.html#clustersetupprimarysettings)
* (or [`.fork()`](https://nodejs.org/docs/latest-v22.x/api/cluster.html#clusterforkenv)) this settings object will contain
* the settings, including the default values.
*
* This object is not intended to be changed or set manually.
* @since v0.7.1
*/
readonly settings: ClusterSettings;
/** @deprecated since v16.0.0 - use [`.setupPrimary()`](https://nodejs.org/docs/latest-v22.x/api/cluster.html#clustersetupprimarysettings) instead. */
setupMaster(settings?: ClusterSettings): void;
/**
* `setupPrimary` is used to change the default 'fork' behavior. Once called, the settings will be present in `cluster.settings`.
*
* Any settings changes only affect future calls to [`.fork()`](https://nodejs.org/docs/latest-v22.x/api/cluster.html#clusterforkenv)
* and have no effect on workers that are already running.
*
* The only attribute of a worker that cannot be set via `.setupPrimary()` is the `env` passed to
* [`.fork()`](https://nodejs.org/docs/latest-v22.x/api/cluster.html#clusterforkenv).
*
* The defaults above apply to the first call only; the defaults for later calls are the current values at the time of
* `cluster.setupPrimary()` is called.
*
* ```js
* import cluster from 'node:cluster';
*
* cluster.setupPrimary({
* exec: 'worker.js',
* args: ['--use', 'https'],
* silent: true,
* });
* cluster.fork(); // https worker
* cluster.setupPrimary({
* exec: 'worker.js',
* args: ['--use', 'http'],
* });
* cluster.fork(); // http worker
* ```
*
* This can only be called from the primary process.
* @since v16.0.0
*/
setupPrimary(settings?: ClusterSettings): void;
/**
* A reference to the current worker object. Not available in the primary process.
*
* ```js
* import cluster from 'node:cluster';
*
* if (cluster.isPrimary) {
* console.log('I am primary');
* cluster.fork();
* cluster.fork();
* } else if (cluster.isWorker) {
* console.log(`I am worker #${cluster.worker.id}`);
* }
* ```
* @since v0.7.0
*/
readonly worker?: Worker | undefined;
/**
* A hash that stores the active worker objects, keyed by `id` field. This makes it easy to loop through all the workers. It is only available in the primary process.
*
* A worker is removed from `cluster.workers` after the worker has disconnected _and_ exited. The order between these two events cannot be determined in advance. However, it
* is guaranteed that the removal from the `cluster.workers` list happens before the last `'disconnect'` or `'exit'` event is emitted.
*
* ```js
* import cluster from 'node:cluster';
*
* for (const worker of Object.values(cluster.workers)) {
* worker.send('big announcement to all workers');
* }
* ```
* @since v0.7.0
*/
readonly workers?: NodeJS.Dict<Worker> | undefined;
readonly SCHED_NONE: number;
readonly SCHED_RR: number;
/**
* events.EventEmitter
* 1. disconnect
* 2. exit
* 3. fork
* 4. listening
* 5. message
* 6. online
* 7. setup
*/
addListener(event: string, listener: (...args: any[]) => void): this;
addListener(event: "disconnect", listener: (worker: Worker) => void): this;
addListener(event: "exit", listener: (worker: Worker, code: number, signal: string) => void): this;
addListener(event: "fork", listener: (worker: Worker) => void): this;
addListener(event: "listening", listener: (worker: Worker, address: Address) => void): this;
addListener(
event: "message",
listener: (worker: Worker, message: any, handle: net.Socket | net.Server) => void,
): this; // the handle is a net.Socket or net.Server object, or undefined.
addListener(event: "online", listener: (worker: Worker) => void): this;
addListener(event: "setup", listener: (settings: ClusterSettings) => void): this;
emit(event: string | symbol, ...args: any[]): boolean;
emit(event: "disconnect", worker: Worker): boolean;
emit(event: "exit", worker: Worker, code: number, signal: string): boolean;
emit(event: "fork", worker: Worker): boolean;
emit(event: "listening", worker: Worker, address: Address): boolean;
emit(event: "message", worker: Worker, message: any, handle: net.Socket | net.Server): boolean;
emit(event: "online", worker: Worker): boolean;
emit(event: "setup", settings: ClusterSettings): boolean;
on(event: string, listener: (...args: any[]) => void): this;
on(event: "disconnect", listener: (worker: Worker) => void): this;
on(event: "exit", listener: (worker: Worker, code: number, signal: string) => void): this;
on(event: "fork", listener: (worker: Worker) => void): this;
on(event: "listening", listener: (worker: Worker, address: Address) => void): this;
on(event: "message", listener: (worker: Worker, message: any, handle: net.Socket | net.Server) => void): this; // the handle is a net.Socket or net.Server object, or undefined.
on(event: "online", listener: (worker: Worker) => void): this;
on(event: "setup", listener: (settings: ClusterSettings) => void): this;
once(event: string, listener: (...args: any[]) => void): this;
once(event: "disconnect", listener: (worker: Worker) => void): this;
once(event: "exit", listener: (worker: Worker, code: number, signal: string) => void): this;
once(event: "fork", listener: (worker: Worker) => void): this;
once(event: "listening", listener: (worker: Worker, address: Address) => void): this;
once(event: "message", listener: (worker: Worker, message: any, handle: net.Socket | net.Server) => void): this; // the handle is a net.Socket or net.Server object, or undefined.
once(event: "online", listener: (worker: Worker) => void): this;
once(event: "setup", listener: (settings: ClusterSettings) => void): this;
prependListener(event: string, listener: (...args: any[]) => void): this;
prependListener(event: "disconnect", listener: (worker: Worker) => void): this;
prependListener(event: "exit", listener: (worker: Worker, code: number, signal: string) => void): this;
prependListener(event: "fork", listener: (worker: Worker) => void): this;
prependListener(event: "listening", listener: (worker: Worker, address: Address) => void): this;
// the handle is a net.Socket or net.Server object, or undefined.
prependListener(
event: "message",
listener: (worker: Worker, message: any, handle?: net.Socket | net.Server) => void,
): this;
prependListener(event: "online", listener: (worker: Worker) => void): this;
prependListener(event: "setup", listener: (settings: ClusterSettings) => void): this;
prependOnceListener(event: string, listener: (...args: any[]) => void): this;
prependOnceListener(event: "disconnect", listener: (worker: Worker) => void): this;
prependOnceListener(event: "exit", listener: (worker: Worker, code: number, signal: string) => void): this;
prependOnceListener(event: "fork", listener: (worker: Worker) => void): this;
prependOnceListener(event: "listening", listener: (worker: Worker, address: Address) => void): this;
// the handle is a net.Socket or net.Server object, or undefined.
prependOnceListener(
event: "message",
listener: (worker: Worker, message: any, handle: net.Socket | net.Server) => void,
): this;
prependOnceListener(event: "online", listener: (worker: Worker) => void): this;
prependOnceListener(event: "setup", listener: (settings: ClusterSettings) => void): this;
}
const cluster: Cluster;
export default cluster;
}
declare module "node:cluster" {
export * from "cluster";
export { default as default } from "cluster";
}

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// Polyfills for the explicit resource management types added in TypeScript 5.2.
// TODO: remove once this package no longer supports TS 5.1, and replace with a
// <reference> to TypeScript's disposable library in index.d.ts.
interface SymbolConstructor {
readonly dispose: unique symbol;
readonly asyncDispose: unique symbol;
}
interface Disposable {
[Symbol.dispose](): void;
}
interface AsyncDisposable {
[Symbol.asyncDispose](): PromiseLike<void>;
}

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// Declaration files in this directory contain types relating to TypeScript library features
// that are not included in all TypeScript versions supported by DefinitelyTyped, but
// which can be made backwards-compatible without needing `typesVersions`.
// If adding declarations to this directory, please specify which versions of TypeScript require them,
// so that they can be removed when no longer needed.
/// <reference path="disposable.d.ts" />
/// <reference path="indexable.d.ts" />
/// <reference path="iterators.d.ts" />

23
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// Polyfill for ES2022's .at() method on string/array prototypes, added to TypeScript in 4.6.
// TODO: these methods are not used within @types/node, and should be removed at the next
// major @types/node version; users should include the es2022 TypeScript libraries
// if they need these features.
interface RelativeIndexable<T> {
at(index: number): T | undefined;
}
interface String extends RelativeIndexable<string> {}
interface Array<T> extends RelativeIndexable<T> {}
interface ReadonlyArray<T> extends RelativeIndexable<T> {}
interface Int8Array extends RelativeIndexable<number> {}
interface Uint8Array extends RelativeIndexable<number> {}
interface Uint8ClampedArray extends RelativeIndexable<number> {}
interface Int16Array extends RelativeIndexable<number> {}
interface Uint16Array extends RelativeIndexable<number> {}
interface Int32Array extends RelativeIndexable<number> {}
interface Uint32Array extends RelativeIndexable<number> {}
interface Float32Array extends RelativeIndexable<number> {}
interface Float64Array extends RelativeIndexable<number> {}
interface BigInt64Array extends RelativeIndexable<bigint> {}
interface BigUint64Array extends RelativeIndexable<bigint> {}

21
node_modules/@types/node/compatibility/iterators.d.ts generated vendored Normal file
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// Backwards-compatible iterator interfaces, augmented with iterator helper methods by lib.esnext.iterator in TypeScript 5.6.
// The IterableIterator interface does not contain these methods, which creates assignability issues in places where IteratorObjects
// are expected (eg. DOM-compatible APIs) if lib.esnext.iterator is loaded.
// Also ensures that iterators returned by the Node API, which inherit from Iterator.prototype, correctly expose the iterator helper methods
// if lib.esnext.iterator is loaded.
// TODO: remove once this package no longer supports TS 5.5, and replace NodeJS.BuiltinIteratorReturn with BuiltinIteratorReturn.
// Placeholders for TS <5.6
interface IteratorObject<T, TReturn, TNext> {}
interface AsyncIteratorObject<T, TReturn, TNext> {}
declare namespace NodeJS {
// Populate iterator methods for TS <5.6
interface Iterator<T, TReturn, TNext> extends globalThis.Iterator<T, TReturn, TNext> {}
interface AsyncIterator<T, TReturn, TNext> extends globalThis.AsyncIterator<T, TReturn, TNext> {}
// Polyfill for TS 5.6's instrinsic BuiltinIteratorReturn type, required for DOM-compatible iterators
type BuiltinIteratorReturn = ReturnType<any[][typeof Symbol.iterator]> extends
globalThis.Iterator<any, infer TReturn> ? TReturn
: any;
}

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/**
* The `node:console` module provides a simple debugging console that is similar to
* the JavaScript console mechanism provided by web browsers.
*
* The module exports two specific components:
*
* * A `Console` class with methods such as `console.log()`, `console.error()`, and `console.warn()` that can be used to write to any Node.js stream.
* * A global `console` instance configured to write to [`process.stdout`](https://nodejs.org/docs/latest-v22.x/api/process.html#processstdout) and
* [`process.stderr`](https://nodejs.org/docs/latest-v22.x/api/process.html#processstderr). The global `console` can be used without importing the `node:console` module.
*
* _**Warning**_: The global console object's methods are neither consistently
* synchronous like the browser APIs they resemble, nor are they consistently
* asynchronous like all other Node.js streams. See the [`note on process I/O`](https://nodejs.org/docs/latest-v22.x/api/process.html#a-note-on-process-io) for
* more information.
*
* Example using the global `console`:
*
* ```js
* console.log('hello world');
* // Prints: hello world, to stdout
* console.log('hello %s', 'world');
* // Prints: hello world, to stdout
* console.error(new Error('Whoops, something bad happened'));
* // Prints error message and stack trace to stderr:
* // Error: Whoops, something bad happened
* // at [eval]:5:15
* // at Script.runInThisContext (node:vm:132:18)
* // at Object.runInThisContext (node:vm:309:38)
* // at node:internal/process/execution:77:19
* // at [eval]-wrapper:6:22
* // at evalScript (node:internal/process/execution:76:60)
* // at node:internal/main/eval_string:23:3
*
* const name = 'Will Robinson';
* console.warn(`Danger ${name}! Danger!`);
* // Prints: Danger Will Robinson! Danger!, to stderr
* ```
*
* Example using the `Console` class:
*
* ```js
* const out = getStreamSomehow();
* const err = getStreamSomehow();
* const myConsole = new console.Console(out, err);
*
* myConsole.log('hello world');
* // Prints: hello world, to out
* myConsole.log('hello %s', 'world');
* // Prints: hello world, to out
* myConsole.error(new Error('Whoops, something bad happened'));
* // Prints: [Error: Whoops, something bad happened], to err
*
* const name = 'Will Robinson';
* myConsole.warn(`Danger ${name}! Danger!`);
* // Prints: Danger Will Robinson! Danger!, to err
* ```
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/console.js)
*/
declare module "console" {
import console = require("node:console");
export = console;
}
declare module "node:console" {
import { InspectOptions } from "node:util";
global {
// This needs to be global to avoid TS2403 in case lib.dom.d.ts is present in the same build
interface Console {
Console: console.ConsoleConstructor;
/**
* `console.assert()` writes a message if `value` is [falsy](https://developer.mozilla.org/en-US/docs/Glossary/Falsy) or omitted. It only
* writes a message and does not otherwise affect execution. The output always
* starts with `"Assertion failed"`. If provided, `message` is formatted using
* [`util.format()`](https://nodejs.org/docs/latest-v22.x/api/util.html#utilformatformat-args).
*
* If `value` is [truthy](https://developer.mozilla.org/en-US/docs/Glossary/Truthy), nothing happens.
*
* ```js
* console.assert(true, 'does nothing');
*
* console.assert(false, 'Whoops %s work', 'didn\'t');
* // Assertion failed: Whoops didn't work
*
* console.assert();
* // Assertion failed
* ```
* @since v0.1.101
* @param value The value tested for being truthy.
* @param message All arguments besides `value` are used as error message.
*/
assert(value: any, message?: string, ...optionalParams: any[]): void;
/**
* When `stdout` is a TTY, calling `console.clear()` will attempt to clear the
* TTY. When `stdout` is not a TTY, this method does nothing.
*
* The specific operation of `console.clear()` can vary across operating systems
* and terminal types. For most Linux operating systems, `console.clear()` operates similarly to the `clear` shell command. On Windows, `console.clear()` will clear only the output in the
* current terminal viewport for the Node.js
* binary.
* @since v8.3.0
*/
clear(): void;
/**
* Maintains an internal counter specific to `label` and outputs to `stdout` the
* number of times `console.count()` has been called with the given `label`.
*
* ```js
* > console.count()
* default: 1
* undefined
* > console.count('default')
* default: 2
* undefined
* > console.count('abc')
* abc: 1
* undefined
* > console.count('xyz')
* xyz: 1
* undefined
* > console.count('abc')
* abc: 2
* undefined
* > console.count()
* default: 3
* undefined
* >
* ```
* @since v8.3.0
* @param [label='default'] The display label for the counter.
*/
count(label?: string): void;
/**
* Resets the internal counter specific to `label`.
*
* ```js
* > console.count('abc');
* abc: 1
* undefined
* > console.countReset('abc');
* undefined
* > console.count('abc');
* abc: 1
* undefined
* >
* ```
* @since v8.3.0
* @param [label='default'] The display label for the counter.
*/
countReset(label?: string): void;
/**
* The `console.debug()` function is an alias for {@link log}.
* @since v8.0.0
*/
debug(message?: any, ...optionalParams: any[]): void;
/**
* Uses [`util.inspect()`](https://nodejs.org/docs/latest-v22.x/api/util.html#utilinspectobject-options) on `obj` and prints the resulting string to `stdout`.
* This function bypasses any custom `inspect()` function defined on `obj`.
* @since v0.1.101
*/
dir(obj: any, options?: InspectOptions): void;
/**
* This method calls `console.log()` passing it the arguments received.
* This method does not produce any XML formatting.
* @since v8.0.0
*/
dirxml(...data: any[]): void;
/**
* Prints to `stderr` with newline. Multiple arguments can be passed, with the
* first used as the primary message and all additional used as substitution
* values similar to [`printf(3)`](http://man7.org/linux/man-pages/man3/printf.3.html)
* (the arguments are all passed to [`util.format()`](https://nodejs.org/docs/latest-v22.x/api/util.html#utilformatformat-args)).
*
* ```js
* const code = 5;
* console.error('error #%d', code);
* // Prints: error #5, to stderr
* console.error('error', code);
* // Prints: error 5, to stderr
* ```
*
* If formatting elements (e.g. `%d`) are not found in the first string then
* [`util.inspect()`](https://nodejs.org/docs/latest-v22.x/api/util.html#utilinspectobject-options) is called on each argument and the
* resulting string values are concatenated. See [`util.format()`](https://nodejs.org/docs/latest-v22.x/api/util.html#utilformatformat-args)
* for more information.
* @since v0.1.100
*/
error(message?: any, ...optionalParams: any[]): void;
/**
* Increases indentation of subsequent lines by spaces for `groupIndentation` length.
*
* If one or more `label`s are provided, those are printed first without the
* additional indentation.
* @since v8.5.0
*/
group(...label: any[]): void;
/**
* An alias for {@link group}.
* @since v8.5.0
*/
groupCollapsed(...label: any[]): void;
/**
* Decreases indentation of subsequent lines by spaces for `groupIndentation` length.
* @since v8.5.0
*/
groupEnd(): void;
/**
* The `console.info()` function is an alias for {@link log}.
* @since v0.1.100
*/
info(message?: any, ...optionalParams: any[]): void;
/**
* Prints to `stdout` with newline. Multiple arguments can be passed, with the
* first used as the primary message and all additional used as substitution
* values similar to [`printf(3)`](http://man7.org/linux/man-pages/man3/printf.3.html)
* (the arguments are all passed to [`util.format()`](https://nodejs.org/docs/latest-v22.x/api/util.html#utilformatformat-args)).
*
* ```js
* const count = 5;
* console.log('count: %d', count);
* // Prints: count: 5, to stdout
* console.log('count:', count);
* // Prints: count: 5, to stdout
* ```
*
* See [`util.format()`](https://nodejs.org/docs/latest-v22.x/api/util.html#utilformatformat-args) for more information.
* @since v0.1.100
*/
log(message?: any, ...optionalParams: any[]): void;
/**
* Try to construct a table with the columns of the properties of `tabularData` (or use `properties`) and rows of `tabularData` and log it. Falls back to just
* logging the argument if it can't be parsed as tabular.
*
* ```js
* // These can't be parsed as tabular data
* console.table(Symbol());
* // Symbol()
*
* console.table(undefined);
* // undefined
*
* console.table([{ a: 1, b: 'Y' }, { a: 'Z', b: 2 }]);
* // ┌─────────┬─────┬─────┐
* // │ (index) │ a │ b │
* // ├─────────┼─────┼─────┤
* // │ 0 │ 1 │ 'Y' │
* // │ 1 │ 'Z' │ 2 │
* // └─────────┴─────┴─────┘
*
* console.table([{ a: 1, b: 'Y' }, { a: 'Z', b: 2 }], ['a']);
* // ┌─────────┬─────┐
* // │ (index) │ a │
* // ├─────────┼─────┤
* // │ 0 │ 1 │
* // │ 1 │ 'Z' │
* // └─────────┴─────┘
* ```
* @since v10.0.0
* @param properties Alternate properties for constructing the table.
*/
table(tabularData: any, properties?: readonly string[]): void;
/**
* Starts a timer that can be used to compute the duration of an operation. Timers
* are identified by a unique `label`. Use the same `label` when calling {@link timeEnd} to stop the timer and output the elapsed time in
* suitable time units to `stdout`. For example, if the elapsed
* time is 3869ms, `console.timeEnd()` displays "3.869s".
* @since v0.1.104
* @param [label='default']
*/
time(label?: string): void;
/**
* Stops a timer that was previously started by calling {@link time} and
* prints the result to `stdout`:
*
* ```js
* console.time('bunch-of-stuff');
* // Do a bunch of stuff.
* console.timeEnd('bunch-of-stuff');
* // Prints: bunch-of-stuff: 225.438ms
* ```
* @since v0.1.104
* @param [label='default']
*/
timeEnd(label?: string): void;
/**
* For a timer that was previously started by calling {@link time}, prints
* the elapsed time and other `data` arguments to `stdout`:
*
* ```js
* console.time('process');
* const value = expensiveProcess1(); // Returns 42
* console.timeLog('process', value);
* // Prints "process: 365.227ms 42".
* doExpensiveProcess2(value);
* console.timeEnd('process');
* ```
* @since v10.7.0
* @param [label='default']
*/
timeLog(label?: string, ...data: any[]): void;
/**
* Prints to `stderr` the string `'Trace: '`, followed by the [`util.format()`](https://nodejs.org/docs/latest-v22.x/api/util.html#utilformatformat-args)
* formatted message and stack trace to the current position in the code.
*
* ```js
* console.trace('Show me');
* // Prints: (stack trace will vary based on where trace is called)
* // Trace: Show me
* // at repl:2:9
* // at REPLServer.defaultEval (repl.js:248:27)
* // at bound (domain.js:287:14)
* // at REPLServer.runBound [as eval] (domain.js:300:12)
* // at REPLServer.<anonymous> (repl.js:412:12)
* // at emitOne (events.js:82:20)
* // at REPLServer.emit (events.js:169:7)
* // at REPLServer.Interface._onLine (readline.js:210:10)
* // at REPLServer.Interface._line (readline.js:549:8)
* // at REPLServer.Interface._ttyWrite (readline.js:826:14)
* ```
* @since v0.1.104
*/
trace(message?: any, ...optionalParams: any[]): void;
/**
* The `console.warn()` function is an alias for {@link error}.
* @since v0.1.100
*/
warn(message?: any, ...optionalParams: any[]): void;
// --- Inspector mode only ---
/**
* This method does not display anything unless used in the inspector. The `console.profile()`
* method starts a JavaScript CPU profile with an optional label until {@link profileEnd}
* is called. The profile is then added to the Profile panel of the inspector.
*
* ```js
* console.profile('MyLabel');
* // Some code
* console.profileEnd('MyLabel');
* // Adds the profile 'MyLabel' to the Profiles panel of the inspector.
* ```
* @since v8.0.0
*/
profile(label?: string): void;
/**
* This method does not display anything unless used in the inspector. Stops the current
* JavaScript CPU profiling session if one has been started and prints the report to the
* Profiles panel of the inspector. See {@link profile} for an example.
*
* If this method is called without a label, the most recently started profile is stopped.
* @since v8.0.0
*/
profileEnd(label?: string): void;
/**
* This method does not display anything unless used in the inspector. The `console.timeStamp()`
* method adds an event with the label `'label'` to the Timeline panel of the inspector.
* @since v8.0.0
*/
timeStamp(label?: string): void;
}
/**
* The `console` module provides a simple debugging console that is similar to the
* JavaScript console mechanism provided by web browsers.
*
* The module exports two specific components:
*
* * A `Console` class with methods such as `console.log()`, `console.error()` and `console.warn()` that can be used to write to any Node.js stream.
* * A global `console` instance configured to write to [`process.stdout`](https://nodejs.org/docs/latest-v22.x/api/process.html#processstdout) and
* [`process.stderr`](https://nodejs.org/docs/latest-v22.x/api/process.html#processstderr). The global `console` can be used without importing the `node:console` module.
*
* _**Warning**_: The global console object's methods are neither consistently
* synchronous like the browser APIs they resemble, nor are they consistently
* asynchronous like all other Node.js streams. See the [`note on process I/O`](https://nodejs.org/docs/latest-v22.x/api/process.html#a-note-on-process-io) for
* more information.
*
* Example using the global `console`:
*
* ```js
* console.log('hello world');
* // Prints: hello world, to stdout
* console.log('hello %s', 'world');
* // Prints: hello world, to stdout
* console.error(new Error('Whoops, something bad happened'));
* // Prints error message and stack trace to stderr:
* // Error: Whoops, something bad happened
* // at [eval]:5:15
* // at Script.runInThisContext (node:vm:132:18)
* // at Object.runInThisContext (node:vm:309:38)
* // at node:internal/process/execution:77:19
* // at [eval]-wrapper:6:22
* // at evalScript (node:internal/process/execution:76:60)
* // at node:internal/main/eval_string:23:3
*
* const name = 'Will Robinson';
* console.warn(`Danger ${name}! Danger!`);
* // Prints: Danger Will Robinson! Danger!, to stderr
* ```
*
* Example using the `Console` class:
*
* ```js
* const out = getStreamSomehow();
* const err = getStreamSomehow();
* const myConsole = new console.Console(out, err);
*
* myConsole.log('hello world');
* // Prints: hello world, to out
* myConsole.log('hello %s', 'world');
* // Prints: hello world, to out
* myConsole.error(new Error('Whoops, something bad happened'));
* // Prints: [Error: Whoops, something bad happened], to err
*
* const name = 'Will Robinson';
* myConsole.warn(`Danger ${name}! Danger!`);
* // Prints: Danger Will Robinson! Danger!, to err
* ```
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/console.js)
*/
namespace console {
interface ConsoleConstructorOptions {
stdout: NodeJS.WritableStream;
stderr?: NodeJS.WritableStream | undefined;
/**
* Ignore errors when writing to the underlying streams.
* @default true
*/
ignoreErrors?: boolean | undefined;
/**
* Set color support for this `Console` instance. Setting to true enables coloring while inspecting
* values. Setting to `false` disables coloring while inspecting values. Setting to `'auto'` makes color
* support depend on the value of the `isTTY` property and the value returned by `getColorDepth()` on the
* respective stream. This option can not be used, if `inspectOptions.colors` is set as well.
* @default auto
*/
colorMode?: boolean | "auto" | undefined;
/**
* Specifies options that are passed along to
* [`util.inspect()`](https://nodejs.org/docs/latest-v22.x/api/util.html#utilinspectobject-options).
*/
inspectOptions?: InspectOptions | undefined;
/**
* Set group indentation.
* @default 2
*/
groupIndentation?: number | undefined;
}
interface ConsoleConstructor {
prototype: Console;
new(stdout: NodeJS.WritableStream, stderr?: NodeJS.WritableStream, ignoreErrors?: boolean): Console;
new(options: ConsoleConstructorOptions): Console;
}
}
var console: Console;
}
export = globalThis.console;
}

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/** @deprecated since v6.3.0 - use constants property exposed by the relevant module instead. */
declare module "constants" {
import { constants as osConstants, SignalConstants } from "node:os";
import { constants as cryptoConstants } from "node:crypto";
import { constants as fsConstants } from "node:fs";
const exp:
& typeof osConstants.errno
& typeof osConstants.priority
& SignalConstants
& typeof cryptoConstants
& typeof fsConstants;
export = exp;
}
declare module "node:constants" {
import constants = require("constants");
export = constants;
}

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/**
* The `node:dgram` module provides an implementation of UDP datagram sockets.
*
* ```js
* import dgram from 'node:dgram';
*
* const server = dgram.createSocket('udp4');
*
* server.on('error', (err) => {
* console.error(`server error:\n${err.stack}`);
* server.close();
* });
*
* server.on('message', (msg, rinfo) => {
* console.log(`server got: ${msg} from ${rinfo.address}:${rinfo.port}`);
* });
*
* server.on('listening', () => {
* const address = server.address();
* console.log(`server listening ${address.address}:${address.port}`);
* });
*
* server.bind(41234);
* // Prints: server listening 0.0.0.0:41234
* ```
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/dgram.js)
*/
declare module "dgram" {
import { AddressInfo } from "node:net";
import * as dns from "node:dns";
import { Abortable, EventEmitter } from "node:events";
interface RemoteInfo {
address: string;
family: "IPv4" | "IPv6";
port: number;
size: number;
}
interface BindOptions {
port?: number | undefined;
address?: string | undefined;
exclusive?: boolean | undefined;
fd?: number | undefined;
}
type SocketType = "udp4" | "udp6";
interface SocketOptions extends Abortable {
type: SocketType;
reuseAddr?: boolean | undefined;
/**
* @default false
*/
ipv6Only?: boolean | undefined;
recvBufferSize?: number | undefined;
sendBufferSize?: number | undefined;
lookup?:
| ((
hostname: string,
options: dns.LookupOneOptions,
callback: (err: NodeJS.ErrnoException | null, address: string, family: number) => void,
) => void)
| undefined;
}
/**
* Creates a `dgram.Socket` object. Once the socket is created, calling `socket.bind()` will instruct the socket to begin listening for datagram
* messages. When `address` and `port` are not passed to `socket.bind()` the
* method will bind the socket to the "all interfaces" address on a random port
* (it does the right thing for both `udp4` and `udp6` sockets). The bound address
* and port can be retrieved using `socket.address().address` and `socket.address().port`.
*
* If the `signal` option is enabled, calling `.abort()` on the corresponding `AbortController` is similar to calling `.close()` on the socket:
*
* ```js
* const controller = new AbortController();
* const { signal } = controller;
* const server = dgram.createSocket({ type: 'udp4', signal });
* server.on('message', (msg, rinfo) => {
* console.log(`server got: ${msg} from ${rinfo.address}:${rinfo.port}`);
* });
* // Later, when you want to close the server.
* controller.abort();
* ```
* @since v0.11.13
* @param options Available options are:
* @param callback Attached as a listener for `'message'` events. Optional.
*/
function createSocket(type: SocketType, callback?: (msg: Buffer, rinfo: RemoteInfo) => void): Socket;
function createSocket(options: SocketOptions, callback?: (msg: Buffer, rinfo: RemoteInfo) => void): Socket;
/**
* Encapsulates the datagram functionality.
*
* New instances of `dgram.Socket` are created using {@link createSocket}.
* The `new` keyword is not to be used to create `dgram.Socket` instances.
* @since v0.1.99
*/
class Socket extends EventEmitter {
/**
* Tells the kernel to join a multicast group at the given `multicastAddress` and `multicastInterface` using the `IP_ADD_MEMBERSHIP` socket option. If the `multicastInterface` argument is not
* specified, the operating system will choose
* one interface and will add membership to it. To add membership to every
* available interface, call `addMembership` multiple times, once per interface.
*
* When called on an unbound socket, this method will implicitly bind to a random
* port, listening on all interfaces.
*
* When sharing a UDP socket across multiple `cluster` workers, the`socket.addMembership()` function must be called only once or an`EADDRINUSE` error will occur:
*
* ```js
* import cluster from 'node:cluster';
* import dgram from 'node:dgram';
*
* if (cluster.isPrimary) {
* cluster.fork(); // Works ok.
* cluster.fork(); // Fails with EADDRINUSE.
* } else {
* const s = dgram.createSocket('udp4');
* s.bind(1234, () => {
* s.addMembership('224.0.0.114');
* });
* }
* ```
* @since v0.6.9
*/
addMembership(multicastAddress: string, multicastInterface?: string): void;
/**
* Returns an object containing the address information for a socket.
* For UDP sockets, this object will contain `address`, `family`, and `port` properties.
*
* This method throws `EBADF` if called on an unbound socket.
* @since v0.1.99
*/
address(): AddressInfo;
/**
* For UDP sockets, causes the `dgram.Socket` to listen for datagram
* messages on a named `port` and optional `address`. If `port` is not
* specified or is `0`, the operating system will attempt to bind to a
* random port. If `address` is not specified, the operating system will
* attempt to listen on all addresses. Once binding is complete, a `'listening'` event is emitted and the optional `callback` function is
* called.
*
* Specifying both a `'listening'` event listener and passing a `callback` to the `socket.bind()` method is not harmful but not very
* useful.
*
* A bound datagram socket keeps the Node.js process running to receive
* datagram messages.
*
* If binding fails, an `'error'` event is generated. In rare case (e.g.
* attempting to bind with a closed socket), an `Error` may be thrown.
*
* Example of a UDP server listening on port 41234:
*
* ```js
* import dgram from 'node:dgram';
*
* const server = dgram.createSocket('udp4');
*
* server.on('error', (err) => {
* console.error(`server error:\n${err.stack}`);
* server.close();
* });
*
* server.on('message', (msg, rinfo) => {
* console.log(`server got: ${msg} from ${rinfo.address}:${rinfo.port}`);
* });
*
* server.on('listening', () => {
* const address = server.address();
* console.log(`server listening ${address.address}:${address.port}`);
* });
*
* server.bind(41234);
* // Prints: server listening 0.0.0.0:41234
* ```
* @since v0.1.99
* @param callback with no parameters. Called when binding is complete.
*/
bind(port?: number, address?: string, callback?: () => void): this;
bind(port?: number, callback?: () => void): this;
bind(callback?: () => void): this;
bind(options: BindOptions, callback?: () => void): this;
/**
* Close the underlying socket and stop listening for data on it. If a callback is
* provided, it is added as a listener for the `'close'` event.
* @since v0.1.99
* @param callback Called when the socket has been closed.
*/
close(callback?: () => void): this;
/**
* Associates the `dgram.Socket` to a remote address and port. Every
* message sent by this handle is automatically sent to that destination. Also,
* the socket will only receive messages from that remote peer.
* Trying to call `connect()` on an already connected socket will result
* in an `ERR_SOCKET_DGRAM_IS_CONNECTED` exception. If `address` is not
* provided, `'127.0.0.1'` (for `udp4` sockets) or `'::1'` (for `udp6` sockets)
* will be used by default. Once the connection is complete, a `'connect'` event
* is emitted and the optional `callback` function is called. In case of failure,
* the `callback` is called or, failing this, an `'error'` event is emitted.
* @since v12.0.0
* @param callback Called when the connection is completed or on error.
*/
connect(port: number, address?: string, callback?: () => void): void;
connect(port: number, callback: () => void): void;
/**
* A synchronous function that disassociates a connected `dgram.Socket` from
* its remote address. Trying to call `disconnect()` on an unbound or already
* disconnected socket will result in an `ERR_SOCKET_DGRAM_NOT_CONNECTED` exception.
* @since v12.0.0
*/
disconnect(): void;
/**
* Instructs the kernel to leave a multicast group at `multicastAddress` using the `IP_DROP_MEMBERSHIP` socket option. This method is automatically called by the
* kernel when the socket is closed or the process terminates, so most apps will
* never have reason to call this.
*
* If `multicastInterface` is not specified, the operating system will attempt to
* drop membership on all valid interfaces.
* @since v0.6.9
*/
dropMembership(multicastAddress: string, multicastInterface?: string): void;
/**
* This method throws `ERR_SOCKET_BUFFER_SIZE` if called on an unbound socket.
* @since v8.7.0
* @return the `SO_RCVBUF` socket receive buffer size in bytes.
*/
getRecvBufferSize(): number;
/**
* This method throws `ERR_SOCKET_BUFFER_SIZE` if called on an unbound socket.
* @since v8.7.0
* @return the `SO_SNDBUF` socket send buffer size in bytes.
*/
getSendBufferSize(): number;
/**
* @since v18.8.0, v16.19.0
* @return Number of bytes queued for sending.
*/
getSendQueueSize(): number;
/**
* @since v18.8.0, v16.19.0
* @return Number of send requests currently in the queue awaiting to be processed.
*/
getSendQueueCount(): number;
/**
* By default, binding a socket will cause it to block the Node.js process from
* exiting as long as the socket is open. The `socket.unref()` method can be used
* to exclude the socket from the reference counting that keeps the Node.js
* process active. The `socket.ref()` method adds the socket back to the reference
* counting and restores the default behavior.
*
* Calling `socket.ref()` multiples times will have no additional effect.
*
* The `socket.ref()` method returns a reference to the socket so calls can be
* chained.
* @since v0.9.1
*/
ref(): this;
/**
* Returns an object containing the `address`, `family`, and `port` of the remote
* endpoint. This method throws an `ERR_SOCKET_DGRAM_NOT_CONNECTED` exception
* if the socket is not connected.
* @since v12.0.0
*/
remoteAddress(): AddressInfo;
/**
* Broadcasts a datagram on the socket.
* For connectionless sockets, the destination `port` and `address` must be
* specified. Connected sockets, on the other hand, will use their associated
* remote endpoint, so the `port` and `address` arguments must not be set.
*
* The `msg` argument contains the message to be sent.
* Depending on its type, different behavior can apply. If `msg` is a `Buffer`,
* any `TypedArray` or a `DataView`,
* the `offset` and `length` specify the offset within the `Buffer` where the
* message begins and the number of bytes in the message, respectively.
* If `msg` is a `String`, then it is automatically converted to a `Buffer` with `'utf8'` encoding. With messages that
* contain multi-byte characters, `offset` and `length` will be calculated with
* respect to `byte length` and not the character position.
* If `msg` is an array, `offset` and `length` must not be specified.
*
* The `address` argument is a string. If the value of `address` is a host name,
* DNS will be used to resolve the address of the host. If `address` is not
* provided or otherwise nullish, `'127.0.0.1'` (for `udp4` sockets) or `'::1'` (for `udp6` sockets) will be used by default.
*
* If the socket has not been previously bound with a call to `bind`, the socket
* is assigned a random port number and is bound to the "all interfaces" address
* (`'0.0.0.0'` for `udp4` sockets, `'::0'` for `udp6` sockets.)
*
* An optional `callback` function may be specified to as a way of reporting
* DNS errors or for determining when it is safe to reuse the `buf` object.
* DNS lookups delay the time to send for at least one tick of the
* Node.js event loop.
*
* The only way to know for sure that the datagram has been sent is by using a `callback`. If an error occurs and a `callback` is given, the error will be
* passed as the first argument to the `callback`. If a `callback` is not given,
* the error is emitted as an `'error'` event on the `socket` object.
*
* Offset and length are optional but both _must_ be set if either are used.
* They are supported only when the first argument is a `Buffer`, a `TypedArray`,
* or a `DataView`.
*
* This method throws `ERR_SOCKET_BAD_PORT` if called on an unbound socket.
*
* Example of sending a UDP packet to a port on `localhost`;
*
* ```js
* import dgram from 'node:dgram';
* import { Buffer } from 'node:buffer';
*
* const message = Buffer.from('Some bytes');
* const client = dgram.createSocket('udp4');
* client.send(message, 41234, 'localhost', (err) => {
* client.close();
* });
* ```
*
* Example of sending a UDP packet composed of multiple buffers to a port on`127.0.0.1`;
*
* ```js
* import dgram from 'node:dgram';
* import { Buffer } from 'node:buffer';
*
* const buf1 = Buffer.from('Some ');
* const buf2 = Buffer.from('bytes');
* const client = dgram.createSocket('udp4');
* client.send([buf1, buf2], 41234, (err) => {
* client.close();
* });
* ```
*
* Sending multiple buffers might be faster or slower depending on the
* application and operating system. Run benchmarks to
* determine the optimal strategy on a case-by-case basis. Generally speaking,
* however, sending multiple buffers is faster.
*
* Example of sending a UDP packet using a socket connected to a port on `localhost`:
*
* ```js
* import dgram from 'node:dgram';
* import { Buffer } from 'node:buffer';
*
* const message = Buffer.from('Some bytes');
* const client = dgram.createSocket('udp4');
* client.connect(41234, 'localhost', (err) => {
* client.send(message, (err) => {
* client.close();
* });
* });
* ```
* @since v0.1.99
* @param msg Message to be sent.
* @param offset Offset in the buffer where the message starts.
* @param length Number of bytes in the message.
* @param port Destination port.
* @param address Destination host name or IP address.
* @param callback Called when the message has been sent.
*/
send(
msg: string | Uint8Array | readonly any[],
port?: number,
address?: string,
callback?: (error: Error | null, bytes: number) => void,
): void;
send(
msg: string | Uint8Array | readonly any[],
port?: number,
callback?: (error: Error | null, bytes: number) => void,
): void;
send(
msg: string | Uint8Array | readonly any[],
callback?: (error: Error | null, bytes: number) => void,
): void;
send(
msg: string | Uint8Array,
offset: number,
length: number,
port?: number,
address?: string,
callback?: (error: Error | null, bytes: number) => void,
): void;
send(
msg: string | Uint8Array,
offset: number,
length: number,
port?: number,
callback?: (error: Error | null, bytes: number) => void,
): void;
send(
msg: string | Uint8Array,
offset: number,
length: number,
callback?: (error: Error | null, bytes: number) => void,
): void;
/**
* Sets or clears the `SO_BROADCAST` socket option. When set to `true`, UDP
* packets may be sent to a local interface's broadcast address.
*
* This method throws `EBADF` if called on an unbound socket.
* @since v0.6.9
*/
setBroadcast(flag: boolean): void;
/**
* _All references to scope in this section are referring to [IPv6 Zone Indices](https://en.wikipedia.org/wiki/IPv6_address#Scoped_literal_IPv6_addresses), which are defined by [RFC
* 4007](https://tools.ietf.org/html/rfc4007). In string form, an IP_
* _with a scope index is written as `'IP%scope'` where scope is an interface name_
* _or interface number._
*
* Sets the default outgoing multicast interface of the socket to a chosen
* interface or back to system interface selection. The `multicastInterface` must
* be a valid string representation of an IP from the socket's family.
*
* For IPv4 sockets, this should be the IP configured for the desired physical
* interface. All packets sent to multicast on the socket will be sent on the
* interface determined by the most recent successful use of this call.
*
* For IPv6 sockets, `multicastInterface` should include a scope to indicate the
* interface as in the examples that follow. In IPv6, individual `send` calls can
* also use explicit scope in addresses, so only packets sent to a multicast
* address without specifying an explicit scope are affected by the most recent
* successful use of this call.
*
* This method throws `EBADF` if called on an unbound socket.
*
* #### Example: IPv6 outgoing multicast interface
*
* On most systems, where scope format uses the interface name:
*
* ```js
* const socket = dgram.createSocket('udp6');
*
* socket.bind(1234, () => {
* socket.setMulticastInterface('::%eth1');
* });
* ```
*
* On Windows, where scope format uses an interface number:
*
* ```js
* const socket = dgram.createSocket('udp6');
*
* socket.bind(1234, () => {
* socket.setMulticastInterface('::%2');
* });
* ```
*
* #### Example: IPv4 outgoing multicast interface
*
* All systems use an IP of the host on the desired physical interface:
*
* ```js
* const socket = dgram.createSocket('udp4');
*
* socket.bind(1234, () => {
* socket.setMulticastInterface('10.0.0.2');
* });
* ```
* @since v8.6.0
*/
setMulticastInterface(multicastInterface: string): void;
/**
* Sets or clears the `IP_MULTICAST_LOOP` socket option. When set to `true`,
* multicast packets will also be received on the local interface.
*
* This method throws `EBADF` if called on an unbound socket.
* @since v0.3.8
*/
setMulticastLoopback(flag: boolean): boolean;
/**
* Sets the `IP_MULTICAST_TTL` socket option. While TTL generally stands for
* "Time to Live", in this context it specifies the number of IP hops that a
* packet is allowed to travel through, specifically for multicast traffic. Each
* router or gateway that forwards a packet decrements the TTL. If the TTL is
* decremented to 0 by a router, it will not be forwarded.
*
* The `ttl` argument may be between 0 and 255\. The default on most systems is `1`.
*
* This method throws `EBADF` if called on an unbound socket.
* @since v0.3.8
*/
setMulticastTTL(ttl: number): number;
/**
* Sets the `SO_RCVBUF` socket option. Sets the maximum socket receive buffer
* in bytes.
*
* This method throws `ERR_SOCKET_BUFFER_SIZE` if called on an unbound socket.
* @since v8.7.0
*/
setRecvBufferSize(size: number): void;
/**
* Sets the `SO_SNDBUF` socket option. Sets the maximum socket send buffer
* in bytes.
*
* This method throws `ERR_SOCKET_BUFFER_SIZE` if called on an unbound socket.
* @since v8.7.0
*/
setSendBufferSize(size: number): void;
/**
* Sets the `IP_TTL` socket option. While TTL generally stands for "Time to Live",
* in this context it specifies the number of IP hops that a packet is allowed to
* travel through. Each router or gateway that forwards a packet decrements the
* TTL. If the TTL is decremented to 0 by a router, it will not be forwarded.
* Changing TTL values is typically done for network probes or when multicasting.
*
* The `ttl` argument may be between 1 and 255\. The default on most systems
* is 64.
*
* This method throws `EBADF` if called on an unbound socket.
* @since v0.1.101
*/
setTTL(ttl: number): number;
/**
* By default, binding a socket will cause it to block the Node.js process from
* exiting as long as the socket is open. The `socket.unref()` method can be used
* to exclude the socket from the reference counting that keeps the Node.js
* process active, allowing the process to exit even if the socket is still
* listening.
*
* Calling `socket.unref()` multiple times will have no additional effect.
*
* The `socket.unref()` method returns a reference to the socket so calls can be
* chained.
* @since v0.9.1
*/
unref(): this;
/**
* Tells the kernel to join a source-specific multicast channel at the given `sourceAddress` and `groupAddress`, using the `multicastInterface` with the `IP_ADD_SOURCE_MEMBERSHIP` socket
* option. If the `multicastInterface` argument
* is not specified, the operating system will choose one interface and will add
* membership to it. To add membership to every available interface, call `socket.addSourceSpecificMembership()` multiple times, once per interface.
*
* When called on an unbound socket, this method will implicitly bind to a random
* port, listening on all interfaces.
* @since v13.1.0, v12.16.0
*/
addSourceSpecificMembership(sourceAddress: string, groupAddress: string, multicastInterface?: string): void;
/**
* Instructs the kernel to leave a source-specific multicast channel at the given `sourceAddress` and `groupAddress` using the `IP_DROP_SOURCE_MEMBERSHIP` socket option. This method is
* automatically called by the kernel when the
* socket is closed or the process terminates, so most apps will never have
* reason to call this.
*
* If `multicastInterface` is not specified, the operating system will attempt to
* drop membership on all valid interfaces.
* @since v13.1.0, v12.16.0
*/
dropSourceSpecificMembership(sourceAddress: string, groupAddress: string, multicastInterface?: string): void;
/**
* events.EventEmitter
* 1. close
* 2. connect
* 3. error
* 4. listening
* 5. message
*/
addListener(event: string, listener: (...args: any[]) => void): this;
addListener(event: "close", listener: () => void): this;
addListener(event: "connect", listener: () => void): this;
addListener(event: "error", listener: (err: Error) => void): this;
addListener(event: "listening", listener: () => void): this;
addListener(event: "message", listener: (msg: Buffer, rinfo: RemoteInfo) => void): this;
emit(event: string | symbol, ...args: any[]): boolean;
emit(event: "close"): boolean;
emit(event: "connect"): boolean;
emit(event: "error", err: Error): boolean;
emit(event: "listening"): boolean;
emit(event: "message", msg: Buffer, rinfo: RemoteInfo): boolean;
on(event: string, listener: (...args: any[]) => void): this;
on(event: "close", listener: () => void): this;
on(event: "connect", listener: () => void): this;
on(event: "error", listener: (err: Error) => void): this;
on(event: "listening", listener: () => void): this;
on(event: "message", listener: (msg: Buffer, rinfo: RemoteInfo) => void): this;
once(event: string, listener: (...args: any[]) => void): this;
once(event: "close", listener: () => void): this;
once(event: "connect", listener: () => void): this;
once(event: "error", listener: (err: Error) => void): this;
once(event: "listening", listener: () => void): this;
once(event: "message", listener: (msg: Buffer, rinfo: RemoteInfo) => void): this;
prependListener(event: string, listener: (...args: any[]) => void): this;
prependListener(event: "close", listener: () => void): this;
prependListener(event: "connect", listener: () => void): this;
prependListener(event: "error", listener: (err: Error) => void): this;
prependListener(event: "listening", listener: () => void): this;
prependListener(event: "message", listener: (msg: Buffer, rinfo: RemoteInfo) => void): this;
prependOnceListener(event: string, listener: (...args: any[]) => void): this;
prependOnceListener(event: "close", listener: () => void): this;
prependOnceListener(event: "connect", listener: () => void): this;
prependOnceListener(event: "error", listener: (err: Error) => void): this;
prependOnceListener(event: "listening", listener: () => void): this;
prependOnceListener(event: "message", listener: (msg: Buffer, rinfo: RemoteInfo) => void): this;
/**
* Calls `socket.close()` and returns a promise that fulfills when the socket has closed.
* @since v20.5.0
*/
[Symbol.asyncDispose](): Promise<void>;
}
}
declare module "node:dgram" {
export * from "dgram";
}

554
node_modules/@types/node/diagnostics_channel.d.ts generated vendored Normal file
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@@ -0,0 +1,554 @@
/**
* The `node:diagnostics_channel` module provides an API to create named channels
* to report arbitrary message data for diagnostics purposes.
*
* It can be accessed using:
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
* ```
*
* It is intended that a module writer wanting to report diagnostics messages
* will create one or many top-level channels to report messages through.
* Channels may also be acquired at runtime but it is not encouraged
* due to the additional overhead of doing so. Channels may be exported for
* convenience, but as long as the name is known it can be acquired anywhere.
*
* If you intend for your module to produce diagnostics data for others to
* consume it is recommended that you include documentation of what named
* channels are used along with the shape of the message data. Channel names
* should generally include the module name to avoid collisions with data from
* other modules.
* @since v15.1.0, v14.17.0
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/diagnostics_channel.js)
*/
declare module "diagnostics_channel" {
import { AsyncLocalStorage } from "node:async_hooks";
/**
* Check if there are active subscribers to the named channel. This is helpful if
* the message you want to send might be expensive to prepare.
*
* This API is optional but helpful when trying to publish messages from very
* performance-sensitive code.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* if (diagnostics_channel.hasSubscribers('my-channel')) {
* // There are subscribers, prepare and publish message
* }
* ```
* @since v15.1.0, v14.17.0
* @param name The channel name
* @return If there are active subscribers
*/
function hasSubscribers(name: string | symbol): boolean;
/**
* This is the primary entry-point for anyone wanting to publish to a named
* channel. It produces a channel object which is optimized to reduce overhead at
* publish time as much as possible.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channel = diagnostics_channel.channel('my-channel');
* ```
* @since v15.1.0, v14.17.0
* @param name The channel name
* @return The named channel object
*/
function channel(name: string | symbol): Channel;
type ChannelListener = (message: unknown, name: string | symbol) => void;
/**
* Register a message handler to subscribe to this channel. This message handler
* will be run synchronously whenever a message is published to the channel. Any
* errors thrown in the message handler will trigger an `'uncaughtException'`.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* diagnostics_channel.subscribe('my-channel', (message, name) => {
* // Received data
* });
* ```
* @since v18.7.0, v16.17.0
* @param name The channel name
* @param onMessage The handler to receive channel messages
*/
function subscribe(name: string | symbol, onMessage: ChannelListener): void;
/**
* Remove a message handler previously registered to this channel with {@link subscribe}.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* function onMessage(message, name) {
* // Received data
* }
*
* diagnostics_channel.subscribe('my-channel', onMessage);
*
* diagnostics_channel.unsubscribe('my-channel', onMessage);
* ```
* @since v18.7.0, v16.17.0
* @param name The channel name
* @param onMessage The previous subscribed handler to remove
* @return `true` if the handler was found, `false` otherwise.
*/
function unsubscribe(name: string | symbol, onMessage: ChannelListener): boolean;
/**
* Creates a `TracingChannel` wrapper for the given `TracingChannel Channels`. If a name is given, the corresponding tracing
* channels will be created in the form of `tracing:${name}:${eventType}` where `eventType` corresponds to the types of `TracingChannel Channels`.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channelsByName = diagnostics_channel.tracingChannel('my-channel');
*
* // or...
*
* const channelsByCollection = diagnostics_channel.tracingChannel({
* start: diagnostics_channel.channel('tracing:my-channel:start'),
* end: diagnostics_channel.channel('tracing:my-channel:end'),
* asyncStart: diagnostics_channel.channel('tracing:my-channel:asyncStart'),
* asyncEnd: diagnostics_channel.channel('tracing:my-channel:asyncEnd'),
* error: diagnostics_channel.channel('tracing:my-channel:error'),
* });
* ```
* @since v19.9.0
* @experimental
* @param nameOrChannels Channel name or object containing all the `TracingChannel Channels`
* @return Collection of channels to trace with
*/
function tracingChannel<
StoreType = unknown,
ContextType extends object = StoreType extends object ? StoreType : object,
>(
nameOrChannels: string | TracingChannelCollection<StoreType, ContextType>,
): TracingChannel<StoreType, ContextType>;
/**
* The class `Channel` represents an individual named channel within the data
* pipeline. It is used to track subscribers and to publish messages when there
* are subscribers present. It exists as a separate object to avoid channel
* lookups at publish time, enabling very fast publish speeds and allowing
* for heavy use while incurring very minimal cost. Channels are created with {@link channel}, constructing a channel directly
* with `new Channel(name)` is not supported.
* @since v15.1.0, v14.17.0
*/
class Channel<StoreType = unknown, ContextType = StoreType> {
readonly name: string | symbol;
/**
* Check if there are active subscribers to this channel. This is helpful if
* the message you want to send might be expensive to prepare.
*
* This API is optional but helpful when trying to publish messages from very
* performance-sensitive code.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channel = diagnostics_channel.channel('my-channel');
*
* if (channel.hasSubscribers) {
* // There are subscribers, prepare and publish message
* }
* ```
* @since v15.1.0, v14.17.0
*/
readonly hasSubscribers: boolean;
private constructor(name: string | symbol);
/**
* Publish a message to any subscribers to the channel. This will trigger
* message handlers synchronously so they will execute within the same context.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channel = diagnostics_channel.channel('my-channel');
*
* channel.publish({
* some: 'message',
* });
* ```
* @since v15.1.0, v14.17.0
* @param message The message to send to the channel subscribers
*/
publish(message: unknown): void;
/**
* Register a message handler to subscribe to this channel. This message handler
* will be run synchronously whenever a message is published to the channel. Any
* errors thrown in the message handler will trigger an `'uncaughtException'`.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channel = diagnostics_channel.channel('my-channel');
*
* channel.subscribe((message, name) => {
* // Received data
* });
* ```
* @since v15.1.0, v14.17.0
* @deprecated Since v18.7.0,v16.17.0 - Use {@link subscribe(name, onMessage)}
* @param onMessage The handler to receive channel messages
*/
subscribe(onMessage: ChannelListener): void;
/**
* Remove a message handler previously registered to this channel with `channel.subscribe(onMessage)`.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channel = diagnostics_channel.channel('my-channel');
*
* function onMessage(message, name) {
* // Received data
* }
*
* channel.subscribe(onMessage);
*
* channel.unsubscribe(onMessage);
* ```
* @since v15.1.0, v14.17.0
* @deprecated Since v18.7.0,v16.17.0 - Use {@link unsubscribe(name, onMessage)}
* @param onMessage The previous subscribed handler to remove
* @return `true` if the handler was found, `false` otherwise.
*/
unsubscribe(onMessage: ChannelListener): void;
/**
* When `channel.runStores(context, ...)` is called, the given context data
* will be applied to any store bound to the channel. If the store has already been
* bound the previous `transform` function will be replaced with the new one.
* The `transform` function may be omitted to set the given context data as the
* context directly.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
* import { AsyncLocalStorage } from 'node:async_hooks';
*
* const store = new AsyncLocalStorage();
*
* const channel = diagnostics_channel.channel('my-channel');
*
* channel.bindStore(store, (data) => {
* return { data };
* });
* ```
* @since v19.9.0
* @experimental
* @param store The store to which to bind the context data
* @param transform Transform context data before setting the store context
*/
bindStore(store: AsyncLocalStorage<StoreType>, transform?: (context: ContextType) => StoreType): void;
/**
* Remove a message handler previously registered to this channel with `channel.bindStore(store)`.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
* import { AsyncLocalStorage } from 'node:async_hooks';
*
* const store = new AsyncLocalStorage();
*
* const channel = diagnostics_channel.channel('my-channel');
*
* channel.bindStore(store);
* channel.unbindStore(store);
* ```
* @since v19.9.0
* @experimental
* @param store The store to unbind from the channel.
* @return `true` if the store was found, `false` otherwise.
*/
unbindStore(store: any): void;
/**
* Applies the given data to any AsyncLocalStorage instances bound to the channel
* for the duration of the given function, then publishes to the channel within
* the scope of that data is applied to the stores.
*
* If a transform function was given to `channel.bindStore(store)` it will be
* applied to transform the message data before it becomes the context value for
* the store. The prior storage context is accessible from within the transform
* function in cases where context linking is required.
*
* The context applied to the store should be accessible in any async code which
* continues from execution which began during the given function, however
* there are some situations in which `context loss` may occur.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
* import { AsyncLocalStorage } from 'node:async_hooks';
*
* const store = new AsyncLocalStorage();
*
* const channel = diagnostics_channel.channel('my-channel');
*
* channel.bindStore(store, (message) => {
* const parent = store.getStore();
* return new Span(message, parent);
* });
* channel.runStores({ some: 'message' }, () => {
* store.getStore(); // Span({ some: 'message' })
* });
* ```
* @since v19.9.0
* @experimental
* @param context Message to send to subscribers and bind to stores
* @param fn Handler to run within the entered storage context
* @param thisArg The receiver to be used for the function call.
* @param args Optional arguments to pass to the function.
*/
runStores(): void;
}
interface TracingChannelSubscribers<ContextType extends object> {
start: (message: ContextType) => void;
end: (
message: ContextType & {
error?: unknown;
result?: unknown;
},
) => void;
asyncStart: (
message: ContextType & {
error?: unknown;
result?: unknown;
},
) => void;
asyncEnd: (
message: ContextType & {
error?: unknown;
result?: unknown;
},
) => void;
error: (
message: ContextType & {
error: unknown;
},
) => void;
}
interface TracingChannelCollection<StoreType = unknown, ContextType = StoreType> {
start: Channel<StoreType, ContextType>;
end: Channel<StoreType, ContextType>;
asyncStart: Channel<StoreType, ContextType>;
asyncEnd: Channel<StoreType, ContextType>;
error: Channel<StoreType, ContextType>;
}
/**
* The class `TracingChannel` is a collection of `TracingChannel Channels` which
* together express a single traceable action. It is used to formalize and
* simplify the process of producing events for tracing application flow. {@link tracingChannel} is used to construct a `TracingChannel`. As with `Channel` it is recommended to create and reuse a
* single `TracingChannel` at the top-level of the file rather than creating them
* dynamically.
* @since v19.9.0
* @experimental
*/
class TracingChannel<StoreType = unknown, ContextType extends object = {}> implements TracingChannelCollection {
start: Channel<StoreType, ContextType>;
end: Channel<StoreType, ContextType>;
asyncStart: Channel<StoreType, ContextType>;
asyncEnd: Channel<StoreType, ContextType>;
error: Channel<StoreType, ContextType>;
/**
* Helper to subscribe a collection of functions to the corresponding channels.
* This is the same as calling `channel.subscribe(onMessage)` on each channel
* individually.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channels = diagnostics_channel.tracingChannel('my-channel');
*
* channels.subscribe({
* start(message) {
* // Handle start message
* },
* end(message) {
* // Handle end message
* },
* asyncStart(message) {
* // Handle asyncStart message
* },
* asyncEnd(message) {
* // Handle asyncEnd message
* },
* error(message) {
* // Handle error message
* },
* });
* ```
* @since v19.9.0
* @experimental
* @param subscribers Set of `TracingChannel Channels` subscribers
*/
subscribe(subscribers: TracingChannelSubscribers<ContextType>): void;
/**
* Helper to unsubscribe a collection of functions from the corresponding channels.
* This is the same as calling `channel.unsubscribe(onMessage)` on each channel
* individually.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channels = diagnostics_channel.tracingChannel('my-channel');
*
* channels.unsubscribe({
* start(message) {
* // Handle start message
* },
* end(message) {
* // Handle end message
* },
* asyncStart(message) {
* // Handle asyncStart message
* },
* asyncEnd(message) {
* // Handle asyncEnd message
* },
* error(message) {
* // Handle error message
* },
* });
* ```
* @since v19.9.0
* @experimental
* @param subscribers Set of `TracingChannel Channels` subscribers
* @return `true` if all handlers were successfully unsubscribed, and `false` otherwise.
*/
unsubscribe(subscribers: TracingChannelSubscribers<ContextType>): void;
/**
* Trace a synchronous function call. This will always produce a `start event` and `end event` around the execution and may produce an `error event` if the given function throws an error.
* This will run the given function using `channel.runStores(context, ...)` on the `start` channel which ensures all
* events should have any bound stores set to match this trace context.
*
* To ensure only correct trace graphs are formed, events will only be published if subscribers are present prior to starting the trace. Subscriptions
* which are added after the trace begins will not receive future events from that trace, only future traces will be seen.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channels = diagnostics_channel.tracingChannel('my-channel');
*
* channels.traceSync(() => {
* // Do something
* }, {
* some: 'thing',
* });
* ```
* @since v19.9.0
* @experimental
* @param fn Function to wrap a trace around
* @param context Shared object to correlate events through
* @param thisArg The receiver to be used for the function call
* @param args Optional arguments to pass to the function
* @return The return value of the given function
*/
traceSync<ThisArg = any, Args extends any[] = any[]>(
fn: (this: ThisArg, ...args: Args) => any,
context?: ContextType,
thisArg?: ThisArg,
...args: Args
): void;
/**
* Trace a promise-returning function call. This will always produce a `start event` and `end event` around the synchronous portion of the
* function execution, and will produce an `asyncStart event` and `asyncEnd event` when a promise continuation is reached. It may also
* produce an `error event` if the given function throws an error or the
* returned promise rejects. This will run the given function using `channel.runStores(context, ...)` on the `start` channel which ensures all
* events should have any bound stores set to match this trace context.
*
* To ensure only correct trace graphs are formed, events will only be published if subscribers are present prior to starting the trace. Subscriptions
* which are added after the trace begins will not receive future events from that trace, only future traces will be seen.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channels = diagnostics_channel.tracingChannel('my-channel');
*
* channels.tracePromise(async () => {
* // Do something
* }, {
* some: 'thing',
* });
* ```
* @since v19.9.0
* @experimental
* @param fn Promise-returning function to wrap a trace around
* @param context Shared object to correlate trace events through
* @param thisArg The receiver to be used for the function call
* @param args Optional arguments to pass to the function
* @return Chained from promise returned by the given function
*/
tracePromise<ThisArg = any, Args extends any[] = any[]>(
fn: (this: ThisArg, ...args: Args) => Promise<any>,
context?: ContextType,
thisArg?: ThisArg,
...args: Args
): void;
/**
* Trace a callback-receiving function call. This will always produce a `start event` and `end event` around the synchronous portion of the
* function execution, and will produce a `asyncStart event` and `asyncEnd event` around the callback execution. It may also produce an `error event` if the given function throws an error or
* the returned
* promise rejects. This will run the given function using `channel.runStores(context, ...)` on the `start` channel which ensures all
* events should have any bound stores set to match this trace context.
*
* The `position` will be -1 by default to indicate the final argument should
* be used as the callback.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
*
* const channels = diagnostics_channel.tracingChannel('my-channel');
*
* channels.traceCallback((arg1, callback) => {
* // Do something
* callback(null, 'result');
* }, 1, {
* some: 'thing',
* }, thisArg, arg1, callback);
* ```
*
* The callback will also be run with `channel.runStores(context, ...)` which
* enables context loss recovery in some cases.
*
* To ensure only correct trace graphs are formed, events will only be published if subscribers are present prior to starting the trace. Subscriptions
* which are added after the trace begins will not receive future events from that trace, only future traces will be seen.
*
* ```js
* import diagnostics_channel from 'node:diagnostics_channel';
* import { AsyncLocalStorage } from 'node:async_hooks';
*
* const channels = diagnostics_channel.tracingChannel('my-channel');
* const myStore = new AsyncLocalStorage();
*
* // The start channel sets the initial store data to something
* // and stores that store data value on the trace context object
* channels.start.bindStore(myStore, (data) => {
* const span = new Span(data);
* data.span = span;
* return span;
* });
*
* // Then asyncStart can restore from that data it stored previously
* channels.asyncStart.bindStore(myStore, (data) => {
* return data.span;
* });
* ```
* @since v19.9.0
* @experimental
* @param fn callback using function to wrap a trace around
* @param position Zero-indexed argument position of expected callback
* @param context Shared object to correlate trace events through
* @param thisArg The receiver to be used for the function call
* @param args Optional arguments to pass to the function
* @return The return value of the given function
*/
traceCallback<Fn extends (this: any, ...args: any[]) => any>(
fn: Fn,
position?: number,
context?: ContextType,
thisArg?: any,
...args: Parameters<Fn>
): void;
}
}
declare module "node:diagnostics_channel" {
export * from "diagnostics_channel";
}

865
node_modules/@types/node/dns.d.ts generated vendored Normal file
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@@ -0,0 +1,865 @@
/**
* The `node:dns` module enables name resolution. For example, use it to look up IP
* addresses of host names.
*
* Although named for the [Domain Name System (DNS)](https://en.wikipedia.org/wiki/Domain_Name_System), it does not always use the
* DNS protocol for lookups. {@link lookup} uses the operating system
* facilities to perform name resolution. It may not need to perform any network
* communication. To perform name resolution the way other applications on the same
* system do, use {@link lookup}.
*
* ```js
* import dns from 'node:dns';
*
* dns.lookup('example.org', (err, address, family) => {
* console.log('address: %j family: IPv%s', address, family);
* });
* // address: "93.184.216.34" family: IPv4
* ```
*
* All other functions in the `node:dns` module connect to an actual DNS server to
* perform name resolution. They will always use the network to perform DNS
* queries. These functions do not use the same set of configuration files used by {@link lookup} (e.g. `/etc/hosts`). Use these functions to always perform
* DNS queries, bypassing other name-resolution facilities.
*
* ```js
* import dns from 'node:dns';
*
* dns.resolve4('archive.org', (err, addresses) => {
* if (err) throw err;
*
* console.log(`addresses: ${JSON.stringify(addresses)}`);
*
* addresses.forEach((a) => {
* dns.reverse(a, (err, hostnames) => {
* if (err) {
* throw err;
* }
* console.log(`reverse for ${a}: ${JSON.stringify(hostnames)}`);
* });
* });
* });
* ```
*
* See the [Implementation considerations section](https://nodejs.org/docs/latest-v22.x/api/dns.html#implementation-considerations) for more information.
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/dns.js)
*/
declare module "dns" {
import * as dnsPromises from "node:dns/promises";
// Supported getaddrinfo flags.
/**
* Limits returned address types to the types of non-loopback addresses configured on the system. For example, IPv4 addresses are
* only returned if the current system has at least one IPv4 address configured.
*/
export const ADDRCONFIG: number;
/**
* If the IPv6 family was specified, but no IPv6 addresses were found, then return IPv4 mapped IPv6 addresses. It is not supported
* on some operating systems (e.g. FreeBSD 10.1).
*/
export const V4MAPPED: number;
/**
* If `dns.V4MAPPED` is specified, return resolved IPv6 addresses as
* well as IPv4 mapped IPv6 addresses.
*/
export const ALL: number;
export interface LookupOptions {
/**
* The record family. Must be `4`, `6`, or `0`. For backward compatibility reasons, `'IPv4'` and `'IPv6'` are interpreted
* as `4` and `6` respectively. The value 0 indicates that either an IPv4 or IPv6 address is returned. If the value `0` is used
* with `{ all: true } (see below)`, both IPv4 and IPv6 addresses are returned.
* @default 0
*/
family?: number | "IPv4" | "IPv6" | undefined;
/**
* One or more [supported `getaddrinfo`](https://nodejs.org/docs/latest-v22.x/api/dns.html#supported-getaddrinfo-flags) flags. Multiple flags may be
* passed by bitwise `OR`ing their values.
*/
hints?: number | undefined;
/**
* When `true`, the callback returns all resolved addresses in an array. Otherwise, returns a single address.
* @default false
*/
all?: boolean | undefined;
/**
* When `verbatim`, the resolved addresses are return unsorted. When `ipv4first`, the resolved addresses are sorted
* by placing IPv4 addresses before IPv6 addresses. When `ipv6first`, the resolved addresses are sorted by placing IPv6
* addresses before IPv4 addresses. Default value is configurable using
* {@link setDefaultResultOrder} or [`--dns-result-order`](https://nodejs.org/docs/latest-v22.x/api/cli.html#--dns-result-orderorder).
* @default `verbatim` (addresses are not reordered)
* @since v22.1.0
*/
order?: "ipv4first" | "ipv6first" | "verbatim" | undefined;
/**
* When `true`, the callback receives IPv4 and IPv6 addresses in the order the DNS resolver returned them. When `false`, IPv4
* addresses are placed before IPv6 addresses. This option will be deprecated in favor of `order`. When both are specified,
* `order` has higher precedence. New code should only use `order`. Default value is configurable using {@link setDefaultResultOrder}
* @default true (addresses are not reordered)
* @deprecated Please use `order` option
*/
verbatim?: boolean | undefined;
}
export interface LookupOneOptions extends LookupOptions {
all?: false | undefined;
}
export interface LookupAllOptions extends LookupOptions {
all: true;
}
export interface LookupAddress {
/**
* A string representation of an IPv4 or IPv6 address.
*/
address: string;
/**
* `4` or `6`, denoting the family of `address`, or `0` if the address is not an IPv4 or IPv6 address. `0` is a likely indicator of a
* bug in the name resolution service used by the operating system.
*/
family: number;
}
/**
* Resolves a host name (e.g. `'nodejs.org'`) into the first found A (IPv4) or
* AAAA (IPv6) record. All `option` properties are optional. If `options` is an
* integer, then it must be `4` or `6` if `options` is `0` or not provided, then
* IPv4 and IPv6 addresses are both returned if found.
*
* With the `all` option set to `true`, the arguments for `callback` change to `(err, addresses)`, with `addresses` being an array of objects with the
* properties `address` and `family`.
*
* On error, `err` is an `Error` object, where `err.code` is the error code.
* Keep in mind that `err.code` will be set to `'ENOTFOUND'` not only when
* the host name does not exist but also when the lookup fails in other ways
* such as no available file descriptors.
*
* `dns.lookup()` does not necessarily have anything to do with the DNS protocol.
* The implementation uses an operating system facility that can associate names
* with addresses and vice versa. This implementation can have subtle but
* important consequences on the behavior of any Node.js program. Please take some
* time to consult the [Implementation considerations section](https://nodejs.org/docs/latest-v22.x/api/dns.html#implementation-considerations)
* before using `dns.lookup()`.
*
* Example usage:
*
* ```js
* import dns from 'node:dns';
* const options = {
* family: 6,
* hints: dns.ADDRCONFIG | dns.V4MAPPED,
* };
* dns.lookup('example.com', options, (err, address, family) =>
* console.log('address: %j family: IPv%s', address, family));
* // address: "2606:2800:220:1:248:1893:25c8:1946" family: IPv6
*
* // When options.all is true, the result will be an Array.
* options.all = true;
* dns.lookup('example.com', options, (err, addresses) =>
* console.log('addresses: %j', addresses));
* // addresses: [{"address":"2606:2800:220:1:248:1893:25c8:1946","family":6}]
* ```
*
* If this method is invoked as its [util.promisify()](https://nodejs.org/docs/latest-v22.x/api/util.html#utilpromisifyoriginal) ed
* version, and `all` is not set to `true`, it returns a `Promise` for an `Object` with `address` and `family` properties.
* @since v0.1.90
*/
export function lookup(
hostname: string,
family: number,
callback: (err: NodeJS.ErrnoException | null, address: string, family: number) => void,
): void;
export function lookup(
hostname: string,
options: LookupOneOptions,
callback: (err: NodeJS.ErrnoException | null, address: string, family: number) => void,
): void;
export function lookup(
hostname: string,
options: LookupAllOptions,
callback: (err: NodeJS.ErrnoException | null, addresses: LookupAddress[]) => void,
): void;
export function lookup(
hostname: string,
options: LookupOptions,
callback: (err: NodeJS.ErrnoException | null, address: string | LookupAddress[], family: number) => void,
): void;
export function lookup(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, address: string, family: number) => void,
): void;
export namespace lookup {
function __promisify__(hostname: string, options: LookupAllOptions): Promise<LookupAddress[]>;
function __promisify__(hostname: string, options?: LookupOneOptions | number): Promise<LookupAddress>;
function __promisify__(hostname: string, options: LookupOptions): Promise<LookupAddress | LookupAddress[]>;
}
/**
* Resolves the given `address` and `port` into a host name and service using
* the operating system's underlying `getnameinfo` implementation.
*
* If `address` is not a valid IP address, a `TypeError` will be thrown.
* The `port` will be coerced to a number. If it is not a legal port, a `TypeError` will be thrown.
*
* On an error, `err` is an [`Error`](https://nodejs.org/docs/latest-v22.x/api/errors.html#class-error) object,
* where `err.code` is the error code.
*
* ```js
* import dns from 'node:dns';
* dns.lookupService('127.0.0.1', 22, (err, hostname, service) => {
* console.log(hostname, service);
* // Prints: localhost ssh
* });
* ```
*
* If this method is invoked as its [util.promisify()](https://nodejs.org/docs/latest-v22.x/api/util.html#utilpromisifyoriginal) ed
* version, it returns a `Promise` for an `Object` with `hostname` and `service` properties.
* @since v0.11.14
*/
export function lookupService(
address: string,
port: number,
callback: (err: NodeJS.ErrnoException | null, hostname: string, service: string) => void,
): void;
export namespace lookupService {
function __promisify__(
address: string,
port: number,
): Promise<{
hostname: string;
service: string;
}>;
}
export interface ResolveOptions {
ttl: boolean;
}
export interface ResolveWithTtlOptions extends ResolveOptions {
ttl: true;
}
export interface RecordWithTtl {
address: string;
ttl: number;
}
/** @deprecated Use `AnyARecord` or `AnyAaaaRecord` instead. */
export type AnyRecordWithTtl = AnyARecord | AnyAaaaRecord;
export interface AnyARecord extends RecordWithTtl {
type: "A";
}
export interface AnyAaaaRecord extends RecordWithTtl {
type: "AAAA";
}
export interface CaaRecord {
critical: number;
issue?: string | undefined;
issuewild?: string | undefined;
iodef?: string | undefined;
contactemail?: string | undefined;
contactphone?: string | undefined;
}
export interface MxRecord {
priority: number;
exchange: string;
}
export interface AnyMxRecord extends MxRecord {
type: "MX";
}
export interface NaptrRecord {
flags: string;
service: string;
regexp: string;
replacement: string;
order: number;
preference: number;
}
export interface AnyNaptrRecord extends NaptrRecord {
type: "NAPTR";
}
export interface SoaRecord {
nsname: string;
hostmaster: string;
serial: number;
refresh: number;
retry: number;
expire: number;
minttl: number;
}
export interface AnySoaRecord extends SoaRecord {
type: "SOA";
}
export interface SrvRecord {
priority: number;
weight: number;
port: number;
name: string;
}
export interface AnySrvRecord extends SrvRecord {
type: "SRV";
}
export interface AnyTxtRecord {
type: "TXT";
entries: string[];
}
export interface AnyNsRecord {
type: "NS";
value: string;
}
export interface AnyPtrRecord {
type: "PTR";
value: string;
}
export interface AnyCnameRecord {
type: "CNAME";
value: string;
}
export type AnyRecord =
| AnyARecord
| AnyAaaaRecord
| AnyCnameRecord
| AnyMxRecord
| AnyNaptrRecord
| AnyNsRecord
| AnyPtrRecord
| AnySoaRecord
| AnySrvRecord
| AnyTxtRecord;
/**
* Uses the DNS protocol to resolve a host name (e.g. `'nodejs.org'`) into an array
* of the resource records. The `callback` function has arguments `(err, records)`. When successful, `records` will be an array of resource
* records. The type and structure of individual results varies based on `rrtype`:
*
* <omitted>
*
* On error, `err` is an [`Error`](https://nodejs.org/docs/latest-v22.x/api/errors.html#class-error) object,
* where `err.code` is one of the `DNS error codes`.
* @since v0.1.27
* @param hostname Host name to resolve.
* @param [rrtype='A'] Resource record type.
*/
export function resolve(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "A",
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "AAAA",
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "ANY",
callback: (err: NodeJS.ErrnoException | null, addresses: AnyRecord[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "CNAME",
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "MX",
callback: (err: NodeJS.ErrnoException | null, addresses: MxRecord[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "NAPTR",
callback: (err: NodeJS.ErrnoException | null, addresses: NaptrRecord[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "NS",
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "PTR",
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "SOA",
callback: (err: NodeJS.ErrnoException | null, addresses: SoaRecord) => void,
): void;
export function resolve(
hostname: string,
rrtype: "SRV",
callback: (err: NodeJS.ErrnoException | null, addresses: SrvRecord[]) => void,
): void;
export function resolve(
hostname: string,
rrtype: "TXT",
callback: (err: NodeJS.ErrnoException | null, addresses: string[][]) => void,
): void;
export function resolve(
hostname: string,
rrtype: string,
callback: (
err: NodeJS.ErrnoException | null,
addresses: string[] | MxRecord[] | NaptrRecord[] | SoaRecord | SrvRecord[] | string[][] | AnyRecord[],
) => void,
): void;
export namespace resolve {
function __promisify__(hostname: string, rrtype?: "A" | "AAAA" | "CNAME" | "NS" | "PTR"): Promise<string[]>;
function __promisify__(hostname: string, rrtype: "ANY"): Promise<AnyRecord[]>;
function __promisify__(hostname: string, rrtype: "MX"): Promise<MxRecord[]>;
function __promisify__(hostname: string, rrtype: "NAPTR"): Promise<NaptrRecord[]>;
function __promisify__(hostname: string, rrtype: "SOA"): Promise<SoaRecord>;
function __promisify__(hostname: string, rrtype: "SRV"): Promise<SrvRecord[]>;
function __promisify__(hostname: string, rrtype: "TXT"): Promise<string[][]>;
function __promisify__(
hostname: string,
rrtype: string,
): Promise<string[] | MxRecord[] | NaptrRecord[] | SoaRecord | SrvRecord[] | string[][] | AnyRecord[]>;
}
/**
* Uses the DNS protocol to resolve a IPv4 addresses (`A` records) for the `hostname`. The `addresses` argument passed to the `callback` function
* will contain an array of IPv4 addresses (e.g.`['74.125.79.104', '74.125.79.105', '74.125.79.106']`).
* @since v0.1.16
* @param hostname Host name to resolve.
*/
export function resolve4(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export function resolve4(
hostname: string,
options: ResolveWithTtlOptions,
callback: (err: NodeJS.ErrnoException | null, addresses: RecordWithTtl[]) => void,
): void;
export function resolve4(
hostname: string,
options: ResolveOptions,
callback: (err: NodeJS.ErrnoException | null, addresses: string[] | RecordWithTtl[]) => void,
): void;
export namespace resolve4 {
function __promisify__(hostname: string): Promise<string[]>;
function __promisify__(hostname: string, options: ResolveWithTtlOptions): Promise<RecordWithTtl[]>;
function __promisify__(hostname: string, options?: ResolveOptions): Promise<string[] | RecordWithTtl[]>;
}
/**
* Uses the DNS protocol to resolve IPv6 addresses (`AAAA` records) for the `hostname`. The `addresses` argument passed to the `callback` function
* will contain an array of IPv6 addresses.
* @since v0.1.16
* @param hostname Host name to resolve.
*/
export function resolve6(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export function resolve6(
hostname: string,
options: ResolveWithTtlOptions,
callback: (err: NodeJS.ErrnoException | null, addresses: RecordWithTtl[]) => void,
): void;
export function resolve6(
hostname: string,
options: ResolveOptions,
callback: (err: NodeJS.ErrnoException | null, addresses: string[] | RecordWithTtl[]) => void,
): void;
export namespace resolve6 {
function __promisify__(hostname: string): Promise<string[]>;
function __promisify__(hostname: string, options: ResolveWithTtlOptions): Promise<RecordWithTtl[]>;
function __promisify__(hostname: string, options?: ResolveOptions): Promise<string[] | RecordWithTtl[]>;
}
/**
* Uses the DNS protocol to resolve `CNAME` records for the `hostname`. The `addresses` argument passed to the `callback` function
* will contain an array of canonical name records available for the `hostname` (e.g. `['bar.example.com']`).
* @since v0.3.2
*/
export function resolveCname(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export namespace resolveCname {
function __promisify__(hostname: string): Promise<string[]>;
}
/**
* Uses the DNS protocol to resolve `CAA` records for the `hostname`. The `addresses` argument passed to the `callback` function
* will contain an array of certification authority authorization records
* available for the `hostname` (e.g. `[{critical: 0, iodef: 'mailto:pki@example.com'}, {critical: 128, issue: 'pki.example.com'}]`).
* @since v15.0.0, v14.17.0
*/
export function resolveCaa(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, records: CaaRecord[]) => void,
): void;
export namespace resolveCaa {
function __promisify__(hostname: string): Promise<CaaRecord[]>;
}
/**
* Uses the DNS protocol to resolve mail exchange records (`MX` records) for the `hostname`. The `addresses` argument passed to the `callback` function will
* contain an array of objects containing both a `priority` and `exchange` property (e.g. `[{priority: 10, exchange: 'mx.example.com'}, ...]`).
* @since v0.1.27
*/
export function resolveMx(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: MxRecord[]) => void,
): void;
export namespace resolveMx {
function __promisify__(hostname: string): Promise<MxRecord[]>;
}
/**
* Uses the DNS protocol to resolve regular expression-based records (`NAPTR` records) for the `hostname`. The `addresses` argument passed to the `callback` function will contain an array of
* objects with the following properties:
*
* * `flags`
* * `service`
* * `regexp`
* * `replacement`
* * `order`
* * `preference`
*
* ```js
* {
* flags: 's',
* service: 'SIP+D2U',
* regexp: '',
* replacement: '_sip._udp.example.com',
* order: 30,
* preference: 100
* }
* ```
* @since v0.9.12
*/
export function resolveNaptr(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: NaptrRecord[]) => void,
): void;
export namespace resolveNaptr {
function __promisify__(hostname: string): Promise<NaptrRecord[]>;
}
/**
* Uses the DNS protocol to resolve name server records (`NS` records) for the `hostname`. The `addresses` argument passed to the `callback` function will
* contain an array of name server records available for `hostname` (e.g. `['ns1.example.com', 'ns2.example.com']`).
* @since v0.1.90
*/
export function resolveNs(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export namespace resolveNs {
function __promisify__(hostname: string): Promise<string[]>;
}
/**
* Uses the DNS protocol to resolve pointer records (`PTR` records) for the `hostname`. The `addresses` argument passed to the `callback` function will
* be an array of strings containing the reply records.
* @since v6.0.0
*/
export function resolvePtr(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: string[]) => void,
): void;
export namespace resolvePtr {
function __promisify__(hostname: string): Promise<string[]>;
}
/**
* Uses the DNS protocol to resolve a start of authority record (`SOA` record) for
* the `hostname`. The `address` argument passed to the `callback` function will
* be an object with the following properties:
*
* * `nsname`
* * `hostmaster`
* * `serial`
* * `refresh`
* * `retry`
* * `expire`
* * `minttl`
*
* ```js
* {
* nsname: 'ns.example.com',
* hostmaster: 'root.example.com',
* serial: 2013101809,
* refresh: 10000,
* retry: 2400,
* expire: 604800,
* minttl: 3600
* }
* ```
* @since v0.11.10
*/
export function resolveSoa(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, address: SoaRecord) => void,
): void;
export namespace resolveSoa {
function __promisify__(hostname: string): Promise<SoaRecord>;
}
/**
* Uses the DNS protocol to resolve service records (`SRV` records) for the `hostname`. The `addresses` argument passed to the `callback` function will
* be an array of objects with the following properties:
*
* * `priority`
* * `weight`
* * `port`
* * `name`
*
* ```js
* {
* priority: 10,
* weight: 5,
* port: 21223,
* name: 'service.example.com'
* }
* ```
* @since v0.1.27
*/
export function resolveSrv(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: SrvRecord[]) => void,
): void;
export namespace resolveSrv {
function __promisify__(hostname: string): Promise<SrvRecord[]>;
}
/**
* Uses the DNS protocol to resolve text queries (`TXT` records) for the `hostname`. The `records` argument passed to the `callback` function is a
* two-dimensional array of the text records available for `hostname` (e.g.`[ ['v=spf1 ip4:0.0.0.0 ', '~all' ] ]`). Each sub-array contains TXT chunks of
* one record. Depending on the use case, these could be either joined together or
* treated separately.
* @since v0.1.27
*/
export function resolveTxt(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: string[][]) => void,
): void;
export namespace resolveTxt {
function __promisify__(hostname: string): Promise<string[][]>;
}
/**
* Uses the DNS protocol to resolve all records (also known as `ANY` or `*` query).
* The `ret` argument passed to the `callback` function will be an array containing
* various types of records. Each object has a property `type` that indicates the
* type of the current record. And depending on the `type`, additional properties
* will be present on the object:
*
* <omitted>
*
* Here is an example of the `ret` object passed to the callback:
*
* ```js
* [ { type: 'A', address: '127.0.0.1', ttl: 299 },
* { type: 'CNAME', value: 'example.com' },
* { type: 'MX', exchange: 'alt4.aspmx.l.example.com', priority: 50 },
* { type: 'NS', value: 'ns1.example.com' },
* { type: 'TXT', entries: [ 'v=spf1 include:_spf.example.com ~all' ] },
* { type: 'SOA',
* nsname: 'ns1.example.com',
* hostmaster: 'admin.example.com',
* serial: 156696742,
* refresh: 900,
* retry: 900,
* expire: 1800,
* minttl: 60 } ]
* ```
*
* DNS server operators may choose not to respond to `ANY` queries. It may be better to call individual methods like {@link resolve4}, {@link resolveMx}, and so on. For more details, see
* [RFC 8482](https://tools.ietf.org/html/rfc8482).
*/
export function resolveAny(
hostname: string,
callback: (err: NodeJS.ErrnoException | null, addresses: AnyRecord[]) => void,
): void;
export namespace resolveAny {
function __promisify__(hostname: string): Promise<AnyRecord[]>;
}
/**
* Performs a reverse DNS query that resolves an IPv4 or IPv6 address to an
* array of host names.
*
* On error, `err` is an [`Error`](https://nodejs.org/docs/latest-v22.x/api/errors.html#class-error) object, where `err.code` is
* one of the [DNS error codes](https://nodejs.org/docs/latest-v22.x/api/dns.html#error-codes).
* @since v0.1.16
*/
export function reverse(
ip: string,
callback: (err: NodeJS.ErrnoException | null, hostnames: string[]) => void,
): void;
/**
* Get the default value for `order` in {@link lookup} and [`dnsPromises.lookup()`](https://nodejs.org/docs/latest-v22.x/api/dns.html#dnspromiseslookuphostname-options).
* The value could be:
*
* * `ipv4first`: for `order` defaulting to `ipv4first`.
* * `ipv6first`: for `order` defaulting to `ipv6first`.
* * `verbatim`: for `order` defaulting to `verbatim`.
* @since v18.17.0
*/
export function getDefaultResultOrder(): "ipv4first" | "ipv6first" | "verbatim";
/**
* Sets the IP address and port of servers to be used when performing DNS
* resolution. The `servers` argument is an array of [RFC 5952](https://tools.ietf.org/html/rfc5952#section-6) formatted
* addresses. If the port is the IANA default DNS port (53) it can be omitted.
*
* ```js
* dns.setServers([
* '4.4.4.4',
* '[2001:4860:4860::8888]',
* '4.4.4.4:1053',
* '[2001:4860:4860::8888]:1053',
* ]);
* ```
*
* An error will be thrown if an invalid address is provided.
*
* The `dns.setServers()` method must not be called while a DNS query is in
* progress.
*
* The {@link setServers} method affects only {@link resolve}, `dns.resolve*()` and {@link reverse} (and specifically _not_ {@link lookup}).
*
* This method works much like [resolve.conf](https://man7.org/linux/man-pages/man5/resolv.conf.5.html).
* That is, if attempting to resolve with the first server provided results in a `NOTFOUND` error, the `resolve()` method will _not_ attempt to resolve with
* subsequent servers provided. Fallback DNS servers will only be used if the
* earlier ones time out or result in some other error.
* @since v0.11.3
* @param servers array of [RFC 5952](https://datatracker.ietf.org/doc/html/rfc5952#section-6) formatted addresses
*/
export function setServers(servers: readonly string[]): void;
/**
* Returns an array of IP address strings, formatted according to [RFC 5952](https://tools.ietf.org/html/rfc5952#section-6),
* that are currently configured for DNS resolution. A string will include a port
* section if a custom port is used.
*
* ```js
* [
* '4.4.4.4',
* '2001:4860:4860::8888',
* '4.4.4.4:1053',
* '[2001:4860:4860::8888]:1053',
* ]
* ```
* @since v0.11.3
*/
export function getServers(): string[];
/**
* Set the default value of `order` in {@link lookup} and [`dnsPromises.lookup()`](https://nodejs.org/docs/latest-v22.x/api/dns.html#dnspromiseslookuphostname-options).
* The value could be:
*
* * `ipv4first`: sets default `order` to `ipv4first`.
* * `ipv6first`: sets default `order` to `ipv6first`.
* * `verbatim`: sets default `order` to `verbatim`.
*
* The default is `verbatim` and {@link setDefaultResultOrder} have higher
* priority than [`--dns-result-order`](https://nodejs.org/docs/latest-v22.x/api/cli.html#--dns-result-orderorder). When using
* [worker threads](https://nodejs.org/docs/latest-v22.x/api/worker_threads.html), {@link setDefaultResultOrder} from the main
* thread won't affect the default dns orders in workers.
* @since v16.4.0, v14.18.0
* @param order must be `'ipv4first'`, `'ipv6first'` or `'verbatim'`.
*/
export function setDefaultResultOrder(order: "ipv4first" | "ipv6first" | "verbatim"): void;
// Error codes
export const NODATA: "ENODATA";
export const FORMERR: "EFORMERR";
export const SERVFAIL: "ESERVFAIL";
export const NOTFOUND: "ENOTFOUND";
export const NOTIMP: "ENOTIMP";
export const REFUSED: "EREFUSED";
export const BADQUERY: "EBADQUERY";
export const BADNAME: "EBADNAME";
export const BADFAMILY: "EBADFAMILY";
export const BADRESP: "EBADRESP";
export const CONNREFUSED: "ECONNREFUSED";
export const TIMEOUT: "ETIMEOUT";
export const EOF: "EOF";
export const FILE: "EFILE";
export const NOMEM: "ENOMEM";
export const DESTRUCTION: "EDESTRUCTION";
export const BADSTR: "EBADSTR";
export const BADFLAGS: "EBADFLAGS";
export const NONAME: "ENONAME";
export const BADHINTS: "EBADHINTS";
export const NOTINITIALIZED: "ENOTINITIALIZED";
export const LOADIPHLPAPI: "ELOADIPHLPAPI";
export const ADDRGETNETWORKPARAMS: "EADDRGETNETWORKPARAMS";
export const CANCELLED: "ECANCELLED";
export interface ResolverOptions {
/**
* Query timeout in milliseconds, or `-1` to use the default timeout.
*/
timeout?: number | undefined;
/**
* The number of tries the resolver will try contacting each name server before giving up.
* @default 4
*/
tries?: number;
}
/**
* An independent resolver for DNS requests.
*
* Creating a new resolver uses the default server settings. Setting
* the servers used for a resolver using [`resolver.setServers()`](https://nodejs.org/docs/latest-v22.x/api/dns.html#dnssetserversservers) does not affect
* other resolvers:
*
* ```js
* import { Resolver } from 'node:dns';
* const resolver = new Resolver();
* resolver.setServers(['4.4.4.4']);
*
* // This request will use the server at 4.4.4.4, independent of global settings.
* resolver.resolve4('example.org', (err, addresses) => {
* // ...
* });
* ```
*
* The following methods from the `node:dns` module are available:
*
* * `resolver.getServers()`
* * `resolver.resolve()`
* * `resolver.resolve4()`
* * `resolver.resolve6()`
* * `resolver.resolveAny()`
* * `resolver.resolveCaa()`
* * `resolver.resolveCname()`
* * `resolver.resolveMx()`
* * `resolver.resolveNaptr()`
* * `resolver.resolveNs()`
* * `resolver.resolvePtr()`
* * `resolver.resolveSoa()`
* * `resolver.resolveSrv()`
* * `resolver.resolveTxt()`
* * `resolver.reverse()`
* * `resolver.setServers()`
* @since v8.3.0
*/
export class Resolver {
constructor(options?: ResolverOptions);
/**
* Cancel all outstanding DNS queries made by this resolver. The corresponding
* callbacks will be called with an error with code `ECANCELLED`.
* @since v8.3.0
*/
cancel(): void;
getServers: typeof getServers;
resolve: typeof resolve;
resolve4: typeof resolve4;
resolve6: typeof resolve6;
resolveAny: typeof resolveAny;
resolveCaa: typeof resolveCaa;
resolveCname: typeof resolveCname;
resolveMx: typeof resolveMx;
resolveNaptr: typeof resolveNaptr;
resolveNs: typeof resolveNs;
resolvePtr: typeof resolvePtr;
resolveSoa: typeof resolveSoa;
resolveSrv: typeof resolveSrv;
resolveTxt: typeof resolveTxt;
reverse: typeof reverse;
/**
* The resolver instance will send its requests from the specified IP address.
* This allows programs to specify outbound interfaces when used on multi-homed
* systems.
*
* If a v4 or v6 address is not specified, it is set to the default and the
* operating system will choose a local address automatically.
*
* The resolver will use the v4 local address when making requests to IPv4 DNS
* servers, and the v6 local address when making requests to IPv6 DNS servers.
* The `rrtype` of resolution requests has no impact on the local address used.
* @since v15.1.0, v14.17.0
* @param [ipv4='0.0.0.0'] A string representation of an IPv4 address.
* @param [ipv6='::0'] A string representation of an IPv6 address.
*/
setLocalAddress(ipv4?: string, ipv6?: string): void;
setServers: typeof setServers;
}
export { dnsPromises as promises };
}
declare module "node:dns" {
export * from "dns";
}

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node_modules/@types/node/dns/promises.d.ts generated vendored Normal file
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/**
* The `dns.promises` API provides an alternative set of asynchronous DNS methods
* that return `Promise` objects rather than using callbacks. The API is accessible
* via `import { promises as dnsPromises } from 'node:dns'` or `import dnsPromises from 'node:dns/promises'`.
* @since v10.6.0
*/
declare module "dns/promises" {
import {
AnyRecord,
CaaRecord,
LookupAddress,
LookupAllOptions,
LookupOneOptions,
LookupOptions,
MxRecord,
NaptrRecord,
RecordWithTtl,
ResolveOptions,
ResolverOptions,
ResolveWithTtlOptions,
SoaRecord,
SrvRecord,
} from "node:dns";
/**
* Returns an array of IP address strings, formatted according to [RFC 5952](https://tools.ietf.org/html/rfc5952#section-6),
* that are currently configured for DNS resolution. A string will include a port
* section if a custom port is used.
*
* ```js
* [
* '4.4.4.4',
* '2001:4860:4860::8888',
* '4.4.4.4:1053',
* '[2001:4860:4860::8888]:1053',
* ]
* ```
* @since v10.6.0
*/
function getServers(): string[];
/**
* Resolves a host name (e.g. `'nodejs.org'`) into the first found A (IPv4) or
* AAAA (IPv6) record. All `option` properties are optional. If `options` is an
* integer, then it must be `4` or `6` if `options` is not provided, then IPv4
* and IPv6 addresses are both returned if found.
*
* With the `all` option set to `true`, the `Promise` is resolved with `addresses` being an array of objects with the properties `address` and `family`.
*
* On error, the `Promise` is rejected with an [`Error`](https://nodejs.org/docs/latest-v20.x/api/errors.html#class-error) object, where `err.code` is the error code.
* Keep in mind that `err.code` will be set to `'ENOTFOUND'` not only when
* the host name does not exist but also when the lookup fails in other ways
* such as no available file descriptors.
*
* [`dnsPromises.lookup()`](https://nodejs.org/docs/latest-v20.x/api/dns.html#dnspromiseslookuphostname-options) does not necessarily have anything to do with the DNS
* protocol. The implementation uses an operating system facility that can
* associate names with addresses and vice versa. This implementation can have
* subtle but important consequences on the behavior of any Node.js program. Please
* take some time to consult the [Implementation considerations section](https://nodejs.org/docs/latest-v20.x/api/dns.html#implementation-considerations) before
* using `dnsPromises.lookup()`.
*
* Example usage:
*
* ```js
* import dns from 'node:dns';
* const dnsPromises = dns.promises;
* const options = {
* family: 6,
* hints: dns.ADDRCONFIG | dns.V4MAPPED,
* };
*
* dnsPromises.lookup('example.com', options).then((result) => {
* console.log('address: %j family: IPv%s', result.address, result.family);
* // address: "2606:2800:220:1:248:1893:25c8:1946" family: IPv6
* });
*
* // When options.all is true, the result will be an Array.
* options.all = true;
* dnsPromises.lookup('example.com', options).then((result) => {
* console.log('addresses: %j', result);
* // addresses: [{"address":"2606:2800:220:1:248:1893:25c8:1946","family":6}]
* });
* ```
* @since v10.6.0
*/
function lookup(hostname: string, family: number): Promise<LookupAddress>;
function lookup(hostname: string, options: LookupOneOptions): Promise<LookupAddress>;
function lookup(hostname: string, options: LookupAllOptions): Promise<LookupAddress[]>;
function lookup(hostname: string, options: LookupOptions): Promise<LookupAddress | LookupAddress[]>;
function lookup(hostname: string): Promise<LookupAddress>;
/**
* Resolves the given `address` and `port` into a host name and service using
* the operating system's underlying `getnameinfo` implementation.
*
* If `address` is not a valid IP address, a `TypeError` will be thrown.
* The `port` will be coerced to a number. If it is not a legal port, a `TypeError` will be thrown.
*
* On error, the `Promise` is rejected with an [`Error`](https://nodejs.org/docs/latest-v20.x/api/errors.html#class-error) object, where `err.code` is the error code.
*
* ```js
* import dnsPromises from 'node:dns';
* dnsPromises.lookupService('127.0.0.1', 22).then((result) => {
* console.log(result.hostname, result.service);
* // Prints: localhost ssh
* });
* ```
* @since v10.6.0
*/
function lookupService(
address: string,
port: number,
): Promise<{
hostname: string;
service: string;
}>;
/**
* Uses the DNS protocol to resolve a host name (e.g. `'nodejs.org'`) into an array
* of the resource records. When successful, the `Promise` is resolved with an
* array of resource records. The type and structure of individual results vary
* based on `rrtype`:
*
* <omitted>
*
* On error, the `Promise` is rejected with an [`Error`](https://nodejs.org/docs/latest-v20.x/api/errors.html#class-error) object, where `err.code`
* is one of the [DNS error codes](https://nodejs.org/docs/latest-v20.x/api/dns.html#error-codes).
* @since v10.6.0
* @param hostname Host name to resolve.
* @param [rrtype='A'] Resource record type.
*/
function resolve(hostname: string): Promise<string[]>;
function resolve(hostname: string, rrtype: "A"): Promise<string[]>;
function resolve(hostname: string, rrtype: "AAAA"): Promise<string[]>;
function resolve(hostname: string, rrtype: "ANY"): Promise<AnyRecord[]>;
function resolve(hostname: string, rrtype: "CAA"): Promise<CaaRecord[]>;
function resolve(hostname: string, rrtype: "CNAME"): Promise<string[]>;
function resolve(hostname: string, rrtype: "MX"): Promise<MxRecord[]>;
function resolve(hostname: string, rrtype: "NAPTR"): Promise<NaptrRecord[]>;
function resolve(hostname: string, rrtype: "NS"): Promise<string[]>;
function resolve(hostname: string, rrtype: "PTR"): Promise<string[]>;
function resolve(hostname: string, rrtype: "SOA"): Promise<SoaRecord>;
function resolve(hostname: string, rrtype: "SRV"): Promise<SrvRecord[]>;
function resolve(hostname: string, rrtype: "TXT"): Promise<string[][]>;
function resolve(
hostname: string,
rrtype: string,
): Promise<string[] | MxRecord[] | NaptrRecord[] | SoaRecord | SrvRecord[] | string[][] | AnyRecord[]>;
/**
* Uses the DNS protocol to resolve IPv4 addresses (`A` records) for the `hostname`. On success, the `Promise` is resolved with an array of IPv4
* addresses (e.g. `['74.125.79.104', '74.125.79.105', '74.125.79.106']`).
* @since v10.6.0
* @param hostname Host name to resolve.
*/
function resolve4(hostname: string): Promise<string[]>;
function resolve4(hostname: string, options: ResolveWithTtlOptions): Promise<RecordWithTtl[]>;
function resolve4(hostname: string, options: ResolveOptions): Promise<string[] | RecordWithTtl[]>;
/**
* Uses the DNS protocol to resolve IPv6 addresses (`AAAA` records) for the `hostname`. On success, the `Promise` is resolved with an array of IPv6
* addresses.
* @since v10.6.0
* @param hostname Host name to resolve.
*/
function resolve6(hostname: string): Promise<string[]>;
function resolve6(hostname: string, options: ResolveWithTtlOptions): Promise<RecordWithTtl[]>;
function resolve6(hostname: string, options: ResolveOptions): Promise<string[] | RecordWithTtl[]>;
/**
* Uses the DNS protocol to resolve all records (also known as `ANY` or `*` query).
* On success, the `Promise` is resolved with an array containing various types of
* records. Each object has a property `type` that indicates the type of the
* current record. And depending on the `type`, additional properties will be
* present on the object:
*
* <omitted>
*
* Here is an example of the result object:
*
* ```js
* [ { type: 'A', address: '127.0.0.1', ttl: 299 },
* { type: 'CNAME', value: 'example.com' },
* { type: 'MX', exchange: 'alt4.aspmx.l.example.com', priority: 50 },
* { type: 'NS', value: 'ns1.example.com' },
* { type: 'TXT', entries: [ 'v=spf1 include:_spf.example.com ~all' ] },
* { type: 'SOA',
* nsname: 'ns1.example.com',
* hostmaster: 'admin.example.com',
* serial: 156696742,
* refresh: 900,
* retry: 900,
* expire: 1800,
* minttl: 60 } ]
* ```
* @since v10.6.0
*/
function resolveAny(hostname: string): Promise<AnyRecord[]>;
/**
* Uses the DNS protocol to resolve `CAA` records for the `hostname`. On success,
* the `Promise` is resolved with an array of objects containing available
* certification authority authorization records available for the `hostname` (e.g. `[{critical: 0, iodef: 'mailto:pki@example.com'},{critical: 128, issue: 'pki.example.com'}]`).
* @since v15.0.0, v14.17.0
*/
function resolveCaa(hostname: string): Promise<CaaRecord[]>;
/**
* Uses the DNS protocol to resolve `CNAME` records for the `hostname`. On success,
* the `Promise` is resolved with an array of canonical name records available for
* the `hostname` (e.g. `['bar.example.com']`).
* @since v10.6.0
*/
function resolveCname(hostname: string): Promise<string[]>;
/**
* Uses the DNS protocol to resolve mail exchange records (`MX` records) for the `hostname`. On success, the `Promise` is resolved with an array of objects
* containing both a `priority` and `exchange` property (e.g.`[{priority: 10, exchange: 'mx.example.com'}, ...]`).
* @since v10.6.0
*/
function resolveMx(hostname: string): Promise<MxRecord[]>;
/**
* Uses the DNS protocol to resolve regular expression-based records (`NAPTR` records) for the `hostname`. On success, the `Promise` is resolved with an array
* of objects with the following properties:
*
* * `flags`
* * `service`
* * `regexp`
* * `replacement`
* * `order`
* * `preference`
*
* ```js
* {
* flags: 's',
* service: 'SIP+D2U',
* regexp: '',
* replacement: '_sip._udp.example.com',
* order: 30,
* preference: 100
* }
* ```
* @since v10.6.0
*/
function resolveNaptr(hostname: string): Promise<NaptrRecord[]>;
/**
* Uses the DNS protocol to resolve name server records (`NS` records) for the `hostname`. On success, the `Promise` is resolved with an array of name server
* records available for `hostname` (e.g.`['ns1.example.com', 'ns2.example.com']`).
* @since v10.6.0
*/
function resolveNs(hostname: string): Promise<string[]>;
/**
* Uses the DNS protocol to resolve pointer records (`PTR` records) for the `hostname`. On success, the `Promise` is resolved with an array of strings
* containing the reply records.
* @since v10.6.0
*/
function resolvePtr(hostname: string): Promise<string[]>;
/**
* Uses the DNS protocol to resolve a start of authority record (`SOA` record) for
* the `hostname`. On success, the `Promise` is resolved with an object with the
* following properties:
*
* * `nsname`
* * `hostmaster`
* * `serial`
* * `refresh`
* * `retry`
* * `expire`
* * `minttl`
*
* ```js
* {
* nsname: 'ns.example.com',
* hostmaster: 'root.example.com',
* serial: 2013101809,
* refresh: 10000,
* retry: 2400,
* expire: 604800,
* minttl: 3600
* }
* ```
* @since v10.6.0
*/
function resolveSoa(hostname: string): Promise<SoaRecord>;
/**
* Uses the DNS protocol to resolve service records (`SRV` records) for the `hostname`. On success, the `Promise` is resolved with an array of objects with
* the following properties:
*
* * `priority`
* * `weight`
* * `port`
* * `name`
*
* ```js
* {
* priority: 10,
* weight: 5,
* port: 21223,
* name: 'service.example.com'
* }
* ```
* @since v10.6.0
*/
function resolveSrv(hostname: string): Promise<SrvRecord[]>;
/**
* Uses the DNS protocol to resolve text queries (`TXT` records) for the `hostname`. On success, the `Promise` is resolved with a two-dimensional array
* of the text records available for `hostname` (e.g.`[ ['v=spf1 ip4:0.0.0.0 ', '~all' ] ]`). Each sub-array contains TXT chunks of
* one record. Depending on the use case, these could be either joined together or
* treated separately.
* @since v10.6.0
*/
function resolveTxt(hostname: string): Promise<string[][]>;
/**
* Performs a reverse DNS query that resolves an IPv4 or IPv6 address to an
* array of host names.
*
* On error, the `Promise` is rejected with an [`Error`](https://nodejs.org/docs/latest-v20.x/api/errors.html#class-error) object, where `err.code`
* is one of the [DNS error codes](https://nodejs.org/docs/latest-v20.x/api/dns.html#error-codes).
* @since v10.6.0
*/
function reverse(ip: string): Promise<string[]>;
/**
* Get the default value for `verbatim` in {@link lookup} and [dnsPromises.lookup()](https://nodejs.org/docs/latest-v20.x/api/dns.html#dnspromiseslookuphostname-options).
* The value could be:
*
* * `ipv4first`: for `verbatim` defaulting to `false`.
* * `verbatim`: for `verbatim` defaulting to `true`.
* @since v20.1.0
*/
function getDefaultResultOrder(): "ipv4first" | "verbatim";
/**
* Sets the IP address and port of servers to be used when performing DNS
* resolution. The `servers` argument is an array of [RFC 5952](https://tools.ietf.org/html/rfc5952#section-6) formatted
* addresses. If the port is the IANA default DNS port (53) it can be omitted.
*
* ```js
* dnsPromises.setServers([
* '4.4.4.4',
* '[2001:4860:4860::8888]',
* '4.4.4.4:1053',
* '[2001:4860:4860::8888]:1053',
* ]);
* ```
*
* An error will be thrown if an invalid address is provided.
*
* The `dnsPromises.setServers()` method must not be called while a DNS query is in
* progress.
*
* This method works much like [resolve.conf](https://man7.org/linux/man-pages/man5/resolv.conf.5.html).
* That is, if attempting to resolve with the first server provided results in a `NOTFOUND` error, the `resolve()` method will _not_ attempt to resolve with
* subsequent servers provided. Fallback DNS servers will only be used if the
* earlier ones time out or result in some other error.
* @since v10.6.0
* @param servers array of `RFC 5952` formatted addresses
*/
function setServers(servers: readonly string[]): void;
/**
* Set the default value of `order` in `dns.lookup()` and `{@link lookup}`. The value could be:
*
* * `ipv4first`: sets default `order` to `ipv4first`.
* * `ipv6first`: sets default `order` to `ipv6first`.
* * `verbatim`: sets default `order` to `verbatim`.
*
* The default is `verbatim` and [dnsPromises.setDefaultResultOrder()](https://nodejs.org/docs/latest-v20.x/api/dns.html#dnspromisessetdefaultresultorderorder)
* have higher priority than [`--dns-result-order`](https://nodejs.org/docs/latest-v20.x/api/cli.html#--dns-result-orderorder).
* When using [worker threads](https://nodejs.org/docs/latest-v20.x/api/worker_threads.html), [`dnsPromises.setDefaultResultOrder()`](https://nodejs.org/docs/latest-v20.x/api/dns.html#dnspromisessetdefaultresultorderorder)
* from the main thread won't affect the default dns orders in workers.
* @since v16.4.0, v14.18.0
* @param order must be `'ipv4first'`, `'ipv6first'` or `'verbatim'`.
*/
function setDefaultResultOrder(order: "ipv4first" | "ipv6first" | "verbatim"): void;
// Error codes
const NODATA: "ENODATA";
const FORMERR: "EFORMERR";
const SERVFAIL: "ESERVFAIL";
const NOTFOUND: "ENOTFOUND";
const NOTIMP: "ENOTIMP";
const REFUSED: "EREFUSED";
const BADQUERY: "EBADQUERY";
const BADNAME: "EBADNAME";
const BADFAMILY: "EBADFAMILY";
const BADRESP: "EBADRESP";
const CONNREFUSED: "ECONNREFUSED";
const TIMEOUT: "ETIMEOUT";
const EOF: "EOF";
const FILE: "EFILE";
const NOMEM: "ENOMEM";
const DESTRUCTION: "EDESTRUCTION";
const BADSTR: "EBADSTR";
const BADFLAGS: "EBADFLAGS";
const NONAME: "ENONAME";
const BADHINTS: "EBADHINTS";
const NOTINITIALIZED: "ENOTINITIALIZED";
const LOADIPHLPAPI: "ELOADIPHLPAPI";
const ADDRGETNETWORKPARAMS: "EADDRGETNETWORKPARAMS";
const CANCELLED: "ECANCELLED";
/**
* An independent resolver for DNS requests.
*
* Creating a new resolver uses the default server settings. Setting
* the servers used for a resolver using [`resolver.setServers()`](https://nodejs.org/docs/latest-v20.x/api/dns.html#dnspromisessetserversservers) does not affect
* other resolvers:
*
* ```js
* import { promises } from 'node:dns';
* const resolver = new promises.Resolver();
* resolver.setServers(['4.4.4.4']);
*
* // This request will use the server at 4.4.4.4, independent of global settings.
* resolver.resolve4('example.org').then((addresses) => {
* // ...
* });
*
* // Alternatively, the same code can be written using async-await style.
* (async function() {
* const addresses = await resolver.resolve4('example.org');
* })();
* ```
*
* The following methods from the `dnsPromises` API are available:
*
* * `resolver.getServers()`
* * `resolver.resolve()`
* * `resolver.resolve4()`
* * `resolver.resolve6()`
* * `resolver.resolveAny()`
* * `resolver.resolveCaa()`
* * `resolver.resolveCname()`
* * `resolver.resolveMx()`
* * `resolver.resolveNaptr()`
* * `resolver.resolveNs()`
* * `resolver.resolvePtr()`
* * `resolver.resolveSoa()`
* * `resolver.resolveSrv()`
* * `resolver.resolveTxt()`
* * `resolver.reverse()`
* * `resolver.setServers()`
* @since v10.6.0
*/
class Resolver {
constructor(options?: ResolverOptions);
/**
* Cancel all outstanding DNS queries made by this resolver. The corresponding
* callbacks will be called with an error with code `ECANCELLED`.
* @since v8.3.0
*/
cancel(): void;
getServers: typeof getServers;
resolve: typeof resolve;
resolve4: typeof resolve4;
resolve6: typeof resolve6;
resolveAny: typeof resolveAny;
resolveCaa: typeof resolveCaa;
resolveCname: typeof resolveCname;
resolveMx: typeof resolveMx;
resolveNaptr: typeof resolveNaptr;
resolveNs: typeof resolveNs;
resolvePtr: typeof resolvePtr;
resolveSoa: typeof resolveSoa;
resolveSrv: typeof resolveSrv;
resolveTxt: typeof resolveTxt;
reverse: typeof reverse;
/**
* The resolver instance will send its requests from the specified IP address.
* This allows programs to specify outbound interfaces when used on multi-homed
* systems.
*
* If a v4 or v6 address is not specified, it is set to the default and the
* operating system will choose a local address automatically.
*
* The resolver will use the v4 local address when making requests to IPv4 DNS
* servers, and the v6 local address when making requests to IPv6 DNS servers.
* The `rrtype` of resolution requests has no impact on the local address used.
* @since v15.1.0, v14.17.0
* @param [ipv4='0.0.0.0'] A string representation of an IPv4 address.
* @param [ipv6='::0'] A string representation of an IPv6 address.
*/
setLocalAddress(ipv4?: string, ipv6?: string): void;
setServers: typeof setServers;
}
}
declare module "node:dns/promises" {
export * from "dns/promises";
}

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export {}; // Don't export anything!
//// DOM-like Events
// NB: The Event / EventTarget / EventListener implementations below were copied
// from lib.dom.d.ts, then edited to reflect Node's documentation at
// https://nodejs.org/api/events.html#class-eventtarget.
// Please read that link to understand important implementation differences.
// This conditional type will be the existing global Event in a browser, or
// the copy below in a Node environment.
type __Event = typeof globalThis extends { onmessage: any; Event: any } ? {}
: {
/** This is not used in Node.js and is provided purely for completeness. */
readonly bubbles: boolean;
/** Alias for event.stopPropagation(). This is not used in Node.js and is provided purely for completeness. */
cancelBubble: () => void;
/** True if the event was created with the cancelable option */
readonly cancelable: boolean;
/** This is not used in Node.js and is provided purely for completeness. */
readonly composed: boolean;
/** Returns an array containing the current EventTarget as the only entry or empty if the event is not being dispatched. This is not used in Node.js and is provided purely for completeness. */
composedPath(): [EventTarget?];
/** Alias for event.target. */
readonly currentTarget: EventTarget | null;
/** Is true if cancelable is true and event.preventDefault() has been called. */
readonly defaultPrevented: boolean;
/** This is not used in Node.js and is provided purely for completeness. */
readonly eventPhase: 0 | 2;
/** The `AbortSignal` "abort" event is emitted with `isTrusted` set to `true`. The value is `false` in all other cases. */
readonly isTrusted: boolean;
/** Sets the `defaultPrevented` property to `true` if `cancelable` is `true`. */
preventDefault(): void;
/** This is not used in Node.js and is provided purely for completeness. */
returnValue: boolean;
/** Alias for event.target. */
readonly srcElement: EventTarget | null;
/** Stops the invocation of event listeners after the current one completes. */
stopImmediatePropagation(): void;
/** This is not used in Node.js and is provided purely for completeness. */
stopPropagation(): void;
/** The `EventTarget` dispatching the event */
readonly target: EventTarget | null;
/** The millisecond timestamp when the Event object was created. */
readonly timeStamp: number;
/** Returns the type of event, e.g. "click", "hashchange", or "submit". */
readonly type: string;
};
// See comment above explaining conditional type
type __EventTarget = typeof globalThis extends { onmessage: any; EventTarget: any } ? {}
: {
/**
* Adds a new handler for the `type` event. Any given `listener` is added only once per `type` and per `capture` option value.
*
* If the `once` option is true, the `listener` is removed after the next time a `type` event is dispatched.
*
* The `capture` option is not used by Node.js in any functional way other than tracking registered event listeners per the `EventTarget` specification.
* Specifically, the `capture` option is used as part of the key when registering a `listener`.
* Any individual `listener` may be added once with `capture = false`, and once with `capture = true`.
*/
addEventListener(
type: string,
listener: EventListener | EventListenerObject,
options?: AddEventListenerOptions | boolean,
): void;
/** Dispatches a synthetic event event to target and returns true if either event's cancelable attribute value is false or its preventDefault() method was not invoked, and false otherwise. */
dispatchEvent(event: Event): boolean;
/** Removes the event listener in target's event listener list with the same type, callback, and options. */
removeEventListener(
type: string,
listener: EventListener | EventListenerObject,
options?: EventListenerOptions | boolean,
): void;
};
interface EventInit {
bubbles?: boolean;
cancelable?: boolean;
composed?: boolean;
}
interface EventListenerOptions {
/** Not directly used by Node.js. Added for API completeness. Default: `false`. */
capture?: boolean;
}
interface AddEventListenerOptions extends EventListenerOptions {
/** When `true`, the listener is automatically removed when it is first invoked. Default: `false`. */
once?: boolean;
/** When `true`, serves as a hint that the listener will not call the `Event` object's `preventDefault()` method. Default: false. */
passive?: boolean;
/** The listener will be removed when the given AbortSignal object's `abort()` method is called. */
signal?: AbortSignal;
}
interface EventListener {
(evt: Event): void;
}
interface EventListenerObject {
handleEvent(object: Event): void;
}
import {} from "events"; // Make this an ambient declaration
declare global {
/** An event which takes place in the DOM. */
interface Event extends __Event {}
var Event: typeof globalThis extends { onmessage: any; Event: infer T } ? T
: {
prototype: __Event;
new(type: string, eventInitDict?: EventInit): __Event;
};
/**
* EventTarget is a DOM interface implemented by objects that can
* receive events and may have listeners for them.
*/
interface EventTarget extends __EventTarget {}
var EventTarget: typeof globalThis extends { onmessage: any; EventTarget: infer T } ? T
: {
prototype: __EventTarget;
new(): __EventTarget;
};
}

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/**
* **This module is pending deprecation.** Once a replacement API has been
* finalized, this module will be fully deprecated. Most developers should
* **not** have cause to use this module. Users who absolutely must have
* the functionality that domains provide may rely on it for the time being
* but should expect to have to migrate to a different solution
* in the future.
*
* Domains provide a way to handle multiple different IO operations as a
* single group. If any of the event emitters or callbacks registered to a
* domain emit an `'error'` event, or throw an error, then the domain object
* will be notified, rather than losing the context of the error in the `process.on('uncaughtException')` handler, or causing the program to
* exit immediately with an error code.
* @deprecated Since v1.4.2 - Deprecated
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/domain.js)
*/
declare module "domain" {
import EventEmitter = require("node:events");
/**
* The `Domain` class encapsulates the functionality of routing errors and
* uncaught exceptions to the active `Domain` object.
*
* To handle the errors that it catches, listen to its `'error'` event.
*/
class Domain extends EventEmitter {
/**
* An array of timers and event emitters that have been explicitly added
* to the domain.
*/
members: Array<EventEmitter | NodeJS.Timer>;
/**
* The `enter()` method is plumbing used by the `run()`, `bind()`, and `intercept()` methods to set the active domain. It sets `domain.active` and `process.domain` to the domain, and implicitly
* pushes the domain onto the domain
* stack managed by the domain module (see {@link exit} for details on the
* domain stack). The call to `enter()` delimits the beginning of a chain of
* asynchronous calls and I/O operations bound to a domain.
*
* Calling `enter()` changes only the active domain, and does not alter the domain
* itself. `enter()` and `exit()` can be called an arbitrary number of times on a
* single domain.
*/
enter(): void;
/**
* The `exit()` method exits the current domain, popping it off the domain stack.
* Any time execution is going to switch to the context of a different chain of
* asynchronous calls, it's important to ensure that the current domain is exited.
* The call to `exit()` delimits either the end of or an interruption to the chain
* of asynchronous calls and I/O operations bound to a domain.
*
* If there are multiple, nested domains bound to the current execution context, `exit()` will exit any domains nested within this domain.
*
* Calling `exit()` changes only the active domain, and does not alter the domain
* itself. `enter()` and `exit()` can be called an arbitrary number of times on a
* single domain.
*/
exit(): void;
/**
* Run the supplied function in the context of the domain, implicitly
* binding all event emitters, timers, and low-level requests that are
* created in that context. Optionally, arguments can be passed to
* the function.
*
* This is the most basic way to use a domain.
*
* ```js
* import domain from 'node:domain';
* import fs from 'node:fs';
* const d = domain.create();
* d.on('error', (er) => {
* console.error('Caught error!', er);
* });
* d.run(() => {
* process.nextTick(() => {
* setTimeout(() => { // Simulating some various async stuff
* fs.open('non-existent file', 'r', (er, fd) => {
* if (er) throw er;
* // proceed...
* });
* }, 100);
* });
* });
* ```
*
* In this example, the `d.on('error')` handler will be triggered, rather
* than crashing the program.
*/
run<T>(fn: (...args: any[]) => T, ...args: any[]): T;
/**
* Explicitly adds an emitter to the domain. If any event handlers called by
* the emitter throw an error, or if the emitter emits an `'error'` event, it
* will be routed to the domain's `'error'` event, just like with implicit
* binding.
*
* This also works with timers that are returned from `setInterval()` and `setTimeout()`. If their callback function throws, it will be caught by
* the domain `'error'` handler.
*
* If the Timer or `EventEmitter` was already bound to a domain, it is removed
* from that one, and bound to this one instead.
* @param emitter emitter or timer to be added to the domain
*/
add(emitter: EventEmitter | NodeJS.Timer): void;
/**
* The opposite of {@link add}. Removes domain handling from the
* specified emitter.
* @param emitter emitter or timer to be removed from the domain
*/
remove(emitter: EventEmitter | NodeJS.Timer): void;
/**
* The returned function will be a wrapper around the supplied callback
* function. When the returned function is called, any errors that are
* thrown will be routed to the domain's `'error'` event.
*
* ```js
* const d = domain.create();
*
* function readSomeFile(filename, cb) {
* fs.readFile(filename, 'utf8', d.bind((er, data) => {
* // If this throws, it will also be passed to the domain.
* return cb(er, data ? JSON.parse(data) : null);
* }));
* }
*
* d.on('error', (er) => {
* // An error occurred somewhere. If we throw it now, it will crash the program
* // with the normal line number and stack message.
* });
* ```
* @param callback The callback function
* @return The bound function
*/
bind<T extends Function>(callback: T): T;
/**
* This method is almost identical to {@link bind}. However, in
* addition to catching thrown errors, it will also intercept `Error` objects sent as the first argument to the function.
*
* In this way, the common `if (err) return callback(err);` pattern can be replaced
* with a single error handler in a single place.
*
* ```js
* const d = domain.create();
*
* function readSomeFile(filename, cb) {
* fs.readFile(filename, 'utf8', d.intercept((data) => {
* // Note, the first argument is never passed to the
* // callback since it is assumed to be the 'Error' argument
* // and thus intercepted by the domain.
*
* // If this throws, it will also be passed to the domain
* // so the error-handling logic can be moved to the 'error'
* // event on the domain instead of being repeated throughout
* // the program.
* return cb(null, JSON.parse(data));
* }));
* }
*
* d.on('error', (er) => {
* // An error occurred somewhere. If we throw it now, it will crash the program
* // with the normal line number and stack message.
* });
* ```
* @param callback The callback function
* @return The intercepted function
*/
intercept<T extends Function>(callback: T): T;
}
function create(): Domain;
}
declare module "node:domain" {
export * from "domain";
}

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/**
* Much of the Node.js core API is built around an idiomatic asynchronous
* event-driven architecture in which certain kinds of objects (called "emitters")
* emit named events that cause `Function` objects ("listeners") to be called.
*
* For instance: a `net.Server` object emits an event each time a peer
* connects to it; a `fs.ReadStream` emits an event when the file is opened;
* a `stream` emits an event whenever data is available to be read.
*
* All objects that emit events are instances of the `EventEmitter` class. These
* objects expose an `eventEmitter.on()` function that allows one or more
* functions to be attached to named events emitted by the object. Typically,
* event names are camel-cased strings but any valid JavaScript property key
* can be used.
*
* When the `EventEmitter` object emits an event, all of the functions attached
* to that specific event are called _synchronously_. Any values returned by the
* called listeners are _ignored_ and discarded.
*
* The following example shows a simple `EventEmitter` instance with a single
* listener. The `eventEmitter.on()` method is used to register listeners, while
* the `eventEmitter.emit()` method is used to trigger the event.
*
* ```js
* import { EventEmitter } from 'node:events';
*
* class MyEmitter extends EventEmitter {}
*
* const myEmitter = new MyEmitter();
* myEmitter.on('event', () => {
* console.log('an event occurred!');
* });
* myEmitter.emit('event');
* ```
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/events.js)
*/
declare module "events" {
import { AsyncResource, AsyncResourceOptions } from "node:async_hooks";
// NOTE: This class is in the docs but is **not actually exported** by Node.
// If https://github.com/nodejs/node/issues/39903 gets resolved and Node
// actually starts exporting the class, uncomment below.
// import { EventListener, EventListenerObject } from '__dom-events';
// /** The NodeEventTarget is a Node.js-specific extension to EventTarget that emulates a subset of the EventEmitter API. */
// interface NodeEventTarget extends EventTarget {
// /**
// * Node.js-specific extension to the `EventTarget` class that emulates the equivalent `EventEmitter` API.
// * The only difference between `addListener()` and `addEventListener()` is that addListener() will return a reference to the EventTarget.
// */
// addListener(type: string, listener: EventListener | EventListenerObject, options?: { once: boolean }): this;
// /** Node.js-specific extension to the `EventTarget` class that returns an array of event `type` names for which event listeners are registered. */
// eventNames(): string[];
// /** Node.js-specific extension to the `EventTarget` class that returns the number of event listeners registered for the `type`. */
// listenerCount(type: string): number;
// /** Node.js-specific alias for `eventTarget.removeListener()`. */
// off(type: string, listener: EventListener | EventListenerObject): this;
// /** Node.js-specific alias for `eventTarget.addListener()`. */
// on(type: string, listener: EventListener | EventListenerObject, options?: { once: boolean }): this;
// /** Node.js-specific extension to the `EventTarget` class that adds a `once` listener for the given event `type`. This is equivalent to calling `on` with the `once` option set to `true`. */
// once(type: string, listener: EventListener | EventListenerObject): this;
// /**
// * Node.js-specific extension to the `EventTarget` class.
// * If `type` is specified, removes all registered listeners for `type`,
// * otherwise removes all registered listeners.
// */
// removeAllListeners(type: string): this;
// /**
// * Node.js-specific extension to the `EventTarget` class that removes the listener for the given `type`.
// * The only difference between `removeListener()` and `removeEventListener()` is that `removeListener()` will return a reference to the `EventTarget`.
// */
// removeListener(type: string, listener: EventListener | EventListenerObject): this;
// }
interface EventEmitterOptions {
/**
* Enables automatic capturing of promise rejection.
*/
captureRejections?: boolean | undefined;
}
interface StaticEventEmitterOptions {
/**
* Can be used to cancel awaiting events.
*/
signal?: AbortSignal | undefined;
}
interface StaticEventEmitterIteratorOptions extends StaticEventEmitterOptions {
/**
* Names of events that will end the iteration.
*/
close?: string[] | undefined;
/**
* The high watermark. The emitter is paused every time the size of events being buffered is higher than it.
* Supported only on emitters implementing `pause()` and `resume()` methods.
* @default Number.MAX_SAFE_INTEGER
*/
highWaterMark?: number | undefined;
/**
* The low watermark. The emitter is resumed every time the size of events being buffered is lower than it.
* Supported only on emitters implementing `pause()` and `resume()` methods.
* @default 1
*/
lowWaterMark?: number | undefined;
}
interface EventEmitter<T extends EventMap<T> = DefaultEventMap> extends NodeJS.EventEmitter<T> {}
type EventMap<T> = Record<keyof T, any[]> | DefaultEventMap;
type DefaultEventMap = [never];
type AnyRest = [...args: any[]];
type Args<K, T> = T extends DefaultEventMap ? AnyRest : (
K extends keyof T ? T[K] : never
);
type Key<K, T> = T extends DefaultEventMap ? string | symbol : K | keyof T;
type Key2<K, T> = T extends DefaultEventMap ? string | symbol : K & keyof T;
type Listener<K, T, F> = T extends DefaultEventMap ? F : (
K extends keyof T ? (
T[K] extends unknown[] ? (...args: T[K]) => void : never
)
: never
);
type Listener1<K, T> = Listener<K, T, (...args: any[]) => void>;
type Listener2<K, T> = Listener<K, T, Function>;
/**
* The `EventEmitter` class is defined and exposed by the `node:events` module:
*
* ```js
* import { EventEmitter } from 'node:events';
* ```
*
* All `EventEmitter`s emit the event `'newListener'` when new listeners are
* added and `'removeListener'` when existing listeners are removed.
*
* It supports the following option:
* @since v0.1.26
*/
class EventEmitter<T extends EventMap<T> = DefaultEventMap> {
constructor(options?: EventEmitterOptions);
[EventEmitter.captureRejectionSymbol]?<K>(error: Error, event: Key<K, T>, ...args: Args<K, T>): void;
/**
* Creates a `Promise` that is fulfilled when the `EventEmitter` emits the given
* event or that is rejected if the `EventEmitter` emits `'error'` while waiting.
* The `Promise` will resolve with an array of all the arguments emitted to the
* given event.
*
* This method is intentionally generic and works with the web platform [EventTarget](https://dom.spec.whatwg.org/#interface-eventtarget) interface, which has no special`'error'` event
* semantics and does not listen to the `'error'` event.
*
* ```js
* import { once, EventEmitter } from 'node:events';
* import process from 'node:process';
*
* const ee = new EventEmitter();
*
* process.nextTick(() => {
* ee.emit('myevent', 42);
* });
*
* const [value] = await once(ee, 'myevent');
* console.log(value);
*
* const err = new Error('kaboom');
* process.nextTick(() => {
* ee.emit('error', err);
* });
*
* try {
* await once(ee, 'myevent');
* } catch (err) {
* console.error('error happened', err);
* }
* ```
*
* The special handling of the `'error'` event is only used when `events.once()` is used to wait for another event. If `events.once()` is used to wait for the
* '`error'` event itself, then it is treated as any other kind of event without
* special handling:
*
* ```js
* import { EventEmitter, once } from 'node:events';
*
* const ee = new EventEmitter();
*
* once(ee, 'error')
* .then(([err]) => console.log('ok', err.message))
* .catch((err) => console.error('error', err.message));
*
* ee.emit('error', new Error('boom'));
*
* // Prints: ok boom
* ```
*
* An `AbortSignal` can be used to cancel waiting for the event:
*
* ```js
* import { EventEmitter, once } from 'node:events';
*
* const ee = new EventEmitter();
* const ac = new AbortController();
*
* async function foo(emitter, event, signal) {
* try {
* await once(emitter, event, { signal });
* console.log('event emitted!');
* } catch (error) {
* if (error.name === 'AbortError') {
* console.error('Waiting for the event was canceled!');
* } else {
* console.error('There was an error', error.message);
* }
* }
* }
*
* foo(ee, 'foo', ac.signal);
* ac.abort(); // Abort waiting for the event
* ee.emit('foo'); // Prints: Waiting for the event was canceled!
* ```
* @since v11.13.0, v10.16.0
*/
static once(
emitter: NodeJS.EventEmitter,
eventName: string | symbol,
options?: StaticEventEmitterOptions,
): Promise<any[]>;
static once(emitter: EventTarget, eventName: string, options?: StaticEventEmitterOptions): Promise<any[]>;
/**
* ```js
* import { on, EventEmitter } from 'node:events';
* import process from 'node:process';
*
* const ee = new EventEmitter();
*
* // Emit later on
* process.nextTick(() => {
* ee.emit('foo', 'bar');
* ee.emit('foo', 42);
* });
*
* for await (const event of on(ee, 'foo')) {
* // The execution of this inner block is synchronous and it
* // processes one event at a time (even with await). Do not use
* // if concurrent execution is required.
* console.log(event); // prints ['bar'] [42]
* }
* // Unreachable here
* ```
*
* Returns an `AsyncIterator` that iterates `eventName` events. It will throw
* if the `EventEmitter` emits `'error'`. It removes all listeners when
* exiting the loop. The `value` returned by each iteration is an array
* composed of the emitted event arguments.
*
* An `AbortSignal` can be used to cancel waiting on events:
*
* ```js
* import { on, EventEmitter } from 'node:events';
* import process from 'node:process';
*
* const ac = new AbortController();
*
* (async () => {
* const ee = new EventEmitter();
*
* // Emit later on
* process.nextTick(() => {
* ee.emit('foo', 'bar');
* ee.emit('foo', 42);
* });
*
* for await (const event of on(ee, 'foo', { signal: ac.signal })) {
* // The execution of this inner block is synchronous and it
* // processes one event at a time (even with await). Do not use
* // if concurrent execution is required.
* console.log(event); // prints ['bar'] [42]
* }
* // Unreachable here
* })();
*
* process.nextTick(() => ac.abort());
* ```
*
* Use the `close` option to specify an array of event names that will end the iteration:
*
* ```js
* import { on, EventEmitter } from 'node:events';
* import process from 'node:process';
*
* const ee = new EventEmitter();
*
* // Emit later on
* process.nextTick(() => {
* ee.emit('foo', 'bar');
* ee.emit('foo', 42);
* ee.emit('close');
* });
*
* for await (const event of on(ee, 'foo', { close: ['close'] })) {
* console.log(event); // prints ['bar'] [42]
* }
* // the loop will exit after 'close' is emitted
* console.log('done'); // prints 'done'
* ```
* @since v13.6.0, v12.16.0
* @return An `AsyncIterator` that iterates `eventName` events emitted by the `emitter`
*/
static on(
emitter: NodeJS.EventEmitter,
eventName: string | symbol,
options?: StaticEventEmitterIteratorOptions,
): NodeJS.AsyncIterator<any[]>;
static on(
emitter: EventTarget,
eventName: string,
options?: StaticEventEmitterIteratorOptions,
): NodeJS.AsyncIterator<any[]>;
/**
* A class method that returns the number of listeners for the given `eventName` registered on the given `emitter`.
*
* ```js
* import { EventEmitter, listenerCount } from 'node:events';
*
* const myEmitter = new EventEmitter();
* myEmitter.on('event', () => {});
* myEmitter.on('event', () => {});
* console.log(listenerCount(myEmitter, 'event'));
* // Prints: 2
* ```
* @since v0.9.12
* @deprecated Since v3.2.0 - Use `listenerCount` instead.
* @param emitter The emitter to query
* @param eventName The event name
*/
static listenerCount(emitter: NodeJS.EventEmitter, eventName: string | symbol): number;
/**
* Returns a copy of the array of listeners for the event named `eventName`.
*
* For `EventEmitter`s this behaves exactly the same as calling `.listeners` on
* the emitter.
*
* For `EventTarget`s this is the only way to get the event listeners for the
* event target. This is useful for debugging and diagnostic purposes.
*
* ```js
* import { getEventListeners, EventEmitter } from 'node:events';
*
* {
* const ee = new EventEmitter();
* const listener = () => console.log('Events are fun');
* ee.on('foo', listener);
* console.log(getEventListeners(ee, 'foo')); // [ [Function: listener] ]
* }
* {
* const et = new EventTarget();
* const listener = () => console.log('Events are fun');
* et.addEventListener('foo', listener);
* console.log(getEventListeners(et, 'foo')); // [ [Function: listener] ]
* }
* ```
* @since v15.2.0, v14.17.0
*/
static getEventListeners(emitter: EventTarget | NodeJS.EventEmitter, name: string | symbol): Function[];
/**
* Returns the currently set max amount of listeners.
*
* For `EventEmitter`s this behaves exactly the same as calling `.getMaxListeners` on
* the emitter.
*
* For `EventTarget`s this is the only way to get the max event listeners for the
* event target. If the number of event handlers on a single EventTarget exceeds
* the max set, the EventTarget will print a warning.
*
* ```js
* import { getMaxListeners, setMaxListeners, EventEmitter } from 'node:events';
*
* {
* const ee = new EventEmitter();
* console.log(getMaxListeners(ee)); // 10
* setMaxListeners(11, ee);
* console.log(getMaxListeners(ee)); // 11
* }
* {
* const et = new EventTarget();
* console.log(getMaxListeners(et)); // 10
* setMaxListeners(11, et);
* console.log(getMaxListeners(et)); // 11
* }
* ```
* @since v19.9.0
*/
static getMaxListeners(emitter: EventTarget | NodeJS.EventEmitter): number;
/**
* ```js
* import { setMaxListeners, EventEmitter } from 'node:events';
*
* const target = new EventTarget();
* const emitter = new EventEmitter();
*
* setMaxListeners(5, target, emitter);
* ```
* @since v15.4.0
* @param n A non-negative number. The maximum number of listeners per `EventTarget` event.
* @param eventTargets Zero or more {EventTarget} or {EventEmitter} instances. If none are specified, `n` is set as the default max for all newly created {EventTarget} and {EventEmitter}
* objects.
*/
static setMaxListeners(n?: number, ...eventTargets: Array<EventTarget | NodeJS.EventEmitter>): void;
/**
* Listens once to the `abort` event on the provided `signal`.
*
* Listening to the `abort` event on abort signals is unsafe and may
* lead to resource leaks since another third party with the signal can
* call `e.stopImmediatePropagation()`. Unfortunately Node.js cannot change
* this since it would violate the web standard. Additionally, the original
* API makes it easy to forget to remove listeners.
*
* This API allows safely using `AbortSignal`s in Node.js APIs by solving these
* two issues by listening to the event such that `stopImmediatePropagation` does
* not prevent the listener from running.
*
* Returns a disposable so that it may be unsubscribed from more easily.
*
* ```js
* import { addAbortListener } from 'node:events';
*
* function example(signal) {
* let disposable;
* try {
* signal.addEventListener('abort', (e) => e.stopImmediatePropagation());
* disposable = addAbortListener(signal, (e) => {
* // Do something when signal is aborted.
* });
* } finally {
* disposable?.[Symbol.dispose]();
* }
* }
* ```
* @since v20.5.0
* @experimental
* @return Disposable that removes the `abort` listener.
*/
static addAbortListener(signal: AbortSignal, resource: (event: Event) => void): Disposable;
/**
* This symbol shall be used to install a listener for only monitoring `'error'` events. Listeners installed using this symbol are called before the regular `'error'` listeners are called.
*
* Installing a listener using this symbol does not change the behavior once an `'error'` event is emitted. Therefore, the process will still crash if no
* regular `'error'` listener is installed.
* @since v13.6.0, v12.17.0
*/
static readonly errorMonitor: unique symbol;
/**
* Value: `Symbol.for('nodejs.rejection')`
*
* See how to write a custom `rejection handler`.
* @since v13.4.0, v12.16.0
*/
static readonly captureRejectionSymbol: unique symbol;
/**
* Value: [boolean](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Data_structures#Boolean_type)
*
* Change the default `captureRejections` option on all new `EventEmitter` objects.
* @since v13.4.0, v12.16.0
*/
static captureRejections: boolean;
/**
* By default, a maximum of `10` listeners can be registered for any single
* event. This limit can be changed for individual `EventEmitter` instances
* using the `emitter.setMaxListeners(n)` method. To change the default
* for _all_`EventEmitter` instances, the `events.defaultMaxListeners` property
* can be used. If this value is not a positive number, a `RangeError` is thrown.
*
* Take caution when setting the `events.defaultMaxListeners` because the
* change affects _all_ `EventEmitter` instances, including those created before
* the change is made. However, calling `emitter.setMaxListeners(n)` still has
* precedence over `events.defaultMaxListeners`.
*
* This is not a hard limit. The `EventEmitter` instance will allow
* more listeners to be added but will output a trace warning to stderr indicating
* that a "possible EventEmitter memory leak" has been detected. For any single
* `EventEmitter`, the `emitter.getMaxListeners()` and `emitter.setMaxListeners()` methods can be used to
* temporarily avoid this warning:
*
* ```js
* import { EventEmitter } from 'node:events';
* const emitter = new EventEmitter();
* emitter.setMaxListeners(emitter.getMaxListeners() + 1);
* emitter.once('event', () => {
* // do stuff
* emitter.setMaxListeners(Math.max(emitter.getMaxListeners() - 1, 0));
* });
* ```
*
* The `--trace-warnings` command-line flag can be used to display the
* stack trace for such warnings.
*
* The emitted warning can be inspected with `process.on('warning')` and will
* have the additional `emitter`, `type`, and `count` properties, referring to
* the event emitter instance, the event's name and the number of attached
* listeners, respectively.
* Its `name` property is set to `'MaxListenersExceededWarning'`.
* @since v0.11.2
*/
static defaultMaxListeners: number;
}
import internal = require("node:events");
namespace EventEmitter {
// Should just be `export { EventEmitter }`, but that doesn't work in TypeScript 3.4
export { internal as EventEmitter };
export interface Abortable {
/**
* When provided the corresponding `AbortController` can be used to cancel an asynchronous action.
*/
signal?: AbortSignal | undefined;
}
export interface EventEmitterReferencingAsyncResource extends AsyncResource {
readonly eventEmitter: EventEmitterAsyncResource;
}
export interface EventEmitterAsyncResourceOptions extends AsyncResourceOptions, EventEmitterOptions {
/**
* The type of async event, this is required when instantiating `EventEmitterAsyncResource`
* directly rather than as a child class.
* @default new.target.name if instantiated as a child class.
*/
name?: string;
}
/**
* Integrates `EventEmitter` with `AsyncResource` for `EventEmitter`s that
* require manual async tracking. Specifically, all events emitted by instances
* of `events.EventEmitterAsyncResource` will run within its `async context`.
*
* ```js
* import { EventEmitterAsyncResource, EventEmitter } from 'node:events';
* import { notStrictEqual, strictEqual } from 'node:assert';
* import { executionAsyncId, triggerAsyncId } from 'node:async_hooks';
*
* // Async tracking tooling will identify this as 'Q'.
* const ee1 = new EventEmitterAsyncResource({ name: 'Q' });
*
* // 'foo' listeners will run in the EventEmitters async context.
* ee1.on('foo', () => {
* strictEqual(executionAsyncId(), ee1.asyncId);
* strictEqual(triggerAsyncId(), ee1.triggerAsyncId);
* });
*
* const ee2 = new EventEmitter();
*
* // 'foo' listeners on ordinary EventEmitters that do not track async
* // context, however, run in the same async context as the emit().
* ee2.on('foo', () => {
* notStrictEqual(executionAsyncId(), ee2.asyncId);
* notStrictEqual(triggerAsyncId(), ee2.triggerAsyncId);
* });
*
* Promise.resolve().then(() => {
* ee1.emit('foo');
* ee2.emit('foo');
* });
* ```
*
* The `EventEmitterAsyncResource` class has the same methods and takes the
* same options as `EventEmitter` and `AsyncResource` themselves.
* @since v17.4.0, v16.14.0
*/
export class EventEmitterAsyncResource extends EventEmitter {
/**
* @param options Only optional in child class.
*/
constructor(options?: EventEmitterAsyncResourceOptions);
/**
* Call all `destroy` hooks. This should only ever be called once. An error will
* be thrown if it is called more than once. This **must** be manually called. If
* the resource is left to be collected by the GC then the `destroy` hooks will
* never be called.
*/
emitDestroy(): void;
/**
* The unique `asyncId` assigned to the resource.
*/
readonly asyncId: number;
/**
* The same triggerAsyncId that is passed to the AsyncResource constructor.
*/
readonly triggerAsyncId: number;
/**
* The returned `AsyncResource` object has an additional `eventEmitter` property
* that provides a reference to this `EventEmitterAsyncResource`.
*/
readonly asyncResource: EventEmitterReferencingAsyncResource;
}
}
global {
namespace NodeJS {
interface EventEmitter<T extends EventMap<T> = DefaultEventMap> {
[EventEmitter.captureRejectionSymbol]?<K>(error: Error, event: Key<K, T>, ...args: Args<K, T>): void;
/**
* Alias for `emitter.on(eventName, listener)`.
* @since v0.1.26
*/
addListener<K>(eventName: Key<K, T>, listener: Listener1<K, T>): this;
/**
* Adds the `listener` function to the end of the listeners array for the event
* named `eventName`. No checks are made to see if the `listener` has already
* been added. Multiple calls passing the same combination of `eventName` and
* `listener` will result in the `listener` being added, and called, multiple times.
*
* ```js
* server.on('connection', (stream) => {
* console.log('someone connected!');
* });
* ```
*
* Returns a reference to the `EventEmitter`, so that calls can be chained.
*
* By default, event listeners are invoked in the order they are added. The `emitter.prependListener()` method can be used as an alternative to add the
* event listener to the beginning of the listeners array.
*
* ```js
* import { EventEmitter } from 'node:events';
* const myEE = new EventEmitter();
* myEE.on('foo', () => console.log('a'));
* myEE.prependListener('foo', () => console.log('b'));
* myEE.emit('foo');
* // Prints:
* // b
* // a
* ```
* @since v0.1.101
* @param eventName The name of the event.
* @param listener The callback function
*/
on<K>(eventName: Key<K, T>, listener: Listener1<K, T>): this;
/**
* Adds a **one-time** `listener` function for the event named `eventName`. The
* next time `eventName` is triggered, this listener is removed and then invoked.
*
* ```js
* server.once('connection', (stream) => {
* console.log('Ah, we have our first user!');
* });
* ```
*
* Returns a reference to the `EventEmitter`, so that calls can be chained.
*
* By default, event listeners are invoked in the order they are added. The `emitter.prependOnceListener()` method can be used as an alternative to add the
* event listener to the beginning of the listeners array.
*
* ```js
* import { EventEmitter } from 'node:events';
* const myEE = new EventEmitter();
* myEE.once('foo', () => console.log('a'));
* myEE.prependOnceListener('foo', () => console.log('b'));
* myEE.emit('foo');
* // Prints:
* // b
* // a
* ```
* @since v0.3.0
* @param eventName The name of the event.
* @param listener The callback function
*/
once<K>(eventName: Key<K, T>, listener: Listener1<K, T>): this;
/**
* Removes the specified `listener` from the listener array for the event named `eventName`.
*
* ```js
* const callback = (stream) => {
* console.log('someone connected!');
* };
* server.on('connection', callback);
* // ...
* server.removeListener('connection', callback);
* ```
*
* `removeListener()` will remove, at most, one instance of a listener from the
* listener array. If any single listener has been added multiple times to the
* listener array for the specified `eventName`, then `removeListener()` must be
* called multiple times to remove each instance.
*
* Once an event is emitted, all listeners attached to it at the
* time of emitting are called in order. This implies that any `removeListener()` or `removeAllListeners()` calls _after_ emitting and _before_ the last listener finishes execution
* will not remove them from`emit()` in progress. Subsequent events behave as expected.
*
* ```js
* import { EventEmitter } from 'node:events';
* class MyEmitter extends EventEmitter {}
* const myEmitter = new MyEmitter();
*
* const callbackA = () => {
* console.log('A');
* myEmitter.removeListener('event', callbackB);
* };
*
* const callbackB = () => {
* console.log('B');
* };
*
* myEmitter.on('event', callbackA);
*
* myEmitter.on('event', callbackB);
*
* // callbackA removes listener callbackB but it will still be called.
* // Internal listener array at time of emit [callbackA, callbackB]
* myEmitter.emit('event');
* // Prints:
* // A
* // B
*
* // callbackB is now removed.
* // Internal listener array [callbackA]
* myEmitter.emit('event');
* // Prints:
* // A
* ```
*
* Because listeners are managed using an internal array, calling this will
* change the position indices of any listener registered _after_ the listener
* being removed. This will not impact the order in which listeners are called,
* but it means that any copies of the listener array as returned by
* the `emitter.listeners()` method will need to be recreated.
*
* When a single function has been added as a handler multiple times for a single
* event (as in the example below), `removeListener()` will remove the most
* recently added instance. In the example the `once('ping')` listener is removed:
*
* ```js
* import { EventEmitter } from 'node:events';
* const ee = new EventEmitter();
*
* function pong() {
* console.log('pong');
* }
*
* ee.on('ping', pong);
* ee.once('ping', pong);
* ee.removeListener('ping', pong);
*
* ee.emit('ping');
* ee.emit('ping');
* ```
*
* Returns a reference to the `EventEmitter`, so that calls can be chained.
* @since v0.1.26
*/
removeListener<K>(eventName: Key<K, T>, listener: Listener1<K, T>): this;
/**
* Alias for `emitter.removeListener()`.
* @since v10.0.0
*/
off<K>(eventName: Key<K, T>, listener: Listener1<K, T>): this;
/**
* Removes all listeners, or those of the specified `eventName`.
*
* It is bad practice to remove listeners added elsewhere in the code,
* particularly when the `EventEmitter` instance was created by some other
* component or module (e.g. sockets or file streams).
*
* Returns a reference to the `EventEmitter`, so that calls can be chained.
* @since v0.1.26
*/
removeAllListeners(eventName?: Key<unknown, T>): this;
/**
* By default `EventEmitter`s will print a warning if more than `10` listeners are
* added for a particular event. This is a useful default that helps finding
* memory leaks. The `emitter.setMaxListeners()` method allows the limit to be
* modified for this specific `EventEmitter` instance. The value can be set to `Infinity` (or `0`) to indicate an unlimited number of listeners.
*
* Returns a reference to the `EventEmitter`, so that calls can be chained.
* @since v0.3.5
*/
setMaxListeners(n: number): this;
/**
* Returns the current max listener value for the `EventEmitter` which is either
* set by `emitter.setMaxListeners(n)` or defaults to {@link defaultMaxListeners}.
* @since v1.0.0
*/
getMaxListeners(): number;
/**
* Returns a copy of the array of listeners for the event named `eventName`.
*
* ```js
* server.on('connection', (stream) => {
* console.log('someone connected!');
* });
* console.log(util.inspect(server.listeners('connection')));
* // Prints: [ [Function] ]
* ```
* @since v0.1.26
*/
listeners<K>(eventName: Key<K, T>): Array<Listener2<K, T>>;
/**
* Returns a copy of the array of listeners for the event named `eventName`,
* including any wrappers (such as those created by `.once()`).
*
* ```js
* import { EventEmitter } from 'node:events';
* const emitter = new EventEmitter();
* emitter.once('log', () => console.log('log once'));
*
* // Returns a new Array with a function `onceWrapper` which has a property
* // `listener` which contains the original listener bound above
* const listeners = emitter.rawListeners('log');
* const logFnWrapper = listeners[0];
*
* // Logs "log once" to the console and does not unbind the `once` event
* logFnWrapper.listener();
*
* // Logs "log once" to the console and removes the listener
* logFnWrapper();
*
* emitter.on('log', () => console.log('log persistently'));
* // Will return a new Array with a single function bound by `.on()` above
* const newListeners = emitter.rawListeners('log');
*
* // Logs "log persistently" twice
* newListeners[0]();
* emitter.emit('log');
* ```
* @since v9.4.0
*/
rawListeners<K>(eventName: Key<K, T>): Array<Listener2<K, T>>;
/**
* Synchronously calls each of the listeners registered for the event named `eventName`, in the order they were registered, passing the supplied arguments
* to each.
*
* Returns `true` if the event had listeners, `false` otherwise.
*
* ```js
* import { EventEmitter } from 'node:events';
* const myEmitter = new EventEmitter();
*
* // First listener
* myEmitter.on('event', function firstListener() {
* console.log('Helloooo! first listener');
* });
* // Second listener
* myEmitter.on('event', function secondListener(arg1, arg2) {
* console.log(`event with parameters ${arg1}, ${arg2} in second listener`);
* });
* // Third listener
* myEmitter.on('event', function thirdListener(...args) {
* const parameters = args.join(', ');
* console.log(`event with parameters ${parameters} in third listener`);
* });
*
* console.log(myEmitter.listeners('event'));
*
* myEmitter.emit('event', 1, 2, 3, 4, 5);
*
* // Prints:
* // [
* // [Function: firstListener],
* // [Function: secondListener],
* // [Function: thirdListener]
* // ]
* // Helloooo! first listener
* // event with parameters 1, 2 in second listener
* // event with parameters 1, 2, 3, 4, 5 in third listener
* ```
* @since v0.1.26
*/
emit<K>(eventName: Key<K, T>, ...args: Args<K, T>): boolean;
/**
* Returns the number of listeners listening for the event named `eventName`.
* If `listener` is provided, it will return how many times the listener is found
* in the list of the listeners of the event.
* @since v3.2.0
* @param eventName The name of the event being listened for
* @param listener The event handler function
*/
listenerCount<K>(eventName: Key<K, T>, listener?: Listener2<K, T>): number;
/**
* Adds the `listener` function to the _beginning_ of the listeners array for the
* event named `eventName`. No checks are made to see if the `listener` has
* already been added. Multiple calls passing the same combination of `eventName`
* and `listener` will result in the `listener` being added, and called, multiple times.
*
* ```js
* server.prependListener('connection', (stream) => {
* console.log('someone connected!');
* });
* ```
*
* Returns a reference to the `EventEmitter`, so that calls can be chained.
* @since v6.0.0
* @param eventName The name of the event.
* @param listener The callback function
*/
prependListener<K>(eventName: Key<K, T>, listener: Listener1<K, T>): this;
/**
* Adds a **one-time**`listener` function for the event named `eventName` to the _beginning_ of the listeners array. The next time `eventName` is triggered, this
* listener is removed, and then invoked.
*
* ```js
* server.prependOnceListener('connection', (stream) => {
* console.log('Ah, we have our first user!');
* });
* ```
*
* Returns a reference to the `EventEmitter`, so that calls can be chained.
* @since v6.0.0
* @param eventName The name of the event.
* @param listener The callback function
*/
prependOnceListener<K>(eventName: Key<K, T>, listener: Listener1<K, T>): this;
/**
* Returns an array listing the events for which the emitter has registered
* listeners. The values in the array are strings or `Symbol`s.
*
* ```js
* import { EventEmitter } from 'node:events';
*
* const myEE = new EventEmitter();
* myEE.on('foo', () => {});
* myEE.on('bar', () => {});
*
* const sym = Symbol('symbol');
* myEE.on(sym, () => {});
*
* console.log(myEE.eventNames());
* // Prints: [ 'foo', 'bar', Symbol(symbol) ]
* ```
* @since v6.0.0
*/
eventNames(): Array<(string | symbol) & Key2<unknown, T>>;
}
}
}
export = EventEmitter;
}
declare module "node:events" {
import events = require("events");
export = events;
}

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export {}; // Make this a module
// #region Fetch and friends
// Conditional type aliases, used at the end of this file.
// Will either be empty if lib.dom (or lib.webworker) is included, or the undici version otherwise.
type _Request = typeof globalThis extends { onmessage: any } ? {} : import("undici-types").Request;
type _Response = typeof globalThis extends { onmessage: any } ? {} : import("undici-types").Response;
type _FormData = typeof globalThis extends { onmessage: any } ? {} : import("undici-types").FormData;
type _Headers = typeof globalThis extends { onmessage: any } ? {} : import("undici-types").Headers;
type _MessageEvent = typeof globalThis extends { onmessage: any } ? {} : import("undici-types").MessageEvent;
type _RequestInit = typeof globalThis extends { onmessage: any } ? {}
: import("undici-types").RequestInit;
type _ResponseInit = typeof globalThis extends { onmessage: any } ? {}
: import("undici-types").ResponseInit;
type _WebSocket = typeof globalThis extends { onmessage: any } ? {} : import("undici-types").WebSocket;
type _EventSource = typeof globalThis extends { onmessage: any } ? {} : import("undici-types").EventSource;
// #endregion Fetch and friends
// Conditional type definitions for webstorage interface, which conflicts with lib.dom otherwise.
type _Storage = typeof globalThis extends { onabort: any } ? {} : {
/**
* Returns the number of key/value pairs.
*
* [MDN Reference](https://developer.mozilla.org/docs/Web/API/Storage/length)
*/
readonly length: number;
/**
* Removes all key/value pairs, if there are any.
*
* [MDN Reference](https://developer.mozilla.org/docs/Web/API/Storage/clear)
*/
clear(): void;
/**
* Returns the current value associated with the given key, or null if the given key does not exist.
*
* [MDN Reference](https://developer.mozilla.org/docs/Web/API/Storage/getItem)
*/
getItem(key: string): string | null;
/**
* Returns the name of the nth key, or null if n is greater than or equal to the number of key/value pairs.
*
* [MDN Reference](https://developer.mozilla.org/docs/Web/API/Storage/key)
*/
key(index: number): string | null;
/**
* Removes the key/value pair with the given key, if a key/value pair with the given key exists.
*
* [MDN Reference](https://developer.mozilla.org/docs/Web/API/Storage/removeItem)
*/
removeItem(key: string): void;
/**
* Sets the value of the pair identified by key to value, creating a new key/value pair if none existed for key previously.
*
* Throws a "QuotaExceededError" DOMException exception if the new value couldn't be set.
*
* [MDN Reference](https://developer.mozilla.org/docs/Web/API/Storage/setItem)
*/
setItem(key: string, value: string): void;
[key: string]: any;
};
// #region DOMException
type _DOMException = typeof globalThis extends { onmessage: any } ? {} : NodeDOMException;
interface NodeDOMException extends Error {
/**
* @deprecated
*
* [MDN Reference](https://developer.mozilla.org/docs/Web/API/DOMException/code)
*/
readonly code: number;
/** [MDN Reference](https://developer.mozilla.org/docs/Web/API/DOMException/message) */
readonly message: string;
/** [MDN Reference](https://developer.mozilla.org/docs/Web/API/DOMException/name) */
readonly name: string;
readonly INDEX_SIZE_ERR: 1;
readonly DOMSTRING_SIZE_ERR: 2;
readonly HIERARCHY_REQUEST_ERR: 3;
readonly WRONG_DOCUMENT_ERR: 4;
readonly INVALID_CHARACTER_ERR: 5;
readonly NO_DATA_ALLOWED_ERR: 6;
readonly NO_MODIFICATION_ALLOWED_ERR: 7;
readonly NOT_FOUND_ERR: 8;
readonly NOT_SUPPORTED_ERR: 9;
readonly INUSE_ATTRIBUTE_ERR: 10;
readonly INVALID_STATE_ERR: 11;
readonly SYNTAX_ERR: 12;
readonly INVALID_MODIFICATION_ERR: 13;
readonly NAMESPACE_ERR: 14;
readonly INVALID_ACCESS_ERR: 15;
readonly VALIDATION_ERR: 16;
readonly TYPE_MISMATCH_ERR: 17;
readonly SECURITY_ERR: 18;
readonly NETWORK_ERR: 19;
readonly ABORT_ERR: 20;
readonly URL_MISMATCH_ERR: 21;
readonly QUOTA_EXCEEDED_ERR: 22;
readonly TIMEOUT_ERR: 23;
readonly INVALID_NODE_TYPE_ERR: 24;
readonly DATA_CLONE_ERR: 25;
}
interface NodeDOMExceptionConstructor {
prototype: DOMException;
new(message?: string, nameOrOptions?: string | { name?: string; cause?: unknown }): DOMException;
readonly INDEX_SIZE_ERR: 1;
readonly DOMSTRING_SIZE_ERR: 2;
readonly HIERARCHY_REQUEST_ERR: 3;
readonly WRONG_DOCUMENT_ERR: 4;
readonly INVALID_CHARACTER_ERR: 5;
readonly NO_DATA_ALLOWED_ERR: 6;
readonly NO_MODIFICATION_ALLOWED_ERR: 7;
readonly NOT_FOUND_ERR: 8;
readonly NOT_SUPPORTED_ERR: 9;
readonly INUSE_ATTRIBUTE_ERR: 10;
readonly INVALID_STATE_ERR: 11;
readonly SYNTAX_ERR: 12;
readonly INVALID_MODIFICATION_ERR: 13;
readonly NAMESPACE_ERR: 14;
readonly INVALID_ACCESS_ERR: 15;
readonly VALIDATION_ERR: 16;
readonly TYPE_MISMATCH_ERR: 17;
readonly SECURITY_ERR: 18;
readonly NETWORK_ERR: 19;
readonly ABORT_ERR: 20;
readonly URL_MISMATCH_ERR: 21;
readonly QUOTA_EXCEEDED_ERR: 22;
readonly TIMEOUT_ERR: 23;
readonly INVALID_NODE_TYPE_ERR: 24;
readonly DATA_CLONE_ERR: 25;
}
// #endregion DOMException
declare global {
// Declare "static" methods in Error
interface ErrorConstructor {
/** Create .stack property on a target object */
captureStackTrace(targetObject: object, constructorOpt?: Function): void;
/**
* Optional override for formatting stack traces
*
* @see https://v8.dev/docs/stack-trace-api#customizing-stack-traces
*/
prepareStackTrace?: ((err: Error, stackTraces: NodeJS.CallSite[]) => any) | undefined;
stackTraceLimit: number;
}
/*-----------------------------------------------*
* *
* GLOBAL *
* *
------------------------------------------------*/
// For backwards compability
interface NodeRequire extends NodeJS.Require {}
interface RequireResolve extends NodeJS.RequireResolve {}
interface NodeModule extends NodeJS.Module {}
var global: typeof globalThis;
var process: NodeJS.Process;
var console: Console;
var __filename: string;
var __dirname: string;
var require: NodeRequire;
var module: NodeModule;
// Same as module.exports
var exports: any;
interface GCFunction {
(options: {
execution?: "sync";
flavor?: "regular" | "last-resort";
type?: "major-snapshot" | "major" | "minor";
filename?: string;
}): void;
(options: {
execution: "async";
flavor?: "regular" | "last-resort";
type?: "major-snapshot" | "major" | "minor";
filename?: string;
}): Promise<void>;
(options?: boolean): void;
}
/**
* Only available if `--expose-gc` is passed to the process.
*/
var gc: undefined | GCFunction;
// #region borrowed
// from https://github.com/microsoft/TypeScript/blob/38da7c600c83e7b31193a62495239a0fe478cb67/lib/lib.webworker.d.ts#L633 until moved to separate lib
/** A controller object that allows you to abort one or more DOM requests as and when desired. */
interface AbortController {
/**
* Returns the AbortSignal object associated with this object.
*/
readonly signal: AbortSignal;
/**
* Invoking this method will set this object's AbortSignal's aborted flag and signal to any observers that the associated activity is to be aborted.
*/
abort(reason?: any): void;
}
/** A signal object that allows you to communicate with a DOM request (such as a Fetch) and abort it if required via an AbortController object. */
interface AbortSignal extends EventTarget {
/**
* Returns true if this AbortSignal's AbortController has signaled to abort, and false otherwise.
*/
readonly aborted: boolean;
readonly reason: any;
onabort: null | ((this: AbortSignal, event: Event) => any);
throwIfAborted(): void;
}
var AbortController: typeof globalThis extends { onmessage: any; AbortController: infer T } ? T
: {
prototype: AbortController;
new(): AbortController;
};
var AbortSignal: typeof globalThis extends { onmessage: any; AbortSignal: infer T } ? T
: {
prototype: AbortSignal;
new(): AbortSignal;
abort(reason?: any): AbortSignal;
timeout(milliseconds: number): AbortSignal;
any(signals: AbortSignal[]): AbortSignal;
};
// #endregion borrowed
// #region Storage
/**
* This Web Storage API interface provides access to a particular domain's session or local storage. It allows, for example, the addition, modification, or deletion of stored data items.
*
* [MDN Reference](https://developer.mozilla.org/docs/Web/API/Storage)
*/
interface Storage extends _Storage {}
// Conditional on `onabort` rather than `onmessage`, in order to exclude lib.webworker
var Storage: typeof globalThis extends { onabort: any; Storage: infer T } ? T
: {
prototype: Storage;
new(): Storage;
};
/**
* A browser-compatible implementation of [`localStorage`](https://developer.mozilla.org/en-US/docs/Web/API/Window/localStorage).
* Data is stored unencrypted in the file specified by the `--localstorage-file` CLI flag.
* Any modification of this data outside of the Web Storage API is not supported.
* Enable this API with the `--experimental-webstorage` CLI flag.
* @since v22.4.0
*/
var localStorage: Storage;
/**
* A browser-compatible implementation of [`sessionStorage`](https://developer.mozilla.org/en-US/docs/Web/API/Window/sessionStorage).
* Data is stored in memory, with a storage quota of 10 MB.
* Any modification of this data outside of the Web Storage API is not supported.
* Enable this API with the `--experimental-webstorage` CLI flag.
* @since v22.4.0
*/
var sessionStorage: Storage;
// #endregion Storage
/**
* @since v17.0.0
*
* Creates a deep clone of an object.
*/
function structuredClone<T>(
value: T,
transfer?: { transfer: ReadonlyArray<import("worker_threads").TransferListItem> },
): T;
// #region DOMException
/**
* @since v17.0.0
* An abnormal event (called an exception) which occurs as a result of calling a method or accessing a property of a web API.
*
* [MDN Reference](https://developer.mozilla.org/docs/Web/API/DOMException)
*/
interface DOMException extends _DOMException {}
/**
* @since v17.0.0
*
* The WHATWG `DOMException` class. See [DOMException](https://developer.mozilla.org/docs/Web/API/DOMException) for more details.
*/
var DOMException: typeof globalThis extends { onmessage: any; DOMException: infer T } ? T
: NodeDOMExceptionConstructor;
// #endregion DOMException
/*----------------------------------------------*
* *
* GLOBAL INTERFACES *
* *
*-----------------------------------------------*/
namespace NodeJS {
interface CallSite {
/**
* Value of "this"
*/
getThis(): unknown;
/**
* Type of "this" as a string.
* This is the name of the function stored in the constructor field of
* "this", if available. Otherwise the object's [[Class]] internal
* property.
*/
getTypeName(): string | null;
/**
* Current function
*/
getFunction(): Function | undefined;
/**
* Name of the current function, typically its name property.
* If a name property is not available an attempt will be made to try
* to infer a name from the function's context.
*/
getFunctionName(): string | null;
/**
* Name of the property [of "this" or one of its prototypes] that holds
* the current function
*/
getMethodName(): string | null;
/**
* Name of the script [if this function was defined in a script]
*/
getFileName(): string | undefined;
/**
* Current line number [if this function was defined in a script]
*/
getLineNumber(): number | null;
/**
* Current column number [if this function was defined in a script]
*/
getColumnNumber(): number | null;
/**
* A call site object representing the location where eval was called
* [if this function was created using a call to eval]
*/
getEvalOrigin(): string | undefined;
/**
* Is this a toplevel invocation, that is, is "this" the global object?
*/
isToplevel(): boolean;
/**
* Does this call take place in code defined by a call to eval?
*/
isEval(): boolean;
/**
* Is this call in native V8 code?
*/
isNative(): boolean;
/**
* Is this a constructor call?
*/
isConstructor(): boolean;
/**
* is this an async call (i.e. await, Promise.all(), or Promise.any())?
*/
isAsync(): boolean;
/**
* is this an async call to Promise.all()?
*/
isPromiseAll(): boolean;
/**
* returns the index of the promise element that was followed in
* Promise.all() or Promise.any() for async stack traces, or null
* if the CallSite is not an async
*/
getPromiseIndex(): number | null;
getScriptNameOrSourceURL(): string;
getScriptHash(): string;
getEnclosingColumnNumber(): number;
getEnclosingLineNumber(): number;
getPosition(): number;
toString(): string;
}
interface ErrnoException extends Error {
errno?: number | undefined;
code?: string | undefined;
path?: string | undefined;
syscall?: string | undefined;
}
interface ReadableStream extends EventEmitter {
readable: boolean;
read(size?: number): string | Buffer;
setEncoding(encoding: BufferEncoding): this;
pause(): this;
resume(): this;
isPaused(): boolean;
pipe<T extends WritableStream>(destination: T, options?: { end?: boolean | undefined }): T;
unpipe(destination?: WritableStream): this;
unshift(chunk: string | Uint8Array, encoding?: BufferEncoding): void;
wrap(oldStream: ReadableStream): this;
[Symbol.asyncIterator](): NodeJS.AsyncIterator<string | Buffer>;
}
interface WritableStream extends EventEmitter {
writable: boolean;
write(buffer: Uint8Array | string, cb?: (err?: Error | null) => void): boolean;
write(str: string, encoding?: BufferEncoding, cb?: (err?: Error | null) => void): boolean;
end(cb?: () => void): this;
end(data: string | Uint8Array, cb?: () => void): this;
end(str: string, encoding?: BufferEncoding, cb?: () => void): this;
}
interface ReadWriteStream extends ReadableStream, WritableStream {}
interface RefCounted {
ref(): this;
unref(): this;
}
interface Require {
(id: string): any;
resolve: RequireResolve;
cache: Dict<NodeModule>;
/**
* @deprecated
*/
extensions: RequireExtensions;
main: Module | undefined;
}
interface RequireResolve {
(id: string, options?: { paths?: string[] | undefined }): string;
paths(request: string): string[] | null;
}
interface RequireExtensions extends Dict<(m: Module, filename: string) => any> {
".js": (m: Module, filename: string) => any;
".json": (m: Module, filename: string) => any;
".node": (m: Module, filename: string) => any;
}
interface Module {
/**
* `true` if the module is running during the Node.js preload
*/
isPreloading: boolean;
exports: any;
require: Require;
id: string;
filename: string;
loaded: boolean;
/** @deprecated since v14.6.0 Please use `require.main` and `module.children` instead. */
parent: Module | null | undefined;
children: Module[];
/**
* @since v11.14.0
*
* The directory name of the module. This is usually the same as the path.dirname() of the module.id.
*/
path: string;
paths: string[];
}
interface Dict<T> {
[key: string]: T | undefined;
}
interface ReadOnlyDict<T> {
readonly [key: string]: T | undefined;
}
/** An iterable iterator returned by the Node.js API. */
// Default TReturn/TNext in v22 is `any`, for compatibility with the previously-used IterableIterator.
// TODO: In next major @types/node version, change default TReturn to undefined.
interface Iterator<T, TReturn = any, TNext = any> extends IteratorObject<T, TReturn, TNext> {
[Symbol.iterator](): NodeJS.Iterator<T, TReturn, TNext>;
}
/** An async iterable iterator returned by the Node.js API. */
// Default TReturn/TNext in v22 is `any`, for compatibility with the previously-used AsyncIterableIterator.
// TODO: In next major @types/node version, change default TReturn to undefined.
interface AsyncIterator<T, TReturn = any, TNext = any> extends AsyncIteratorObject<T, TReturn, TNext> {
[Symbol.asyncIterator](): NodeJS.AsyncIterator<T, TReturn, TNext>;
}
}
interface RequestInit extends _RequestInit {}
function fetch(
input: string | URL | globalThis.Request,
init?: RequestInit,
): Promise<Response>;
interface Request extends _Request {}
var Request: typeof globalThis extends {
onmessage: any;
Request: infer T;
} ? T
: typeof import("undici-types").Request;
interface ResponseInit extends _ResponseInit {}
interface Response extends _Response {}
var Response: typeof globalThis extends {
onmessage: any;
Response: infer T;
} ? T
: typeof import("undici-types").Response;
interface FormData extends _FormData {}
var FormData: typeof globalThis extends {
onmessage: any;
FormData: infer T;
} ? T
: typeof import("undici-types").FormData;
interface Headers extends _Headers {}
var Headers: typeof globalThis extends {
onmessage: any;
Headers: infer T;
} ? T
: typeof import("undici-types").Headers;
interface MessageEvent extends _MessageEvent {}
/**
* @since v15.0.0
*/
var MessageEvent: typeof globalThis extends {
onmessage: any;
MessageEvent: infer T;
} ? T
: typeof import("undici-types").MessageEvent;
interface WebSocket extends _WebSocket {}
var WebSocket: typeof globalThis extends { onmessage: any; WebSocket: infer T } ? T
: typeof import("undici-types").WebSocket;
interface EventSource extends _EventSource {}
/**
* Only available through the [--experimental-eventsource](https://nodejs.org/api/cli.html#--experimental-eventsource) flag.
*
* @since v22.3.0
*/
var EventSource: typeof globalThis extends { onmessage: any; EventSource: infer T } ? T
: typeof import("undici-types").EventSource;
}

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node_modules/@types/node/globals.typedarray.d.ts generated vendored Normal file
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export {}; // Make this a module
declare global {
namespace NodeJS {
type TypedArray<TArrayBuffer extends ArrayBufferLike = ArrayBufferLike> =
| Uint8Array<TArrayBuffer>
| Uint8ClampedArray<TArrayBuffer>
| Uint16Array<TArrayBuffer>
| Uint32Array<TArrayBuffer>
| Int8Array<TArrayBuffer>
| Int16Array<TArrayBuffer>
| Int32Array<TArrayBuffer>
| BigUint64Array<TArrayBuffer>
| BigInt64Array<TArrayBuffer>
| Float32Array<TArrayBuffer>
| Float64Array<TArrayBuffer>;
type ArrayBufferView<TArrayBuffer extends ArrayBufferLike = ArrayBufferLike> =
| TypedArray<TArrayBuffer>
| DataView<TArrayBuffer>;
}
}

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/**
* HTTPS is the HTTP protocol over TLS/SSL. In Node.js this is implemented as a
* separate module.
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/https.js)
*/
declare module "https" {
import { Duplex } from "node:stream";
import * as tls from "node:tls";
import * as http from "node:http";
import { URL } from "node:url";
type ServerOptions<
Request extends typeof http.IncomingMessage = typeof http.IncomingMessage,
Response extends typeof http.ServerResponse<InstanceType<Request>> = typeof http.ServerResponse,
> = tls.SecureContextOptions & tls.TlsOptions & http.ServerOptions<Request, Response>;
type RequestOptions =
& http.RequestOptions
& tls.SecureContextOptions
& {
checkServerIdentity?: typeof tls.checkServerIdentity | undefined;
rejectUnauthorized?: boolean | undefined; // Defaults to true
servername?: string | undefined; // SNI TLS Extension
};
interface AgentOptions extends http.AgentOptions, tls.ConnectionOptions {
rejectUnauthorized?: boolean | undefined;
maxCachedSessions?: number | undefined;
}
/**
* An `Agent` object for HTTPS similar to `http.Agent`. See {@link request} for more information.
* @since v0.4.5
*/
class Agent extends http.Agent {
constructor(options?: AgentOptions);
options: AgentOptions;
}
interface Server<
Request extends typeof http.IncomingMessage = typeof http.IncomingMessage,
Response extends typeof http.ServerResponse<InstanceType<Request>> = typeof http.ServerResponse,
> extends http.Server<Request, Response> {}
/**
* See `http.Server` for more information.
* @since v0.3.4
*/
class Server<
Request extends typeof http.IncomingMessage = typeof http.IncomingMessage,
Response extends typeof http.ServerResponse<InstanceType<Request>> = typeof http.ServerResponse,
> extends tls.Server {
constructor(requestListener?: http.RequestListener<Request, Response>);
constructor(
options: ServerOptions<Request, Response>,
requestListener?: http.RequestListener<Request, Response>,
);
/**
* Closes all connections connected to this server.
* @since v18.2.0
*/
closeAllConnections(): void;
/**
* Closes all connections connected to this server which are not sending a request or waiting for a response.
* @since v18.2.0
*/
closeIdleConnections(): void;
addListener(event: string, listener: (...args: any[]) => void): this;
addListener(event: "keylog", listener: (line: Buffer, tlsSocket: tls.TLSSocket) => void): this;
addListener(
event: "newSession",
listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void,
): this;
addListener(
event: "OCSPRequest",
listener: (
certificate: Buffer,
issuer: Buffer,
callback: (err: Error | null, resp: Buffer) => void,
) => void,
): this;
addListener(
event: "resumeSession",
listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void,
): this;
addListener(event: "secureConnection", listener: (tlsSocket: tls.TLSSocket) => void): this;
addListener(event: "tlsClientError", listener: (err: Error, tlsSocket: tls.TLSSocket) => void): this;
addListener(event: "close", listener: () => void): this;
addListener(event: "connection", listener: (socket: Duplex) => void): this;
addListener(event: "error", listener: (err: Error) => void): this;
addListener(event: "listening", listener: () => void): this;
addListener(event: "checkContinue", listener: http.RequestListener<Request, Response>): this;
addListener(event: "checkExpectation", listener: http.RequestListener<Request, Response>): this;
addListener(event: "clientError", listener: (err: Error, socket: Duplex) => void): this;
addListener(
event: "connect",
listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void,
): this;
addListener(event: "request", listener: http.RequestListener<Request, Response>): this;
addListener(
event: "upgrade",
listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void,
): this;
emit(event: string, ...args: any[]): boolean;
emit(event: "keylog", line: Buffer, tlsSocket: tls.TLSSocket): boolean;
emit(
event: "newSession",
sessionId: Buffer,
sessionData: Buffer,
callback: (err: Error, resp: Buffer) => void,
): boolean;
emit(
event: "OCSPRequest",
certificate: Buffer,
issuer: Buffer,
callback: (err: Error | null, resp: Buffer) => void,
): boolean;
emit(event: "resumeSession", sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void): boolean;
emit(event: "secureConnection", tlsSocket: tls.TLSSocket): boolean;
emit(event: "tlsClientError", err: Error, tlsSocket: tls.TLSSocket): boolean;
emit(event: "close"): boolean;
emit(event: "connection", socket: Duplex): boolean;
emit(event: "error", err: Error): boolean;
emit(event: "listening"): boolean;
emit(
event: "checkContinue",
req: InstanceType<Request>,
res: InstanceType<Response>,
): boolean;
emit(
event: "checkExpectation",
req: InstanceType<Request>,
res: InstanceType<Response>,
): boolean;
emit(event: "clientError", err: Error, socket: Duplex): boolean;
emit(event: "connect", req: InstanceType<Request>, socket: Duplex, head: Buffer): boolean;
emit(
event: "request",
req: InstanceType<Request>,
res: InstanceType<Response>,
): boolean;
emit(event: "upgrade", req: InstanceType<Request>, socket: Duplex, head: Buffer): boolean;
on(event: string, listener: (...args: any[]) => void): this;
on(event: "keylog", listener: (line: Buffer, tlsSocket: tls.TLSSocket) => void): this;
on(
event: "newSession",
listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void,
): this;
on(
event: "OCSPRequest",
listener: (
certificate: Buffer,
issuer: Buffer,
callback: (err: Error | null, resp: Buffer) => void,
) => void,
): this;
on(
event: "resumeSession",
listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void,
): this;
on(event: "secureConnection", listener: (tlsSocket: tls.TLSSocket) => void): this;
on(event: "tlsClientError", listener: (err: Error, tlsSocket: tls.TLSSocket) => void): this;
on(event: "close", listener: () => void): this;
on(event: "connection", listener: (socket: Duplex) => void): this;
on(event: "error", listener: (err: Error) => void): this;
on(event: "listening", listener: () => void): this;
on(event: "checkContinue", listener: http.RequestListener<Request, Response>): this;
on(event: "checkExpectation", listener: http.RequestListener<Request, Response>): this;
on(event: "clientError", listener: (err: Error, socket: Duplex) => void): this;
on(event: "connect", listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void): this;
on(event: "request", listener: http.RequestListener<Request, Response>): this;
on(event: "upgrade", listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void): this;
once(event: string, listener: (...args: any[]) => void): this;
once(event: "keylog", listener: (line: Buffer, tlsSocket: tls.TLSSocket) => void): this;
once(
event: "newSession",
listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void,
): this;
once(
event: "OCSPRequest",
listener: (
certificate: Buffer,
issuer: Buffer,
callback: (err: Error | null, resp: Buffer) => void,
) => void,
): this;
once(
event: "resumeSession",
listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void,
): this;
once(event: "secureConnection", listener: (tlsSocket: tls.TLSSocket) => void): this;
once(event: "tlsClientError", listener: (err: Error, tlsSocket: tls.TLSSocket) => void): this;
once(event: "close", listener: () => void): this;
once(event: "connection", listener: (socket: Duplex) => void): this;
once(event: "error", listener: (err: Error) => void): this;
once(event: "listening", listener: () => void): this;
once(event: "checkContinue", listener: http.RequestListener<Request, Response>): this;
once(event: "checkExpectation", listener: http.RequestListener<Request, Response>): this;
once(event: "clientError", listener: (err: Error, socket: Duplex) => void): this;
once(event: "connect", listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void): this;
once(event: "request", listener: http.RequestListener<Request, Response>): this;
once(event: "upgrade", listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void): this;
prependListener(event: string, listener: (...args: any[]) => void): this;
prependListener(event: "keylog", listener: (line: Buffer, tlsSocket: tls.TLSSocket) => void): this;
prependListener(
event: "newSession",
listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void,
): this;
prependListener(
event: "OCSPRequest",
listener: (
certificate: Buffer,
issuer: Buffer,
callback: (err: Error | null, resp: Buffer) => void,
) => void,
): this;
prependListener(
event: "resumeSession",
listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void,
): this;
prependListener(event: "secureConnection", listener: (tlsSocket: tls.TLSSocket) => void): this;
prependListener(event: "tlsClientError", listener: (err: Error, tlsSocket: tls.TLSSocket) => void): this;
prependListener(event: "close", listener: () => void): this;
prependListener(event: "connection", listener: (socket: Duplex) => void): this;
prependListener(event: "error", listener: (err: Error) => void): this;
prependListener(event: "listening", listener: () => void): this;
prependListener(event: "checkContinue", listener: http.RequestListener<Request, Response>): this;
prependListener(event: "checkExpectation", listener: http.RequestListener<Request, Response>): this;
prependListener(event: "clientError", listener: (err: Error, socket: Duplex) => void): this;
prependListener(
event: "connect",
listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void,
): this;
prependListener(event: "request", listener: http.RequestListener<Request, Response>): this;
prependListener(
event: "upgrade",
listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void,
): this;
prependOnceListener(event: string, listener: (...args: any[]) => void): this;
prependOnceListener(event: "keylog", listener: (line: Buffer, tlsSocket: tls.TLSSocket) => void): this;
prependOnceListener(
event: "newSession",
listener: (sessionId: Buffer, sessionData: Buffer, callback: (err: Error, resp: Buffer) => void) => void,
): this;
prependOnceListener(
event: "OCSPRequest",
listener: (
certificate: Buffer,
issuer: Buffer,
callback: (err: Error | null, resp: Buffer) => void,
) => void,
): this;
prependOnceListener(
event: "resumeSession",
listener: (sessionId: Buffer, callback: (err: Error, sessionData: Buffer) => void) => void,
): this;
prependOnceListener(event: "secureConnection", listener: (tlsSocket: tls.TLSSocket) => void): this;
prependOnceListener(event: "tlsClientError", listener: (err: Error, tlsSocket: tls.TLSSocket) => void): this;
prependOnceListener(event: "close", listener: () => void): this;
prependOnceListener(event: "connection", listener: (socket: Duplex) => void): this;
prependOnceListener(event: "error", listener: (err: Error) => void): this;
prependOnceListener(event: "listening", listener: () => void): this;
prependOnceListener(event: "checkContinue", listener: http.RequestListener<Request, Response>): this;
prependOnceListener(event: "checkExpectation", listener: http.RequestListener<Request, Response>): this;
prependOnceListener(event: "clientError", listener: (err: Error, socket: Duplex) => void): this;
prependOnceListener(
event: "connect",
listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void,
): this;
prependOnceListener(event: "request", listener: http.RequestListener<Request, Response>): this;
prependOnceListener(
event: "upgrade",
listener: (req: InstanceType<Request>, socket: Duplex, head: Buffer) => void,
): this;
}
/**
* ```js
* // curl -k https://localhost:8000/
* import https from 'node:https';
* import fs from 'node:fs';
*
* const options = {
* key: fs.readFileSync('test/fixtures/keys/agent2-key.pem'),
* cert: fs.readFileSync('test/fixtures/keys/agent2-cert.pem'),
* };
*
* https.createServer(options, (req, res) => {
* res.writeHead(200);
* res.end('hello world\n');
* }).listen(8000);
* ```
*
* Or
*
* ```js
* import https from 'node:https';
* import fs from 'node:fs';
*
* const options = {
* pfx: fs.readFileSync('test/fixtures/test_cert.pfx'),
* passphrase: 'sample',
* };
*
* https.createServer(options, (req, res) => {
* res.writeHead(200);
* res.end('hello world\n');
* }).listen(8000);
* ```
* @since v0.3.4
* @param options Accepts `options` from `createServer`, `createSecureContext` and `createServer`.
* @param requestListener A listener to be added to the `'request'` event.
*/
function createServer<
Request extends typeof http.IncomingMessage = typeof http.IncomingMessage,
Response extends typeof http.ServerResponse<InstanceType<Request>> = typeof http.ServerResponse,
>(requestListener?: http.RequestListener<Request, Response>): Server<Request, Response>;
function createServer<
Request extends typeof http.IncomingMessage = typeof http.IncomingMessage,
Response extends typeof http.ServerResponse<InstanceType<Request>> = typeof http.ServerResponse,
>(
options: ServerOptions<Request, Response>,
requestListener?: http.RequestListener<Request, Response>,
): Server<Request, Response>;
/**
* Makes a request to a secure web server.
*
* The following additional `options` from `tls.connect()` are also accepted: `ca`, `cert`, `ciphers`, `clientCertEngine`, `crl`, `dhparam`, `ecdhCurve`, `honorCipherOrder`, `key`, `passphrase`,
* `pfx`, `rejectUnauthorized`, `secureOptions`, `secureProtocol`, `servername`, `sessionIdContext`, `highWaterMark`.
*
* `options` can be an object, a string, or a `URL` object. If `options` is a
* string, it is automatically parsed with `new URL()`. If it is a `URL` object, it will be automatically converted to an ordinary `options` object.
*
* `https.request()` returns an instance of the `http.ClientRequest` class. The `ClientRequest` instance is a writable stream. If one needs to
* upload a file with a POST request, then write to the `ClientRequest` object.
*
* ```js
* import https from 'node:https';
*
* const options = {
* hostname: 'encrypted.google.com',
* port: 443,
* path: '/',
* method: 'GET',
* };
*
* const req = https.request(options, (res) => {
* console.log('statusCode:', res.statusCode);
* console.log('headers:', res.headers);
*
* res.on('data', (d) => {
* process.stdout.write(d);
* });
* });
*
* req.on('error', (e) => {
* console.error(e);
* });
* req.end();
* ```
*
* Example using options from `tls.connect()`:
*
* ```js
* const options = {
* hostname: 'encrypted.google.com',
* port: 443,
* path: '/',
* method: 'GET',
* key: fs.readFileSync('test/fixtures/keys/agent2-key.pem'),
* cert: fs.readFileSync('test/fixtures/keys/agent2-cert.pem'),
* };
* options.agent = new https.Agent(options);
*
* const req = https.request(options, (res) => {
* // ...
* });
* ```
*
* Alternatively, opt out of connection pooling by not using an `Agent`.
*
* ```js
* const options = {
* hostname: 'encrypted.google.com',
* port: 443,
* path: '/',
* method: 'GET',
* key: fs.readFileSync('test/fixtures/keys/agent2-key.pem'),
* cert: fs.readFileSync('test/fixtures/keys/agent2-cert.pem'),
* agent: false,
* };
*
* const req = https.request(options, (res) => {
* // ...
* });
* ```
*
* Example using a `URL` as `options`:
*
* ```js
* const options = new URL('https://abc:xyz@example.com');
*
* const req = https.request(options, (res) => {
* // ...
* });
* ```
*
* Example pinning on certificate fingerprint, or the public key (similar to`pin-sha256`):
*
* ```js
* import tls from 'node:tls';
* import https from 'node:https';
* import crypto from 'node:crypto';
*
* function sha256(s) {
* return crypto.createHash('sha256').update(s).digest('base64');
* }
* const options = {
* hostname: 'github.com',
* port: 443,
* path: '/',
* method: 'GET',
* checkServerIdentity: function(host, cert) {
* // Make sure the certificate is issued to the host we are connected to
* const err = tls.checkServerIdentity(host, cert);
* if (err) {
* return err;
* }
*
* // Pin the public key, similar to HPKP pin-sha256 pinning
* const pubkey256 = 'pL1+qb9HTMRZJmuC/bB/ZI9d302BYrrqiVuRyW+DGrU=';
* if (sha256(cert.pubkey) !== pubkey256) {
* const msg = 'Certificate verification error: ' +
* `The public key of '${cert.subject.CN}' ` +
* 'does not match our pinned fingerprint';
* return new Error(msg);
* }
*
* // Pin the exact certificate, rather than the pub key
* const cert256 = '25:FE:39:32:D9:63:8C:8A:FC:A1:9A:29:87:' +
* 'D8:3E:4C:1D:98:DB:71:E4:1A:48:03:98:EA:22:6A:BD:8B:93:16';
* if (cert.fingerprint256 !== cert256) {
* const msg = 'Certificate verification error: ' +
* `The certificate of '${cert.subject.CN}' ` +
* 'does not match our pinned fingerprint';
* return new Error(msg);
* }
*
* // This loop is informational only.
* // Print the certificate and public key fingerprints of all certs in the
* // chain. Its common to pin the public key of the issuer on the public
* // internet, while pinning the public key of the service in sensitive
* // environments.
* do {
* console.log('Subject Common Name:', cert.subject.CN);
* console.log(' Certificate SHA256 fingerprint:', cert.fingerprint256);
*
* hash = crypto.createHash('sha256');
* console.log(' Public key ping-sha256:', sha256(cert.pubkey));
*
* lastprint256 = cert.fingerprint256;
* cert = cert.issuerCertificate;
* } while (cert.fingerprint256 !== lastprint256);
*
* },
* };
*
* options.agent = new https.Agent(options);
* const req = https.request(options, (res) => {
* console.log('All OK. Server matched our pinned cert or public key');
* console.log('statusCode:', res.statusCode);
* // Print the HPKP values
* console.log('headers:', res.headers['public-key-pins']);
*
* res.on('data', (d) => {});
* });
*
* req.on('error', (e) => {
* console.error(e.message);
* });
* req.end();
* ```
*
* Outputs for example:
*
* ```text
* Subject Common Name: github.com
* Certificate SHA256 fingerprint: 25:FE:39:32:D9:63:8C:8A:FC:A1:9A:29:87:D8:3E:4C:1D:98:DB:71:E4:1A:48:03:98:EA:22:6A:BD:8B:93:16
* Public key ping-sha256: pL1+qb9HTMRZJmuC/bB/ZI9d302BYrrqiVuRyW+DGrU=
* Subject Common Name: DigiCert SHA2 Extended Validation Server CA
* Certificate SHA256 fingerprint: 40:3E:06:2A:26:53:05:91:13:28:5B:AF:80:A0:D4:AE:42:2C:84:8C:9F:78:FA:D0:1F:C9:4B:C5:B8:7F:EF:1A
* Public key ping-sha256: RRM1dGqnDFsCJXBTHky16vi1obOlCgFFn/yOhI/y+ho=
* Subject Common Name: DigiCert High Assurance EV Root CA
* Certificate SHA256 fingerprint: 74:31:E5:F4:C3:C1:CE:46:90:77:4F:0B:61:E0:54:40:88:3B:A9:A0:1E:D0:0B:A6:AB:D7:80:6E:D3:B1:18:CF
* Public key ping-sha256: WoiWRyIOVNa9ihaBciRSC7XHjliYS9VwUGOIud4PB18=
* All OK. Server matched our pinned cert or public key
* statusCode: 200
* headers: max-age=0; pin-sha256="WoiWRyIOVNa9ihaBciRSC7XHjliYS9VwUGOIud4PB18="; pin-sha256="RRM1dGqnDFsCJXBTHky16vi1obOlCgFFn/yOhI/y+ho=";
* pin-sha256="k2v657xBsOVe1PQRwOsHsw3bsGT2VzIqz5K+59sNQws="; pin-sha256="K87oWBWM9UZfyddvDfoxL+8lpNyoUB2ptGtn0fv6G2Q="; pin-sha256="IQBnNBEiFuhj+8x6X8XLgh01V9Ic5/V3IRQLNFFc7v4=";
* pin-sha256="iie1VXtL7HzAMF+/PVPR9xzT80kQxdZeJ+zduCB3uj0="; pin-sha256="LvRiGEjRqfzurezaWuj8Wie2gyHMrW5Q06LspMnox7A="; includeSubDomains
* ```
* @since v0.3.6
* @param options Accepts all `options` from `request`, with some differences in default values:
*/
function request(
options: RequestOptions | string | URL,
callback?: (res: http.IncomingMessage) => void,
): http.ClientRequest;
function request(
url: string | URL,
options: RequestOptions,
callback?: (res: http.IncomingMessage) => void,
): http.ClientRequest;
/**
* Like `http.get()` but for HTTPS.
*
* `options` can be an object, a string, or a `URL` object. If `options` is a
* string, it is automatically parsed with `new URL()`. If it is a `URL` object, it will be automatically converted to an ordinary `options` object.
*
* ```js
* import https from 'node:https';
*
* https.get('https://encrypted.google.com/', (res) => {
* console.log('statusCode:', res.statusCode);
* console.log('headers:', res.headers);
*
* res.on('data', (d) => {
* process.stdout.write(d);
* });
*
* }).on('error', (e) => {
* console.error(e);
* });
* ```
* @since v0.3.6
* @param options Accepts the same `options` as {@link request}, with the `method` always set to `GET`.
*/
function get(
options: RequestOptions | string | URL,
callback?: (res: http.IncomingMessage) => void,
): http.ClientRequest;
function get(
url: string | URL,
options: RequestOptions,
callback?: (res: http.IncomingMessage) => void,
): http.ClientRequest;
let globalAgent: Agent;
}
declare module "node:https" {
export * from "https";
}

92
node_modules/@types/node/index.d.ts generated vendored Normal file
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@@ -0,0 +1,92 @@
/**
* License for programmatically and manually incorporated
* documentation aka. `JSDoc` from https://github.com/nodejs/node/tree/master/doc
*
* Copyright Node.js contributors. All rights reserved.
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
// NOTE: These definitions support Node.js and TypeScript 5.7+.
// Reference required TypeScript libs:
/// <reference lib="es2020" />
// TypeScript backwards-compatibility definitions:
/// <reference path="compatibility/index.d.ts" />
// Definitions specific to TypeScript 5.7+:
/// <reference path="globals.typedarray.d.ts" />
/// <reference path="buffer.buffer.d.ts" />
// Definitions for Node.js modules that are not specific to any version of TypeScript:
/// <reference path="globals.d.ts" />
/// <reference path="assert.d.ts" />
/// <reference path="assert/strict.d.ts" />
/// <reference path="async_hooks.d.ts" />
/// <reference path="buffer.d.ts" />
/// <reference path="child_process.d.ts" />
/// <reference path="cluster.d.ts" />
/// <reference path="console.d.ts" />
/// <reference path="constants.d.ts" />
/// <reference path="crypto.d.ts" />
/// <reference path="dgram.d.ts" />
/// <reference path="diagnostics_channel.d.ts" />
/// <reference path="dns.d.ts" />
/// <reference path="dns/promises.d.ts" />
/// <reference path="dns/promises.d.ts" />
/// <reference path="domain.d.ts" />
/// <reference path="dom-events.d.ts" />
/// <reference path="events.d.ts" />
/// <reference path="fs.d.ts" />
/// <reference path="fs/promises.d.ts" />
/// <reference path="http.d.ts" />
/// <reference path="http2.d.ts" />
/// <reference path="https.d.ts" />
/// <reference path="inspector.d.ts" />
/// <reference path="module.d.ts" />
/// <reference path="net.d.ts" />
/// <reference path="os.d.ts" />
/// <reference path="path.d.ts" />
/// <reference path="perf_hooks.d.ts" />
/// <reference path="process.d.ts" />
/// <reference path="punycode.d.ts" />
/// <reference path="querystring.d.ts" />
/// <reference path="readline.d.ts" />
/// <reference path="readline/promises.d.ts" />
/// <reference path="repl.d.ts" />
/// <reference path="sea.d.ts" />
/// <reference path="sqlite.d.ts" />
/// <reference path="stream.d.ts" />
/// <reference path="stream/promises.d.ts" />
/// <reference path="stream/consumers.d.ts" />
/// <reference path="stream/web.d.ts" />
/// <reference path="string_decoder.d.ts" />
/// <reference path="test.d.ts" />
/// <reference path="timers.d.ts" />
/// <reference path="timers/promises.d.ts" />
/// <reference path="tls.d.ts" />
/// <reference path="trace_events.d.ts" />
/// <reference path="tty.d.ts" />
/// <reference path="url.d.ts" />
/// <reference path="util.d.ts" />
/// <reference path="v8.d.ts" />
/// <reference path="vm.d.ts" />
/// <reference path="wasi.d.ts" />
/// <reference path="worker_threads.d.ts" />
/// <reference path="zlib.d.ts" />

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/**
* @since v0.3.7
* @experimental
*/
declare module "module" {
import { URL } from "node:url";
import { MessagePort } from "node:worker_threads";
namespace Module {
/**
* The `module.syncBuiltinESMExports()` method updates all the live bindings for
* builtin `ES Modules` to match the properties of the `CommonJS` exports. It
* does not add or remove exported names from the `ES Modules`.
*
* ```js
* import fs from 'node:fs';
* import assert from 'node:assert';
* import { syncBuiltinESMExports } from 'node:module';
*
* fs.readFile = newAPI;
*
* delete fs.readFileSync;
*
* function newAPI() {
* // ...
* }
*
* fs.newAPI = newAPI;
*
* syncBuiltinESMExports();
*
* import('node:fs').then((esmFS) => {
* // It syncs the existing readFile property with the new value
* assert.strictEqual(esmFS.readFile, newAPI);
* // readFileSync has been deleted from the required fs
* assert.strictEqual('readFileSync' in fs, false);
* // syncBuiltinESMExports() does not remove readFileSync from esmFS
* assert.strictEqual('readFileSync' in esmFS, true);
* // syncBuiltinESMExports() does not add names
* assert.strictEqual(esmFS.newAPI, undefined);
* });
* ```
* @since v12.12.0
*/
function syncBuiltinESMExports(): void;
/**
* `path` is the resolved path for the file for which a corresponding source map
* should be fetched.
* @since v13.7.0, v12.17.0
* @return Returns `module.SourceMap` if a source map is found, `undefined` otherwise.
*/
function findSourceMap(path: string, error?: Error): SourceMap;
interface SourceMapPayload {
file: string;
version: number;
sources: string[];
sourcesContent: string[];
names: string[];
mappings: string;
sourceRoot: string;
}
interface SourceMapping {
generatedLine: number;
generatedColumn: number;
originalSource: string;
originalLine: number;
originalColumn: number;
}
interface SourceOrigin {
/**
* The name of the range in the source map, if one was provided
*/
name?: string;
/**
* The file name of the original source, as reported in the SourceMap
*/
fileName: string;
/**
* The 1-indexed lineNumber of the corresponding call site in the original source
*/
lineNumber: number;
/**
* The 1-indexed columnNumber of the corresponding call site in the original source
*/
columnNumber: number;
}
/**
* @since v13.7.0, v12.17.0
*/
class SourceMap {
/**
* Getter for the payload used to construct the `SourceMap` instance.
*/
readonly payload: SourceMapPayload;
constructor(payload: SourceMapPayload);
/**
* Given a line offset and column offset in the generated source
* file, returns an object representing the SourceMap range in the
* original file if found, or an empty object if not.
*
* The object returned contains the following keys:
*
* The returned value represents the raw range as it appears in the
* SourceMap, based on zero-indexed offsets, _not_ 1-indexed line and
* column numbers as they appear in Error messages and CallSite
* objects.
*
* To get the corresponding 1-indexed line and column numbers from a
* lineNumber and columnNumber as they are reported by Error stacks
* and CallSite objects, use `sourceMap.findOrigin(lineNumber, columnNumber)`
* @param lineOffset The zero-indexed line number offset in the generated source
* @param columnOffset The zero-indexed column number offset in the generated source
*/
findEntry(lineOffset: number, columnOffset: number): SourceMapping;
/**
* Given a 1-indexed `lineNumber` and `columnNumber` from a call site in the generated source,
* find the corresponding call site location in the original source.
*
* If the `lineNumber` and `columnNumber` provided are not found in any source map,
* then an empty object is returned.
* @param lineNumber The 1-indexed line number of the call site in the generated source
* @param columnNumber The 1-indexed column number of the call site in the generated source
*/
findOrigin(lineNumber: number, columnNumber: number): SourceOrigin | {};
}
interface ImportAttributes extends NodeJS.Dict<string> {
type?: string | undefined;
}
type ModuleFormat = "builtin" | "commonjs" | "json" | "module" | "wasm";
type ModuleSource = string | ArrayBuffer | NodeJS.TypedArray;
interface GlobalPreloadContext {
port: MessagePort;
}
/**
* @deprecated This hook will be removed in a future version.
* Use `initialize` instead. When a loader has an `initialize` export, `globalPreload` will be ignored.
*
* Sometimes it might be necessary to run some code inside of the same global scope that the application runs in.
* This hook allows the return of a string that is run as a sloppy-mode script on startup.
*
* @param context Information to assist the preload code
* @return Code to run before application startup
*/
type GlobalPreloadHook = (context: GlobalPreloadContext) => string;
/**
* The `initialize` hook provides a way to define a custom function that runs in the hooks thread
* when the hooks module is initialized. Initialization happens when the hooks module is registered via `register`.
*
* This hook can receive data from a `register` invocation, including ports and other transferrable objects.
* The return value of `initialize` can be a `Promise`, in which case it will be awaited before the main application thread execution resumes.
*/
type InitializeHook<Data = any> = (data: Data) => void | Promise<void>;
interface ResolveHookContext {
/**
* Export conditions of the relevant `package.json`
*/
conditions: string[];
/**
* An object whose key-value pairs represent the assertions for the module to import
*/
importAttributes: ImportAttributes;
/**
* The module importing this one, or undefined if this is the Node.js entry point
*/
parentURL: string | undefined;
}
interface ResolveFnOutput {
/**
* A hint to the load hook (it might be ignored)
*/
format?: ModuleFormat | null | undefined;
/**
* The import attributes to use when caching the module (optional; if excluded the input will be used)
*/
importAttributes?: ImportAttributes | undefined;
/**
* A signal that this hook intends to terminate the chain of `resolve` hooks.
* @default false
*/
shortCircuit?: boolean | undefined;
/**
* The absolute URL to which this input resolves
*/
url: string;
}
/**
* The `resolve` hook chain is responsible for resolving file URL for a given module specifier and parent URL, and optionally its format (such as `'module'`) as a hint to the `load` hook.
* If a format is specified, the load hook is ultimately responsible for providing the final `format` value (and it is free to ignore the hint provided by `resolve`);
* if `resolve` provides a format, a custom `load` hook is required even if only to pass the value to the Node.js default `load` hook.
*
* @param specifier The specified URL path of the module to be resolved
* @param context
* @param nextResolve The subsequent `resolve` hook in the chain, or the Node.js default `resolve` hook after the last user-supplied resolve hook
*/
type ResolveHook = (
specifier: string,
context: ResolveHookContext,
nextResolve: (
specifier: string,
context?: ResolveHookContext,
) => ResolveFnOutput | Promise<ResolveFnOutput>,
) => ResolveFnOutput | Promise<ResolveFnOutput>;
interface LoadHookContext {
/**
* Export conditions of the relevant `package.json`
*/
conditions: string[];
/**
* The format optionally supplied by the `resolve` hook chain
*/
format: ModuleFormat;
/**
* An object whose key-value pairs represent the assertions for the module to import
*/
importAttributes: ImportAttributes;
}
interface LoadFnOutput {
format: ModuleFormat;
/**
* A signal that this hook intends to terminate the chain of `resolve` hooks.
* @default false
*/
shortCircuit?: boolean | undefined;
/**
* The source for Node.js to evaluate
*/
source?: ModuleSource;
}
/**
* The `load` hook provides a way to define a custom method of determining how a URL should be interpreted, retrieved, and parsed.
* It is also in charge of validating the import assertion.
*
* @param url The URL/path of the module to be loaded
* @param context Metadata about the module
* @param nextLoad The subsequent `load` hook in the chain, or the Node.js default `load` hook after the last user-supplied `load` hook
*/
type LoadHook = (
url: string,
context: LoadHookContext,
nextLoad: (url: string, context?: LoadHookContext) => LoadFnOutput | Promise<LoadFnOutput>,
) => LoadFnOutput | Promise<LoadFnOutput>;
}
interface RegisterOptions<Data> {
parentURL: string | URL;
data?: Data | undefined;
transferList?: any[] | undefined;
}
interface Module extends NodeModule {}
class Module {
static runMain(): void;
static wrap(code: string): string;
static createRequire(path: string | URL): NodeRequire;
static builtinModules: string[];
static isBuiltin(moduleName: string): boolean;
static Module: typeof Module;
static register<Data = any>(
specifier: string | URL,
parentURL?: string | URL,
options?: RegisterOptions<Data>,
): void;
static register<Data = any>(specifier: string | URL, options?: RegisterOptions<Data>): void;
constructor(id: string, parent?: Module);
}
global {
interface ImportMeta {
/**
* The directory name of the current module. This is the same as the `path.dirname()` of the `import.meta.filename`.
* **Caveat:** only present on `file:` modules.
*/
dirname: string;
/**
* The full absolute path and filename of the current module, with symlinks resolved.
* This is the same as the `url.fileURLToPath()` of the `import.meta.url`.
* **Caveat:** only local modules support this property. Modules not using the `file:` protocol will not provide it.
*/
filename: string;
/**
* The absolute `file:` URL of the module.
*/
url: string;
/**
* Provides a module-relative resolution function scoped to each module, returning
* the URL string.
*
* Second `parent` parameter is only used when the `--experimental-import-meta-resolve`
* command flag enabled.
*
* @since v20.6.0
*
* @param specifier The module specifier to resolve relative to `parent`.
* @param parent The absolute parent module URL to resolve from.
* @returns The absolute (`file:`) URL string for the resolved module.
*/
resolve(specifier: string, parent?: string | URL | undefined): string;
}
}
export = Module;
}
declare module "node:module" {
import module = require("module");
export = module;
}

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/**
* The `node:os` module provides operating system-related utility methods and
* properties. It can be accessed using:
*
* ```js
* import os from 'node:os';
* ```
* @see [source](https://github.com/nodejs/node/blob/v22.x/lib/os.js)
*/
declare module "os" {
interface CpuInfo {
model: string;
speed: number;
times: {
/** The number of milliseconds the CPU has spent in user mode. */
user: number;
/** The number of milliseconds the CPU has spent in nice mode. */
nice: number;
/** The number of milliseconds the CPU has spent in sys mode. */
sys: number;
/** The number of milliseconds the CPU has spent in idle mode. */
idle: number;
/** The number of milliseconds the CPU has spent in irq mode. */
irq: number;
};
}
interface NetworkInterfaceBase {
address: string;
netmask: string;
mac: string;
internal: boolean;
cidr: string | null;
}
interface NetworkInterfaceInfoIPv4 extends NetworkInterfaceBase {
family: "IPv4";
scopeid?: undefined;
}
interface NetworkInterfaceInfoIPv6 extends NetworkInterfaceBase {
family: "IPv6";
scopeid: number;
}
interface UserInfo<T> {
username: T;
uid: number;
gid: number;
shell: T | null;
homedir: T;
}
type NetworkInterfaceInfo = NetworkInterfaceInfoIPv4 | NetworkInterfaceInfoIPv6;
/**
* Returns the host name of the operating system as a string.
* @since v0.3.3
*/
function hostname(): string;
/**
* Returns an array containing the 1, 5, and 15 minute load averages.
*
* The load average is a measure of system activity calculated by the operating
* system and expressed as a fractional number.
*
* The load average is a Unix-specific concept. On Windows, the return value is
* always `[0, 0, 0]`.
* @since v0.3.3
*/
function loadavg(): number[];
/**
* Returns the system uptime in number of seconds.
* @since v0.3.3
*/
function uptime(): number;
/**
* Returns the amount of free system memory in bytes as an integer.
* @since v0.3.3
*/
function freemem(): number;
/**
* Returns the total amount of system memory in bytes as an integer.
* @since v0.3.3
*/
function totalmem(): number;
/**
* Returns an array of objects containing information about each logical CPU core.
* The array will be empty if no CPU information is available, such as if the `/proc` file system is unavailable.
*
* The properties included on each object include:
*
* ```js
* [
* {
* model: 'Intel(R) Core(TM) i7 CPU 860 @ 2.80GHz',
* speed: 2926,
* times: {
* user: 252020,
* nice: 0,
* sys: 30340,
* idle: 1070356870,
* irq: 0,
* },
* },
* {
* model: 'Intel(R) Core(TM) i7 CPU 860 @ 2.80GHz',
* speed: 2926,
* times: {
* user: 306960,
* nice: 0,
* sys: 26980,
* idle: 1071569080,
* irq: 0,
* },
* },
* {
* model: 'Intel(R) Core(TM) i7 CPU 860 @ 2.80GHz',
* speed: 2926,
* times: {
* user: 248450,
* nice: 0,
* sys: 21750,
* idle: 1070919370,
* irq: 0,
* },
* },
* {
* model: 'Intel(R) Core(TM) i7 CPU 860 @ 2.80GHz',
* speed: 2926,
* times: {
* user: 256880,
* nice: 0,
* sys: 19430,
* idle: 1070905480,
* irq: 20,
* },
* },
* ]
* ```
*
* `nice` values are POSIX-only. On Windows, the `nice` values of all processors
* are always 0.
*
* `os.cpus().length` should not be used to calculate the amount of parallelism
* available to an application. Use {@link availableParallelism} for this purpose.
* @since v0.3.3
*/
function cpus(): CpuInfo[];
/**
* Returns an estimate of the default amount of parallelism a program should use.
* Always returns a value greater than zero.
*
* This function is a small wrapper about libuv's [`uv_available_parallelism()`](https://docs.libuv.org/en/v1.x/misc.html#c.uv_available_parallelism).
* @since v19.4.0, v18.14.0
*/
function availableParallelism(): number;
/**
* Returns the operating system name as returned by [`uname(3)`](https://linux.die.net/man/3/uname). For example, it
* returns `'Linux'` on Linux, `'Darwin'` on macOS, and `'Windows_NT'` on Windows.
*
* See [https://en.wikipedia.org/wiki/Uname#Examples](https://en.wikipedia.org/wiki/Uname#Examples) for additional information
* about the output of running [`uname(3)`](https://linux.die.net/man/3/uname) on various operating systems.
* @since v0.3.3
*/
function type(): string;
/**
* Returns the operating system as a string.
*
* On POSIX systems, the operating system release is determined by calling [`uname(3)`](https://linux.die.net/man/3/uname). On Windows, `GetVersionExW()` is used. See
* [https://en.wikipedia.org/wiki/Uname#Examples](https://en.wikipedia.org/wiki/Uname#Examples) for more information.
* @since v0.3.3
*/
function release(): string;
/**
* Returns an object containing network interfaces that have been assigned a
* network address.
*
* Each key on the returned object identifies a network interface. The associated
* value is an array of objects that each describe an assigned network address.
*
* The properties available on the assigned network address object include:
*
* ```js
* {
* lo: [
* {
* address: '127.0.0.1',
* netmask: '255.0.0.0',
* family: 'IPv4',
* mac: '00:00:00:00:00:00',
* internal: true,
* cidr: '127.0.0.1/8'
* },
* {
* address: '::1',
* netmask: 'ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff',
* family: 'IPv6',
* mac: '00:00:00:00:00:00',
* scopeid: 0,
* internal: true,
* cidr: '::1/128'
* }
* ],
* eth0: [
* {
* address: '192.168.1.108',
* netmask: '255.255.255.0',
* family: 'IPv4',
* mac: '01:02:03:0a:0b:0c',
* internal: false,
* cidr: '192.168.1.108/24'
* },
* {
* address: 'fe80::a00:27ff:fe4e:66a1',
* netmask: 'ffff:ffff:ffff:ffff::',
* family: 'IPv6',
* mac: '01:02:03:0a:0b:0c',
* scopeid: 1,
* internal: false,
* cidr: 'fe80::a00:27ff:fe4e:66a1/64'
* }
* ]
* }
* ```
* @since v0.6.0
*/
function networkInterfaces(): NodeJS.Dict<NetworkInterfaceInfo[]>;
/**
* Returns the string path of the current user's home directory.
*
* On POSIX, it uses the `$HOME` environment variable if defined. Otherwise it
* uses the [effective UID](https://en.wikipedia.org/wiki/User_identifier#Effective_user_ID) to look up the user's home directory.
*
* On Windows, it uses the `USERPROFILE` environment variable if defined.
* Otherwise it uses the path to the profile directory of the current user.
* @since v2.3.0
*/
function homedir(): string;
/**
* Returns information about the currently effective user. On POSIX platforms,
* this is typically a subset of the password file. The returned object includes
* the `username`, `uid`, `gid`, `shell`, and `homedir`. On Windows, the `uid` and `gid` fields are `-1`, and `shell` is `null`.
*
* The value of `homedir` returned by `os.userInfo()` is provided by the operating
* system. This differs from the result of `os.homedir()`, which queries
* environment variables for the home directory before falling back to the
* operating system response.
*
* Throws a [`SystemError`](https://nodejs.org/docs/latest-v22.x/api/errors.html#class-systemerror) if a user has no `username` or `homedir`.
* @since v6.0.0
*/
function userInfo(options: { encoding: "buffer" }): UserInfo<Buffer>;
function userInfo(options?: { encoding: BufferEncoding }): UserInfo<string>;
type SignalConstants = {
[key in NodeJS.Signals]: number;
};
namespace constants {
const UV_UDP_REUSEADDR: number;
namespace signals {}
const signals: SignalConstants;
namespace errno {
const E2BIG: number;
const EACCES: number;
const EADDRINUSE: number;
const EADDRNOTAVAIL: number;
const EAFNOSUPPORT: number;
const EAGAIN: number;
const EALREADY: number;
const EBADF: number;
const EBADMSG: number;
const EBUSY: number;
const ECANCELED: number;
const ECHILD: number;
const ECONNABORTED: number;
const ECONNREFUSED: number;
const ECONNRESET: number;
const EDEADLK: number;
const EDESTADDRREQ: number;
const EDOM: number;
const EDQUOT: number;
const EEXIST: number;
const EFAULT: number;
const EFBIG: number;
const EHOSTUNREACH: number;
const EIDRM: number;
const EILSEQ: number;
const EINPROGRESS: number;
const EINTR: number;
const EINVAL: number;
const EIO: number;
const EISCONN: number;
const EISDIR: number;
const ELOOP: number;
const EMFILE: number;
const EMLINK: number;
const EMSGSIZE: number;
const EMULTIHOP: number;
const ENAMETOOLONG: number;
const ENETDOWN: number;
const ENETRESET: number;
const ENETUNREACH: number;
const ENFILE: number;
const ENOBUFS: number;
const ENODATA: number;
const ENODEV: number;
const ENOENT: number;
const ENOEXEC: number;
const ENOLCK: number;
const ENOLINK: number;
const ENOMEM: number;
const ENOMSG: number;
const ENOPROTOOPT: number;
const ENOSPC: number;
const ENOSR: number;
const ENOSTR: number;
const ENOSYS: number;
const ENOTCONN: number;
const ENOTDIR: number;
const ENOTEMPTY: number;
const ENOTSOCK: number;
const ENOTSUP: number;
const ENOTTY: number;
const ENXIO: number;
const EOPNOTSUPP: number;
const EOVERFLOW: number;
const EPERM: number;
const EPIPE: number;
const EPROTO: number;
const EPROTONOSUPPORT: number;
const EPROTOTYPE: number;
const ERANGE: number;
const EROFS: number;
const ESPIPE: number;
const ESRCH: number;
const ESTALE: number;
const ETIME: number;
const ETIMEDOUT: number;
const ETXTBSY: number;
const EWOULDBLOCK: number;
const EXDEV: number;
const WSAEINTR: number;
const WSAEBADF: number;
const WSAEACCES: number;
const WSAEFAULT: number;
const WSAEINVAL: number;
const WSAEMFILE: number;
const WSAEWOULDBLOCK: number;
const WSAEINPROGRESS: number;
const WSAEALREADY: number;
const WSAENOTSOCK: number;
const WSAEDESTADDRREQ: number;
const WSAEMSGSIZE: number;
const WSAEPROTOTYPE: number;
const WSAENOPROTOOPT: number;
const WSAEPROTONOSUPPORT: number;
const WSAESOCKTNOSUPPORT: number;
const WSAEOPNOTSUPP: number;
const WSAEPFNOSUPPORT: number;
const WSAEAFNOSUPPORT: number;
const WSAEADDRINUSE: number;
const WSAEADDRNOTAVAIL: number;
const WSAENETDOWN: number;
const WSAENETUNREACH: number;
const WSAENETRESET: number;
const WSAECONNABORTED: number;
const WSAECONNRESET: number;
const WSAENOBUFS: number;
const WSAEISCONN: number;
const WSAENOTCONN: number;
const WSAESHUTDOWN: number;
const WSAETOOMANYREFS: number;
const WSAETIMEDOUT: number;
const WSAECONNREFUSED: number;
const WSAELOOP: number;
const WSAENAMETOOLONG: number;
const WSAEHOSTDOWN: number;
const WSAEHOSTUNREACH: number;
const WSAENOTEMPTY: number;
const WSAEPROCLIM: number;
const WSAEUSERS: number;
const WSAEDQUOT: number;
const WSAESTALE: number;
const WSAEREMOTE: number;
const WSASYSNOTREADY: number;
const WSAVERNOTSUPPORTED: number;
const WSANOTINITIALISED: number;
const WSAEDISCON: number;
const WSAENOMORE: number;
const WSAECANCELLED: number;
const WSAEINVALIDPROCTABLE: number;
const WSAEINVALIDPROVIDER: number;
const WSAEPROVIDERFAILEDINIT: number;
const WSASYSCALLFAILURE: number;
const WSASERVICE_NOT_FOUND: number;
const WSATYPE_NOT_FOUND: number;
const WSA_E_NO_MORE: number;
const WSA_E_CANCELLED: number;
const WSAEREFUSED: number;
}
namespace dlopen {
const RTLD_LAZY: number;
const RTLD_NOW: number;
const RTLD_GLOBAL: number;
const RTLD_LOCAL: number;
const RTLD_DEEPBIND: number;
}
namespace priority {
const PRIORITY_LOW: number;
const PRIORITY_BELOW_NORMAL: number;
const PRIORITY_NORMAL: number;
const PRIORITY_ABOVE_NORMAL: number;
const PRIORITY_HIGH: number;
const PRIORITY_HIGHEST: number;
}
}
const devNull: string;
/**
* The operating system-specific end-of-line marker.
* * `\n` on POSIX
* * `\r\n` on Windows
*/
const EOL: string;
/**
* Returns the operating system CPU architecture for which the Node.js binary was
* compiled. Possible values are `'arm'`, `'arm64'`, `'ia32'`, `'loong64'`, `'mips'`, `'mipsel'`, `'ppc'`, `'ppc64'`, `'riscv64'`, `'s390'`, `'s390x'`,
* and `'x64'`.
*
* The return value is equivalent to [process.arch](https://nodejs.org/docs/latest-v22.x/api/process.html#processarch).
* @since v0.5.0
*/
function arch(): string;
/**
* Returns a string identifying the kernel version.
*
* On POSIX systems, the operating system release is determined by calling [`uname(3)`](https://linux.die.net/man/3/uname). On Windows, `RtlGetVersion()` is used, and if it is not
* available, `GetVersionExW()` will be used. See [https://en.wikipedia.org/wiki/Uname#Examples](https://en.wikipedia.org/wiki/Uname#Examples) for more information.
* @since v13.11.0, v12.17.0
*/
function version(): string;
/**
* Returns a string identifying the operating system platform for which
* the Node.js binary was compiled. The value is set at compile time.
* Possible values are `'aix'`, `'darwin'`, `'freebsd'`, `'linux'`, `'openbsd'`, `'sunos'`, and `'win32'`.
*
* The return value is equivalent to `process.platform`.
*
* The value `'android'` may also be returned if Node.js is built on the Android
* operating system. [Android support is experimental](https://github.com/nodejs/node/blob/HEAD/BUILDING.md#androidandroid-based-devices-eg-firefox-os).
* @since v0.5.0
*/
function platform(): NodeJS.Platform;
/**
* Returns the machine type as a string, such as `arm`, `arm64`, `aarch64`, `mips`, `mips64`, `ppc64`, `ppc64le`, `s390`, `s390x`, `i386`, `i686`, `x86_64`.
*
* On POSIX systems, the machine type is determined by calling [`uname(3)`](https://linux.die.net/man/3/uname). On Windows, `RtlGetVersion()` is used, and if it is not
* available, `GetVersionExW()` will be used. See [https://en.wikipedia.org/wiki/Uname#Examples](https://en.wikipedia.org/wiki/Uname#Examples) for more information.
* @since v18.9.0, v16.18.0
*/
function machine(): string;
/**
* Returns the operating system's default directory for temporary files as a
* string.
* @since v0.9.9
*/
function tmpdir(): string;
/**
* Returns a string identifying the endianness of the CPU for which the Node.js
* binary was compiled.
*
* Possible values are `'BE'` for big endian and `'LE'` for little endian.
* @since v0.9.4
*/
function endianness(): "BE" | "LE";
/**
* Returns the scheduling priority for the process specified by `pid`. If `pid` is
* not provided or is `0`, the priority of the current process is returned.
* @since v10.10.0
* @param [pid=0] The process ID to retrieve scheduling priority for.
*/
function getPriority(pid?: number): number;
/**
* Attempts to set the scheduling priority for the process specified by `pid`. If `pid` is not provided or is `0`, the process ID of the current process is used.
*
* The `priority` input must be an integer between `-20` (high priority) and `19` (low priority). Due to differences between Unix priority levels and Windows
* priority classes, `priority` is mapped to one of six priority constants in `os.constants.priority`. When retrieving a process priority level, this range
* mapping may cause the return value to be slightly different on Windows. To avoid
* confusion, set `priority` to one of the priority constants.
*
* On Windows, setting priority to `PRIORITY_HIGHEST` requires elevated user
* privileges. Otherwise the set priority will be silently reduced to `PRIORITY_HIGH`.
* @since v10.10.0
* @param [pid=0] The process ID to set scheduling priority for.
* @param priority The scheduling priority to assign to the process.
*/
function setPriority(priority: number): void;
function setPriority(pid: number, priority: number): void;
}
declare module "node:os" {
export * from "os";
}

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