declare const __brand: unique symbol;
interface Brand<B> {
    [__brand]: B;
}
/**
 * Helper to create "Branded" types.
 *
 * Example:
 * export type MyId = Branded<string, 'MyId'>
 *
 * MyId can be assigned to a string,
 * but string cannot be assigned to MyId without casting it (`as MyId`).
 */
export type Branded<T, B> = T & Brand<B>;
/**
 * Map from String to String (or <T>).
 *
 * Alternative: Record<string, T | undefined>
 */
export interface StringMap<T = string> {
    [k: string | number]: T | undefined;
}
/**
 * Convenience shorthand for `Record<string, any>`.
 * Because `object` type is not safe/recommended to be used (e.g discouraged by eslint-typescript due to: https://github.com/microsoft/TypeScript/issues/21732)
 */
export type AnyObject = Record<string, any>;
export type AnyEnum = NumberEnum;
export type NumberEnum = Record<string, number | string>;
export type StringEnum = Record<string, string>;
export type CreatedUpdated = {
    created: UnixTimestamp;
    updated: UnixTimestamp;
};
export interface CreatedUpdatedId extends CreatedUpdated {
    id: string;
}
export type ObjectWithId = {
    id: string;
};
export type PartialObjectWithId = {
    id?: string;
};
export interface AnyPartialObjectWithId extends AnyObject, PartialObjectWithId {
}
export interface AnyObjectWithId extends AnyObject, ObjectWithId {
}
/**
 * Base interface for any Entity that was saved to DB.
 */
export type BaseDBEntity = {
    id: string;
    /**
     * unixTimestamp of when the entity was first created (in the DB).
     */
    created: UnixTimestamp;
    /**
     * unixTimestamp of when the entity was last updated (in the DB).
     */
    updated: UnixTimestamp;
};
export type Saved<T> = T & {
    id: string;
    created: UnixTimestamp;
    updated: UnixTimestamp;
};
export type SavedId<T> = T & {
    id: string;
};
export type Unsaved<T> = Omit<T, 'id' | 'created' | 'updated'> & {
    id?: string;
    created?: UnixTimestamp;
    updated?: UnixTimestamp;
};
export type UnsavedId<T> = Omit<T, 'id'> & {
    id?: string;
};
/**
 * Convenience type shorthand.
 * Because `Function` type is discouraged by eslint.
 */
export type AnyFunction<T = any> = (...args: any[]) => T;
export type AnyAsyncFunction<T = any> = (...args: any[]) => Promise<T>;
export type AsyncFunction<T = any> = () => Promise<T>;
export type AnyPromisableFunction<T = any> = (...args: any[]) => Promisable<T>;
export type PromisableFunction<T = any> = () => Promisable<T>;
export type AnySyncFunction<T = any> = (...args: any[]) => NotPromise<T>;
export type SyncFunction<T = any> = () => NotPromise<T>;
/**
 * Compile-time guard against accidentally returning a Promise from a sync context.
 * Example usage: `fn: () => NotPromise<T>`
 * This would fail if fn returns a Promise (e.g an async function).
 */
export type NotPromise<T> = [T] extends [PromiseLike<any>] ? never : T;
/**
 * A function that lazily calculates something.
 */
export type Lazy<T> = () => T;
/**
 * A function that lazily calculates something async (returns a Promise).
 */
export type LazyPromise<T> = () => Promise<T>;
/**
 * A function that lazily calculates something async, that can return null.
 */
export type LazyNullablePromise<T> = () => Promise<T | null>;
/**
 * Evaluates to the parameters if T is a function, otherwise never
 */
export type MaybeParameters<FN> = FN extends AnyFunction ? Parameters<FN> : never;
/**
 * Symbol to indicate END of Sequence.
 */
export declare const END: unique symbol;
/**
 * Symbol to indicate SKIP of item (e.g in AbortableMapper)
 */
export declare const SKIP: unique symbol;
/**
 * Symbol to indicate cache miss.
 * To distinguish from cache returning `undefined` or `null`.
 */
export declare const MISS: unique symbol;
/**
 * Function which is called for every item in `input`. Expected to return a `Promise`.
 */
export type AsyncMapper<IN = any, OUT = any> = (input: IN) => PromiseLike<OUT>;
export type AsyncIndexedMapper<IN = any, OUT = any> = (input: IN, index: number) => PromiseLike<OUT>;
export type Mapper<IN = any, OUT = any> = (input: IN) => OUT;
export type IndexedMapper<IN = any, OUT = any> = (input: IN, index: number) => OUT;
export declare const _passthroughMapper: IndexedMapper;
export declare const _passUndefinedMapper: IndexedMapper<any, void>;
/**
 * Function that does nothings and returns `undefined`.
 */
export declare const _noop: (..._args: any[]) => undefined;
export type Predicate<T> = (item: T, index: number) => boolean;
export type AsyncPredicate<T> = (item: T, index: number) => PromiseLike<boolean>;
export type AbortablePredicate<T> = (item: T, i: number) => boolean | typeof END;
export type AbortableAsyncPredicate<T> = (item: T, i: number) => PromiseLike<boolean | typeof END>;
export type AbortableMapper<IN = any, OUT = any> = (input: IN, i: number) => OUT | typeof SKIP | typeof END;
export type AbortableAsyncMapper<IN = any, OUT = any> = (input: IN, i: number) => PromiseLike<OUT | typeof SKIP | typeof END>;
export declare const _passthroughPredicate: Predicate<any>;
export declare const _passNothingPredicate: Predicate<any>;
export interface BatchResult<RES = any, ERR = Error> {
    /**
     * Array of successful executions.
     */
    results: RES[];
    /**
     * Returns empty array in case of 0 errors.
     */
    errors: ERR[];
}
/**
 * Like `keyof`, but for arrays.
 *
 * Based on: https://github.com/Microsoft/TypeScript/issues/20965#issuecomment-354858633
 *
 * @example
 *
 * const arr = ['a', 'b'] as const
 * type Foo = ValuesOf<typeof arr> // 'a' | 'b'
 */
export type ValuesOf<T extends readonly any[]> = T[number];
/**
 * Based on: https://stackoverflow.com/a/49286056/4919972
 *
 * @example
 *
 * type Foo = { a: string, b: number }
 * type ValueOfFoo = ValueOf<Foo> // string | number
 */
export type ValueOf<T> = T[keyof T];
export type KeyValueTuple<K, V> = [key: K, value: V];
export type ObjectMapper<OBJ, OUT> = (key: keyof OBJ, value: Exclude<OBJ[keyof OBJ], undefined>, obj: OBJ) => OUT;
export type ObjectPredicate<OBJ> = (key: keyof OBJ, value: Exclude<OBJ[keyof OBJ], undefined>, obj: OBJ) => boolean;
/**
 * Allows to identify instance of Class by `instanceId`.
 */
export interface InstanceId {
    /**
     * Unique id of this instance of the Class.
     */
    instanceId: string;
}
/**
 * ISO 8601 date (without time).
 * Branded type.
 *
 * @example '2019-06-21'
 */
export type IsoDate = Branded<string, 'IsoDate'>;
/**
 * ISO 8601 date (date+time).
 * Branded type.
 *
 * @example '2019-06-21T05:21:73Z'
 */
export type IsoDateTime = Branded<string, 'IsoDateTime'>;
/**
 * ISO 8601 month (YYYY-MM).
 * Branded type.
 *
 * @example '2019-06'
 */
export type IsoMonth = Branded<string, 'IsoMonth'>;
/**
 * Identifies IANA timezone name.
 * Branded type.
 *
 * @example 'America/New_York'
 */
export type IANATimezone = Branded<string, 'IANATimezone'>;
/**
 * Branded UnixTimestamp in seconds.
 * Extends (compatible with) `number`.
 *
 * @example 1628945450
 */
export type UnixTimestamp = Branded<number, 'UnixTimestamp'>;
/**
 * Branded UnixTimestamp in milliseconds (not seconds).
 * Extends (compatible with) `number`.
 *
 * @example 1628945450000
 */
export type UnixTimestampMillis = Branded<number, 'UnixTimestampMillis'>;
export type NumberOfHours = number;
export type NumberOfMinutes = number;
export type NumberOfSeconds = number;
export type NumberOfMilliseconds = number;
/**
 * Integer between 0 and 100 (inclusive).
 */
export type NumberOfPercent = number;
/**
 * Same as `number`, but with semantic meaning that it's an Integer.
 */
export type Integer = number;
export type PositiveInteger = number;
export type NonNegativeInteger = number;
export type PositiveNumber = number;
export type NonNegativeNumber = number;
/**
 * Same as `number`, but with semantic meaning that it's a Float.
 */
export type Float = number;
export type PositiveFloat = number;
export type NonNegativeFloat = number;
/**
 * Convenience type alias, that allows to write this:
 *
 * data: NullableNumber[]
 *
 * instead of this:
 *
 * data: (number | null)[]
 */
export type NullableNumber = number | null;
export type NullablePositiveNumber = number | null;
export type NullableNonNegativeNumber = number | null;
export type NullableInteger = number | null;
export type NullablePositiveInteger = number | null;
export type NullableNotNegativeInteger = number | null;
export type NullableString = string | null;
export type NullableBoolean = boolean | null;
export type NullableBuffer = Buffer | null;
/**
 * Used as a compact representation of truthy value.
 * undefined ('' or other short falsy value) should be used as falsy value.
 */
export type ShortBoolean = '1';
export type Base64String = string;
export type Base64UrlString = string;
export type JWTString = string;
export declare const JWT_REGEX: RegExp;
export type SemVerString = string;
/**
 * Named type for JSON.parse / JSON.stringify second argument
 */
export type Reviver = (this: any, key: string, value: any) => any;
/**
 * Function to be passed to the `sort` method.
 * Returns -1 | 0 | 1 canonically, but any positive/negative number is supported.
 */
export type Comparator<T> = (a: T, b: T) => number;
/**
 * Needed due to https://github.com/microsoft/TypeScript/issues/13778
 * Only affects typings, no runtime effect.
 */
export declare const _stringMapValues: <T>(map: StringMap<T>) => T[];
/**
 * Needed due to https://github.com/microsoft/TypeScript/issues/13778
 * Only affects typings, no runtime effect.
 */
export declare const _stringMapEntries: <T>(map: StringMap<T>) => [k: string, v: T][];
/**
 * Alias of `Object.keys`, but returns keys typed as `keyof T`, not as just `string`.
 * This is how TypeScript should work, actually.
 *
 * Object.keys always returns strings, so numeric keys are stringified via `${K}`.
 * Symbol keys are excluded (Object.keys does not return symbols).
 */
export declare const _objectKeys: <K extends PropertyKey>(obj: Partial<Record<K, any>>) => (K extends string ? K : K extends number | bigint ? `${K}` : never)[];
/**
 * Alias of `Object.entries`, but returns better-typed output.
 *
 * Difference with _stringMapEntries?
 * Use _stringMapEntries when the object is a StringMap<T> - it'll correctly infer T being not undefined.
 * If the object is not a StringMap - use _objectEntries - it'll correctly infer object keys, which can be typed as Enum.
 *
 * So e.g you can use _objectEntries(obj).map([k, v] => {})
 * and `k` will be `keyof obj` instead of generic `string`.
 */
export declare const _objectEntries: <K extends PropertyKey, V>(obj: Partial<Record<K, V>>) => [k: K extends string ? K : K extends number | bigint ? `${K}` : never, v: V][];
export type NullishValue = null | undefined;
export type FalsyValue = false | '' | 0 | null | undefined;
/**
 * Utility function that helps to cast *existing variable* to needed type T.
 *
 * @example
 * try {} catch (err) {
 *   // err is unknown here
 *   _typeCast<AppError>(err)
 *   // now err is of type AppError
 *   err.data = {} // can be done, because it was casted
 * }
 */
export declare function _typeCast<T>(_v: any): asserts _v is T;
/**
 * Type-safe Object.assign that checks that part is indeed a Partial<T>
 */
export declare const _objectAssign: <T extends AnyObject>(target: T, part: Partial<T>) => T;
/**
 * Defines a tuple of [err, data]
 * where only 1 of them exists.
 * Either error exists and data is null
 * Or error is null and data is defined.
 * This forces you to check `if (err)`, which lets
 * TypeScript infer the existence of `data`.
 *
 * Functions like pTry use that.
 */
export type ErrorDataTuple<T = unknown, ERR = Error> = [err: null, data: T] | [err: ERR, data: null];
export type SortDirection = 'asc' | 'desc';
export interface MutateOptions {
    /**
     * Defaults to false.
     */
    mutate?: boolean;
}
export interface SortOptions extends MutateOptions {
    /**
     * Defaults to 'asc'.
     */
    dir?: SortDirection;
}
export type Inclusiveness = '[]' | '[)';
/**
 * @experimental
 */
export interface CommonClient extends AsyncDisposable {
    connected: boolean;
    connect: () => Promise<void>;
    disconnect: () => Promise<void>;
    ping: () => Promise<void>;
}
export type Primitive = null | undefined | string | number | boolean | symbol | bigint;
export type Promisable<T> = T | PromiseLike<T>;
/**
 Matches a [`class` constructor](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Classes).
 */
export type Class<T = any> = new (...args: any[]) => T;
/**
 Convert `object`s, `Map`s, `Set`s, and `Array`s and all of their keys/elements into immutable structures recursively.

 This is useful when a deeply nested structure needs to be exposed as completely immutable, for example, an imported JSON module or when receiving an API response that is passed around.

 Please upvote [this issue](https://github.com/microsoft/TypeScript/issues/13923) if you want to have this type as a built-in in TypeScript.

 @example
 ```
 // data.json
 {
 "foo": ["bar"]
 }

 // main.ts
 import {ReadonlyDeep} from 'type-fest';
 import dataJson = require('./data.json');

 const data: ReadonlyDeep<typeof dataJson> = dataJson;

 export default data;

 // test.ts
 import data from './main';

 data.foo.push('bar');
 //=> error TS2339: Property 'push' does not exist on type 'readonly string[]'
 ```
 */
export type ReadonlyDeep<T> = T extends Primitive | ((...args: any[]) => unknown) ? T : T extends ReadonlyMap<infer KeyType, infer ValueType> ? ReadonlyMapDeep<KeyType, ValueType> : T extends ReadonlySet<infer ItemType> ? ReadonlySetDeep<ItemType> : T extends object ? ReadonlyObjectDeep<T> : unknown;
/**
 Same as `ReadonlyDeep`, but accepts only `ReadonlyMap`s as inputs. Internal helper for `ReadonlyDeep`.
 */
interface ReadonlyMapDeep<KeyType, ValueType> extends ReadonlyMap<ReadonlyDeep<KeyType>, ReadonlyDeep<ValueType>> {
}
/**
 Same as `ReadonlyDeep`, but accepts only `ReadonlySet`s as inputs. Internal helper for `ReadonlyDeep`.
 */
interface ReadonlySetDeep<ItemType> extends ReadonlySet<ReadonlyDeep<ItemType>> {
}
/**
 Same as `ReadonlyDeep`, but accepts only `object`s as inputs. Internal helper for `ReadonlyDeep`.
 */
type ReadonlyObjectDeep<ObjectType extends object> = {
    readonly [KeyType in keyof ObjectType]: ReadonlyDeep<ObjectType[KeyType]>;
};
/**
 Makes one property of T required instead of optional.
 @example
 ```
 import { RequiredProp } from '@naturalcycles/js-lib/types'
 interface Example {
   a?: string
   b?: string
 };
 type ExampleA = RequiredProp<Example, 'a'>;
 //=> {a: string; b?: string};
 ```
 */
export type RequiredProp<T, K extends keyof T> = Required<Pick<T, K>> & T;
export type * from './typeFest.js';