typia

import { CamelCase } from "./CamelCase"; import { IValidation } from "./IValidation"; import { PascalCase } from "./PascalCase"; import { SnakeCase } from "./SnakeCase"; import { TypeGuardError } from "./TypeGuardError"; /** * Convert to camel case. * * Convert every property names of nested objects to follow the camel case * convention. * * For reference, this `typia.notations.camel()` function does not validate the * input value type. It just believes that the input value is following the type * `T`. Therefore, if you can't ensure the input value type, it would be better * to call one of them below: * * - {@link assertCamel} * - {@link isCamel} * - {@link validateCamel} * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Camel case object */ export declare function camel<T>(input: T): CamelCase<T>; /** * Converts to camel case with type assertion. * * Convert every property names of nested objects to follow the camel case * convention. If the input value does not follow the type `T`, it throws * {@link TypeGuardError}. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns Camel case object */ export declare function assertCamel<T>(input: T, errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): CamelCase<T>; /** * Converts to camel case with type assertion. * * Convert every property names of nested objects to follow the camel case * convention. If the input value does not follow the type `T`, it throws * {@link TypeGuardError}. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns Camel case object */ export declare function assertCamel<T>(input: unknown, errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): CamelCase<T>; /** * Converts to camel case with type checking. * * Convert every property names of nested objects to follow the camel case * convention. If the input value does not follow the type `T`, it returns * `null` value instead. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Camel case object when exact type, otherwise null */ export declare function isCamel<T>(input: T): CamelCase<T> | null; /** * Converts to camel case with type checking. * * Convert every property names of nested objects to follow the camel case * convention. If the input value does not follow the type `T`, it returns * `null` value instead. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Camel case object when exact type, otherwise null */ export declare function isCamel<T>(input: unknown): CamelCase<T> | null; /** * Converts to camel case with type validation. * * Convert every property names of nested objects to follow the camel case * convention. If the input value does not follow the type `T`, it returns * {@link IValidation.Failure} object. Otherwise, there's no problem on the input * value, camel cased converted data would be stored in the `data` property of * the output {@link IValidation.Success} object. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Validation result with camel case object */ export declare function validateCamel<T>(input: T): IValidation<CamelCase<T>>; /** * Converts to camel case with type validation. * * Convert every property names of nested objects to follow the camel case * convention. If the input value does not follow the type `T`, it returns * {@link IValidation.Failure} object. Otherwise, there's no problem on the input * value, camel cased converted data would be stored in the `data` property of * the output {@link IValidation.Success} object. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Validation result with camel case object */ export declare function validateCamel<T>(input: unknown): IValidation<CamelCase<T>>; /** * Convert to pascal case. * * Convert every property names of nested objects to follow the pascal case * convention. * * For reference, this `typia.notations.pascal()` function does not validate the * input value type. It just believes that the input value is following the type * `T`. Therefore, if you can't ensure the input value type, it would be better * to call one of them below: * * - {@link assertPascal} * - {@link isPascal} * - {@link validatePascal} * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Pascal case object */ export declare function pascal<T>(input: T): PascalCase<T>; /** * Converts to pascal case with type assertion. * * Convert every property names of nested objects to follow the pascal case * convention. If the input value does not follow the type `T`, it throws * {@link TypeGuardError}. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns Pascal case object */ export declare function assertPascal<T>(input: T, errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): PascalCase<T>; /** * Converts to pascal case with type assertion. * * Convert every property names of nested objects to follow the pascal case * convention. If the input value does not follow the type `T`, it throws * {@link TypeGuardError}. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns Pascal case object */ export declare function assertPascal<T>(input: unknown, errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): PascalCase<T>; /** * Converts to pascal case with type checking. * * Convert every property names of nested objects to follow the pascal case * convention. If the input value does not follow the type `T`, it returns * `null` value instead. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Pascal case object when exact type, otherwise null */ export declare function isPascal<T>(input: T): PascalCase<T> | null; /** * Converts to pascal case with type checking. * * Convert every property names of nested objects to follow the pascal case * convention. If the input value does not follow the type `T`, it returns * `null` value instead. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Pascal case object when exact type, otherwise null */ export declare function isPascal<T>(input: unknown): PascalCase<T> | null; /** * Converts to pascal case with type validation. * * Convert every property names of nested objects to follow the pascal case * convention. If the input value does not follow the type `T`, it returns * {@link IValidation.Failure} object. Otherwise, there's no problem on the input * value, pascal cased converted data would be stored in the `data` property of * the output {@link IValidation.Success} object. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Validation result with pascal case object */ export declare function validatePascal<T>(input: T): IValidation<PascalCase<T>>; /** * Converts to pascal case with type validation. * * Convert every property names of nested objects to follow the pascal case * convention. If the input value does not follow the type `T`, it returns * {@link IValidation.Failure} object. Otherwise, there's no problem on the input * value, pascal cased converted data would be stored in the `data` property of * the output {@link IValidation.Success} object. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Validation result with pascal case object */ export declare function validatePascal<T>(input: unknown): IValidation<PascalCase<T>>; /** * Convert to snake case. * * Convert every property names of nested objects to follow the snake case * convention. * * For reference, this `typia.notations.snake()` function does not validate the * input value type. It just believes that the input value is following the type * `T`. Therefore, if you can't ensure the input value type, it would be better * to call one of them below: * * - {@link assertSnake} * - {@link isSnake} * - {@link validateSnake} * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Snake case object */ export declare function snake<T>(input: T): SnakeCase<T>; /** * Converts to snake case with type assertion. * * Convert every property names of nested objects to follow the snake case * convention. If the input value does not follow the type `T`, it throws * {@link TypeGuardError}. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns Snake case object */ export declare function assertSnake<T>(input: T, errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): SnakeCase<T>; /** * Converts to snake case with type assertion. * * Convert every property names of nested objects to follow the snake case * convention. If the input value does not follow the type `T`, it throws * {@link TypeGuardError}. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns Snake case object */ export declare function assertSnake<T>(input: unknown, errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): SnakeCase<T>; /** * Converts to snake case with type checking. * * Convert every property names of nested objects to follow the snake case * convention. If the input value does not follow the type `T`, it returns * `null` value instead. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Snake case object when exact type, otherwise null */ export declare function isSnake<T>(input: T): SnakeCase<T> | null; /** * Converts to snake case with type checking. * * Convert every property names of nested objects to follow the snake case * convention. If the input value does not follow the type `T`, it returns * `null` value instead. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Snake case object when exact type, otherwise null */ export declare function isSnake<T>(input: unknown): SnakeCase<T> | null; /** * Converts to snake case with type validation. * * Convert every property names of nested objects to follow the snake case * convention. If the input value does not follow the type `T`, it returns * {@link IValidation.Failure} object. Otherwise, there's no problem on the input * value, snake cased converted data would be stored in the `data` property of * the output {@link IValidation.Success} object. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Validation result with snake case object */ export declare function validateSnake<T>(input: T): IValidation<SnakeCase<T>>; /** * Converts to snake case with type validation. * * Convert every property names of nested objects to follow the snake case * convention. If the input value does not follow the type `T`, it returns * {@link IValidation.Failure} object. Otherwise, there's no problem on the input * value, snake cased converted data would be stored in the `data` property of * the output {@link IValidation.Success} object. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param input Target object * @returns Validation result with snake case object */ export declare function validateSnake<T>(input: unknown): IValidation<SnakeCase<T>>; /** * Creates a reusable {@link camel} function. * * @author Jeongho Nam - https://github.com/samchon * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createCamel(): never; /** * Creates a reusable {@link camel} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @returns A reusable `camel` function */ export declare function createCamel<T>(): (input: T) => CamelCase<T>; /** * Creates a reusable {@link assertCamel} function. * * @author Jeongho Nam - https://github.com/samchon * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createAssertCamel(errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): never; /** * Creates a reusable {@link assertCamel} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns A reusable `assertCamel` function */ export declare function createAssertCamel<T>(errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): (input: T) => CamelCase<T>; /** * Creates a reusable {@link isCamel} function. * * @author Jeongho Nam - https://github.com/samchon * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createIsCamel(): never; /** * Creates a reusable {@link isCamel} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @returns A reusable `isCamel` function */ export declare function createIsCamel<T>(): (input: T) => CamelCase<T> | null; /** * Creates a reusable {@link validateCamel} function. * * @author Jeongho Nam - https://github.com/samchon * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createValidateCamel(): never; /** * Creates a reusable {@link validateCamel} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @returns A reusable `validateCamel` function */ export declare function createValidateCamel<T>(): (input: T) => IValidation<CamelCase<T>>; /** * Creates a reusable {@link pascal} function. * * @author Jeongho Nam - https://github.com/samchon * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createPascal(): never; /** * Creates a reusable {@link pascal} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @returns A reusable `pascal` function */ export declare function createPascal<T>(): (input: T) => PascalCase<T>; /** * Creates a reusable {@link assertPascal} function. * * @author Jeongho Nam - https://github.com/samchon * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createAssertPascal(errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): never; /** * Creates a reusable {@link assertPascal} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns A reusable `assertPascal` function */ export declare function createAssertPascal<T>(errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): (input: T) => PascalCase<T>; /** * Creates a reusable {@link isPascal} function. * * @author Jeongho Nam - https://github.com/samchon * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createIsPascal(): never; /** * Creates a reusable {@link isPascal} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @returns A reusable `isPascal` function */ export declare function createIsPascal<T>(): (input: T) => PascalCase<T> | null; /** * Creates a reusable {@link validatePascal} function. * * @author Jeongho Nam - https://github.com/samchon * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createValidatePascal(): never; /** * Creates a reusable {@link validatePascal} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @returns A reusable `validatePascal` function */ export declare function createValidatePascal<T>(): (input: T) => IValidation<PascalCase<T>>; /** * Creates a reusable {@link snake} function. * * @author Jeongho Nam - https://github.com/samchon * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createSnake(): never; /** * Creates a reusable {@link snake} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @returns A reusable `snake` function */ export declare function createSnake<T>(): (input: T) => SnakeCase<T>; /** * Creates a reusable {@link assertSnake} function. * * @author Jeongho Nam - https://github.com/samchon * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createAssertSnake(errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): never; /** * Creates a reusable {@link assertSnake} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @param errorFactory Custom error factory. Default is `TypeGuardError` * @returns A reusable `assertSnake` function */ export declare function createAssertSnake<T>(errorFactory?: undefined | ((props: TypeGuardError.IProps) => Error)): (input: T) => SnakeCase<T>; /** * Creates a reusable {@link isSnake} function. * * @author Jeongho Nam - https://github.com/samchon * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createIsSnake(): never; /** * Creates a reusable {@link isSnake} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @returns A reusable `isSnake` function */ export declare function createIsSnake<T>(): (input: T) => SnakeCase<T> | null; /** * Creates a reusable {@link validateSnake} function. * * @author Jeongho Nam - https://github.com/samchon * @returns Nothing until be configure the generic argument `T` * @throws Compile error * @danger You must configure the generic argument `T` */ export declare function createValidateSnake(): never; /** * Creates a reusable {@link validateSnake} function. * * @author Jeongho Nam - https://github.com/samchon * @template T Type of the input value * @returns A reusable `validateSnake` function */ export declare function createValidateSnake<T>(): (input: T) => IValidation<SnakeCase<T>>;