import { Random } from '../../../random/generator/Random'; import { Shrinkable } from './Shrinkable'; /** * Abstract class able to generate values on type `T` * * The values generated by an instance of Arbitrary can be previewed - with {@link sample} * - or classified - with {@link statistics}. */ export declare abstract class Arbitrary { /** * Generate a value of type `T` along with its shrink method * based on the provided random number generator * * @param mrng - Random number generator * @returns Random value of type `T` and its shrinker */ abstract generate(mrng: Random): Shrinkable; /** * Create another arbitrary by filtering values against `predicate` * * All the values produced by the resulting arbitrary * satisfy `predicate(value) == true` * * @example * ```typescript * const integerGenerator: Arbitrary = ...; * const evenIntegerGenerator: Arbitrary = integerGenerator.filter(e => e % 2 === 0); * // new Arbitrary only keeps even values * ``` * * @param refinement - Predicate, to test each produced element. Return true to keep the element, false otherwise * @returns New arbitrary filtered using predicate */ filter(refinement: (t: T) => t is U): Arbitrary; /** * Create another arbitrary by filtering values against `predicate` * * All the values produced by the resulting arbitrary * satisfy `predicate(value) == true` * * @example * ```typescript * const integerGenerator: Arbitrary = ...; * const evenIntegerGenerator: Arbitrary = integerGenerator.filter(e => e % 2 === 0); * // new Arbitrary only keeps even values * ``` * * @param predicate - Predicate, to test each produced element. Return true to keep the element, false otherwise * @returns New arbitrary filtered using predicate */ filter(predicate: (t: T) => boolean): Arbitrary; /** * Create another arbitrary by mapping all produced values using the provided `mapper` * Values produced by the new arbitrary are the result of applying `mapper` value by value * * @example * ```typescript * const rgbChannels: Arbitrary<{r:number,g:number,b:number}> = ...; * const color: Arbitrary = rgbChannels.map(ch => `#${(ch.r*65536 + ch.g*256 + ch.b).toString(16).padStart(6, '0')}`); * // transform an Arbitrary producing {r,g,b} integers into an Arbitrary of '#rrggbb' * ``` * * @param mapper - Map function, to produce a new element based on an old one * @returns New arbitrary with mapped elements */ map(mapper: (t: T) => U): Arbitrary; /** * Create another arbitrary by mapping a value from a base Arbirary using the provided `fmapper` * Values produced by the new arbitrary are the result of the arbitrary generated by applying `fmapper` to a value * @example * ```typescript * const arrayAndLimitArbitrary = fc.nat().chain((c: number) => fc.tuple( fc.array(fc.nat(c)), fc.constant(c))); * ``` * * @param fmapper - Chain function, to produce a new Arbitrary using a value from another Arbitrary * @returns New arbitrary of new type */ chain(fmapper: (t: T) => Arbitrary): Arbitrary; /** * Create another Arbitrary with no shrink values * * @example * ```typescript * const dataGenerator: Arbitrary = ...; * const unshrinkableDataGenerator: Arbitrary = dataGenerator.noShrink(); * // same values no shrink * ``` * * @returns Create another arbitrary with no shrink values */ noShrink(): Arbitrary; /** * Create another Arbitrary having bias - by default return itself * * @param freq - The biased version will be used one time over freq - if it exists - freq must be superior or equal to 2 to avoid any lock */ withBias(_freq: number): Arbitrary; /** * Create another Arbitrary that cannot be biased * * @param freq - The biased version will be used one time over freq - if it exists */ noBias(): Arbitrary; }