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comparable.ts
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/**
* Comparable is a structure that has an idea of comparability. Comparability
* means that two of the same type of object can be compared such that the
* condition of comparison can be true or false. The canonical comparison is
* equality.
*
* @module Comparable
* @since 2.0.0
*/
import type { Hold, In, Kind, Out, Spread } from "./kind.ts";
import type { NonEmptyArray } from "./array.ts";
import type { ReadonlyRecord } from "./record.ts";
import type { Literal, Schemable } from "./schemable.ts";
import { handleThrow, identity, memoize, uncurry2 } from "./fn.ts";
import { isSubrecord } from "./record.ts";
/**
* The compare function in a Comparable.
*
* @since 2.0.0
*/
export type Compare<A> = (second: A) => (first: A) => boolean;
/**
* @since 2.0.0
*/
export type TypeOf<U> = U extends Comparable<infer A> ? A : never;
/**
* A Comparable<T> is an algebra with a notion of equality. Specifically,
* a Comparable for a type T has an equal method that determines if the
* two objects are the same. Comparables can be combined, like many
* algebraic structures. The combinators for Comparable in fun can be found
* in [comparable.ts](./comparable.ts).
*
* An instance of a Comparable must obey the following laws:
*
* 1. Reflexivity: compare(a, a) === true
* 2. Symmetry: compare(a, b) === compare(b, a)
* 3. Transitivity: if compare(a, b) and compare(b, c), then compare(a, c)
*
* @since 2.0.0
*/
export interface Comparable<A> extends Hold<A> {
readonly compare: Compare<A>;
}
/**
* Specifies Comparable as a Higher Kinded Type, with
* covariant parameter A corresponding to the 0th
* index of any Substitutions.
*
* @since 2.0.0
*/
export interface KindComparable extends Kind {
readonly kind: Comparable<Out<this, 0>>;
}
/**
* Specifies Comparable as a Higher Kinded Type, with
* contravariant parameter D corresponding to the 0th
* index of any Substitutions.
*
* @since 2.0.0
*/
export interface KindContraComparable extends Kind {
readonly kind: Comparable<In<this, 0>>;
}
/**
* Create a Comparable from a Compare function.
*
* @example
* ```ts
* import { fromCompare } from "./comparable.ts";
* import { pipe } from "./fn.ts";
*
* const { compare } = fromCompare<number>(
* (second) => (first) => first === second
* );
*
* const result = compare(1)(1); // true
* ```
*
* @since 2.0.0
*/
export function fromCompare<A>(
compare: Compare<A> = (second) => (first) => first === second,
): Comparable<A> {
return { compare };
}
/**
* A single instance of Camparable that uses strict equality for comparison.
*/
// deno-lint-ignore no-explicit-any
const STRICT_EQUALITY: Comparable<any> = fromCompare();
/**
* Create a Comparable that casts the inner type of another Comparable to
* Readonly.
*
* @example
* ```ts
* import { readonly, fromCompare } from "./comparable.ts";
*
* // This has type Comparable<Array<string>>
* const ComparableMutableArray = fromCompare<Array<string>>(
* (second) => (first) => first.length === second.length
* && first.every((value, index) => value === second[index])
* );
*
* // This has type Comparable<Readonly<Array<string>>>
* const ComparableReadonlyArray = readonly(ComparableMutableArray);
* ```
*
* @since 2.0.0
*/
export function readonly<A>(
comparable: Comparable<A>,
): Comparable<Readonly<A>> {
return comparable;
}
/**
* A Comparable that can compare any unknown values (and thus can
* compare any values). Underneath it uses strict equality
* for the comparison.
*
* @example
* ```ts
* import { unknown } from "./comparable.ts";
*
* const result1 = unknown.compare(1)("Hello"); // false
* const result2 = unknown.compare(1)(1); // true
* ```
*
* @since 2.0.0
*/
export const unknown: Comparable<unknown> = STRICT_EQUALITY;
/**
* A Comparable that compares strings using strict equality.
*
* @example
* ```ts
* import { string } from "./comparable.ts";
*
* const result1 = string.compare("World")("Hello"); // false
* const result2 = string.compare("")(""); // true
* ```
*
* @since 2.0.0
*/
export const string: Comparable<string> = STRICT_EQUALITY;
/**
* A Comparable that compares number using strict equality.
*
* @example
* ```ts
* import { number } from "./comparable.ts";
*
* const result1 = number.compare(1)(2); // false
* const result2 = number.compare(1)(1); // true
* ```
*
* @since 2.0.0
*/
export const number: Comparable<number> = STRICT_EQUALITY;
/**
* A Comparable that compares booleans using strict equality.
*
* @example
* ```ts
* import { boolean } from "./comparable.ts";
*
* const result1 = boolean.compare(true)(false); // false
* const result2 = boolean.compare(true)(true); // true
* ```
*
* @since 2.0.0
*/
export const boolean: Comparable<boolean> = STRICT_EQUALITY;
/**
* Creates a Comparable that compares a union of literals
* using strict equality.
*
* @example
* ```ts
* import { literal } from "./comparable.ts";
*
* const { compare } = literal(1, 2, "Three");
*
* const result1 = compare(1)("Three"); // false
* const result2 = compare("Three")("Three"); // true
* ```
*
* @since 2.0.0
*/
export function literal<A extends NonEmptyArray<Literal>>(
..._: A
): Comparable<A[number]> {
return STRICT_EQUALITY;
}
/**
* Creates a derivative Comparable that can also compare null
* values in addition to the source eq.
*
* @example
* ```ts
* import { nullable, number } from "./comparable.ts";
*
* const { compare } = nullable(number);
*
* const result1 = compare(1)(null); // false
* const result2 = compare(null)(null); // true
* ```
*
* @since 2.0.0
*/
export function nullable<A>({ compare }: Comparable<A>): Comparable<A | null> {
return fromCompare((second) => (first) =>
first === null || second === null
? first === second
: compare(second)(first)
);
}
/**
* Creates a derivative Comparable that can also compare undefined
* values in addition to the source eq.
*
* @example
* ```ts
* import { undefinable, number } from "./comparable.ts";
*
* const { compare } = undefinable(number);
*
* const result1 = compare(1)(undefined); // false
* const result2 = compare(undefined)(undefined); // true
* ```
*
* @since 2.0.0
*/
export function undefinable<A>(
{ compare }: Comparable<A>,
): Comparable<A | undefined> {
return fromCompare((second) => (first) =>
first === undefined || second === undefined
? first === second
: compare(second)(first)
);
}
/**
* Creates a Comparable that compares readonly records with items
* that have the type compared in the supplied eq.
*
* @example
* ```ts
* import { record, number } from "./comparable.ts";
*
* const { compare } = record(number);
*
* const result1 = compare({ one: 1 })({ one: 2 }); // false
* const result2 = compare({ one: 1 })({ one: 1 }); // true
* ```
*
* @since 2.0.0
*/
export function record<A>(eq: Comparable<A>): Comparable<ReadonlyRecord<A>> {
const isSub = isSubrecord(eq);
return fromCompare((second) => (first) =>
isSub(second)(first) && isSub(first)(second)
);
}
/**
* Creates a Comparable that compares readonly array with items
* that have the type compared in the supplied eq.
*
* @example
* ```ts
* import { array, number } from "./comparable.ts";
*
* const { compare } = array(number);
*
* const result1 = compare([1, 2])([1, 2, 3]); // false
* const result2 = compare([1, 2])([1, 2]); // true
* ```
*
* @since 2.0.0
*/
export function array<A>(
{ compare }: Comparable<A>,
): Comparable<ReadonlyArray<A>> {
return fromCompare((second) => (first) =>
Array.isArray(first) && Array.isArray(second) &&
first.length === second.length &&
first.every((value, index) => compare(second[index])(value))
);
}
/**
* Creates a eq that compares, index for index, tuples according
* to the order and eqs passed into tuple.
*
* @example
* ```ts
* import { tuple, number, string } from "./comparable.ts";
*
* const { compare } = tuple(number, string);
*
* const result1 = compare([1, "Hello"])([1, "Goodbye"]); // false
* const result2 = compare([1, ""])([1, ""]); // true
* ```
*
* @since 2.0.0
*/
// deno-lint-ignore no-explicit-any
export function tuple<T extends ReadonlyArray<Comparable<any>>>(
...comparables: T
): Comparable<
{ [K in keyof T]: T[K] extends Comparable<infer A> ? A : never }
> {
return fromCompare((second) => (first) =>
Array.isArray(first) && Array.isArray(second) &&
first.length === second.length &&
comparables.every(({ compare }, index) =>
compare(second[index])(first[index])
)
);
}
/**
* Create a eq that compares, key for key, structs according
* to the structure of the eqs passed into struct.
*
* @example
* ```ts
* import { struct, number, string } from "./comparable.ts";
*
* const { compare } = struct({ name: string, age: number });
*
* const brandon = { name: "Brandon", age: 37 };
* const emily = { name: "Emily", age: 32 };
*
* const result1 = compare(brandon)(emily); // false
* const result2 = compare(brandon)(brandon); // true
* ```
*
* @since 2.0.0
*/
export function struct<A>(
comparables: { readonly [K in keyof A]: Comparable<A[K]> },
): Comparable<{ readonly [K in keyof A]: A[K] }> {
const _comparables = Object.entries(comparables) as [
keyof A,
Comparable<A[keyof A]>,
][];
return fromCompare((second) => (first) =>
_comparables.every(([key, { compare }]) => compare(second[key])(first[key]))
);
}
/**
* Create a eq that compares, key for key, structs according
* to the structure of the eqs passed into struct. It allows
* the values in the struct to be optional or null.
*
* @example
* ```ts
* import { struct, number, string } from "./comparable.ts";
*
* const { compare } = struct({ name: string, age: number });
*
* const brandon = { name: "Brandon", age: 37 };
* const emily = { name: "Emily", age: 32 };
*
* const result1 = compare(brandon)(emily); // false
* const result2 = compare(brandon)(brandon); // true
* ```
*
* @since 2.0.0
*/
export function partial<A>(
comparables: { readonly [K in keyof A]: Comparable<A[K]> },
): Comparable<{ readonly [K in keyof A]?: A[K] }> {
const _comparables = Object.entries(comparables) as [
keyof A,
Comparable<A[keyof A]>,
][];
return fromCompare((second) => (first) =>
_comparables.every(([key, { compare }]) => {
if (key in first && key in second) {
return compare(second[key] as A[keyof A])(first[key] as A[keyof A]);
}
return first[key] === second[key];
})
);
}
/**
* Create a eq from two other eqs. The resultant eq checks
* that any two values are equal according to both supplied eqs.
*
* @example
* ```ts
* import { intersect, struct, partial, string } from "./comparable.ts";
* import { pipe } from "./fn.ts";
*
* const { compare } = pipe(
* struct({ firstName: string }),
* intersect(partial({ lastName: string }))
* );
*
* const batman = { firstName: "Batman" };
* const grace = { firstName: "Grace", lastName: "Hopper" };
*
* const result1 = compare(batman)(grace); // false
* const result2 = compare(grace)(grace); // true
* ```
*
* @since 2.0.0
*/
export function intersect<I>(
second: Comparable<I>,
): <A>(first: Comparable<A>) => Comparable<Spread<A & I>> {
return <A>(first: Comparable<A>): Comparable<Spread<A & I>> =>
fromCompare((snd: A & I) => (fst: A & I) =>
first.compare(snd)(fst) && second.compare(snd)(fst)
) as Comparable<Spread<A & I>>;
}
/**
* Create a Comparable from two other Comparables. The resultant Comparable checks
* that any two values are equal according to at least one of the supplied
* eqs.
*
* It should be noted that we cannot differentiate the eq used to
* compare two disparate types like number and number[]. Thus, internally
* union must type cast to any and treat thrown errors as a false
* equivalence.
*
* @example
* ```ts
* import { union, number, string } from "./comparable.ts";
* import { pipe } from "./fn.ts";
*
* const { compare } = pipe(number, union(string));
*
* const result1 = compare(1)("Hello"); // false
* const result2 = compare(1)(1); // true
* ```
*
* @since 2.0.0
*/
export function union<I>(
second: Comparable<I>,
): <A>(first: Comparable<A>) => Comparable<A | I> {
return <A>(first: Comparable<A>) => {
const _first = handleThrow(
uncurry2(first.compare),
identity,
() => false,
);
const _second = handleThrow(
uncurry2(second.compare),
identity,
() => false,
);
// deno-lint-ignore no-explicit-any
return fromCompare((snd: any) => (fst: any) =>
_first(fst, snd) || _second(fst, snd)
);
};
}
/**
* Create a eq that evaluates lazily. This is useful for equality
* of recursive types (either mutual or otherwise).
*
* @example
* ```ts
* import { lazy, intersect, struct, partial, string, Comparable } from "./comparable.ts";
* import { pipe } from "./fn.ts";
*
* type Person = { name: string, child?: Person };
*
* // Annotating the type is required for recursion
* const person: Comparable<Person> = lazy('Person', () => pipe(
* struct({ name: string }),
* intersect(partial({ child: person }))
* ));
*
* const icarus = { name: "Icarus" };
* const daedalus = { name: "Daedalus", child: icarus };
*
* const result1 = person.compare(icarus)(daedalus); // false
* const result2 = person.compare(daedalus)(daedalus); // true
* ```
*
* @since 2.0.0
*/
export function lazy<A>(_: string, f: () => Comparable<A>): Comparable<A> {
const memo = memoize<void, Comparable<A>>(f);
return fromCompare((second) => (first) => memo().compare(second)(first));
}
/**
* Create a eq that tests the output of a thunk (IO). This assumes that
* the output of the thunk is always the same, which for true IO is not
* the case. This assumes that the context for the function is undefined,
* which means that it doesn't rely on "this" to execute.
*
* @example
* ```ts
* import { struct, thunk, number } from "./comparable.ts";
*
* const { compare } = struct({ asNumber: thunk(number) });
*
* const one = { asNumber: () => 1 };
* const two = { asNumber: () => 2 };
*
* const result1 = compare(one)(two); // false
* const result2 = compare(one)(one); // true
* ```
*
* @since 2.0.0
*/
export function thunk<A>({ compare }: Comparable<A>): Comparable<() => A> {
return fromCompare((second) => (first) => compare(second())(first()));
}
/**
* Create a eq from a method on a class or prototypical object. This
* exists because many objects in javascript do now allow you to pass an
* object method around on its own without its parent object. For example,
* if you pass Date.valueOf (type () => number) into another function and
* call it, the call will fail because valueOf does not carry the reference
* of its parent object around.
*
* @example
* ```ts
* import { method, number } from "./comparable.ts";
*
* // This eq will work for date, but also for any objects that have
* // a valueOf method that returns a number.
* const date = method("valueOf", number);
*
* const now = new Date();
* const alsoNow = new Date(Date.now());
* const later = new Date(Date.now() + 60 * 60 * 1000);
*
* const result1 = date.compare(now)(alsoNow); // true
* const result2 = date.compare(now)(later); // false
* ```
*
* @since 2.0.0
*/
export function method<M extends string, A>(
method: M,
{ compare }: Comparable<A>,
): Comparable<{ readonly [K in M]: () => A }> {
return fromCompare((second) => (first) =>
compare(second[method]())(first[method]())
);
}
/**
* Create a Comparable<L> using a Comparable<D> and a function that takes
* a type L and returns a type D.
*
* @example
* ```ts
* import { premap, number } from "./comparable.ts";
* import { pipe } from "./fn.ts";
*
* const dateToNumber = (d: Date): number => d.valueOf();
* const date = pipe(number, premap(dateToNumber));
*
* const now = new Date();
* const alsoNow = new Date(Date.now());
* const later = new Date(Date.now() + 60 * 60 * 1000);
*
* const result1 = date.compare(now)(alsoNow); // true
* const result2 = date.compare(now)(later); // false
* ```
*
* Another use for premap with eq is to check for
* equality after normalizing data. In the following we
* can compare strings ignoring case by normalizing to
* lowercase strings.
*
* @example
* ```ts
* import { premap, string } from "./comparable.ts";
* import { pipe } from "./fn.ts";
*
* const lowercase = (s: string) => s.toLowerCase();
* const insensitive = pipe(
* string, // exact string compare
* premap(lowercase), // makes all strings lowercase
* );
*
* const result1 = insensitive.compare("Hello")("World"); // false
* const result2 = insensitive.compare("hello")("Hello"); // true
* ```
*
* @since 2.0.0
*/
export function premap<L, D>(
fld: (l: L) => D,
): (eq: Comparable<D>) => Comparable<L> {
return ({ compare }) =>
fromCompare((second) => (first) => compare(fld(second))(fld(first)));
}
/**
* The canonical implementation of Schemable for a Comparable. It contains
* the methods unknown, string, number, boolean, literal, nullable,
* undefinable, record, array, tuple, struct, partial, intersect,
* union, and lazy.
*
* @since 2.0.0
*/
export const SchemableComparable: Schemable<KindComparable> = {
unknown: () => unknown,
string: () => string,
number: () => number,
boolean: () => boolean,
literal,
nullable,
undefinable,
record,
array,
tuple,
struct,
partial,
intersect,
union,
lazy,
};