README
Variant type implementation for TypeScript.
This package provides two classes "Variant" for a general variants of type: [string, any]
and Result
for a Result type
Installation
node
npm install variat
deno
import { Variant, Result } from "https://deno.land/x/variat/mod.ts";
Usage
Variant
import { Variant } from "variat";
type V1 =
| ["foo", number]
| ["bar", string];
const v1: V1 = ["foo", 3];
const result = Variant.match<V1, string>(v1, {
foo(n: number) {
return "ok" + n;
},
bar(s: string) {
return "ok" + s;
},
});
const n = Variant.unwrap(v1, "foo");
if (Variant.is(v1, "foo")) {
const n = Variant.unwrap(v1, "foo"); // "n" is number
console.log("is foo");
}
Result
import { Result } from "variat";
const result = Result.ok(3);
const result2 = Result.match(result, {
ok(n: number) {
return "ok" + n;
},
err(e: Error) {
return "err" + e.message;
},
});
const x = Result.ok(2);
const y = Result.map(x, (n) => n * 2);
const z = Result.chain(y)
.map((n) => n * 2)
.map((n) => n.toString())
.mapErr((e) => "otherError")
.match({
ok(n) {
return "ok" + n;
},
err(e) {
return "err" + e;
},
});
API
Variant
match<V extends VariantBase, R>(val: V, cases: VariantMatch<V, R>): R;
Match a variant value with a set of cases. Each case must return the same type.
unwrap<V extends VariantBase>( val: V, name: V[0],): typeof val extends [V[0], infer A] ? A : never;
Unwrap a variant value. If the variant value does not match the name, an error is thrown. The return type is inferred from the variant value.
@throws
is<V extends VariantBase>( val: unknown, key: V[1],): val is V extends [V[0], infer A] ? [V[0], A] : never;
Check if a value is a variant value. Adds a type guard so after checking the compiler will infer the type:
if (Variant.is(v1, "foo")) {
const n = Variant.unwrap(v1, "foo"); // "n" is number
console.log("is foo");
}
Result
err<Err>(reason: Err): Result<any, Err>;
Create an "err" Result.
ok<Ok>(value: Ok): Result<Ok, any>;
Create an "ok" Result.
chain<Ok, Err>(result: Result<Ok, Err>): Chain<Ok, Err>;
Creates a "Chain" object that can be used for chaining operations on Result
isOk<Ok, Err>(result: Result<Ok, Err>): result is ["ok", Ok];
Check if a value is a "ok" Result.
isErr<Ok, Err>(result: Result<Ok, Err>): result is ["err", Err];
Check if a value is a "err" Result.
map<Ok, Err, NewOk>(result: Result<Ok, Err>, f: (value: Ok) => NewOk): Result<NewOk, Err>;
Map a Result value to a new value.
mapErr<Ok, Err, NewErr>( result: Result<Ok, Err>, f: (reason: Err) => NewErr,): Result<Ok, NewErr>;
Map a Result error to a new error.
unwrap<Ok, Err>(result: Result<Ok, Err>): Ok;
Unwrap a "ok" Result value. If the Result is "err" then an Error is thrown.
match<Ok, Err, Return>(result: Result<Ok, Err>, cases: { ok: (value: Ok) => Return; err: (reason: Err) => Return; }): Return;
Match a Result value with a set of cases. Each case must return the same type.
Chain
Chain
is a class for chaining operations on Result.
It's methods are as follows:
constructor(private result: Result<Ok, Err>);
public isOk(): boolean;
public isErr(): boolean {
map<NewOk>(f: (value: Ok) => NewOk): Chain<NewOk, Err>;
mapErr<NewErr>(f: (reason: Err) => NewErr): Chain<Ok, NewErr>;
unwrap(): Ok;
match<Return>(cases: { ok: (value: Ok) => Return; err: (reason: Err) => Return; }): Return;
ts