localvalue-ts
A small layer over the browser's localstorage, fallbacks to an in-memory store if localstorage is not supported by the browser.
Built on with fp-ts
in mind, localvalue-ts
gives you a standard way to access objects stored locally.
install
yarn
yarn add localvalue-ts
npm
npm install -S localvalue-ts
quick start
First create the hooks to read/write the values you just defined:
First create you codecs:
import * as t from "io-ts"
export const ThemeFlavourCodec = {
decode: ...
encode: ...
}
export const AuthTokenCodec = {
decode: ...
encode: ...
}
then you use them in your code:
import { ThemeFlavourCodec, AuthTokenCodec } from "./codecs.ts"
import { createLocalStorage } from "localvalue-ts/localStorage"
import * as LV from "localvalue-ts/LocalValue"
const localStorage = createLocalStorage(
{
themeFlavour: ThemeFlavourCodec,
authToken: AuthTokenCodec,
},
{ defaultValues: { themeFlavour: "light" } },
)
const App = () => {
const myLocalValue = localStorage.themeFlavour.getValue()
return pipe(
theme,
LV.fold2(
() => {
console.error("wrong value stored in localStorage!")
},
(themeFlavour) => {
switch (themeFlavour) {
case "light": {
return <LightThemeApp />
}
case "dark": {
return <DarkThemeApp />
}
}
},
),
)
}
export default App
LocalValue
A new data structure is defined for items stored in localstorage, LocalValue
. When dealing with a value stored in your localstorage there are three possibilities:
- there is no value in your localstorage (optionality).
- the value is present, but it is wrong (correctness).
- the value is present and it is valid (also correctness).
LocalValue introduces a sum type that represents the optionality/correctness dicotomy:
export interface Absent {
readonly _tag: "Absent"
}
export interface Invalid<E> {
readonly _tag: "Invalid"
readonly errors: E
}
export interface Valid<A> {
readonly _tag: "Valid"
readonly value: A
}
export type LocalValue<E, A> = Absent | Invalid<E> | Valid<A>
It also has instances for some of the most common type-classes
and you can use it in the same way you usually use your usual fp-ts
abstractions:
defining codecs
Given that browsers only allow you to store serialized data in string format, the only accepted codecs are of the form Codec<E, string, B>
, where E
is the shape of the decoding error, B
is the shape of the runtime error and string
is the type resulting after encoding.
If you use io-ts
you can simply create a layer to convert io-ts
codecs to Codec
compliant instances:
import { pipe } from "fp-ts/lib/function"
import * as t from "io-ts"
import * as E from "fp-ts/Either"
import { Json, JsonFromString } from "io-ts-types"
import * as LV from "localvalue-ts/LocalValue"
import { Codec } from "localvalue-ts/Codec"
const adaptIoTsCodec = <A, B>(C: t.Type<B, A>): Codec<t.Errors, A, B> => {
return {
encode: C.encode,
decode: (u: unknown) => LV.fromEither(C.decode(u)),
}
}
export const fromIoTsCodec = <A, B extends Json>(C: t.Type<A, B>) => {
const stringCodec = new t.Type<A, string>(
C.name,
C.is,
(u, c) => {
return pipe(
t.string.validate(u, c),
E.chain((jsonString) => JsonFromString.validate(jsonString, c)),
E.chain((json) => C.validate(json, c)),
)
},
(v) => {
return pipe(v, C.encode, JsonFromString.encode)
},
)
return adaptIoTsCodec(stringCodec)
}
contributing
to commit to this repository there are a few rules:
- your commits must follow the conventional commit standard (it should be enforced by husky
commit-msg
hook). - your code must be formatted using prettier.
- all tests must pass.
release flow
here you can find an explanation of the release flow.