The Elm Architecture for typescript
This is an implementation of The Elm Architecture (TEA) for typescript.
Note: TEA has managed effects, meaning that things like HTTP requests or writing to disk are all treated as data in TEA. When this data is given to an Effect Manager, it can do some "query optimization" before actually performing the effect. Your application should consist of pure functions only and all effects should be handled in Effect Managers outside your application.
TEA has two kinds of managed effects: commands and subscriptions.
yarn add @typescript-tea/core
Please see the documentation site.
This is the usual counter app example using the react as view library. It is also available in this repo.
import React from "react";
import ReactDOM from "react-dom";
import { exhaustiveCheck } from "ts-exhaustive-check";
import { Dispatch, Program } from "@typescript-tea/core";
// -- STATE
type State = number;
const init = (): readonly [State] => [0];
// -- UPDATE
type Action = { type: "Increment" } | { type: "Decrement" };
function update(action: Action, state: State): readonly [State] {
switch (action.type) {
case "Increment":
return [state + 1];
case "Decrement":
return [state - 1];
default:
return exhaustiveCheck(action, true);
}
}
// -- VIEW
const view = ({ dispatch, state }: { readonly dispatch: Dispatch<Action>; readonly state: State }) => (
<div>
<button onClick={() => dispatch({ type: "Decrement" })}>-</button>
<div>{state}</div>
<button onClick={() => dispatch({ type: "Increment" })}>+</button>
</div>
);
// -- PROGRAM
const program: Program<State, Action, JSX.Element> = {
init,
update,
view,
};
// -- RUN
const app = document.getElementById("app");
const render = (view: JSX.Element) => ReactDOM.render(view, app);
Program.run(program, render);
There are some naming differences from TEA in Elm:
Msg
was renamed toAction
Model
was renamed toState
Elm is a pure language with strict guarantees and the Effect Managers are part of kernel in Elm and you cannot (for good reasons) write your own Effect Managers in Elm. Typescript is an impure lanauge without any guarantees so it (probably) does not make sense to have this restriction. Therefore in typescript-tea it is possible to write your own Effect Manager to do whatever you want.
It does not have a built-in view library, instead it is possible to integrate with existing view libraries like React.
This package (and others in @typescript-tea
organization) exports only function
s and type
s grouped into modules. You can import a module from the root of the package in the following way:
import { ModuleName1, ModuleName2 } from "@typescript-tea/package-name";
For example:
import { Result } from "@typescript-tea/core";
const result = Result.Ok("It is OK");
If you don't want to prefix with ModuleName
you can also use named imports directly from the module file:
import { function1, function2 } from "@typescript-tea/package-name/module-name";
For example:
import { Ok } from "@typescript-tea/core/result";
const result = Ok("It is OK");
A common pattern is to have a module that exports a single type with the same name as the module. For example the Result
module does this, it exports the Result
type, some constructor functions that create a Result
type, and some utility funcitons that operate on or return a Result
type. In these cases it can become annoying to prefix the type with the module name, like Result.Result
. Consider the following example. Note that this is not how it is done for modules with single type exports in typescript-tea, it is just to illustrate how it would be done normally:
import { Result } from "@typescript-tea/core";
function itsOk(): Result.Result<string, string> {
const ok: Result.Result<string, string> = Result.Ok("It is OK");
const err: Result.Result<string, string> = Result.Ok("It is not OK");
return ok;
}
To avoid having to write Result.Result
in these cases, the Result
module uses a trick so that both the module name and the type can be named simply Result
. So the code above will become this (notice use of Result
for the type annotations instead of Result.Result
):
import { Result } from "@typescript-tea/core";
function itsOk(): Result<string, string> {
const ok: Result<string, string> = Result.Ok("It is OK");
const err: Result<string, string> = Result.Ok("It is not OK");
return ok;
}
How can this work? Well, the index file in the package does this to make it work:
import * as ResultNs from "./result";
export const Result = ResultNs;
export type Result<TError, TValue> = ResultNs.Result<TError, TValue>;
I think it is somehow related to declaration merging in typescript :-).
Please note that this only work for modules that export a single type. If two types are exported it is not possible to use this shortcut because the exported const
will not contain any types.
Node version >=12.6.0 is needed for development.
To execute the tests run yarn test
.
yarn version --patch
yarn version --minor
yarn version --major