Rhino 🦏 - The Framework for scalable APIs.
Rhino is an Angular-inspired framework for creating scalable REST-APIs. It provides a route-endpoint architecture that takes advantage of the many features provided by the TypeScript language. It encourages a project structure that is self-described and consistent, so that programmers within the project can collaborate seamlessly.
Rhino comes with five different modules for strong REST-API creation:
- @Rhino_Server - Class Decorator: Creates a new server.
- RhinoRouter - Class: Defines the routes and endpoints for a server.
- @Rhino_Endpoint - Class Decorator: Defines an endpoint handler.
- @Rhino_Hook - Class Decorator: Defines a middleware that can be hooked to the request-response middleware pipeline.
- @Rhino_Error - Class Decorator: Defines an error handler.
Hello World
Step 1) Create a Server
Crete a file named server.ts
, then copy and paste the following code inside it.
import { Rhino_Server, OnServerListening, ServerOptions, RunServers } from "https://deno.land/x/rhino/mod.ts";
// The server's router (next step)
import { myRouter } from './router.ts';
// Creates a server
@Rhino_Server({
port: 3200,
router: myRouter
})
export class myServer implements OnServerListening {
/** Executes once the server starts listening to requests */
public onListening(app: ServerOptions) {
console.log(`\nListening to request made to ${app.hostname}:${app.port}`)
}
}
/**
* Runs all the servers for this application.
* (A single application can have multiple servers)
*/
RunServers([myServer]);
Step 2) Create a Router
Create a file named router.ts
, then copy and paste the following code inside it.
import { RhinoRouter } from "https://deno.land/x/rhino/mod.ts";
// Creates a new router
const ROUTER = new RhinoRouter();
// Endpoints (next step)
import { helloWorld } from "./hello_world.endpoint.ts";
// Mounts the helloWorld endpoint to the root of the server
ROUTER.addEndpoint(helloWorld);
// Exports the router
export const myRouter = ROUTER;
Step 3) Create an Endpoint
Create a file named hello_world.endpoint.ts
, then copy and paste the following code inside it.
import {
Rhino_Endpoint, onEndpointCalled, RhinoRequest,
RhinoResponse, NextHook, NextError, HttpMethod, MIMEType
} from "https://deno.land/x/rhino/mod.ts";
@Rhino_Endpoint({
path: "/hello", // The path for this endpoint
method: HttpMethod.GET, // This endpoint will only listen to GET requests
})
export class helloWorld implements onEndpointCalled {
// The constructor accepts the following parameters (in that order):
// The Request Object,
// The Response Object,
// The Next Hook function (middlewares of type "After"), and
// The Error function
constructor(
private req: RhinoRequest,
private res: RhinoResponse,
private next: NextHook,
private error: NextError
) { }
/** Executed when this endpoint is requested */
public onEndpointCall() {
// Sets the content type, and sends data to the client
this.res.contentType(MIMEType.TextHTML).send("<h1>Hello Rhinos 🦏!</h1>");
}
}
Finally, navigate to localhost:3200/hello
to be greeted by your newly created Rhino server.
Scalability
You may be wondering, why so many files for a simple "hello world" project? The answer lies in scalability. Most real-world REST-APIs do not have single file for all their code. Instead, the code is split into many files, folders, and sub-folders to create a robust application. Rhino takes care of all the thinking that goes behind defining a folder structure for your project by encouraging code refraction. To see an example of a simple Rhino Project, visit the _example
folder.
NOTE: This project is still on its (very) early stages, and the definitions are subject to change.