5.3 KiB
Intro
In this section we will show you how JS SDK can be used to create a hello world application with Fluence stack.
Aqua code
Let's start with the aqua code first:
service HelloWorld("hello-world"):
hello(str: string)
func sayHello():
HelloWorld.hello("Hello, world!")
This file has two definitions. The first one is a service named HelloWorld. A Service interfaces functions executable on a peer. We will register a handler for this interface in our typescript application. The second definition is the function sayHello. The only thing the function is doing is calling the hello method of HelloWorld service located on the current peer. We will shouw you how to call this function from the typescript application.
Installing dependencies
Initialze an empty npm package:
npm init
We will need these two packages for the application runtime
npm install @fluencelabs/fluence @fluencelabs/fluence-network-environment
The first one is the SDK itself and the second is a maintained list of Fluence networks and nodes to connect to.
Aqua compiler cli has to be installed, but is not needed at runtime.
Warning: the package requires java to be installed (it will call "java -jar ... ")
npm install --save-dev @fluencelabs/aqua-cli
Also we might want to have aqua source files automatically recompiled on every save. We will take advantage of chokidar for that:
npm install --save-dev @fluencelabs/chokidar-cli
And last, but no least we will need TypeScript
npm install --save-dev typescript
npx tsc --init
Setting up aqua compiler
Let's put aqua described earlier into aqua/hello-world.aqua file. You probably want to keep the generated TypeScript in the same directory with other typescript files, usually src. Let's create the src/_aqua directory for that.
The overall project structure looks like this:
┣ aqua
┃ ┗ hello-world.aqua
┣ src
┃ ┣ _aqua
┃ ┃ ┗ hello-world.ts
┃ ┗ index.ts
┣ package-lock.json
┣ package.json
┗ tsconfig.json
The Aqua compiler can be run with npm:
npx aqua-cli -i ./aqua/ -o ./src/_aqua
We recommend to store this logic inside a script in packages.json file:
{
...
"scripts": {
...
"compile-aqua": "aqua-cli -i ./aqua/ -o ./src/_aqua", // (1)
"watch-aqua": "chokidar \"**/*.aqua\" -c \"npm run compile-aqua\"" // (2)
},
...
}
compile-aqua (1) runs the compilation once, producing src/_aqua/hello-world.ts in our case
watch-aqua (2) starts watching for any changes in .aqua files recompiling them on the fly
Using the compiled code in our application
Using the code generated by the compiler is as easy as calling a function. The compiler generates all the boilerplate needed to send a particle into the network and wraps it into a single call. It also generate a function for service callback registration. Note that all the type information and therefore type checking and code completion facilities are there!
Let's see how use generated code in our application. index.ts:
import { FluencePeer } from "@fluencelabs/fluence";
import { registerHelloWorld, sayHello } from "./_aqua/hello-world"; // (1)
async function main() {
await FluencePeer.default.init(); // (2)
registerHelloWorld({
// (3)
hello: async (str) => {
console.log(str);
},
});
await sayHello(); // (4)
await FluencePeer.default.uninit(); // (5)
}
main();
(1) Aqua compiler provides functions which can be directly imported like any normal typescript function.
(2) FluencePeer has to be initialized before running any application in Fluence Network. A peer represents the identity in the network, so most of the time you will only need a single peer per application. JS SDK provides a default instance which is accesible via default propery of the class. init method accepts a parameters object which will be covered in the next section. By default the peer is not get connected to the network and will only be able to execute air on the local machine only. Please keep in mind that the init function is asyncrhounous
For every exported service XXX definition in aqua code, the compiler provides a registerXXX counterpart. These funtions provide a type-safe way of registering callback handlers for the services. The callbacks are executed when the appropriate service is called in aqua on the current peer. The handlers take form of the object where keys are the name of functions and the values are async functions used as the corresponding callbacks. For example in (3) we are registering handler for hello function which outputs it's parameter to the console
For every exported func XXX definition in aqua code, the compiler provides an async function which can be directly called from typescripyt. In (4) we are calling the sayHello function with no arguments. Note that every function is asyncrhonous.
(5) You should call uninit method of FluencePeer when it is no longer needed. As a rule of thumb all the peers should be uninitilized before destroying the application.
Let's try running the example:
node -r ts-node/register src/index.ts
If everything has been done correctly yuo should see Hello, world! in the console.
The next secion will cover in-depth and advanced usage JS SDK