// To parse this data:
//
// const Convert = require("./file");
//
// const welcome = Convert.toWelcome(json);
//
// These functions will throw an error if the JSON doesn't
// match the expected interface, even if the JSON is valid.
// Converts JSON strings to/from your types
// and asserts the results of JSON.parse at runtime
function toWelcome(json) {
return cast(JSON.parse(json), r("Welcome"));
}
function welcomeToJson(value) {
return JSON.stringify(uncast(value, r("Welcome")), null, 2);
}
function invalidValue(typ, val, key = '') {
if (key) {
throw Error(`Invalid value for key "${key}". Expected type ${JSON.stringify(typ)} but got ${JSON.stringify(val)}`);
}
throw Error(`Invalid value ${JSON.stringify(val)} for type ${JSON.stringify(typ)}`, );
}
function jsonToJSProps(typ) {
if (typ.jsonToJS === undefined) {
const map = {};
typ.props.forEach((p) => map[p.json] = { key: p.js, typ: p.typ });
typ.jsonToJS = map;
}
return typ.jsonToJS;
}
function jsToJSONProps(typ) {
if (typ.jsToJSON === undefined) {
const map = {};
typ.props.forEach((p) => map[p.js] = { key: p.json, typ: p.typ });
typ.jsToJSON = map;
}
return typ.jsToJSON;
}
function transform(val, typ, getProps, key = '') {
function transformPrimitive(typ, val) {
if (typeof typ === typeof val) return val;
return invalidValue(typ, val, key);
}
function transformUnion(typs, val) {
// val must validate against one typ in typs
const l = typs.length;
for (let i = 0; i < l; i++) {
const typ = typs[i];
try {
return transform(val, typ, getProps);
} catch (_) {}
}
return invalidValue(typs, val);
}
function transformEnum(cases, val) {
if (cases.indexOf(val) !== -1) return val;
return invalidValue(cases, val);
}
function transformArray(typ, val) {
// val must be an array with no invalid elements
if (!Array.isArray(val)) return invalidValue("array", val);
return val.map(el => transform(el, typ, getProps));
}
function transformDate(val) {
if (val === null) {
return null;
}
const d = new Date(val);
if (isNaN(d.valueOf())) {
return invalidValue("Date", val);
}
return d;
}
function transformObject(props, additional, val) {
if (val === null || typeof val !== "object" || Array.isArray(val)) {
return invalidValue("object", val);
}
const result = {};
Object.getOwnPropertyNames(props).forEach(key => {
const prop = props[key];
const v = Object.prototype.hasOwnProperty.call(val, key) ? val[key] : undefined;
result[prop.key] = transform(v, prop.typ, getProps, prop.key);
});
Object.getOwnPropertyNames(val).forEach(key => {
if (!Object.prototype.hasOwnProperty.call(props, key)) {
result[key] = transform(val[key], additional, getProps, key);
}
});
return result;
}
if (typ === "any") return val;
if (typ === null) {
if (val === null) return val;
return invalidValue(typ, val);
}
if (typ === false) return invalidValue(typ, val);
while (typeof typ === "object" && typ.ref !== undefined) {
typ = typeMap[typ.ref];
}
if (Array.isArray(typ)) return transformEnum(typ, val);
if (typeof typ === "object") {
return typ.hasOwnProperty("unionMembers") ? transformUnion(typ.unionMembers, val)
: typ.hasOwnProperty("arrayItems") ? transformArray(typ.arrayItems, val)
: typ.hasOwnProperty("props") ? transformObject(getProps(typ), typ.additional, val)
: invalidValue(typ, val);
}
// Numbers can be parsed by Date but shouldn't be.
if (typ === Date && typeof val !== "number") return transformDate(val);
return transformPrimitive(typ, val);
}
function cast(val, typ) {
return transform(val, typ, jsonToJSProps);
}
function uncast(val, typ) {
return transform(val, typ, jsToJSONProps);
}
function a(typ) {
return { arrayItems: typ };
}
function u(...typs) {
return { unionMembers: typs };
}
function o(props, additional) {
return { props, additional };
}
function m(additional) {
return { props: [], additional };
}
function r(name) {
return { ref: name };
}
const typeMap = {
"Welcome": o([
{ json: "name", js: "name", typ: u(undefined, "") },
{ json: "rounds", js: "rounds", typ: u(undefined, a(r("Round"))) },
], false),
"Round": o([
{ json: "name", js: "name", typ: u(undefined, "") },
{ json: "matches", js: "matches", typ: u(undefined, a(r("Match"))) },
], false),
"Match": o([
{ json: "date", js: "date", typ: u(undefined, Date) },
{ json: "team1", js: "team1", typ: u(undefined, "") },
{ json: "team2", js: "team2", typ: u(undefined, "") },
{ json: "score", js: "score", typ: u(undefined, r("Score")) },
], false),
"Score": o([
{ json: "ft", js: "ft", typ: u(undefined, a(0)) },
], false),
};
module.exports = {
"welcomeToJson": welcomeToJson,
"toWelcome": toWelcome,
};
Write, Run & Share Javascript code online using OneCompiler's JS online compiler for free. It's one of the robust, feature-rich online compilers for Javascript language. Getting started with the OneCompiler's Javascript editor is easy and fast. The editor shows sample boilerplate code when you choose language as Javascript and start coding.
Javascript(JS) is a object-oriented programming language which adhere to ECMA Script Standards. Javascript is required to design the behaviour of the web pages.
var readline = require('readline');
var rl = readline.createInterface({
input: process.stdin,
output: process.stdout,
terminal: false
});
rl.on('line', function(line){
console.log("Hello, " + line);
});
| Keyword | Description | Scope |
|---|---|---|
| var | Var is used to declare variables(old way of declaring variables) | Function or global scope |
| let | let is also used to declare variables(new way) | Global or block Scope |
| const | const is used to declare const values. Once the value is assigned, it can not be modified | Global or block Scope |
let greetings = `Hello ${name}`
const msg = `
hello
world!
`
An array is a collection of items or values.
let arrayName = [value1, value2,..etc];
// or
let arrayName = new Array("value1","value2",..etc);
let mobiles = ["iPhone", "Samsung", "Pixel"];
// accessing an array
console.log(mobiles[0]);
// changing an array element
mobiles[3] = "Nokia";
Arrow Functions helps developers to write code in concise way, it’s introduced in ES6.
Arrow functions can be written in multiple ways. Below are couple of ways to use arrow function but it can be written in many other ways as well.
() => expression
const numbers = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
const squaresOfEvenNumbers = numbers.filter(ele => ele % 2 == 0)
.map(ele => ele ** 2);
console.log(squaresOfEvenNumbers);
let [firstName, lastName] = ['Foo', 'Bar']
let {firstName, lastName} = {
firstName: 'Foo',
lastName: 'Bar'
}
const {
title,
firstName,
lastName,
...rest
} = record;
//Object spread
const post = {
...options,
type: "new"
}
//array spread
const users = [
...adminUsers,
...normalUsers
]
function greetings({ name = 'Foo' } = {}) { //Defaulting name to Foo
console.log(`Hello ${name}!`);
}
greet() // Hello Foo
greet({ name: 'Bar' }) // Hi Bar
IF is used to execute a block of code based on a condition.
if(condition){
// code
}
Else part is used to execute the block of code when the condition fails.
if(condition){
// code
} else {
// code
}
Switch is used to replace nested If-Else statements.
switch(condition){
case 'value1' :
//code
[break;]
case 'value2' :
//code
[break;]
.......
default :
//code
[break;]
}
For loop is used to iterate a set of statements based on a condition.
for(Initialization; Condition; Increment/decrement){
//code
}
While is also used to iterate a set of statements based on a condition. Usually while is preferred when number of iterations are not known in advance.
while (condition) {
// code
}
Do-while is also used to iterate a set of statements based on a condition. It is mostly used when you need to execute the statements atleast once.
do {
// code
} while (condition);
ES6 introduced classes along with OOPS concepts in JS. Class is similar to a function which you can think like kind of template which will get called when ever you initialize class.
class className {
constructor() { ... } //Mandatory Class method
method1() { ... }
method2() { ... }
...
}
class Mobile {
constructor(model) {
this.name = model;
}
}
mbl = new Mobile("iPhone");