JavaScript all concepts

Amazing JavaScript learning and practice questions

Content

Values and Variables- Premitive data types- Numbers

How JavaScript works?

Premitive data types- Boolean, Null, Undefined, String

Control and logic flow- if/else, switch, ternary operator, logical operators etc.

Arrays, array methods

Objects in JavaScript

Loops in JavaScript

Functions in JavaScript

Scope,Function expressions, Higher Order functions, callbacks, hoisting

Array callback methods- filter, forEach, reduce, map, some, every etc.

Default Parameters, Spreads,Rest Parameters, Destructuring

Object Methods and the "This" Keyword

Document Object Model

Communicating with Events

Asynchronous JavaScript, Callbacks and Promises

Making http requests: Fetch, Axios

Async and Await

Prototypes, Classes, & the new operator

JavaScript with Node.js

Values and variables

Primitive Data types

every language out there has a group of types. Different categories for data.

Number - its a numeric value

String - text words, could be a number but inside quotation marks

Boolean - true or false values

Null

Undefined

technically there are two others- Symbol and BigInt

Numbers in JS

JS has one number type

positive numbers

negative numbers

whole number (integers)

Decimal Numbers(floats)

clear() - clears the console

with numbers we have different mathematical operations that we can use kind of like a calculator.

Addition
13+15

Substraction
15-2

Multiply
12*3

Divide
12/6

Modulo
12%4 - returns the remainder

// Comments after these two forward slashes

exponent or exponential operator

which looks like this two star star.

4 ** 2 = 16

NAN Not a Number

NaN is a numeric value that represents something that is not a number.

0/0 = NaN

122 + NaN = NaN

It doesn't necessarily mean something went wrong.

Infinity

which we can generate by doing something like 1 divided by zero javascript just has a way of representing a value of infinity.

1/0 = infinity

---

Variables

Variables are like "labeled jars" for a value in JavaScript.

We can store a value and give it a name, so that we can--

Recall it

Use it

Or change it later on

the basic syntax that we'll see first is using a keyword called let.

let age = 14;

Now there actually are two different ways that we can create variables in JavaScript at least two that are commonly used today.

how to update a variable

age = age +1;

we should always keep our variable names in camel case like this

let ageOfTushar = 20;

Unary operators

unary operators are operators where there's only one side.

let counter = 1;
counter++;

Const

const is just like let except we can't change the value.

legacy of var

before let and const , var was only way to declare the variables. Now there's no reason to use it.

lets talk about other primitive data types-

Booleans

booleans are simply true or false values.

let isFriend = true;
isFriend = false;

-- in javascript we can change type of variables. if you have experience with any other programming language well maybe not any other but many other languages. When you declare a variable and you make it a number it needs to stay a number in JavaScript there is no restriction on that. We can change a number to a Boolean at any point.

That's not saying it's a good idea at all. In fact it's one of the things a lot of people don't like about JavaScript and it's why things like TypeScript exist.

Strings

strings are pieces of text, or strings of characters.We wrap them in quotes.

let rh = "This is going to be a good book";
"hi" + 1
> "hi1"
"hi" - 1
>NaN

Strings are indexed every character has a corresponding index. we can check length of a string using:

let s = "Tushar"
let lengthOfs = s.length
// accessing individual characters of a string using it's index
console.log(s[0])
// access last character of a string
console.log(s[s.length - 1])
// change characters 
s[1] = "u"
// we can't change strings individual characters this way

strings are immutable in javascript

String methods

strings come with a set of built in methods. which are actions that can be performed on or with that particular string.

thing.method()

toUpperCase()

let s = "tushar";
s.toUpperCase(); // returns new string with UPPER case

toLowerCase()

s.toLowerCase();// returns new string with all lowercase characters

trim()

It just removes trailing leading and trailing whitespace so spaces at the beginning and end of a string when you call trim it returns a string where that space has been removed.

s.trim()

Methods with arguments

some methods accepts arguments that modify their behaviour.

thing.method(args)

indexOf()

tell you where in a string a given string occurs substring.

let st = "Tushar Rajpoot";
st.indexOf("u") // returns the index
st.indexof("www") // return -1 not found

slice()

takes index and gives sliced string

let s = "Tushar";
s.slice(0,3);
>"Tus"

replace()

returns a new string with replaced substring

let as = "I'm Tushar and I'm a programmer";
as.replace("programmer","developer")
>"I'm Tushar and I'm a developer"

String espace characters

\n - newline

\' - single quote

\" - double quote

\\ - backslash

String template literals

template literals are strings that allow embedded expressions, which will be evaluated and then turned into a resulting string.

use backtick for string template literals

let tu = 13;
let s = `Number of tushar- ${tu}`

Null and Undefined

Null

Intentional absence of any value.
Must be assigned.

Undefined

Variables that don't have an assigned value are undefined.

let logg = null;

Math object

contains properties and methods for mathematical constantss and functions.

Math.PI // 3.14...

//Rounding a number
Math.round(4.9) // 5

// Absolute value
Math.abs(-456) // 456

// Raises 2 to 5th power
Math.pow(2,5) // 32

// Removes decimal
Math.floor(3.23) // 3

Random numbers

Math.random() gives us a random decimal between 0 and 1 (non- inclusive)

Math.random() // it will return random decimal number between 0 and 1
// 0.33493

// genrate random number between 1 to 10
const step1 = Math.random();
const step2 = step1 * 10;
const step3 = Math.floor(step2);
const step4 = step3 +1;

// so basically we can do like this
Math.floor(Math.random() * 10)+1;

TYPE OF

we use type of to determine type of a given value.

let s = "tus";
typeof(s)// return string
// we can use without these parentheses also
typeof tu

parseInt and parseFloat

use to parse strings into numbers, but watch out for NaN.

let str = "123"
parseInt(str)
>123
let s = "1.2"
parseFloar(s);
>1.2
let st = "w1"
parseInt(st);
>NaN

How code is executed in JavaScript

Execution Context

Everything in JavaScript happens inside an execution context.
Assume it like a big box or container in which JS code is executed.
Execution context is a wrapper around your existing code; which contains code that you have not written, but is generated by JS engine.
A JavaScript execution context is created each time when you run your JS code file.

Memory Component	Code Component
Memory allocation of variables	Code execution

Components of execution context

Memory Component

Memory component is a place where all the variables and keywords are stored as key value pairs. Ex: We have a variable called a equivalent to 10.

const a = 10;

Memory Component	Code Component
a:10	Code execution

Code Component

This is the place where code executed one line at a time.

JavaScript is a synchronous single threaded language.

Single Threaded

JavaScript can only execute one command at a time.

Synchronous Single threaded

JavaScript can only execute one command at a time and in a specific order. It can only go to the next line once the current line has been finished executing.

What happens when you run your JS code

1. When we run a JS program, An execution context will be created
• An execution context is created in two phases.
1. Memory creation phase
In this phase JS will allocate memory to all the variables and functions.
2. Code execution phase
In this phase, Code will be executed after it's memory allocation.

Let's Assume we're executing below code

var n = 2;
function square(num){
  var ans = num*num;
  return ans;
}

var square2 = square(n)
var square3 = square(3)
  

So as we know first phase is creation-

1. Memory Allocation Phase
• Allocate memory to n variable
• Allocate memory to square function
So when JS allocates memory what does it stores?
It stores a special value known as undefined.
But in case of functions, it litterally stores the whole code of the function inside the memory space.

Memory Component	Code Component
n:undefined square: {.....} square2: undefined square3: undefined	--------------------------

2. Code Execution Phase
• Now JS once again runs through this whole JavaScript program line by line and it executes the code now.
• This is the point when all these variables, functions, every calculation in the program is done
• As soon as it counters the first line-
  var n = 2;
  It actually places the 2 insides then, till now the value of n was undefined now in the second phase of creation of execution context that is the code execution phase in this phase, this 2 value overhere of n is now been placed actually in this placeholder or the identifier which is n.
• On line 2 to 5 (function) it sees that here is nothing to execute so it moves to the next line.
• In line 6 we are invoking the function.
• functions are like a mini program in JavaScript, whenever a function is invoked, a mini program is invoked so all together a new execution context is created
• Whole thing, we were running this whole program was inside the global execution context, now when we run the funtion or when we invoke a function. A brand new context is created.
• Then again two phases will be created
• Memory creation phase
• Code execution phase

Memory Component	Code Component
n:2 square2: 4 square3: 9	Memory Component Code Component num:2 ans:4 return ans

---

Controlling program logic and flow

Comparison Operators

> // greater than
< // less than
>= // greater than or equal to
<= // less than or equal to
== // equality
!= // not equal
=== // strict equality
!== // strict non-equality
// these give booleans true or false like this
5>2 // true
5<3 //false

double equals(==)

Checks for equality of value, but not equality of type.

It coerces both values to the same type and then compares them.

This can lead to some unexpected results.

Triple equals(===)

Checks for equality of value and type.

7 == '7' // true
7 ==='7' //false

Always go with triple equals.

Making decisions in the code

A conditional statement can have three pieces-

If

Else if

Else

If

Run code if a given condition is true.

let rate = 3;
if(rate===3){
    console.log("Amazing");
}

Else If

if not the first thing, maybe this another thing?

let rate = 2;
if(rate===3){
    console.log("Amazing");
}
else if(rate === 2){
    console.log("Oh its ok");
}

Else

if nothing else was true, do this..

let rate = 349;
if(rate===3){
    console.log("Amazing");
}
else if(rate === 2){
    console.log("Oh its ok");
}
else{
    console.log("Ok we don't know about it")
}

Nesting

we can nest conditionals inside conditionals

let password = "hello kiry";
if(password.length >=6){
    if(password.indexOf(' ')!== -1){
        console.log("Password can't include spaces");
    }
    else{
        console.log("Valid password")
    }
}
else{
    console.log("password is too short");
}

Truthy and Falsy values

All values have an inherent truthy or falsy boolean value

Falsy values:--
false
0
""(empty string)
null
undefined
NaN

Everything else is truthy/

Logical Operators

AND(&&)

OR(||)

NOT(!)

AND(&&)

Both sides must be true in order for the whole thing to be true

1<=4 && 'a'==='a'; // true
9>10 && 9>=9 ; // false

OR(||)

If one side is true, the whole thing is true

// only one side needs to be true
1!==1 || 10===10 // true

NOT(!)

returns true if the expression is false

!null // true

!(0===0) // false

Operator precedence

NOT(!) has higher precedence than && and ||.

&& has higher precedence than ||.

! && ||

we can alter these using parentheses.

Switch Statement

The switch statement evaluates an expression, matching the expression's value to a case clause, and executes statements associated with that case, as well as statements in cases that follow the matching case.

Syntax---

switch (expression) {
  case value1:
    //Statements executed when the
    //result of expression matches value1
    [break;]
  case value2:
    //Statements executed when the
    //result of expression matches value2
    [break;]
  ...
  case valueN:
    //Statements executed when the
    //result of expression matches valueN
    [break;]
  [default:
    //Statements executed when none of
    //the values match the value of the expression
    [break;]]
}

Ternary Operator

condition ? expIfTrue: expIfFalse

Some questions

1. Program to check if a number is even or odd.
2. Program to find maximum, minimum among two numbers
3. Program to find maximum, minimum among three numbers
4. Program to check if an alphabet is a vowel or a consonant.

Arrays

Ordered collections of values

List of comments on IG post

Collection of levels in a game

Songs in a playlist

Creating arrays

// make an empty array
let students = [];

// array of strings
let names = ["Rahul", "Tushar", "Sahul"];

// an array of numbers
let rollNo = [23,45,2,34,6,7]

// mixed array
let stuff = [true, 435, 'tushar', null];

Arrays are indexed

let colors = ['red','orange','yellow','green']
colors.length//4

colors[0] // 'red'
colors[1] // 'orange'
colors[2] // 'yellow'
colors[3] // 'green'
colors[4] // 'undefined'

modifying arrays

unlike strings, arrays are mutable, we can modify arrays

let shop = ['milk','sugar'];
shop[1] = 'coffee';
// add something at the end
shop[shop.length] = 'tomatos'

Array Methods

Push - add to end

Pop - remove from end

Shift remove from start

Unshift - add to start

________________________________________

concat - merge arrays

includes - look for a value, returns true or false

indexOf - just like str.indexOf

join - creates a string from arr

reverse - reverses an array

slice - copy portion of an arr

splice - remove/replace elements

sort - sorts an array. The sort() method sorts the elements of an array in place and returns the sorted array. The default sort order is ascending, built upon converting the elements into strings, then comparing their sequences of UTF-16 code units values.

arrays are reference types which means that the actual array data is not the content that is stored in the slot in memory for each variable.Instead it is a reference.

we can modify array elements even it's initialized by const.

Objects in JavaScript

An object allows us to store data where we can associate things in group pieces of data together but rather than simply ordering data based off of an index to zero with item the first the second like an array does.

Objects are collections of properties.

Properties are a key value pair.

Rather than accessing data using an index, we use custom keys. Property- key+ value

const student = {
    name: "Tushar",
    rollno: 123,
    class: 12
}

in other languages like Python objects are actually called dictionaries.

Creating objects literals

Instead of the square braces that we use for an array we use curly braces to signify an object.

// accessing properties
student.name // accessing name

when we create an object when we make a property the keys are automatically converted to strings.

let num ={
    34: "thirty four"
}
num.34 // throw error because it has converted to a string

Accessing objects properties

const colors ={
    red: "#eb4d4b",
    yellow: "#f9ca24",
    blue: "#30336b"
}
colors.red
colors['blue']
let cr = 'yellow';
colors[cr] 

const numbers = {
    100: 'one hundred',
    16: 'sixteen'
    '34 thing': "good"
};
numbers[100] // 'one hundred'
numbers['34 thing']

Adding and updating properties

const users={}
users['facebook'] = "Tushar";
users.insta = "tush_tr"; 

Nested arrays and objects

We can fill objects with keys that are arrays or also keys that are other objects. And we do this all the time because most of the data we work with in the real world is generally a combination of list or ordered data as well as key value pairs of data.

const shopCart = [
    {
        product: 'milk',
        price: 12,
        quantity: 1
    },
    {
        product: 'water bottle',
        price: 20,
        quantity: 5
    },
    {
        product: 'coffee',
        price: 2,
        quantity: 20
    }
]

const student = {
    firstName: 'Tushar',
    lastName: 'Rajpoot',
    hobbies: ['Music', 'reading'],
    marks:{
        mid: 56,
        final: 94
    }
}

We know that values in an array are not actually stored in a variable. The variable has limited space available to it. So it stores a reference sort of an address.
objects also work the exact same way.

we use const when we want the reference to stay the same like we always want to be pointing to this one object but the contents can come and go.

Equality in arrays and objects

the value of that variable has the little space in memory is not storing the array it's simply storing a reference to this array.

let n = [1,2,3];
let r = [1,2,3];
n==r // false
n===r // false
// so what we can do 
let newn = n;
// now
newn===n // true

if you're trying to compare arrays if you're trying to see if an array is equal to another array it's not as straightforward as you might hope it would be because a lot of times you're not trying to check if an array is the exact same array.

Loops in JavaScript

Doing things repeatedly.

• Loops allow us to repeat code
• ---Print 'hello' 10 times
• ---Sum all numbers in an array
• There are multiple types:
• ---For loop
• ---While Loop
• ---for....of loop
• ---for....in loop

For Loops

for(
    [initialExpression];
    [condition];
    [incrementExpression];
){}
// print hello 10 times--
for(let i=0;i<=10;i++){
    console.log('hello');
}

print a multiplication table

const table = (num)=>{
    for(let i=0;i<=10;i++){
        console.log(`${num} X ${i} = ${num*i}`);
    }
}
table(4);

For loops and arrays

we can use for loops to iterate over a string or an array.
To loop over an array, start at 0 and continue to the last index(length-1).

const students = ['Ram','Shyam','Mohan'];
for(let i=0;i<students.length;i++){
    console.log(i,students[i]);
}
// iterating a string
const studentName = "Tushar";
for(let i=studentName.length-1;i>=0;i--){
    console.log(studentName[i]);
}

Nested for loops

we can nest loops

for(let i=0;i<=10;i++){
    console.log("Outer loop",i);
    for(let j=10;j>=0;j--){
        console.log("Inner loop",j);
    }
}
// we can use nested loops for iterating 2d arrays
const gameBoard = [
    [4,32,8,4],
    [64,8,32,2],
    [8,32,16,4],
    [2,8,4,2]
];
for(let i=0;i < gameBoard.length;i++){
    // console.log(gameBoard[i]);
    for(let j=0;j<gameBoard[i].length;j++)
    {
        console.log(gameBoard[i][j]);
    }
}
// output---
/*
4
32
8
4
64
8
32
2
8
32
16
4
2
8
4
2
*/

While Loops

A while loop continues to run as long as its test condition is true.

let n = 0;
while(n<10){
    console.log(n);
    n++;
}

Break Keyword

There is a special keyword in JavaScript called Break which we can use instead of loops to break out of that loop to stop its execution. Whenever javascript encounters break that loop that it's enclosed in is done so you can use this technically in a for loop.

for(let i=0;i<10;i++){
    console.log(i);
    if(i===5){
        break;
    }
}
// in while loops
while(true){ // loop forever
    if(target === guess){
        break;
    }
}

Continue keyword

for skipping something

for(let i=0;i<10;i++){
    if(i===5){
        continue;
    }
    console.log(i)
}

For of loop

A nice and easy way of iterating over arrays(or other iterable objects)[No internet explorer support]

for(variable of iterable){
    statement
}
// example--
const arr = [1,2,3,4,5];
for(let i of arr){
    console.log(i);
}
// for of with objects
const movieRatings ={South: 9.5, BollyWood: 2.5,Hollywood: 9.8};
Object.keys(movieRatings)
// > ["South", "BollyWood", "Hollywood"]
Object.values(movieRatings)
// > [9.5, 2.5, 9.8]
for(let x of Object.keys(movieRatings)){
    console.log(x)
}
for(let ratings of Object.values(movieRatings)){
    console.log(ratings);
}

We can loop over the keys of an object, using Object.key() and values using Object.values()

For In Loop

Loop over the keys in an object

for(variable in object){
    statement
}
// iterate over an object keys
const movieRatings ={South: 9.5, BollyWood: 2.5,Hollywood: 9.8};
for(let movie in movieRatings){
    console.log(movie)
}
// accessing values with for in loop
for(let movie in movieRatings){
    console.log(movie)
    console.log(movieRatings[movie])
}

Functions

Reusable procedures

Functions allow us to write reusable, modular code.

We define a 'chunk' of code that we can then execute at a later point.

Defining functions

function funcName(){
    // do something
}
// let's write our first function
function hello(){
    console.log("Hello")
}

function arguments

we can also write functions that accept inputs, called arguments.

function greet(person){
    console.log(`hello ${person}`)
}
function add(a,b){
    console.log(a+b);
}

Return statement

built-in methods return values when we call them. We can store those values:

function add(x,y){
    return x+y;
}
console.log(add(2,3));
// we can capture a return value in a variable.
let a = add(2,3)

No return

our functions print values out, but don't return anything.

function add(x,y){
    console.log(x+y)
}
add(3,3);

Other Important concepts about functions

What is scope?

Variable "visibility"

The location where a variable is defined dictates where we have access to that variable.

Function Scope

function show(){
    let msg = "Hey I'm here";
    // msg is scoped to the show function
}
// we can't access or manipulate msg variable outside of this function.

Block Scope

let rad = 8;
if(rad>0){
    var a = 12;
    const PI  = 3.14;
    let area = 2*PI*rad;
}
console.log(rad) // 8
console.log(area) // undefined
console.log(a) // 12
// this tells us that let and const have
// different scoping rules than var
// there was one more problem with var
let arr = [1,2,3,4];
for(var i=0;i<arr.length;i++){
    console.log(i,arr[i]);
}
console.log(i) // 3

Lexical Scope

function outer(){
    let hero = "Black Panther";
    function inner(){
        let cryForHelp = `${hero}, please save me! `;
        console.log(cryForHelp);
    }
    inner();
}

Function Expressions

there's another syntax we can use to define functions:

const square = function(num){
    return num*num;
}
square(7); // 49

The main distinction here is that the function does not actually have a name. It's stored in a variable but we haven't provided a name.

Higher Order Functions

Functions are objects We can put functions in an array.
We can also put a function in an object.

Functions as arguments

passing functions as an argument to another function or returning a function which is actually a very key part of javascript.

What are higher order functions?

Functions that operate on/with other functions. They can:

Accept other functions as arguments

Return a function

function callTwice(func){
    func();
    func();
}

function laugh(){
    console.log("hahahahahhah");
}

callTwice(laugh);

Returning functions

function makeBetweenFunc(min,max){
    return function (val){
        return val>=min && val<=max;
    }
}
const inAgeRange = makeBetweenFunc(18,100);
console.log(inAgeRange(45)) // true

Callback Functions

A callback function is a function passed into another function as an argument, which is then invoked inside the outer function.

function callTwice(func){
    func();
    func();
}
function laugh(){
    console.log("hahahahha");
}
callTwice(laugh) // pass a function as argument
// so here laugh is a callback function
// we can also do the same like this
callTwice(function (){
    console.log("Calling again");
})

We can write our own function that accepts callbacks but also tons of the built in methods, that are really useful ones in JavaScript expect you to pass in a callback. if you want to make a request to load data from Facebook API. That request takes time. We pass in a callback function that will be called when the request is finished. When the data is back if we want to run code when a user clicks on a button on a page or when they hover over a photo the code that we write to set that up requires us to pass in a callback function which will be executed when the user hovers or when the user clicks.

Anonymous functions

we use anonymous functions when we call callback functions(higher order functions). We pass in an anonymous function rather than an existing function like laugh.

There's nothing wrong with this

callTwice(laugh)

but sometimes we just need a one time use function. We don't need it to be a standalone function in which case we use an anonymous function.

setTimeout function

There is a method called set timeout set timeout will run a certain block of code or a function of code after a certain number of milliseconds or seconds we pass in a number of milliseconds like five thousand which is five seconds but the first argument we need to pass it is a function so a function to run and then how long to wait before it runs.

function notice(){
    alert("go away");
}
setTimeout(notice,5000);
// this will wait till 5 second then execute notice function
// so we don't to define a function always we can use anonymous function like this
setTimeout(function(){
    alert("Go away");
},5000);

Hoisting

Hoisting is JavaScript's default behavior of moving declarations to the top.

Remember that variables when we declare them but don't initialize them. For example var x and I don't give it a value, X is set to undefined.

let x;
>undefined

so when you execute a js program, it hoists up all variable declaration. for ex, if you try to run this code

console.log(student); // undefined
var student = "Tushar"

When javascript is interpreting the code what happens is that it hoists up I'm doing air quotes but you can't see it. It hoist up the variable declaration.(var student)

With let and const-

Variables defined with let and const are hoisted to the top of the block, but not initialized. Meaning: The block of code is aware of the variable, but it cannot be used until it has been declared.

Using a let variable before it is declared will result in a ReferenceError.

when you declare variable with let it's not hoisted.

Using a const variable before it is declared, is a syntax errror, so the code will simply not run.

Let and const are not hoisted

Functions are hoisted

show();
function show(){
    console.log("helooooo");
}

But But if we use function expression, it not gonna work

console.log(show) // undefined because its a variable that has been declared
show(); // error
var show = function(){
    console.log("Hloooo")
}
// but if we declare this function using let or const it will not work.

Array callback methods

Arrays come with many built-in methods that accept callback functions.

For Each

accepts a callback function. Calls the function once per element in the array.

const num = [1,2,3,4,5,6];
num.forEach(function(n){ // n parameter represents one element at a time
    console.log(n)
})

We can also add a second parameter to our callback to the function here if we want to use the index.

num.forEach(function(e,i){
    console.log(i,e);
})

Map Method

creates a new array with the results of calling a callback on every element in the array

const texts = ['fer','rrer','rer','erre'];
const caps = texts.map(function(t){
    return t.toUpperCase();
})

Arrow Functions

Syntactically compact alternative to a regular function expression.

const square = (x)=>{
    return x*x;
}

Implicit return

all these functions do the same thing:

const isEven = function(num){
    return num%2===0;
}
const isEven = (num)=>{
    return num%2===0;
}
const isEven = num =>{
    return num%2===0;
}
const isEven = num =>{ // implicit return
    num%2===0
} 
const isEven = num=> num%2===0;// one-liner implicit return

Find method

returns the value of the first element in the array that satisfies the provided testing function.

let shoppingList = [
    "Veggies",
    "Milk",
    "Notebooks"
]
let item = shoppingList.find(item=>{
    return item.includes("Milk");
})

Filter method

creates a new array with all elements that pass the test implemented by the provided function.

const numbers = [12,334,542,3,34,54,5,45,3,4,523,6,3]
const evens = numbers.filter(n=>{
    return n%2===0;
})

Every and Some method

Every-

tests whether all elements in the array pass the provided function It returns a boolean value.

const words = ['dog','dog','dig','dag','bag'];
words.every(word=>{
    return word.length === 3;
}) // true

Some -

Similar to every, but returns true if any of the array elements pass the test function.

words.some(word=>{
    return word.length >4;
})

Sort

arr.sort(compareFunc(a,b)))

If compareFunc(a,b) returns less than 0 -> Sort a before b

If compareFunc(a,b) returns 0 -> leave a and b unchanged with respect to each other

If compareFunc(a,b) returns greater than 0 -> Sort b before a

const prices = [122,4542,453,5248,78709,3435];
prices.sort(); // it's weird converts into strings then sort

prices.sort((a,b)=> a-b);

prices.sort((a,b)=>b-a);

Reduce Method

executes a reducer function on each element of the array, resulting in a single value.

Summing an array

const arr = [3,5,7,9,11];
arr.reduce((accumulator, currentValue)=>{
    return accumulator+currentValue;
})

Callback	Accumulator	Currentvalue	return value
first call	3	5	8
second call	8	7	15
third call	15	9	24
fourth call	24	11	35

it's not always about summing or multiplying or accumulating data in one number. It could be finding the maximum value in an entire array.

Initial value

when you use reduce you can actually pass in an initial starting value. So after your callback the format would be something dot reduce.

[12,23,5,6].reduce((acc,curr)=>{
    return acc+curr;
},100)

Tallying

we can tally up results from an array we can group different values in an array using an object.

const vote = ['y','y','n','y','y','y','n']
const tally = vote.reduce((tally, vote)=>{
    tally[vote] = (tally[vote] || 0)+1
    return tally;
},{})
// {}- initial object

Default Parameters, Spreads,Rest Parameters, Destructuring

list of some important JS new features

Arrow functions	String template literals	Let and const
For...of	for...in	Exponent operator
String.includes()	Array.includes()	Object.values()
Rest & Spread	Destructuring	Default function params
Object Enhancements	Classes	Async Functions

Default parameter

function multiply(a,b=1){
    //means if no b is passed in if it's undefined.  Use this value.
    return a*b;
}
multiply(4); // 4
multiply(4,3); // 12

Spread

It does many things.
Spread syntax allows an iterable such as an array to be expanded in places where zero or more arguments(for function calls) or elements(for array literals) are expected, or an object expression to be expanded in places where zero or more key-value pairs(for object literals) are expected.

function sum(x, y, z) {
  return x + y + z;
}

const numbers = [1, 2, 3];

console.log(sum(...numbers));
// expected output: 6
console.log(sum.apply(null, numbers));
// expected output: 6

Spread in array literals

In array literals -
Create a new array using an existing array. Spreads the elements from one array into a new array.

const n1 = [1,2,3];
const n2 = [4,5,6];
[...n1,...n2];
// [1,2,3,4,5,6]

['a','b',...n2];
// ["a","b",4,5,6]

const a = [1,2,3]
const b = [23]
b.push(...a)
console.log(b)
// [23, 1, 2, 3]

In object literals

copies properties from one object into another object literal.

const dog = {name: "Joolie",age:6};
const animal = {...dog, isPet: true};
// {name: "Joolie",age:6,isPet: true}

The arguments object

Available inside every function

It's like an array-like object
Has a length property
Does not have array methods like push/pop

Contains all the arguments passed to the function

Not available inside of arrow functions

function sumAll(){
    let total = 0;
    for(let i=0; i< arguments.length; i++){
        total += arguments[i];
    }
    return total;
}
sumAll(8,3,4,5);

Rest (...) Params

collects all remaining arguments into an actual array.

function sum(...numbers){
    return nums.reduce((t,c)=>{
        return t+c;
    })
}
// we can use this in arrow function
const fullName = (firstName, secondName, ...titles)=>{
    console.log('first',firstName)
    console.log('second',secondName)
    console.log('titles',titles)
}

Destructuring

A short, clean syntax to 'unpack':

values from arrays

Properties from objects Into distinct variables.

Destructuring arrays

const arr = [223,535,536];
const [one,two,three] = arr;
one// 223
two // 535
three // 536

const [one, ...everyElse] = arr;
one // 223
everyElse // [535,536]

Destructuring objects

const runner = {
    first :  "Eliud",
    last: "Kipchoge",
    country: "Kenya",
    title: "Elder of the order of the golden heart of kenya"
}

const {first, last, country} = runner;
first // "Eliud"
last // "Kipchoge"
country // "Kenya"

const {country: nation} = runner;
nation // "Kenya"

Parameters destructuring

const fullName = ({first,last})=>{
    return `${first} ${last}`
}
const runner = {
    first :  "Eliud",
    last: "Kipchoge",
    country: "Kenya",
    title: "Elder of the order of the golden heart of kenya"
}
fullName(runner); // Eliud Kipchoge

Object Methods and the "This" Keyword

Short hand properties

const a = 12;
const t = "Tushar";
const n = {a,t};
console.log(n)
// {a: 12, t: "Tushar"}

Computed Properties

we can use a variable as a key name in an object literal property.

const role = 'SDE';
const person = "Tushar";
const role2 = 'Sys Admin';
const person2 = 'Navneet';

const team = {};
team[role] = person;
team[role2] =  person2;
// or
const team = {
    [role]: person,
    [role2]: person2,
    [23+34]: 'Another'
}

const addProp = (obj,k,v)=>{
    return{
        ...obj,
        [k]:v
    }
}

Methods

We can add functions as properties on objects.

we call them methods.

const math ={
    multiply: function(x,y){
        return x*y;
    },
    divide: function(x,y){
        return x/y;
    }
}

Method short hand syntax

we do this so often that there's a new shorthand way ofadding methods.

const math = {
    msg: "Hii this is math",
    add(x,y){
        return x+y;
    }
    multiply(x,y){
        return x*y
    }
}

math.add(40,50) // 90

This keyword

The JavaScript this keyword refers to the object it belongs to. It has different values depending on where it is used: ... In a function, this refers to the global object.

It has different values depending on where it is used:

In a method, this refers to the owner object.

Alone, this refers to the global object.

In a function, this refers to the global object.

In a function, in strict mode, this is undefined.

In an event, this refers to the element that received the event.

Methods like call(), and apply() can refer this to any object.

The value of this depends on the invocation context the unction it is used in.

const person = {
    first: "Tushar",
    last : "Rajpoot",
    nickName: false,
    fullName(){
        // console.log(this)
        return `${this.first} ${this.last}`
    },
    printBio(){
        const fullName = this.fullName();
        console.log(`${fullName} is a person`)
    }
}

We should not use arrow functions in methods

Document Object Model

The DOM is a JavaScript representation of a webpage.

It's your JS "window" into the contents of a webpage

It's just a bunch of objects that you can interact with via JS.

The Document Object

The document object is our entry point into the world of the DOM. It contains representations of all the content on a page, plus tons of useful methods and properties.

Selecting

getElementById

getElementsByTagName

getElementsByClassName

querySelector

A newer, all-in-one method to select a single element.

Pass in a CSS selector

const btn = document.querySelector(".red")

querySelectorAll

Same idea but it selects a collection of elements.

const buttons = document.querySelector(".red")

properties and methods

classList

getAttribute()

setAttribute()

appendChild()

append()

prepend()

removeChild()

remove()

createElement

innerText

textContent

innerHTML

value

parentElement

children

nextSibling

previousSibling

style

Events in DOM

Responding to user inputs and actions !

clicks

drags

drops

hovers

scrolls

form submission

key presses

focus/blur

mouse wheel

double click

copying

pasting

audio start

screen resize

printing

addEventListener

Specify the event type and a callback to run.

const button = document.querySelector("h1");
button.addEventListener("click",()=>{
    alert("You clicked me")
})

getAttribute() and setAttribute()

const btn = document.querySelector('input[type="submit"]')

btn.getAttribute('type')
>"submit"
btn.setAttribute('type','new')

finding parent/children/sibling

element.parentElement
element.children
element.nextSibling
element.previousSibling

changing multiple elements

const buttons = document.querySelectorAll('.btn')
buttons.forEach((e)=>{
    e.innerText = 'new Button'
})

Altering styles

every element has a style property.

we can use the style property to change colors or styles we can change any of those properties and they will be affected on the page but if we're trying to use the style property to read existing properties to read existing styles it won't work unless those styles are defined inline.

getComputedStyle

let styles = getComputedStyle(h1)

Manipulating classes

todo.setAttribute("class","done")
// remove a class
todo.classList.remove('done')
// add a class
todo.classlist.add('done')
// check element has class or not
todoAdd.getAttribute('class').includes('done')
// toggle will remove if class exist and add class if it doesn't'
todoAdd.classList.toggle('done')

Creating elements

let h1 = document.createElement('h1')
h1.innerText = "This is heading 1"
// add class to the element
h1.classList.add('heading')
// add an id to the element
h1.setAttribute('id','heading1')

// add an element to the existing element
const section = document.querySelector('section')
const newImg = document.createElement('img')
newImg.setAttribute('src',url)
section.appendChild(newImg)

append, prepend and insertBefore

const parentUl = document.querySelector('ul')
const newLi = document.createElement('li')
newLi.innerText = "Tushar"
parentUl.appendChild(newLi)
const firstLi = document.querySelector('li')​
parentUl.insertBefore(newLi,firstLi)

insertAdjacentElement

element.insertAdjacentHTML(position, text);

'beforebegin': Before the element itself. 'afterbegin': Just inside the element, before its first child. 'beforeend': Just inside the element, after its last child. 'afterend': After the element itself.

<!-- beforebegin -->
<p>
  <!-- afterbegin -->
  foo
  <!-- beforeend -->
</p>
<!-- afterend -->

const le = document.createElement('li')
h1.insertAdjacentElement('beforebegin',le)

append()

firstP.append(i,newLi);
firstP.prepend(i,newLi)

removeChild()

const ul = document.querySelector('ul')​
const removeMe = ul.querySelector('.special')​
ul.removeChild(removeMe)

remove()

doesn't need parent element

removeMe.remove()

DOM Events

Responding to user inputs and actions.

clicks

drags

drops

hovers

scrolls

form submission

key presses

focus/blur

mouse wheel

double click

copying

pasting

audio start

screen resize

printing

Using Events

using on

<button onclick="fun()">Click</button>

More content will be added soon for events

---

Asynchronous JavaScript, Callbacks and Promises

Call Stack

The mechanism the JS interpreter uses to keep track of its place in a script that calls multiple functions.

How JS "knows" what function is currently being run and what functions are called from within that function etc.

How it works

When a script calls a function, the interpreter adds it to the call stack and then starts carrying out the function.

Any functions that are called by that function are added the call stack further up, and run where their callls are reached

When the current function is finished, the interpreter takes it off the stack and resumes execution where it left off the last code listing.

Stack is a linear data structure which follows a particular order in which the operations are performed. The order may be LIFO(Last In First Out) or FILO(First In Last Out). There are many real-life examples of a stack

const multiply = (x,y) => x*y;
const square = (x) => multiply(x,x);

const isRightTriangle = (a,b,c)=>{
    return square(a) + square(b)=== square(c);
}

isRightTriangle(3,4,5);
// square(3) + square(4)===square(4)

JavaScript is a single threaded language

At any given point in time, that single JS thread is running at most one line of JS code.

How asynchronous callbacks actually work?

Browsers come with web APIs that are able to handle certain tasks in the background (like making requests or setTimeout)

The JS call stack regocnizes these web API functions and passes them off to the browser to take care of

Once the browser finishes those tasks, they return and are pushed onto the stack as a callback.

try your code here :- click here

Callback Hell

What is Synchronous Javascript?

In Synchronous Javascript, when we run the code, the result is returned as soon as the browser can do. Only one operation can happen at a time because it is single-threaded. So, all other processes are put on hold while an operation is executing.

What is Asynchronous Javascript?

Some functions in Javascript requires AJAX because the response from some functions are not immediate. It takes some time and the next operation cannot start immediately. It has to wait for the function to finish in the background. In such cases, the callbacks need to be asynchronous.

There are some external Javascript Web APIs that allows AJAX – Asynchronous Javascript and XML. In AJAX, many operations can be performed simultaneously.

What is a callback?

Callbacks are nothing but functions that take some time to produce a result.

Usually these async callbacks (async short for asynchronous) are used for accessing values from databases, downloading images, reading files etc.

As these take time to finish, we can neither proceed to next line because it might throw an error saying unavailable nor we can pause our program.

So we need to store the result and call back when it is complete.

What is callback hell?

This is a big issue caused by coding with complex nested callbacks. Here, each and every callback takes an argument that is a result of the previous callbacks. In this manner, The code structure looks like a pyramid, making it difficult to read and maintain. Also, if there is an error in one function, then all other functions get affected.

Promises

A promise is an object representing the eventual completion or failure of an asynchronous operation.

A Pattren for writing async code.

A promise is a returned object to which we can attach callbacks, instead of passing callbacks into a function.

when we create a promise, we pass in a function. And this function has two parameters. Always these two parameters we usually call resolve and reject. And these are actually functions.

Inside of inside promise function if we call resolve, the promise will be resolved. If we call reject, the promise will be rejected.

If we don't resolve or reject it, it's status will be pending.

If we reject it, our promise status will be rejected.

If we resolve it, promise status will be resolved.

// create a promise which resolved using a random number
const getMePhone = new Promise((resolve,reject) => {
    let rand = Math.random()
    if(rand<0.5){
        resolve()
    }
    else{
        reject()
    }

})

How do I run code if this promise was rejected versus run code, if this promise was resolved?

.then: every promise has a then method. this then method will run if our promise is resolved.

.catch Every promise has a catch method also. We can chain it with .then or we can write along with promise.

getMePhone.then(()=>{
    console.log("Yeah I got a Phone")
}).catch(()=>{
    console.log("No Phone")
})

Returning promises from Functions

// returning a promise from a function
const makeDogPromise = () => {
    return new Promise((resolve, reject) => {
        setTimeout(() => {
            const rand = Math.random();
            if (rand < 0.5) {
                resolve()
            }
            else
                reject()
        }, 5000)
    })
}
makeDogPromise().then(()=>{
    console.log("hello")
})

Resolving/rejecting promises with values

we can pass information in to the resolve or reject calls.

const fakeRequest = (url)=>{
    return new Promise((resolve,reject)=>{
        setTimeout(()=>{
            const pages = {
                '/users' : "Users pages",
                '/about' : "About page"
            }
            const data = pages[url]
            if(data){                

                resolve(pages[url])
            }
            else{
                reject({status:400})
            }
        },2000)
    })
}

fakeRequest('/users').then((data)=>{
    console.log(data)
}).catch((res)=>{console.log(res.status)})

Promise Chaining

const fakeRequest = (url) => {
    return new Promise((resolve, reject) => {
        setTimeout(() => {
            const pages = {
                '/users': [
                    { id: 1, username: 'Tushar' },
                    { id: 5, username: 'Rahul' }
                ],
                '/users/1': {
                    id: 1,
                    username: 'Tushar',
                    country: 'India',
                    work: 'Noida',
                    role: 'Software Engineer',
                    postid: 54
                },
                '/users/5': {
                    id: 5,
                    username: 'Rahul',
                    country: 'India',
                    work: 'Noida',
                    role: 'DevOps Engineer'
                },
                '/posts/54': {
                    id: 54,
                    title: 'My new Post',

                },
                '/about': "About page"
            }

            const data = pages[url]
            if (data) {
                resolve(pages[url])
            }
            else {
                reject({ status: 400 })
            }
        }, 2000)
    })
}

fakeRequest('/users').then((data) => {
    let id = data[0].id;
    return fakeRequest(`/users/${id}`)
})
    .then((data) => {
        // console.log(data)
        let postid = data.postid;
        return fakeRequest(`/posts/${postid}`)
    })
    .then((data) => {
        console.log(data)
    })
    .catch((err) => { console.log(err) })

---

Making http requests

XMLHTTP (old standard method)

Fetch (a better way)

Axios (a third party library)

What is AJAX?

Asynchronous Javascript and XML.
AJAX is a technique for accessing web servers from a web page.

Read data from a web server - after a web page has loaded

Update a web page without reloading the page

Send data to a web server - in the background

AJAX just uses a combination of:

A browser built-in XMLHttpRequest object (to request data from a web server) JavaScript and HTML DOM (to display or use the data)

AJAX allows web pages to be updated asynchronously by exchanging data with a web server behind the scenes. This means that it is possible to update parts of a web page, without reloading the whole page.

1. An event occurs in a web page (the page is loaded, a button is clicked)
2. An XMLHttpRequest object is created by JavaScript
3. The XMLHttpRequest object sends a request to a web server
4. The server processes the request
5. The server sends a response back to the web page
6. The response is read by JavaScript
7. Proper action (like page update) is performed by JavaScript

XML and JSON

AJAJ- Asyncrhonous Javascript and JSON .

XML and JSON are two ways of basically formatting data so that you can send it from a server to another server or a server to a browser.

XML Format

<note>
<to>Tove</to>
<from>Jani</from>
<heading>Reminder</heading>
<body>Don't forget me this weekend!</body>
</note>

JSON Format

(JavaScript Object Notation)

{  
    "employee": {  
        "name":       "sonoo",   
        "salary":      56000,   
        "married":    true  
    }  
}  

JSON is not JS object

Every key in JSON must be a string

We can also use arrays in JSON

We can easily translate between JSON to JavaScript

XMLHttpRequest

The "original" way of sending requests via JS.

Does not support promises, so... lots of callbacks

WTF is going on with the weird capitalization

Clunky syntax that I find difficult to remember.

const myReq = new XMLHttpRequest();
myReq.onload = function(){
    const data = JSON.parse(this.responceText)
    console.log(data);
}
myReq.onerror = (err)=>{
    console.log("Error",err)
}
myReq.open('get','sample.com',true);
myReq.setRequestHeader('Accept','application/json');
myReq.send();
console.log(myReq.response)

Making requests using fetch

The newer way of making requests via JS.

Supports promises.

Not supported in Internet Explorer.

fetch('url',{header: { Accept: 'application/json'}})
.then((res)=> {
    if(res.status!=200){
        console.log("Problem",res.status)
        return;
    }
    res.json().then((data)=> {
        console.log(data)
    })

})
.catch((err)=> {console.log(err)})

Chaining fetch requests

const url = "https://swapi.dev/api/planets";
fetch(url).then((res)=>{
    return res.json()
    
})
.then((data)=>{
    return data.results
})
.then((results)=>{
    const filmUrl = results[0].films[0];
    return fetch(filmUrl)
})
.then((results)=>{
    return results.json()
}).then((data)=>{
    console.log(data)
})
.catch((err)=>{console.log(err)})

Refactoring fetch requests

const checkStatusAndParse = (response)=>{
    if(!response.ok) throw new Error('Status code error')
    return response.json();
}
const printPlanets = (data)=>{
    console.log("FETCHED ALL PLANETS")
    data.results.forEach((planet)=>{
        console.log(planet.name)
    })
    return Promise.resolve(data.next)
}

const fetchMorePlanets = (url)=>{
    return fetch(url);
}

fetch(url)
.then(checkStatusAndParse)
.then(printPlanets)
.then(fetchMorePlanets)
.then(checkStatusAndParse)
.then(printPlanets)
.catch((err)=>{console.log(err)})

Axios

A library for making http requests.

axios.get(url).then((res)=>{
    console.log(res.data)
})
.catch((err)=>{
    console.log(err)
})

Sequential requests using axios

const showData = ({data})=>{
    data.results.forEach((planet) => {
        console.log(planet.name)
    })
    return axios.get(data.next)
}

axios.get(url)
.then(showData)
.then(showData)

---

Async and Await

The async keyword

Async functions always return a promise.

If the function returns a value, the promise will be resolved with that value.

If the function throws an exception, the promise will be rejected.

async function hello(){
    return "Hey Guys"
}
hello();
// Promise(<resolved>: "Hey Guys")
async function huh(){
    throw new Error("Oh no")
}
huh();
// Promise(<rejected>: Error: oh no)
const add  = async (a,b) => {
    return a+b;
}

add(24,35).then((value) => {console.log(value)})

The Await keyword

We can only use the await keyword inside of function declared with async.

Await will pause the execution of the function, waiting for a promise to be resolved.

async function getData(){
    const res = await axios.get('https://swapi.dev/api/planets')
    console.log(res.data)
}

Error handling in async Functions

We can use catch while calling the async function as we know async functions always return promise.

getData().catch((err) => {console.log(err)})

We can add a try and catch block

async function getData(){
    try{
        const res = await axios.get('https://swapi.dev/api/planets')
        console.log(res.data)
    }
    catch(err){
        console.log(err)
    }
}

Multiple Awaits

async function animateRight(el, amt) {
	await moveX(el, amt, 1000);
	await moveX(el, amt, 1000);
	await moveX(el, amt, 1000);
	await moveX(el, amt, 1000);
	await moveX(el, amt, 1000);
	await moveX(el, amt, 1000);
	await moveX(el, amt, 1000);
	await moveX(el, amt, 1000);
	await moveX(el, amt, 1000);
	await moveX(el, amt, 1000);
}

Parallel vs Sequential requests

// SEQUENTIAL REQUEST
async function getData(){
    // if I want to request 3 urls
   const res = await axios.get("https://pokeapi.co/api/v2/pokemon/1")
   const res2 = await axios.get("https://pokeapi.co/api/v2/pokemon/2")
   const res3 = await axios.get("https://pokeapi.co/api/v2/pokemon/3")
   console.log(res.data)
}

These requests are happening in sequence, like second request will happen when first done.

Awaiting in parallel

async function getData(){
    // if I want to request 3 urls
   const res = axios.get("https://pokeapi.co/api/v2/pokemon/1")
   const res2 = axios.get("https://pokeapi.co/api/v2/pokemon/2")
   const res3 = axios.get("https://pokeapi.co/api/v2/pokemon/3")
   const poke1 = await res
   const poke2 = await res2
   const poke3 = await res3
//    now res, res2, res3 are promises not data
   console.log(poke1.data)
}

Refactoring with Promise.all

Promise.all accepts an array of promises.

async function getData(){
   const res = axios.get("https://pokeapi.co/api/v2/pokemon/1")
   const res2 = axios.get("https://pokeapi.co/api/v2/pokemon/2")
   const res3 = axios.get("https://pokeapi.co/api/v2/pokemon/3")
   const results = await Promise.all([res,res2,res3])
   console.log(results)
}

Prototypes, Classes, & the new operator

What are protoypes?

Prototypes are the mechanism by which JavaScript objects inherit features from one another.

A prototype-based language?

JavaScript is often described as a prototype-based language — to provide inheritance, objects can have a prototype object, which acts as a template object that it inherits methods and properties from.

An object's prototype object may also have a prototype object, which it inherits methods and properties from, and so on. This is often referred to as a prototype chain, and explains why different objects have properties and methods defined on other objects available to them.

We can define prototypes of string like

String.prototype.getup  = function(){
   return this.toUpperCase()
}

We can change already defined protoypes as well. For example

Array.prototype.pop = function(){
    return "Sorry"
}

Object Oriented Programming in JavaScript

There are certain features or mechanisms which makes a Language Object-Oriented like:

Object

Classes

Encapsulation

Inheritance

Object

An Object is an instance of a class. Objects are everywhere in JavaScript almost every element is an Object whether it is a function, array, and string.

A Method in javascript is a property of an object whose value is a function.

Object can be created in two ways in JavaScript:

1. Using an Object Literal

   //Defining object
   let person = {
   	first_name:'Mukul',
   	last_name: 'Latiyan',
   
   	//method
   	getFunction : function(){
   		return (`The name of the person is
   		${person.first_name} ${person.last_name}`)
   	},
   	//object within object
   	phone_number : {
   		mobile:'12345',
   		landline:'6789'
   	}
   }
   console.log(person.getFunction());
   console.log(person.phone_number.landline);

2. Using an Object Constructor

   //using a constructor
   function person(first_name,last_name){
   this.first_name = first_name;
   this.last_name = last_name;
   }
   //creating new instances of person object
   let person1 = new person('Mukul','Latiyan');
   let person2 = new person('Rahul','Avasthi');
   
   console.log(person1.first_name);
   console.log(`${person2.first_name} ${person2.last_name}`);

Using Object.create() method:
The Object.create() method creates a new object, using an existing object as the prototype of the newly created object.

// Object.create() example a
// simple object with some properties
const coder = {
	isStudying : false,
	printIntroduction : function(){
		console.log(`My name is ${this.name}. Am I
		studying?: ${this.isStudying}.`)
	}
}
// Object.create() method
const me = Object.create(coder);

// "name" is a property set on "me", but not on "coder"
me.name = 'Mukul';

// Inherited properties can be overwritten
me.isStudying = true;

me.printIntroduction();

Classes

Classes are blueprint of an Object. A class can have many Object, because class is a template while Object are instances of the class or the concrete implementation.

// Defining class using es6
class Vehicle {
constructor(name, maker, engine) {
	this.name = name;
	this.maker = maker;
	this.engine = engine;
}
getDetails(){
	return (`The name of the bike is ${this.name}.`)
}
}
// Making object with the help of the constructor
let bike1 = new Vehicle('Hayabusa', 'Suzuki', '1340cc');
let bike2 = new Vehicle('Ninja', 'Kawasaki', '998cc');

console.log(bike1.name); // Hayabusa
console.log(bike2.maker); // Kawasaki
console.log(bike1.getDetails());

unlike other Object Oriented Language there is no classes in JavaScript we have only Object. To be more precise, JavaScript is a prototype based object oriented language, which means it doesn’t have classes rather it define behaviors using constructor function and then reuse it using the prototype.

JavaScript classes, introduced in ECMAScript 2015, are primarily syntactical sugar over JavaScript’s existing prototype-based inheritance. The class syntax is not introducing a new object-oriented inheritance model to JavaScript. JavaScript classes provide a much simpler and clearer syntax to create objects and deal with inheritance.

Encapsulation

The process of wrapping property and function within a single unit is known as encapsulation.

//encapsulation example
class person{
	constructor(name,id){
		this.name = name;
		this.id = id;
	}
	add_Address(add){
		this.add = add;
	}
	getDetails(){
		console.log(`Name is ${this.name},Address is: ${this.add}`);
	}
}

let person1 = new person('Mukul',21);
person1.add_Address('Delhi');
person1.getDetails();

Sometimes encapsulation refers to hiding of data or data Abstraction which means representing essential features hiding the background detail.

Inheritance

It is a concept in which some property and methods of an Object is being used by another Object. Unlike most of the OOP languages where classes inherit classes, JavaScript Object inherits Object i.e. certain features (property and methods)of one object can be reused by other Objects.

//Inheritance example
class person{
	constructor(name){
		this.name = name;
	}
	//method to return the string
	toString(){
		return (`Name of person: ${this.name}`);
	}
}
class student extends person{
	constructor(name,id){
		//super keyword to for calling above class constructor
		super(name);
		this.id = id;
	}
	toString(){
		return (`${super.toString()},Student ID: ${this.id}`);
	}
}
let student1 = new student('Mukul',22);
console.log(student1.toString());

Factory Functions

function makeColor(r, g, b) {
    const color = {}
    color.r = r;
    color.g = g;
    color.b = b;
    color.rgb = function () {
        const { r, g, b } = this;
        return `rgb(${r}, ${b}, ${g})`
    }
    color.hex = function () {
        const { r, g, b } = this;
        return '#' + ((1 << 24) + (r << 16) + (g << 8) + b).toString(16).slice(1)

    }
    return color;
}

This above function makes us an object. This is called factory function.

Constructor funcion

Factory function pattern is not commonly used. Instead of this we use constructor pattern or constructor function.

The new operator

The new operator lets developers create an instance of a user-defined object type or of one of the built-in object types that has a constructor function.

new constructor[([arguments])]

function Car(make,model,year){
    this.make = make
    this.model = model
    this.year = year
}

let car1 = new Car("Audi", "Q7", "2022")

constructor
A class or function that specifies the type of the object instance.

arguments
A list of values that the constructor will be called with.

1. Creates a blank, plain JavaScript object.
2. Adds a property to the new object (__proto__) that links to the constructor function's prototype object
3. Binds the newly created object instance as the this context (i.e. all references to this in the constructor function now refer to the object created in the first step).
4. Returns this if the function doesn't return an object.

Classes in JavaScript

Whenever we define a class, we define a constructor() inside of it. Constructor is a function which will run immediately when a object is created using this class.

class Color{
    constructor(r,g,b){
        console.log("INSIDE CONSTRUCTOR")
        console.log(r,g,b)

    }
}

const c1 =  new Color(333,43,34)

We can define object methods in class

class Color{
    constructor(r,g,b){
        this.r = r
        this.g = g
        this.b = b
    }
    greet(){
        const {r,g,b} = this
        return `rgb(${r}, ${g}, ${b})`
    }
}

const c1 =  new Color(333,43,34)

Extends, Super and Subclasses

We can inherit a class to another class using extends keyword

class Pet {
    constructor(name,age){
        this.name = name
        this.age = age
    }
    eat(){
        return `${this.name} is eating`
    }
}

class Cat extends Pet{
    meow(){
        return "MEOWWW"
    }
}

class Dog extends Pet{
    bark(){
        return "BARKWW"
    }
}

const cat1 = new Cat("Losi",5)
const dog1 = new Dog("Rockie",7)

The super keyword is used to access and call functions on an object's parent.

class Rectangle {
  constructor(height, width) {
    this.name = 'Rectangle';
    this.height = height;
    this.width = width;
  }
  sayName() {
    console.log('Hi, I am a ', this.name + '.');
  }
  get area() {
    return this.height * this.width;
  }
  set area(value) {
    this._area = value;
  }
}

class Square extends Rectangle {
  constructor(length) {
    this.height; // ReferenceError, super needs to be called first!

    // Here, it calls the parent class's constructor with lengths
    // provided for the Rectangle's width and height
    super(length, length);

    // Note: In derived classes, super() must be called before you
    // can use 'this'. Leaving this out will cause a reference error.
    this.name = 'Square';
  }
}

---

JavaScript with Node.js

JS in Browser	JS with Node
Executed by adding script tags to an HTML document	Executed by running the NODE CLI from your terminal
We get access to the DOM and related objects(window)	NO DOM exists
Code can references variables in other files freely	Each file is its own seperte world
Include libraries by adding script tags(more complicated solutions exist)	Include libraries by using NPM(Node Package Manager)

Running JS code with Node

$ node index.js # executes a file in te same directory caled index.js

$ node # enters the NODE REPS

Working with Modules in Node.js

If we want to share stuff between different node js files. We can make use of modules

// index.js
const message = require('./myscript.js')
console.log(message)

// myscript.js
module.exports = 'Hi'

$ node index.js

Invisible functions

If we are running index.js file, node will find index.js file and then it's going to wrap it inside a function like this

function (exports, require, module,__filename, __dirname){
    const message = require('./myscript.js')
    console.log(message)
}

This is a simple function that has some number of arguments. This function is going to be automatically invoked by node. Here are 5 arguments that are automatically provided.

exports	Equivalent to module.exports . We can technically export code using this, but it is easier to use 'module.exports' because of a little corner
require	Function to get access to the exports from another file
module	Object that defines some properties + informtion about the current file
__filename	Full path + file name of this file
__dirname	Full path of this file

We can check these arguments by running -

console.log(arguments)

The require cache

Modules are cached after the first time they are loaded. This means (among other things) that every call to require('foo') will get exactly the same object returned, if it would resolve to the same file.

Moules get only required once.

Debugging Node js

node inspect index.js	Start up a debugger CLI and pause execution whenever a debugger statement is hit
node --inspect index.js	start up a debugger instance and pause execution whenever a debugger statement is hit. Access the debugger at 'chrome://inspect'
node --inspect-brk index.js	Start up a debugger instance and wait to execute until a debugger is connected. Access the debugger at 'chrome://inspect'

CLI Debugger commands

C	Continue execution until program ends or next debugger statement
n	Run the next line of code
s	step in to a function
o	Step out of current function

Accessing Node js standard library modules

We can access node js provided inbuilt standard library modules using require function.

If we want to use file system we can require fs just like this

const fs = require('fs');

callback pattern in Node js

let's use fs.readdir function which accepts callbacks.

If we want to use current directory, first argument we need to pass '.' in the function. The second argument is callback.

const fs = require('fs');
fs.readdir('.',(err,files)=>{
    if(err){
        console.log(err)
    }
    console.log(files)
})

Process.cwd function

cwd means current working directory.

const fs = require('fs');
fs.readdir(process.cwd(),(err,files)=>{
    if(err){
        console.log(err)
    }
    console.log(files)
})

Running a Node program as an Executable

$ npm init -y

This command will generate a file for us, package.json

{
  "name": "project-1",
  "version": "1.0.0",
  "description": "",
  "main": "index.js",
  "scripts": {
    "test": "echo \"Error: no test specified\" && exit 1"
  },
  "keywords": [],
  "author": "",
  "license": "ISC"
}

Here we can see a key "scripts" so these are tiny script that do some automated tasks for us.

We can add another script that try to build our project

  "scripts": {
    "test": "echo \"Error: no test specified\" && exit 1",
    "build": "npm run build"
  },

We can add bin key in this file so that when we run this nls command in our terminal our index.js file will be executed.

  "bin":{
    "nls": "index.js"
  }

Create package.json file with bin section

Change index.js file permissions

$ chmod +x index.js

Add comment to index.js file to allow it to be treated like an executable

#!/usr/bin/env node

Link our project

$ npm link

Now our project(index.js) file is executable. We can execute it from anywhere in our system just by command nls.

It's very useful for creating command line tools using node js.

Options to get to know which file is dir or file

Maintain an array of results from each lstat. As each callback is invoked, add the stats object to this array. When array is full, log everything in it.

Wrap the lstat call with a promise, use async/await syntax to process lstat call one at a time

Wrap the lstat call with a promise, use async/await + the Promise.all helper method to process lstat calls all at once.

let's implement most optimized solution(promise.all based)

#!/usr/bin/env node
const fs = require('fs');
const chalk = require('chalk')
const {lstat} = fs.promises;

fs.readdir(process.cwd(),async (err,files)=>{
    if(err){
        console.log(err)
    }
const fileAr = files.map((file)=>{return lstat(file)})
    const stats = await Promise.all(fileAr)
    
    stats.forEach((stat,index)=>{
        if(stat.isFile()){
            console.log(chalk.blue(files[index]))
        }
        else{
            console.log(chalk.green(files[index]))
        }
    })
})

Taking inputs from commandline

If we console.log process.argv this will return an array and whatever we pass with our executable command that will be pushed into this array.

console.log(process.argv)

---

Thanks for reading this..

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Author: Tushar Rajpoot

Publication: Kubekode