JavaScript: Difference between revisions
Jump to navigation
Jump to search
Lsokolowski1 (talk | contribs) |
Lsokolowski1 (talk | contribs) |
||
Line 609: | Line 609: | ||
let txt = ""; | let txt = ""; | ||
const showF = (value) => txt += `${value.name value.price<br>}`; | const showF = (value) => txt += `${value.name value.price'<br>'}`; | ||
myArr.forEach(showF); | myArr.forEach(showF); | ||
console.log(txt); | console.log(txt); |
Revision as of 21:14, 15 November 2023
THIS IS A DRAFT
This text may not be complete.
JavaScript
JavaScript Training Materials
Copyright Notice
Copyright © 2004-2023 by NobleProg Limited All rights reserved.
This publication is protected by copyright, and permission must be obtained from the publisher prior to any prohibited reproduction, storage in a retrieval system, or transmission in any form or by any means, electronic, mechanical, photocopying, recording, or likewise.
JavaScript Intro ⌘
- Names, versions, etc
- Finished proposals
What is this buzz all about? ⌘
- All the JavaScript acronyms can be confusing
- Was originally named JavaScript in hopes of capitalizing on the success of Java
- JavaScript was submitted to ECMA International for Standardization (organization that standardizes information)
- ECMAScript is a standard
- JavaScript is the most popular implementation of that standard
- JavaScript implements ECMAScript and builds on top of it
- Other implementations: SpiderMonkey, V8, ActionScript, and more
Other names ⌘
- ES is simply short for ECMAScript
- ES followed by a number is referencing an edition of ECMAScript
- There are 8 editions of ECMAScript published
- ES1: June 1997, ES2: June 1998, ES3: Dec 1999, ES4: Abandoned, due to political differences
- ES5: Dec 2009 - presently fully supported by all most popular web browsers
- ES6 / ES2015: June 2015 - the decision was make to move to annual updates
- From now on official name reflects the year of release (no longer ES7, ES8, etc)
- ES2016: June 2016, ES2017: June 2017
Finished proposals ⌘
- All of them
- ECMAScript 2016
- ECMAScript 2017
- ECMAScript 2018
ECMAScript 2015 ⌘
- For of
- http://es6-features.org/#IteratorForOfOperator
- d3js example, index.js, ch4
- Set
- Map
- Spread
ECMAScript 2016 ⌘
- Array.prototype.includes
- Exponentiation infix operator
Array.prototype.includes ⌘
- includes instance method on the Array
- Helps to easily find if an item is in the Array (including NaN unlike indexOf)
const setty = ['me', 'doing', 'js', NaN];
// Before, and doesn't search NaN
if ( setty.indexOf("js") >= 0 ) { console.log(true); }
setty.indexOf(NaN); // false
// Now, and searches NaN
if ( setty.includes("js") ) { console.log(true); }
setty.includes(NaN); // true
Exponentiation infix operator ⌘
- In exponent operation the ** was introduced instead of Math.pow
// Earlier
Math.pow(7, 2)
// Now
7**2
ECMAScript 2017 ⌘
- Object.values()
- Object.entries()
- String padding
- Object.getOwnPropertyDescriptors
- Trailing commas, function parameters
- Async/Await
Object.values() ⌘
- New function similar to Object.keys()
- Returns all the values of the Object’s own properties
- but excluding any value(s) in the prototypical chain
const bookPrices = { Thud: 20, LOTR: 50, Drupal8: 30 };
// Before
const prices = Object.keys(bookPrices).map( priceKey => bookPrices[priceKey]);
console.log(prices); // [20, 50, 30]
// Now
const prices1 = Object.values(bookPrices);
console.log(prices1); // [20, 50, 30]
Object.entries() ⌘
- Also similar to Object.keys()
- Returns as array both, keys and values
- Simplifies using objects in loops or converting objects into Maps
const bookPrices = { Thud: 20, LOTR: 50, Drupal8: 30 };
const map = new Map();
// Extracting keys and looping; map
Object.keys(bookPrices).forEach( function(priceKey) {
console.log('Book: ' + priceKey + ' costs: ' + bookPrices[priceKey]);
map.set(priceKey, bookPrices[priceKey]);
});
console.log(map); // Map(3) {"Thud" => 20, "LOTR" => 50, "Drupal8" => 30}
// Easier (-:
for ( let [k, v] of Object.entries(bookPrices) ) {
console.log(`Book: ${k} costs: ${v}`);
};
const map1 = new Map(Object.entries(bookPrices));
console.log(map1);
String padding ⌘
- Two new instance methods
- String.prototype.padStart and String.prototype.padEnd
- allow appending/prepending string (also empty one) to the start or the end of the original string
// printing multiple items of varying lengths and right-aligning them properly
const bookPrices = { 'Thud': '200', 'LOTR': '50', 'Drupal8': '5' };
Object.entries(bookPrices).map(([row, count]) => {
// padEnd appends ' ~' until the row becomes 25 characters
// padStart prepends '0' until the count becomes 4 characters
console.log(`${row.padEnd(25, ' ~')} Costs: ${count.padStart(4, '0')}`)
});
//Prints..
// Thud ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Costs: 0200
// LOTR ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Costs: 0050
// Drupal8 ~ ~ ~ ~ ~ ~ ~ ~ ~ Costs: 0005
Object.getOwnPropertyDescriptors ⌘
- Returns all the details for all the properties of a given object
- including methods get and set
- Allows shallow copying / cloning an object into another object
- that also copies getter and setter functions (as opposed to Object.assign)
var Comic = {
title: 'Thorgal', price: 100,
set discount(amount) {
this.d = amount;
},
get discount() {
return this.d;
},
};
// Print details of Comic object's 'discount' property
console.log(Object.getOwnPropertyDescriptor(Comic, 'discount'));
// Prints.. { get: [Function: get], set: [Function: set], enumerable: true, configurable: true }
// Copy Comic's properties to KindleComic using Object.assign
const KindleComic = Object.assign({}, Comic);
// Print details of KindleComic object's 'discount' property
console.log(Object.getOwnPropertyDescriptor(KindleComic, 'discount'));
// prints.. { value: undefined, writable: true, enumerable: true, configurable: true }
// getters and setters are missing.. )-:
// Copy Comic's properties to KindleComic2 using Object.defineProperties
// and extract Comic's properties using Object.getOwnPropertyDescriptors
const KindleComic2 = Object.defineProperties({}, Object.getOwnPropertyDescriptors(Comic));
//Print details of KindleComic2 object's 'discount' property
console.log(Object.getOwnPropertyDescriptor(KindleComic2, 'discount'));
//prints.. { get: [Function: get], set: [Function: set], enumerable: true, configurable: true }
// getters and setters are present in the ElectricCar2 object for 'discount' property (--8
Trailing commas, function parameters ⌘
- Allows us to have trailing commas after the last function parameter
- Helps with tools like git blame to ensure only new developers get blamed
function Comic (
title,
year // Devel1 does this without ','
){
this.title = title;
this.year = year;
}
function Comic (
title,
year, // Devel2 has to add ','
genre // Devel2 can add new parameter now
){
this.title = title;
this.year = year;
this.genre = genre; // Devel2 adds
}
// Solution
function Comic (
title,
year, // Devel2 doesn't need to change here (-:
){
this.title = title;
this.year = year;
}
Async/Await ⌘
- Async functions
- no callback hell
- make the entire code look simple
- When seeing async keyword, JavaScript compiler treats the function differently
- pauses whenever it reaches the await keyword within that function
- assumes that the expression after await returns a promise
- and waits until the promise is resolved or rejected before moving further
Basic example ⌘
// Usual promise way
function getInvoice(clientId) {
getClient(clientId)
.then(getFromTool)
.then(invoice => {
console.log(invoice);
});
}
// New way
async function getInvoice2(clientId) {
var client = await getClient(clientId);
var invoice = await getFromTool(client);
console.log(invoice);
}
getInvoice("Sam Sung");
getInvoice2("Sam Sung");
function getClient(clientId) {
return new Promise( resolve => {
setTimeout( () => {
resolve("Sam Sung");
}, 1000);
});
}
function getFromTool(clientId) {
return new Promise( (resolve, reject) => {
setTimeout( () => {
if ( clientId == "Sam Sung" ) {
resolve("Inv2-03052017");
} else {
reject("Unknown client");
}
}, 1000);
});
}
Exercise ⌘
Fix the example above (-:
Async functions themselves return a Promise ⌘
- If we are waiting for the result from an async function
- we need to use Promise’s then syntax to capture its result
async function glueScrabble(w1, w2) {
w1 = await fixLetters(w1);
w2 = await fixLetters(w2);
return w1 + w2;
}
glueScrabble('a', 'b').then(console.log);
function fixLetters(letter) {
return new Promise ( resolve => {
setTimeout( () => { resolve( letter.toUpperCase() ) }, 5000);
});
}
Calling async/await in parallel ⌘
- Instead of calling await twice and each time waiting for five seconds (total 10 seconds)
- we can parallelize it since a and b are not dependent on each other using Promise.all
async function glueScrabble2(w1, w2) {
// with Array destructuring
[w1, w2] = await Promise.all( [fixLetters(w1), fixLetters(w2)] );
return w1 + w2;
}
glueScrabble2('a', 'b').then(console.log);
Error handling async/await functions
- Use try catch within the function
- Catch every await expression
- Catch the entire async-await function
Use try catch within the function
// Use try catch within the function
async function glueScrabble3(w1, w2) {
try {
w1 = await fixLetters3(w1);
w2 = await fixLetters3(w2);
} catch (e) {
return e.name;
}
return w1 + w2;
}
// Usage:
glueScrabble3(23, 'b').then(console.log); // "TypeError"
glueScrabble3('a', 'b').then(console.log); // AB
function fixLetters3(letter) {
return new Promise( (resolve, reject) => {
setTimeout( function() {
if ( typeof letter == "number" ) throw "Number given, should be a string";
let val = letter.toUpperCase(); console.log(val);
(!val) ? reject('TypeError') : resolve(val);
}, 1000);
});
}
Catch every await expression
// Catch errors on every await line
// each await expression is a Promise in itself
async function glueScrabble4(w1, w2) {
w1 = await fixLetters4(w1).catch(e => console.log('"w1" is a Number')); // Yep (-:
w2 = await fixLetters4(w2).catch(e => console.log('"w2" is a Number')); // Yep (-:
if ( !w1 || !w2 ) {
return 'Both are numbers';
}
return w1 + w2;
}
//Usage:
glueScrabble4(234, 'a').then(console.log); // 'TypeError' and logs: "w1" is a Number
glueScrabble4('a', 'b').then(console.log); // AB
function fixLetters4(letter) {
return new Promise( (resolve, reject) => {
setTimeout( function() {
let val = letter.toUpperCase(); // console.log(val);
(!val) ? reject('TypeError') : resolve(val);
}, 1000);
});
}
Catch the entire async-await function
//Option 3 - Don't do anything but handle outside the function
//since async / await returns a promise, we can catch the whole function's error
async function doubleAndAdd(a, b) {
a = await doubleAfter1Sec(a);
b = await doubleAfter1Sec(b);
return a + b;
}
//Usage:
doubleAndAdd('one', 2)
.then(console.log)
.catch(console.log); // <------- use "catch"
function doubleAfter1Sec(param) {
return new Promise((resolve, reject) => {
setTimeout(function() {
let val = param * 2;
isNaN(val) ? reject(NaN) : resolve(val);
}, 1000);
});
}
Example from Ecma docs ⌘
d3js examples ⌘
- ch5, index.js
- ch2, index.js
ECMAScript 2018 ⌘
- Rest / spread properties
- Asynchronous iteration
- Promise.finally()
- Additions to RegExp
rest / spread properties
- allows to destruct an object and collect the leftovers onto a new object
Examples
let { x, y, ...z } = { x: 1, y: 2, a: 3, b: 4 };
x; // 1
y; // 2
z; // { a: 3, b: 4 }
// or longer:
let object = {a: 1, b: 2}
let objectClone = Object.assign({}, object) // before ES2018
let objectClone = {...object} // ES2018 syntax
let otherObject = {c: 3, ...object}
console.log(otherObject) // -> {c: 3, a: 1, b: 2}
Promise.prototype.finally()
- Allow running a callback after either resolve or reject to help clean things up
- The finally callback is called without any value and is always executed no matter what
// Resolve case...
let started = true;
let myPromise = new Promise(function(resolve, reject) {
resolve('all good');
})
.then(val => {
console.log(val); // logs 'all good'
})
.catch(e => {
console.log(e); // skipped
})
.finally(() => {
console.log('This function is always executed!');
started = false; // clean up
});
Promise.prototype.finally() Con't
- Error handling example
// Error cas 1...
// Error thrown from Promise
let started = true;
let myPromise = new Promise(function(resolve, reject) {
throw new Error('Error');
})
.then(val => {
console.log(val); // skipped
})
.catch(e => {
console.log(e); // catch is called since there was an error
})
.finally(() => {
// Notice that no value is passed here!
console.log('This function is always executed!');
started = false; // clean up
});
Asynchronous Iteration
- Asynchronous iterators and iterables
- we can use the await keyword in for/of loops
- Syntax
for await () {}
Examples
const promises = [
new Promise(resolve => resolve(1)),
new Promise(resolve => resolve(2)),
new Promise(resolve => resolve(3)),
];
// BEFORE:
// for-of uses regular sync iterator
// Doesn't wait for promise to resolve
async function test1(){
for (const obj of promises){
console.log(obj); // Logs 3 promise objects
}
}
// AFTER:
// for-await-of uses Async iterator
// Waits for Promise to resolve for each loop
async function test2(){
for await (const obj of promises){
console.log(obj); // Logs 1, 2, 3
}
}
test1(); // promise, promise, promise
test2(); // 1, 2, 3 ...prints values
Additions to RegExp
- Unicode Property Escapes (\p{...})
- Lookbehind Assertions (?<= ) and (?<! )
- Named Capture Groups
- s (dotAll) Flag
Execution improvements
- Threads - using the Web Workers API to create threads
- Worker threads
- are used to execute code in the background - main program can continue execution
- run simultaneously with the main program - it can be time-saving
- Worker threads
- Shared Memory - allows threads (different parts of a program)
- to access and update the same data in the same memory
- no passing data between threads
- instead we can pass a SharedArrayBuffer object that points to the memory where data is saved
- SharedArrayBuffer
- object which represents a fixed-length raw binary data buffer
- similar to the ArrayBuffer object
ES2019
- String.trimStart() and String.trimEnd()
- Object.fromEntries
- Array.flat() and Array.flatMap()
- Revised Array.Sort()
- Revised JSON.stringify()
- Separator symbols allowed in string litterals
- Revised Function.toString()
- Optional catch binding
Examples
let text1 = " Hi Universe! ";
let text2 = text1.trimStart();
let text3 = text1.trimEnd();
- Array.prototype.flat(), Array.prototype.flatMap(), Object.fromEntries()
Examples
// Example of Array.prototype.flat() and Array.prototype.flatMap() in ES10
let array = [1, 2, [3, 4]];
console.log(array.flat()); // Output: [1, 2, 3, 4]
let numbers = [1, 2, 3, 4];
console.log(numbers.flatMap(x => [x, x*2])); // Output: [1, 2, 2, 4, 3, 6, 4, 8]
// Example of Object.fromEntries() in ES10
let entries = [['name', 'John Doe'], ['age', 30]];
console.log(Object.fromEntries(entries)); // Output: { name: "John Doe", age: 30 }
- More stable Array sort() method
- previously unstable sorting algorithms (ie. QuickSort) were allowed
- now only stable can be used
- When sorting, elements must keep their relative position to other elements with the same value
Example
const myArr = [
{name:"X00",price:100 },
{name:"X01",price:100 },
{name:"X04",price:110 },
{name:"X05",price:110 },
{name:"X08",price:120 },
{name:"X09",price:120 },
];
myArr.sort( (p1, p2) => {
if (p1.price < p2.price) return -1;
if (p1.price > p2.price) return 1;
return 0;
});
let txt = "";
const showF = (value) => txt += `${value.name value.price'<br>'}`;
myArr.forEach(showF);
console.log(txt);
/*
when sorting on price, such result is not allowed to come:
X01 100
X00 100
X09 120
X08 120
*/
Optional catch
- Can be omitted if not needed
Example
// Before 2019:
try {
// code
} catch (err) {
// code
}
// After 2019:
try {
// code
} catch {
// code
}
State of JS
https://stateofjs.com/
jQuery Standards
http://lab.abhinayrathore.com/jquery-standards/
Polish US codes
http://crd.gov.pl/xml/schematy/dziedzinowe/mf/2018/08/24/eD/DefinicjeTypy/KodyUrzedowSkarbowych_v5-0E.xsd