:book: Notes on the seminal "Javascript the Good Parts: byDouglas Crockford

#Notes on Douglas Crockford’s Javascript the Good Parts :rocket: This book calls out the best parts of Javascript and tells you what to avoid (the ‘bad parts’). It’s about making sure you know the really important parts of the language and create good habits instead of having to break bad ones down the line.

contributions welcome Please don’t hesitate to submit PRs to improve these notes wherever you feel something can be clarified, improved on or have an example added to it.

The idea of these notes is to collect the excellent information from an already dense book into note form, translating these ideas into ‘plain English’ where possible and adding explanations throughout where the book might not make things obvious as it assumes prior knowledge.

You can buy the book from O’Reilly (non-affiliate link) or follow Douglas Crockford on Github.

##Table of Contents * Chapter 1 - Good Parts * Chapter 2 - Grammar * Chapter 3 - Objects * Chapter 4 - Functions * Chapter 5 - Inheritance * Chapter 6 - Arrays * Chapter 7 - Regular Expressions * Chapter 8 - Methods * Chapter 9 - Style * Chapter 10 - Beautiful Features * Appendix A - the Awful Parts * Appendix B - the Bad Parts * Appendix C - JSLint

##Chapter 1 - Good Parts

Most programming languages contain good parts and bad parts. I discovered that I could be a better programmer by using only the good parts and avoiding the bad parts. After all, how can you build something good out of bad parts?

The best parts of Javascript include: * functions * loose typing (variables are declared as variables, without a type) * dynamic objects * object literal notation (where you can create an object already with a list of key/value pairs inside curly braces)

The worst parts include global variables - there is a common global object namespace where they’re all lumped together and they’re essential to the language.

Javascript has a class free object makeup, relying instead on objects inheriting properties directly from other objects - this is prototypal inheritance.

##Chapter 2 - Grammar

Always use // for comments, even multi-line ones to avoid having to escape /* characters.


  • There is a single, 64-bit floating point number type.
  • NaN (Not-a-Number) is not equal to any value (including itself) and is essentially an illegal number value, but typeOf(NaN)===number is true
  • Use isNaN(number) to check for NaNs

Number methods are discussed in Chapter 8.


  • 16-bit character set and don’t have character tpes.
  • Backslashes (\) are used for escaping characters that could cause problems in strings.
  • Strings are immutable.

String methods are discussed in Chapter 8.


  • Inside a function, the var statement creates variables local to that function
  • switch, while, for and do statements can have an optional label which can be used with break and continue to provide more precise control over exactly which statement to break or continue. Format: labelname: statement and then continue labelname;
  • A block (statements with {}) do not create new scope - the variables are local to the function, not the block. So always define variables at the top of the function and not inside the blocks
  • falsy values:
    • false
    • null
    • undefined
    • Empty string ‘ ‘
    • The number 0
    • The number NaN
  • All other values are truthy including all objects & the string ‘false’
  • If no matches are found in case statements, the optional default statement is executed, otherwise the matching case statement is carried out
  • When using a for in loop, usually a good idea to use hasOwnProperty(variable) to make sure the property belongs to the object you want and is not instead an inherited property from the prototype chain: javascript for (myvariable in object) { if (object.hasOwnProperty(myvariable)) { ... //statements to be executed } }
  • A do while statement is always executed at least once as the while condition is only checked after the first iteration of the loop
  • catch clause in a try statement must create a new variable that will catch the exception object
  • Scope of thro statement is the try block it’s in, or the try of the function it’s in
  • If there is no return statement, return===undefined
  • break exits the statement and continue forces a new iteration of the loop, both with the optional label mentioned above


  • For expression ? expression2 : expression3, if expression is truthy, execute expresion2; it it’s falsy, execute expression3
  • Invocation is (expression1, expression2, etc)
  • refinement is either .name or [expression] as used in an array


  • Names or strings used for specifying new objects (object literals) or arrays (array literals)
  • Properties of the object are expressions and must be known at compile time

###Functions * A function literal defines a function value * More details in Chapter 4

##Chapter 3 - Objects

Javascript simple types: * numbers (has object-like methods but they are immutable) * strings (has object-like methods but they are immutable) * booleans (has object-like methods but they are immutable) * null * undefined

All other values are objects including arrays and functions.

Objects are class free, can contain other objects and can inherit properties from their prototypes (which can reduce object initialisatioin time and memory consumption).

###Object Literals

  • An object literal is zero or more comma-separated name/value pairs surrounded by curly braces {}

var empty_object = {};

var today = {
	day: "Wednesday",
	month: "April",
	year: 2014,

	weather: { //objects can contain nested objects like this one
		morning: "sunny",
		afternoon: "cloudy"


  • Can be done with either dot notation or with square brackets today['month']
  • Or operand (||) can be used to fill in default values for nonexistent data to prevent and undefined error: var weath = || "unknown"


  • Assigning a property value to an object overwrites any existing property values with that property name


  • Objects refer to each other, they don’t hold duplicate copies of data


  • Every object has a prototype object from which it inherits properties
  • Object.prototype comes standard with Javascript and is almost like a ‘root parent’ Object prototype diagram
  • The Object.create method is now available in ES5 (but the method is in the book if required for older versions)
  • If an object does not have a property you ask it for, it will keep looking up the prototype chain until it finds it
    • If the property does note exist anywhere in the chain, it will return undefined
  • A new property is immediately visible to all of the objects below it in the chain once created

More details in Chapter 6


  • Determining what properties an object has
  • Using typeof includes all properties in the prototype chain including functions
  • To avoid inherited properties, use hasOwnProperty(type); which returns true if that property exists only in that object itself (not the chain) javascript today.hasOwnProperty('number') //will return true today.hasOwnProperty('constructor') //will return false


  • Best way to enumerate all the properties you want is a for loop: javascript var i; var properties = [ 'day', 'month', 'year' ]; for (i = 0; i < properties.length; i++) { document.writeIn(properties[i] + ':' + today[properties[i]]); }
  • This ensures you get the properties you want (i.e. not up the prototype chain) and in the order you want, as opposed to a for in loop which achieves neither of these


  • Removes property from object, but also reveals property from further up the prototype chain if it exists
  • Format: delete today.month

###Global Abatement

  • One way to mitigate the risks of global variables is to create a single global variable which then contains your whole application
var MYAPP = {} = {
	day: "Wednesday",
	month: "April",
	year: 2014,

	weather: { //objects can contain nested objects like this one
		morning: "sunny",
		afternoon: "cloudy"
//Making sure all other variables (like today) are contained within this one global variable (MYAPP) means none of them have global scope and therefore the risk of naming conflicts, etc in your application is reduced
  • Closures are also a way of mitigating the risks of global variables
  • Note: Most Javascript MVCs these days (2014) will take care of wrapping your app for you

##Chapter 4 - Functions

The best thing about JavaScript is its implementation of functions.

###Function Objects

  • Functions are objects linked to function.prototype (which is linked to Object.prototype).
  • As well as usual object behaviour, they can be invoked.

###Function Literal

  • A function literal has 4 parts:
    • The (reserved) word function itself
    • An optional name (un-named functions are considered anonymous functions)
    • Comma-seperated parameters of the function, in parentheses - (parameters)
    • Set of statements in curly brakcets to be carried out when the function is invoked - {statements}
//Format of a function
function name (parameterA, parameterB){

* Functions can be nested within functions and the inner function can access all the parameters of the outer function as well as its own


  • Stops the current function from running and tells the function you have invoked both to start and to use the arguments (values in parentheses) you have passed it in the invocation function (parameters)

    • If arguments > number of arguments expected, the extra values will be ignored
    • If arguments < number of arguments expected, the function will assume undefined in place of the missing arguments
    • No error is thrown
  • Note: The difference between an argument and a parameter is that a parameter is usually what is used in the function literal, when you’re setting up the function (almost like the placeholder for the actual values that the function will use when it is active) and an argument is usually the value passed to a function at the time it is invoked

  • Parameters this and arguments are also passed to the function when it is invoked, but their value depends on how the function is invoked

####Method Invocation Pattern

  • When a function is stored as the property of the object (invoked with a dot . expression) it is called on and is called a method javascript myObject.incrementFunction();
  • The method is bound to the object and therefore can use this to retrieve or update values from the object
  • These methods are highly reusable
  • Because their object context comes from this they are considered public methods

####Function Invocation Pattern

Workaround: Artificially create a new this:

myObject.double = function() {
	//in the book, the var here is called `that` but name changed for clarity
	var globalScopeThis = this; //workaround

	var innerFunc = function() {
		globalScopeThis.value = add(globalScopeThis.value, globalScopeThis.value);

	innerFunc(); //invoke innerFunc as function


####Constructor Invocation Pattern

  • When a function is created with new, that function contains a link to the function’s prototype
  • This means that methods that were created for the prototype function are also available to the function created using new
//create a function Quo that takes a string - Quo will be our prototype function as we will see
var Quo = function (string){
	this.status = string;

//Now create a get_status method for Quo - this will be a public method
Quo.prototype.get_status = function {
	return this.status;

//create a new instance of Quo using the prefix NEW
var myQuo = new Quo("happy");

//because of the use of the new prefix, myQuo is an instance of Quo which means it can access the public method get_status from it's prototype
document.writeIn(myQuo.get_status());     //returns 'happy'
  • This style of constructor pattern is not recommended, there will be better examples in Chapter 5 - this is noted again in Appendix B
  • The first letter of a constructor function (in this case Quo) must always be capitalized

####Apply Invocation Pattern

  • The apply method lets you choose the value to be bound to this
  • It also takes the parameters for a function in an array
  • Format: function.apply(valueForThis, arrayOfParamentersForFunction);
var array = [5, 2]    //will be the parameters for our function
var sum = add.apply(null, array);     //value of 'this' is null and value of sum is 7 as the 'apply' method passes 5 and 2 to the 'add' method


  • Another default parameter of functions is the arguments array which contains all the arguments that were supplied when the function was invoked
  • This means you don’t have to know the exact number of arguments when you build a function because you can loop through all the arguments provided at invocation with the use of the default arguments array javascript //inside the function for (i = 0; i < arguments.length; i++) { dosomething; //e.g. sum +=arguments[i] }
  • arguments lacks all the array methods except .length because of a bug


  • When a function gets to a return statement, it returns immediately without carrying out the remaining statements in the function
  • A function always returns a value or if unspecified, it returns undefined
  • “If the function was invoked with the new prefix (used when creating a new object so it must return an object) and the return value is not an object, then this (the new object) is returned instead.”


  • A throw statement interrupts the execution of the code is used to handle expected exceptions like an incorrect type of argument (e.g. a string where a number is expected)
  • Each throw statement should have an exception object with a name holding the type of exception and a message with an explanation of it + any other properties you like javascript //Thinking through what exceptions could happen in an add function, the main function contains the throw statement with the exception object var add = function (a,b) { if (typeof a !== 'number' || typeof b !== 'number'){ throw { name: 'TypeError'; message: 'The add function requires numbers'; } } return a + b; }
  • When you write a function to use add(), you include a try block where the exception object from the throw statement in add() will pass control to a single catch clause for all exceptions
//When you use the function later on, add a try block with a catch clause to catch the exception object
var try_it = function () {
		add("seven");   //will throw an exception as it is not a number
	catch (e) {
		document.writeIn( + ':' + e.message);

try_it();    //you could rewrite this function so the argument is passed in here where it is invoked

###Augmenting Types

  • Adding a method to the prototype of an object Object.prototype (or function, array, string, number, regular expression or boolean), you make it available to all the instances of that object so you don’t have to use the prototype property again
  • By augmenting the basic types (essentially the root prototypes), we can improve Javascript overall
  • For example, adding a method named trim to remove spaces from the end of strings, available to all String instances in your code: javascript String.method ('trim', function { return this.replace(/ˆ\s+|\s+$/g, ''); //uses regular expression });
  • To be on the safe side, create a method conditionally, only when you know the method is missing
//Makes a method available to all functions, ONLY when it definitely does not already exist

Function.prototype.method (methodName, func) {
	if (!this.prototype[methodName]){
		this.prototype[methodName] = func;
		return this;
  • Remember that for in statements don’t work well with prototypes


  • Used when a task can be divided into simple sub-problems and a function can call itself repeatedly to solve them Takes the format:
var variable = function functionName (parameters){
	//wrap the statements to be executed and the recursive call in a loop statement so ir doesn't recurse forever
	//statements to be executed in the function;

functionName (initialArguments); //initial call to the funtion
  • Javascript does not have tail recursion optimization and therefore does optimize recursive functions - this also means they sometimes fail if they “recurse very deeply”


  • A block is a set of statements contained in curly brackets {}
  • Javascript does not have block scope but does have function scope
    • All variables declared anywhere within a function are available everywhere in that function - i.e. and inner function will have access to the variables of the outer function in which it is defined
    • A variable can be overwritten with a new value in an inner function and that new value’s scope will be just the body of the inner function - as soon as you’re back out to the outer function, the value of that variable will revert to what it was before the inner function began its execution
    • All variable should be declared at the top of the function body


  • Inner functions have access to the actual parameters of the outer functions (not copies)
  • If an object is created as a result of a function and assigned to myObject, myObject continues to share access to the variables in the functions that created it (actual variables, not copies)
    • It has access to the context in which it was created - this is closure
    • This includes later on, even if the outer function has completed its execution and returned, when the inner function is called, it will still have access to all the variables it had access to at the time it was defined (i.e. the variables that were in context when the inner function was defined)


  • A callback function is a function passed to another function as a parameter and executed in this other function
  • When making a request of a server, use an asynchronous request as asynchronous functions return immediately, therefore freeing up the client
    • In this example, we pass the callback function to the asynchronous request as a parameter so the callback function will only be called when a response is available javascript request = prepare_the_request(); send_request_asynchronously(request, function(response){ //function being passed in as a parameter display(response); });



  • Some methods return nothing, albeit undefined
  • If we alter these methods to return this instead of undefined, they return the object which can then be passed to the next method, e.g getElement(myBox).move(350,150) gets the element and then passes is to the move function for the next action
    • This enables cascades, where you call many methods on the same object in sequence because the object is passed from one method to the next (usually separated by . as above)
  • Cascades also stop you from trying to do too much in one method and makes your code more descriptive


  • A curry method allows you to partially evaluate an existing function
    • An example is below where the function expects two arguments, but it is first invoked with only one (in this case using curry as in add.curry(10);) and then later passed the second argument
  • It can also be explained as transforming a function that takes multiple arguments (add(a,b)) into a chain of functions that take a single argument each (addA = add(A); addA(B); where the two functions are now add() & addA())
//set up a simple function that we will customise with curry
var add = function (a,b){
	return a + b;

var addTen = add.curry(10);      //passes 10 as the first argument to the add() function
addTen(20);                     //The use of the curry method in addTen means addTen === add(10, 20);
  • Javascript does not have a curry method natively but this can be added to the Function.protoype: javascript Function.method('curry', function() { var slice = Array.prototype.slice, args = slice.apply(arguments), that = this; return function () { return that.apply(null, args.concat(slice.apply(arguments))); } });


  • Storing the results of previous operations in objects (such as arrays) allows them to be reused without having to keep recalculating the value - this optimization is called memoization
    • Adding an object to store the results memoizes the function
  • Particularly useful when a function is recursive and uses the results of its previous iteration in the current iteration
  • A memoizer function can be created to help memoize future functions: javascript var meoizer = function (memo, fundamental) { var shell = function (n) { var result = memo[n]; if (typeof result !== 'number') { result = fundamental(shell, n); memo[n] = result; } return result; } return shell; }

##Chapter 5 - Inheritance >Javascript is a prototypal language, which means that objects inherit directly from other objects

Main benefit of inheritance is code reuse - you only have to specify differences.

Javascript can mimic classical inheritance but has a much richer set of code reuse patterns * This chapter looks at the more straightforward patterns but it is always best to keep it simple


  • The pseudoclassical code reuse pattern essentially has constructor functions (functions invoked using the new prefix) work like classes to mimic the classical structure

    • All properties are public
    • If you forget to use the new prefix, this is not bound to the new object - it is instead bound to the global object and you’ll be unwittingly altering these instead!
  • There is no need to use it, there are better code reuse patterns in JavaScript

###Object Specifiers

Rather than: var myObject = maker (f, l, m, c, s) which has too many parameters to remember in the right order, use an object specifier:

var myObject = maker ({      //note curly braces
	first: f,
	last: l,
	state: s,
	city: c

to contain them. They can now be listed in any order

Also useful to pass object specifiers to JSON (see Appendix E notes)


  • Zero classes, one object inherits from another
  • Create an object literal of a useful object and then make an instance of it using the format var myObject = Object.create(originalObjectName)
  • When you then customise the new object (adding properties or methods through the dot notation for example), this is differential inheritance, where you specify the differences from the original object


  • All properties of an object are visible (Javascript has no classes so there is no such thing as a ‘private variable’ which can only be seen within a class as per other languages)
  • When you use a function to create your original object and the same with the object instances, you’re essentially utilising Javascript functional scope to create private properties and methods The below is an example of how you would create an original object, the name and saying properties are now completely private and only accessible to the get_name and says method
var mammal = function (spec) {
	var that = {};    //that is a new object which is basically a container of 'secrets' shared to the rest of the inheritance chain

	that.get_name = function () {

	that.says = function () {
		return spec.saying || '';  //returns an empty string if no 'saying' argument is passed through the spec object when calling mammal
	return that;     //returns the object that contains the now private properties and methods (under functional scope)

var myMammal = mammal({name: 'Herb'});

Creating an object ‘cat’ can now inherit from the mammal constructor and only pay attention to the differences between it and mammal:

var cat = function (spec) {
	spec.saying = spec.saying || 'meow';   //if spec.saying doesn't already exists, make it 'meow'
	var that = mammal(spec);      //here the object 'container of secrets' is set up inheriting from mammal already

	//functions and property augmentations happen here

	return that;      //as above

###Parts * An object can be composed out of a set of parts * For example, you can create a function that provides the object it is passed with a number of methods (which are defined in this function), where each method is a part that is added to the object

##Chapter 6 - Arrays

Javascript only has array-like objects which are slower than ‘real’ arrays.

Retrieval and updating of properties works the same as with an object except with integer property names.

Arrays have their own literal format and their own set of methods (Chapter 8 - Methods).

###Array Literals

  • An array literal is a pair of square brackets surrounding zero or more comma-seperated values [a, b, c, etc]
    • The first value will get the property name ‘0’, the second will be ‘1’ and so on
  • Javascript allows an array to contain any mixture of values


  • If you add to the array, the length property will increase to contain the new element - it will not give an error
  • If you set the .length to a smaller number than the current length of the array, it will delete any properties with a subscipt >= the new length
  • The push() method is sometimes useful to add an element to the end of an array numbers.push('go') //adds the element 'go' to the end of the numbers array


  • Elements can be deleted from the array object using delete but this leaves a hole in the array
  • Use array.splice(keyInArray, howManyElementsToDelete) which changes the keys for the remaining values in the array so there is no hole left
    • May be slow


  • A for statement can be used to iterate over all the properties of an array (as it is an object)
  • Do not us for in as it does not iterate through the properties in order and sometimes pulls in from furhter up the prototype chain


The rule is simple: when the property names [keys] are small sequential integers, you should use an array. Otherwise, use an object.

  • Arrays are most useful when property names are integers but they can also accept strings as property names
  • Javascript doesn’t have a good way of telling an object from an array as typeof array === object
  • To accurately detect arrays, have to define our own function: javascript var is_array = function (value) { return Object.prototype.toString.apply(value) === '[object Array]'; //apply(value) binds `value` to `this` & returns true if `this` is an array }


  • Array methods are stored in Array.prototype which can be augmented using the format: javascript //capital A in Array means this refers to the prototype Array.method('reduce', function (parameters){ //define variables and function //return a value });
  • Remember, every array inherits and can use the methods you add to Array.prototype
  • You can also add methods directly to an array because they are objects
    • = function () { //statements to execute; } adds a ‘total’ function to the array myArray
  • DO NOT USE: Object.create() will create an object - lacking the length property - not an array.


  • Using [] will create an empty array as they are not initialized in JavaScript
  • Accessing a missing element will give you undefined
  • If you have an algorithm that relies on the array not being empty and not having undefined values, you can write a function that will prep your array to have a certain number of defined values, essentially initializing it with certain values in place
    • An Array.dim function is oulined on page 63 which will allow var myArray = Array.dim(10,0) to make an array with 10 zeroes starting from the first position in the array(0)
  • Javascript only has one dimensional arrays but can have arrays of arrays
  • Two dimensional arrays (matricess) will have to be set up by the programmer
    • page 63 gives a method for this and for explicitly setting cell values so as not to have an empty matrix

##Chapter 7 - Regular Expressions > A regular expression is the specification of the syntax of a simple language

Used with regexp.exec, regexp.test, string.match, string.replace, and string.split to interact with string (more in Chapter 8 - Methods)

Quite convoluted and difficult to read as do not allow comments or whitespace so a JavaScript regular expression must be on a single line

###An Example


Breaking it down one portion(factor) at a time: * Note that the string starts and ends with a slash / * ˆ indicates the beginning of a string * (?:([A-Za-z]+):)? * (?:...) indicates a noncapturing group, where the ‘…’ is replaced by the group that you wish to match, but not save to anywhere * Suffix ? indicates the group is optional, so it could or could not exist in the string - it could even exist more than once * () around the ([A-Za-z]+) indicates a capturing group which is therefore captured and placed in the result array * They groups are placed in the array in order, so the first will appear in result[1] * Noncapturing groups are preferred to capturing groups because capturing groups have a performance penalty (on account of saving to the result array) * You can also have capturing groups within noncapturing groups such as (?:Bob says: (\w+)) * [...] indicates a character class * A-Za-z is a character class containing all 26 letters of the alphabet in both upper and lower case * Suffix + means character class will be matched one or more times * Suffix : is matched literally (so the letters will be followed by a colon in this case) * (\/{0,3}) * \/ The backslash \ escapes the forward slash / (which traditionally symbolises the end of the regular expression literal) and together they indicate that the forward slash / should be matched * Suffix {0,3} means the slash / will be matched between 0 and 3 times * ([0-9.\-A-Za-z]+) * String made up of one or more (note the + at the end denoting possible multiple ocurrences) digits, letters (upper or lower case), full stops (.) or hyphens (-) * Note that the hyphen was escaped with a backslash \- as hyphens usually denote a range but in this case is a hyphen within the expression * (?::(\d+))? * \d represents a digit character so this will be a sequence of one or more digit characters (as per the +) * The digit characters will be immediately preceded by a colon : * (\d+) will be the fourth capturing group in this expression, it is also _optional_ (?) and inside a non-capturing group ((?:…) *(?:\/([ˆ?#]))? * Another optional grou (?), beginning with a literal slash/(escaped by the backslash) * Theˆat the beginning of character class[ˆ?#]means it includes _all_ characters _except_ ? and # * This acutally leave the regexp open to attack because too many characters are included in the character class * Theindicates the character class will appear _zero or more_ times *(?:\?([ˆ#]))? * We've seen everything here before: An optional capturing group starting with a literal?(escaped by the backslash) with zero or more characters that are not # *(?:#(.))? * Final optional group beginning with a# *.matches any character _except a line ending character_ *$` represents the end of a string

  • Note: ˆ and $ are important because they anchor the regexp and checks whether the string matched against it contains only what is in the regexp
    • If ˆ and $ weren’t present, it would check that the string contained the regexp but wouldn’t necessarily be only made up of this
    • Using only ˆ checks the string starts with the regexp
    • Using only $ checks the string ends with the regexp

Another example /ˆ-?\d+(?:\.\d*)?(?:e[+\-]?\d+)?$/i;

Most of this we have seen before but here are the new bits: * The i at the end means ignore case when matching letters * -? means the minus sign is optional * (?:\.\d*) matches a decimal point followed by zero or more digits (123.6834.4442284 does not match) * Note this expression only uses noncapturing groups


3 flags exist in regular expressions: i means insensitive - ignore the character case, ‘gmeans global - to match multiple items andm` means multiline - where ˆ and $ can match line-ending characters

Two ways to build a regular expression: 1. Regular Expression literals as per the examples above start and end with a slash / * Here the flags are appended after the final slash, for example /i * Be careful: RegExp objects made by regular expression literals share a single instance 2. Use RegExp constructor * The first parameter is the string to be made into a RegExp object, the second is the flag * Useful when all information for creating the regular expression is not available at time of programming * Backslashes mean something in the constructor, so these must be doubled and quotes must be escaped

//example creating a regular expression object that matches a JavaScript string

var my_regexp = new RegExp("'(?:\\\\.|[ˆ\\\\\\'])*'", 'g');


####Regexp Choice

| provides a match if any of the sequences provided match.

In "into".match(/in|int/);, the in will be a match so it doesn’t even look at the int.

####Regexp Sequence

A regexp sequence is made up of one or more regexp factors. If there are no quantifiers after the factor (like ?, * or +), the factor will be matched one time.

###Regexp Factor

A regexp factor can be a character, a parenthesized group, a character class, or an escape sequence.

It’s essentially a portion of the full RegExp, like what we broke down the regexp above into.

####Regexp Escape

As well as escaping special characters in regexp factors, the backslash has additional uses: * As in strings, \f is the formfeed character, \n is new line, \r is carriage return, \t is tab and \u specifies Unicode as a 16-bit hex. But \b is not a backspace character * \d === [0-9] and \D is the opposite, NOT (ˆ) a digit, [ˆ0-9] * \s matches is a partial set of Unicode whitespace characters and \S is the opposite * \w === [0-9A-Za-z] and \W === [ˆ0-9A-Za-z] but useless for any real world language (because of accents on letters, etc) * \1 refers to the text captured in group 1 so it is matched again later on in the regexp * \2 refers to group 2, \3 to group 3 and so on

*\b is a bad part. It was supposed to be a word-boundary anchor but is useless for multilingual applications

####Regexp Group

Four kinds of groups: * Capturing: (...) where each group is captured into the result array - the first capturing group in the regexp goes into result[1], the second into result[2] and so on * Noncapturing (?:...) where the text is matched, but not captured and saved anywhere, making is slightly faster than a capturing group (has no bearing on numbering of capturing groups) * Positive lookahead, a bad part: (?=...) acts like a noncapturing group except after the match is made, it goes back to where text started * Negative lookahead, a bad part: (?!...) is like a positive lookahead but only matches if there is no match with what is in it

####Regexp Class

  • Conveniently and easily specifies one of a set of characters using square brackets [], for example vowels: [aeiou]
  • Can shorten specification of all 32 ASCII special characters to [!-\/:[email protected][-’{-˜] (note that the ‘ in this piece of code should be a back-tick which I can’t use as part of these notes)
  • Also allows ˆ as the first character after the opening [ to mean NOT the characters in the character set

####Regexp Class Escape

There are specific characters that must be escaped in a character class: - / [ \ ] ˆ

####Regexp Quantifier

A quantifier at the en of a factor indicates how many times the factor should be matched * A number in curly braces means the factor should match that many times, so /o{3} matches ooo * Two comma-seperated numbers in curly braces provide the range of times a factor should match, so {3,5} indicates it will match 3, 4 or 5 times * Zero or one times (same thing as saying something is optional) can be ? or {0,1} * Zero or more times can be * or {0,} * One or more times can be + or {1,}

Prefer to use ‘zero or more’ or ‘one or more’ matching over the ‘zero or one’ matching - i.e. prefer greedy matching over lazy matching

##Chapter 8 - Methods


####array.concat(item…) Produces new array copying the original array with the items appended to it (does not modify the original array like array.push(item) does. If the item is an array, its elements are appended.

####array.join(separator) Creates a string of all the array’s elements, separated by the separator. Use an empty string separator (”) to join without separation.

####array.pop() Removes last element of array. Returns undefined for empty arrays.

####array.push(item…) Modifies the array, appending items onto the end. Returns the new length of the array.

####array.reverse() Modifies the array by reversing the order of the elements.

####array.shift() Removes the first element of the array (does not leave a hole in the array - same effect as using the .splice(a,b) method) and returns that first element.

####array.slice(start, end) Different to splice.

‘slice’ creates a new array, copying from the start element and stopping at the element before the end value given. If no end is given, default is array.length.

Negative values for start and end will have array.length added to them and if start>end, it will return an empty array.

####array.sort(comparefn) JavaScript has a sort() method which was created only to compare strings and therefore sorts numbers incorrectly (it will sort them as 1, 15, 2, 23, 54 for example). Therefore, we have to write a comparison function which returns 0 if the two elements you are comparing are equal, a positive number if the first element should come first and a negative number if the second element should come first. Then pass this comparison function to sort() as a parameter to allow it to sort array elements intelligently.

Page 80-82 in the book takes you through various iterations of the comparison functions - for numbers, simple strings, objects and objects with multiple keys (for example if you want to sort objects by first and last names). These should be taken from the book when required.

####array.splice(start, deleteCount, item…) Removes elements from the array making sure there are no holes left in the array. It is most popularly used for deleting elements from an array.

It removes the deleteCount number of elements from the array starting from the start position. If there are item parameters passed to it, it will replace the deleted elements in the array with the items.

It returns an array containing the deleted elements.

####array.unshift(item…) Works like push but adds items to the front of the array instead of the end. Returns the new length of the array.


####function.apply(thisArg, [argArray]) The apply method invokes a function, passing in the object that will be bound to this and optional array of arguments.


####number.toExponentional(fractionDigits) Converts number to a string in exponential form (e.g. 3.14e+0). fractionDigits (from 0 to 20) gives the number of decimal places.

####number.toFixed(fractionDigits) Converts number to a string in decimal form (e.g. 3.1415927). fractionDigits (from 0 to 20) gives the number of decimal places.

####number.toPrecision(precision) Converts number to a string in decimal form (e.g. 3.1415927). The difference from toFixed is that fractionDigits (from 0 to 20) gives the number of *total digits.

####number.toString(radix) Converts number to a string. radix is an optional parameter between 2 and 36 and gives the base. The default radix is 10.


####object.hasOwnProperty(name) *Does not look at the property chain**. Returns true if the object contains the property name.

###RegExp ####regexp.exec(string) Most powerful (and slowest) regexp method.

Checks the string against the regexp (starting at position 0) and returns an array containing the matches. The regexp is set up with various capturing groups and these determine the elements that go in the array: * the 0 element of the array will contain the part of string that matched the _regexp * element 1 of the array will contain the text captured by the first capturing group in regexp * element 2 of the array will contain the text captured by the second capturing group in regexp and so on * if the match fails, it returns null

If the regexp contains a g flag (e.g. var regexp = /[ˆ<>]+|<(\/?)([A-Za-z]+)([ˆ<>]*)>/g;), there is a lot more to look out for: * Searching begins at regexp.lastIndex (initially zero) * If a match is found, lastIndex becomes the position of the first character of the match * If no match is found, lastIndex is reset to zero * If searching for multiple occurrences of a pattern by calling exec in a loop, ensure you reset lastIndex when exiting the loop and remember ˆ only matches when lastIndex is equal to zero

Example on page 87 of the book is worth reading to improve understanding.

####regexp.test(string) Simplest (and fastest) regexp method.

If regexp matches the string it returns true. Otherwise it returns false. Do not use the g flag with this method.

###String ####string.charAt(pos) Returns character at position po in the string starting from 0. If pos is less than zero or bigger than the string itself it return an empty string.

####string.charCodeAt(pos) Same as charAt except it returns the integer that represents the code point value of the character at position pos. Returns NaN is string.length < pos < 0.

####string.concat(string…) Creates new string concatenating various strings. + tends to be used instead of this method (e.g. var cat = 'c'+'a'+'t';)

####string.indexOf(searchString, position) Searches for searchString within string starting at position position (an optional parameter). If position is not provided, search starts at the beginning of the string. Returns the integer position of the first matched character or -1 if no match is found.

####string.lastIndexOf(searchString, position) Same as indexOf but searches from the end of the string instead of the beginning.

####string.localeCompare(that) Compares string to that parameter and returns: * 0 if string === that * -1 if string < that

NB. ‘a’ < ‘A’, comparison is not just in length.

####string.match(regexp) Works the same way as regexp.exec(string) if there is no g flag in the regexp.

If there is a g flag in teh regexp, it produces an array of the matches but excludes the capturing groups

####string.replace(searchValue, replaceValue) Searches for the searchValue in string and replaces it with the replaceValue.

If searchValue is a: * string, only its first occurrence will be replaced with the replaceValue * regexp with a g flag, all occurrences will be replaced with the replaceValue; otherwise, only the first occurrence will be replaced

If replaceValue is a: * string, a $ value has a special meaning when used in the replaceValue that conveys what to replace - see table on page 90 for possible variations on $ * function, it is called for each match and the string result of the function is used as the replacement text * string result of the first call will replace capture group 1 of the string and so on Similar to .indexOf(string) but takes a regexp instead of a string, returning the position of the first match (or -1 if there is no match). The g flag is ignored.

####string.slice(start, end) Creates a new string by copying the characters from the start position to the character before the end position in string.

The end parameter is optiona and defaults to string.length. If either parameter is negative, string.length is added to it.

####string.split(separator, limit) Creates an array of strings by splitting apart string at the points where the separator appears (e.g. if the separator is ‘.’,’ becomes [‘ab’, ‘cd’]). * If separator is an empty string, an array of single characters is produced. * limit is optional and determines how many pieces are to be split off from the original string. * The separator can be a regexp but * text from capturing groups within the regexp will be included in the split - e.g. in var e = text.split(/\s*(,)\s*/); the commas (,) will each be included as a separate element in the resulting array * some systems ignore empty strings when the separator is a regexp

####string.substring(start, end) No reason to use, use slice instead.

####string.toLocaleLowerCase() Produces a new string converted to lower case, using the rules for the particular locale (geography).

####string.toLocaleUpperCase() Produces a new string converted to upper case, using the rules for the particular locale (geography).

####string.toLowerCase() Produces a new string converted to lower case.

####string.toUpperCase() Produces a new string converted to upper case.

####String.fromCharCode(char…) Produces a new string from a series of numbers. var a = String.fromCharCode(67, 97, 116); //a === 'Cat' NB. You’re calling the prototype here, not replacing ‘String’ with your own variable.

##Chapter 9 - Style > JavaScripts’s loose typing and excessive error tolerance provide little compile-time assurance of our programs’ quality, so to compensate, we should code with strict discipline.

##Chapter 10 - Beautiful Features

Each feature you add to something has a lot of different costs (documentation costs, specification, design, testing and development costs) and these are often not properly accounted for. > Features that offer value to a minority of users impose a cost on all users

We cope with the complexity of feature-driven design by finding and sticking with the good parts For example, microwaves do a ton of different things, but most people just use one setting, the timer and the clock. So why not design with just the good parts?

##Appendix A - the Awful Parts

Need to know what all the pitfalls are with these parts.

###Global variables These are variables that are visible throughout the code in any scope. They can be changed at any time by any part of the program which makes them unreliable in larger complex programs. This can also lead to naming conflicts which can cause your code to fail or you to accidentally overwrite a global variable.

Defined in three ways: * Using a var statement outside of any function; var foo = value; * By adding a property to the global object (container of all global variables), such as window in browsers; = value; * Using a variable without declaring it with var, which makes it an implied global; foo = value

###Scope Although JavaScript has block syntax (i.e. is written in blocks) like a lot of other programming languages, it has functional scope and not block scope.

Variables should all be declared at the top of the function and not littered throughout the block.

###Semicolon Insertion Attempts to correct faulty programs by automatically inserting semicolons. Do not depend on this as it can hide underlying issues.

Also ensure opening curly braces ({) are on the first line of a statement, otherwise semicolons will be erroneously inserted and cause problems:

//Ensure curly braces open on the first line of a statement
return {
	status: true	//for example
//instead of

###Reserved Words Most JavaScript reserved words are not used in the language but cannot be used to name variables or parameters.

If used as the key in object literals, they must be quoted. For example object - {'case' : value}; or object['final'] = value; as case and final are both reserved words.

###Unicode JavaScript characters are 16 bits which only cover the original Unicode Basic Multilingual Place.

###typeof Watch out for: * typeof null which returns ‘object’ instead of ‘null’ * incorrect reporting on typeof regular expressions, with some implementations returning ‘object’ and some returning ‘function’ * arrays are objects in JavaScript so typeof array will return ‘object’

All objects are truthy and null is falsy, so you can use the following to tell them apart:

if (my_value && typeof my_value === 'object') {
	//then my value is definitely an object or an array because not only is its 'typeof' an object but it's also truthy (first statement)

###NaN * typeof NaN === 'number' even though it stands for not-a-number * If you have a chain of formulas that together produce a NaN then at least one of them will have generated NaN * Surprisingly NaN !=== NaN * isNaN(value) can be used to distinguish numbers from NaN

For numbers, best use your own isNumber formula:

var isNumber = function isNumber(value) {
	return typeof value === 'number' && isFinite(value);	//isFinite() rejects NaN and Infinity, but is only good for numbers, not strings

###Phony Arrays JavaScript doesn’t have real arrays, it has array-like objects.

  • Good: No need to give them dimensions and don’t generate out-of-bounds errors
  • Bad: Slower than ‘real’ arrays

To test if value is an array:

if (my_value && typeof my_value === 'object' && typeof my_value.length === 'number' &&
	!(my_value.propertyIsEnumerable('length'))) {
		//my_value is definitelyy an array!

The arguments array isn’t an array, just an object with a length property.

###Falsy Values 0, NaN, '', false, null and undefined are all falsy values, but they are not interchangeable. When testing for a missing member of an object for example, you need to use undefined and not null.

undefined and NaN are actually global variables instead of constants but don’t change their values.

###Object JavaScript objects inherit members from the prototype chain so they are never truly empty.

To test for membership without prototype chain involvement, use the hasOwnProperty method or limit your results (for example, to specific types like number so you know you’re not dragging in object members from up the prototype for example if that’s what’s causing the problem).

##Appendix B - the Bad Parts

Avoid these altogether

  • == and !=: Don’t function properly when result is false, use === or !== instead
  • with statement: Intended to provide a shortcut to properties of an object but results vary every time it is run
  • eval: Adds unnecessary complication and compromises the security of the application
    • Giving string arguments to setTimeout and setInterval should also be avoided as this makes them act like eval
  • continue statement: Forces a loop into its next iteration but the code is usually much improved when re-written without continue
  • switch fall through: In a switch statement, each case falls through to the next case unless you explicityly disrup the flow, but using these intentional fall throughs makes the unintentional ones that are causing errors basically impossible to find
    • This is one of those parts of JavaScript that appears useful but you’re better off avoiding because it’s occasionally very dangerous
  • Block-less statements: Always use curly braces {} to block in statements so as to avoid misinterpretation and aid error finding
  • Bitwise operators: Shouldn’t really be doing this kind of manipulations because they are quite slow in JavaScript, therefore there shouldn’t be a need to use &, |, ˆ, ˜, >>, >>> or <<
    • This doesn’t mean you can’t use && for example
  • ++ and --: This one seems debatable to me; Douglas Crockford finds it makes his coding style much more cryptic and difficult to read (the book uses +=1 and -=1 instead)

The function statement vs the function expression: To use JavaScript well, important to understand that functions are values. * A function statement is shorthand for a var statement with a function value, so function foo() {} (a function statement) means pretty much the same as var foo = function foo(){}; (a function expression) * Logically, to write the language well you should define a function before using it, but in JavaScript, function statements (using just function foo(){}) are hoisted to the top of the scope in which they are defined - this encourages sloppy programming and should be avoided * function statements also don’t function consistently in if statements * if you need to start a function expression with the word function, wrap it in parentheses (), or JavaScript assumes it’s a function statement

Typed wrappers: Don’t use new Boolean or new String or new Number, it’s completely unnecessary. Also avoid new Object and new Array and use {} and [] instead.

new operator: Functions that are intended to be used with new (conventionally starting with a capital letter) should be avoided (don’t define them) as they can cause all kinds of issues and complex bugs which are difficult to catch.

void: In JavaScript, this actually takes a value and returns undefined, which is hugely confusing and not helpful. Don’t use it.

##Appendix C - JSLint

JSLint is a code quality tool for JavaScript which checks your syntax.

Having read through this appendix (you can read more about JSLint here), I tend more towards JSHint, a fork of JSLint. It allows programmers to customise for themselves which the good parts and bad parts are and define their own subset, although naturally there are a number of pre-defined options. This is a really fantastic article on using JSHint; it’s simple and aimed at having you using JSHint in a few minutes as well as providing various sources for pre-defined subsets.

Interesting article on prototypes:

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