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JavaScript John Mitchell CS 242 Reading: links on last slide Homework 1: Sept 24 - Oct 1 Autumn 2008.

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Presentation on theme: "JavaScript John Mitchell CS 242 Reading: links on last slide Homework 1: Sept 24 - Oct 1 Autumn 2008."— Presentation transcript:

1 JavaScript John Mitchell CS 242 Reading: links on last slide Homework 1: Sept 24 - Oct 1 Autumn 2008

2 Why talk about JavaScript? uVery widely used, and growing Web pages, AJAX, Web 2.0 Increasing number of web-related applications uSome interesting and unusual features First-class functions - interesting Objects without classes - slightly unusual Powerful modification capabilities - very unusual –Add new method to object, redefine prototype, access caller … uMany security, correctness issues Not statically typed – type of variable may change … Difficult to predict program properties in advance

3 JavaScript History uDeveloped by Brendan Eich at Netscape Scripting language for Navigator 2 uLater standardized for browser compatibility ECMAScript Edition 3 (aka JavaScript 1.5) uRelated to Java in name only Name was part of a marketing deal uVarious implementations available Spidermonkey interactive shell interface Rhino: http://www.mozilla.org/rhino/

4 Motivation for JavaScript uNetscape, 1995 Netscape > 90% browser market share Opportunity to do “HTML scripting language” Brendan Eich I hacked the JS prototype in ~1 week in May And it showed! Mistakes were frozen early Rest of year spent embedding in browser uCommon uses of JavaScript include: Form validation Page embellishments and special effects Dynamic content manipulation Emerging Web 2.0: client functionality implemented at client - ICFP talk, 2006

5 Example 1: simple calculation … var num1, num2, sum num1 = prompt("Enter first number") num2 = prompt("Enter second number") sum = parseInt(num1) + parseInt(num2) alert("Sum = " + sum) …

6 Example 2: browser events function whichButton(event) { if (event.button==1) { alert("You clicked the left mouse button!") } else { alert("You clicked the right mouse button!") }} … … Mouse event causes page-defined function to be called Other events: onLoad, onMouseMove, onKeyPress, onUnLoad

7 Example 3: page manipulation uSome possibilities createElement(elementName) createTextNode(text) appendChild(newChild) removeChild(node) uExample: Add a new list item: var list = document.getElementById(‘list1') var newitem = document.createElement('li') var newtext = document.createTextNode(text) list.appendChild(newitem) newitem.appendChild(newtext) This example uses the browser Document Object Model (DOM). For now, we will focus on JavaScript as a language, not its use in the browser.

8 Design goals u Brendan Eich’s 2006 ICFP talk Make it easy to copy/paste snippets of code Tolerate “minor” errors (missing semicolons) Simplified onclick, onmousedown, etc., event handling, inspired by HyperCard Pick a few hard-working, powerful primitives –First class functions for procedural abstraction –Objects everywhere, prototype-based Leave all else out!

9 Language basics uJavaScript is case sensitive HTML is not case sensitive; onClick, ONCLICK, … are HTML uStatements terminated by returns or semi-colons (;) x = x+1; same as x = x+1 Semi-colons can be a good idea, to reduce errors u“Blocks” Group statements using { … } Not a separate scope, unlike other languages (see later slide) uVariables Define a variable using the var statement Define implicitly by its first use, which must be an assignment –Implicit definition has global scope, even if it occurs in nested scope?

10 Useful implementation uSpidermonkey command-line interpreter Read-eval-print loop –Enter declaration or statement –Interpreter executes –Displays value –Returns to input state Example class web page has link to this implementation

11 JavaScript blocks uUse { } for grouping; not a separate scope js> var x=3; js> x 3 js> {var x=4; x} 4 js> x 4 uNot blocks in the sense of other languages Only function calls and the with statement cause a change of scope

12 JavaScript primitive datatypes uBoolean Two values: true and false uNumber 64-bit floating point, similar to Java double and Double No integer type Special values NaN (not a number) and Infinity uString Sequence of zero or more Unicode characters No separate character type (just strings of length 1) Literal strings using ' or " characters (must match) uSpecial values null and undefined typeof(null) = object; typeof(undefined)=undefined

13 Objects uAn object is a collection of named properties Simple view: hash table or associative array Can define by set of name:value pairs –objBob = {name: “Bob", grade: 'A', level: 3}; New members can be added at any time –objBob.fullname = 'Robert'; Can have methods, can refer to this uArrays, functions regarded as objects A property of an object may be a function (=method) A function defines an object with method called “( )” function max(x,y) { if (x>y) return x; else return y;}; max.description = “return the maximum of two arguments”;

14 More about functions uDeclarations can appear in function body Local variables, “inner” functions uParameter passing Basic types passed by value, objects by reference uCall can supply any number of arguments functionname.length : # of arguments in definition functionname.arguments.length : # args in call u“Anonymous” functions (expressions for functions) (function (x,y) {return x+y}) (2,3); uClosures and Curried functions function CurAdd(x){ return function(y){return x+y} }; More explanation on next slide

15 Function Examples uAnonymous functions make great callbacks setTimeout(function() { alert("done"); }, 10000) uCurried function function CurriedAdd(x){ return function(y){ return x+y} }; g = CurriedAdd(2); g(3) uVariable number of arguments function sumAll() { var total=0; for (var i=0; i< sumAll.arguments.length; i++) total+=sumAll.arguments[i]; return(total); } sumAll(3,5,3,5,3,2,6)

16 Use of anonymous functions uAnonymous functions very useful for callbacks setTimeout(function() { alert("done"); }, 10000) // putting alert("done") in function delays evaluation until call uSimulate blocks by function definition and call var u = { a:1, b:2 } var v = { a:3, b:4 } (function (x,y) { var tempA = x.a; var tempB =x.b; //local variables x.a=y.a; x.b=y.b; y.a=tempA; y.b=tempB }) (u,v) // This works because objects are passed by reference

17 Detour: lambda calculus uExpressions x + y x + 2*y + z uFunctions x. (x+y) z. (x + 2*y + z) uApplication ( x. (x+y)) (3) = 3 + y ( z. (x + 2*y + z))(5) = x + 2*y + 5

18 Higher-Order Functions uGiven function f, return function f  f f. x. f (f x) uHow does this work? ( f. x. f (f x)) ( y. y+1) = x. ( y. y+1) (( y. y+1) x) = x. ( y. y+1) (x+1) = x. (x+1)+1 In pure lambda calculus, ame result if step 2 is altered.

19 Same procedure, Lisp syntax uGiven function f, return function f  f (lambda (f) (lambda (x) (f (f x)))) uHow does this work? ((lambda (f) (lambda (x) (f (f x)))) (lambda (y) (+ y 1)) = (lambda (x) ((lambda (y) (+ y 1)) ((lambda (y) (+ y 1)) x)))) = (lambda (x) ((lambda (y) (+ y 1)) (+ x 1)))) = (lambda (x) (+ (+ x 1) 1))

20 Same procedure, JavaScript syntax uGiven function f, return function f  f function (f) { return function (x) { return f(f(x)); }; } uHow does this work? (function (f) { return function (x) { return f(f(x)); }; ) (function (y) { return y +1; }) function (x) { return (function (y) { return y +1; }) ((function (y) { return y + 1; }) (x)); } function (x) { return (function (y) { return y +1; }) (x + 1); } function (x) { return ((x + 1) + 1); }

21 Basic object features uUse a function to construct an object function car(make, model, year) { this.make = make; this.model = model; this.year = year; } uObjects have prototypes, can be changed var c = new car(“Ford”,”Taurus”,1988); car.prototype.print = function () { return this.year + “ “ + this.make + “ “ + this.model;} c.print();

22 JavaScript functions and this var x = 5; var y = 5; function f() {return this.x + y;} var o1 = {x : 10} var o2 = {x : 20} o1.g = f; o2.g = f; o1.g() 15 o2.g() 25 Both o1.g and o2.g refer to the same function object Why are the results for o1.g() and o2.g() different ?

23 More about this u Property of the activation object for fctn call In most cases, this points to the object which has the function as a property (or method). Example : var o = {x : 10, f : function(){return this.x}} o.f(); 10 this is resolved dynamically when the method is executed

24 Special treatment for nested methods var o = { x: 10 f : function() { function g(){ return this.x } ; return g(); } }; o.f() Function g gets the global object as its this property !

25 Language features in CS242 uStack memory management Parameters, local variables in activation records uGarbage collection Automatic reclamation of inaccessible memory uClosures Function together with environment (global variables) uExceptions Jump to previously declared location, passing values uObject features Dynamic lookup, Encapsulation, Subtyping, Inheritance uConcurrency Do more than one task at a time (JavaScript is single-threaded)

26 Stack memory management uLocal variables in activation record of function function f(x) { var y = 3; function g(z) { return y+z;}; return g(x); } var x= 1; var y =2; f(x) + y;

27 Garbage collection uAutomatic reclamation of unused memory Navigator 2: per page memory management –Reclaim memory when browser changes page Navigator 3: reference counting –Each memory region has associated count –Count modified when pointers are changed –Reclaim memory when count reaches zero Navigator 4: mark-and-sweep, or equivalent –Garbage collector marks reachable memory –Sweep and reclaim unreachable memory Reference http://www.unix.org.ua/orelly/web/jscript/ch11_07.html Discuss garbage collection in connection with Lisp

28 Closures uReturn a function from function call function f(x) { var y = x; return function (z){y += z; return y;} } var h = f(5); h(3); uCan use this idea to define objects with “private” fields Description of technique –http://www.crockford.com/JavaScript/private.html –http://developer.mozilla.org/en/docs/Core_JavaScript_1.5_Guide:Wor king_with_Closures But there are subtleties (look for __parent__)

29 Exceptions uThrow an expression of any type throw "Error2"; throw 42; throw {toString: function() { return "I'm an object!"; } }; uCatch try { } catch (e if e == “FirstException") { // do something } catch (e if e == “SecondException") { // do something else } catch (e){ // executed if no match above } Reference: http://developer.mozilla.org/en/docs/ Core_JavaScript_1.5_Guide :Exception_Handling_Statements

30 Object features uDynamic lookup Method depends on run-time value of object uEncapsulation Object contains private data, public operations uSubtyping Object of one type can be used in place of another uInheritance Use implementation of one kind of object to implement another kind of object

31 Concurrency uJavaScript itself is single-threaded How can we tell if a language provides concurrency? uAJAX provides a form of concurrency Create XMLHttpRequest object, set callback function Call request method, which continues asynchronously Reply from remote site executes callback function –Event waits in event queue… Closures important for proper execution of callbacks uAnother form of concurrency use SetTimeout to do cooperative multi-tasking –Maybe we will explore this in homework …

32 JavaScript eval uEvaluate string as code The eval function evaluates a string of JavaScript code, in scope of the calling code uExamples var code = "var a = 1"; eval(code); // a is now '1‘ var obj = new Object(); obj.eval(code); // obj.a is now 1 uMost common use Efficiently deserialize a large, complicated JavaScript data structures received over network via XMLHttpRequest uWhat does it cost to have eval in the language? Can you do this in C? What would it take to implement?

33 Unusual features of JavaScript uSome built-in functions Eval, Run-time type checking functions, … uRegular expressions Useful support of pattern matching uAdd, delete methods of an object dynamically Seen examples adding methods. Do you like this? Disadvantages? myobj.a = 5; myobj.b = 12; delete myobj.a; uRedefine native functions and objects (incl undefined) uIterate over methods of an object for (variable in object) { statements } uWith statement (“considered harmful” – why??) with (object) { statements }

34 References uBrendan Eich, slides from ICFP conference talk www.mozilla.org/js/language/ICFP-Keynote.ppt uTutorial http://www.w3schools.com/js/ (still there?) uJavaScript 1.5 Guide http://developer.mozilla.org/en/docs/Core_JavaScript _1.5_Guide uDouglas Crockford site http://www.crockford.com/JavaScript/ http://20bits.com/2007/03/08/the-philosophy-of- JavaScript/

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