OOP in JS, Part 1 : Public/Private Variables and Methods

Summary

• private variables are declared with the 'var' keyword inside the object, and can only be accessed by private functions and privileged methods.
• private functions are declared inline inside the object's constructor (or alternatively may be defined via var functionName=function(){...}) and may only be called by privileged methods (including the object's constructor).
• privileged methods are declared with this.methodName=function(){...} and may invoked by code external to the object.
• public properties are declared with this.variableName and may be read/written from outside the object.
• public methods are defined by Classname.prototype.methodName = function(){...} and may be called from outside the object.
• prototype properties are defined by Classname.prototype.propertyName = someValue
• static properties are defined by Classname.propertyName = someValue

The Example Code

function Person(n,race){

   this.constructor.population++;



   // ************************************************************************

   // PRIVATE VARIABLES AND FUNCTIONS

   // ONLY PRIVELEGED METHODS MAY VIEW/EDIT/INVOKE

   // ***********************************************************************

   var alive=true, age=1;

   var maxAge=70+Math.round(Math.random()*15)+Math.round(Math.random()*15);

   function makeOlder(){ return alive = (++age <= maxAge) }



   var myName=n?n:"John Doe";

   var weight=1;





   // ************************************************************************

   // PRIVILEGED METHODS

   // MAY BE INVOKED PUBLICLY AND MAY ACCESS PRIVATE ITEMS

   // MAY NOT BE CHANGED; MAY BE REPLACED WITH PUBLIC FLAVORS

   // ************************************************************************

   this.toString=this.getName=function(){ return myName }



   this.eat=function(){

       if (makeOlder()){

           this.dirtFactor++;

           return weight*=3;

       } else alert(myName+" can't eat, he's dead!");

   }

   this.exercise=function(){

       if (makeOlder()){

           this.dirtFactor++;

           return weight/=2;

       } else alert(myName+" can't exercise, he's dead!");

   }

   this.weigh=function(){ return weight }

   this.getRace=function(){ return race }

   this.getAge=function(){ return age }

   this.muchTimePasses=function(){ age+=50; this.dirtFactor=10; }





   // ************************************************************************

   // PUBLIC PROPERTIES -- ANYONE MAY READ/WRITE

   // ************************************************************************

   this.clothing="nothing/naked";

   this.dirtFactor=0;

}





// ************************************************************************

// PUBLIC METHODS -- ANYONE MAY READ/WRITE

// ************************************************************************

Person.prototype.beCool = function(){ this.clothing="khakis and black shirt" }

Person.prototype.shower = function(){ this.dirtFactor=2 }

Person.prototype.showLegs = function(){ alert(this+" has "+this.legs+" legs") }

Person.prototype.amputate = function(){ this.legs-- }





// ************************************************************************

// PROTOTYOPE PROERTIES -- ANYONE MAY READ/WRITE (but may be overridden)

// ************************************************************************

Person.prototype.legs=2;





// ************************************************************************

// STATIC PROPERTIES -- ANYONE MAY READ/WRITE

// ************************************************************************

Person.population = 0;







// Here is the code that uses the Person class

function RunGavinsLife(){

   var gk=new Person("Gavin","caucasian");       //New instance of the Person object created.

   var lk=new Person("Lisa","caucasian");        //New instance of the Person object created.

   alert("There are now "+Person.population+" people");



   gk.showLegs(); lk.showLegs();                 //Both share the common 'Person.prototype.legs' variable when looking at 'this.legs'



   gk.race = "hispanic";                         //Sets a public variable, but does not overwrite private 'race' variable.

   alert(gk+"'s real race is "+gk.getRace());    //Returns 'caucasian' from private 'race' variable set at create time.

   gk.eat(); gk.eat(); gk.eat();                 //weight is 3...then 9...then 27

   alert(gk+" weighs "+gk.weigh()+" pounds and has a dirt factor of "+gk.dirtFactor);



   gk.exercise();                                //weight is now 13.5

   gk.beCool();                                  //clothing has been update to current fashionable levels

   gk.clothing="Pimp Outfit";                    //clothing is a public variable that can be updated to any funky value

   gk.shower();

   alert("Existing shower technology has gotten "+gk+" to a dirt factor of "+gk.dirtFactor);



   gk.muchTimePasses();                          //50 Years Pass

   Person.prototype.shower=function(){           //Shower technology improves for everyone

       this.dirtFactor=0;

   }

   gk.beCool=function(){                         //Gavin alone gets new fashion ideas

       this.clothing="tinfoil";

   };



   gk.beCool(); gk.shower();

   alert("Fashionable "+gk+" at "

       +gk.getAge()+" years old is now wearing "

       +gk.clothing+" with dirt factor "

       +gk.dirtFactor);



   gk.amputate();                                //Uses the prototype property and makes a public property

   gk.showLegs(); lk.showLegs();                 //Lisa still has the prototype property



   gk.muchTimePasses();                          //50 Years Pass...Gavin is now over 100 years old.

   gk.eat();                                     //Complains about extreme age, death, and inability to eat.

}

Notes

• maxAge is a private variable with no privileged accessor method; as such, there is no way to publicly get or set it.
• race is a private variable defined only as an argument to the contructor. Variables passed into the constructor are available to the object as private variables.
• The 'tinfoil' beCool() fashion method was applied only to the gk object, not the entire Person class. Other people created and set to beCool() would still use the original 'khakis and black shirt' clothing that Gavin eschewed later in life.
• Note the implicit call to the gk.toString() method when using string concatenation. It is this which allows the code alert(gk+' is so cool.') to put the word 'Gavin' in there, and is equivalent to alert(gk.toString()+' is so cool.'). Every object of every type in JS has a .toString() method, but you can override it with your own.
• You cannot (to my knowledge) assign public methods of a class inside the main object constructor...you must use the prototype property externally, as above with the beCool() and shower() methods.
• As I attempted to show with the Person.prototype.legs property and the amputate() function, prototype properties are shared by all object instances. Asking for lk.legs yields '2' by looking at the single prototype property. However, attempting to change this value using either gk.legs=1 or (in the Person object) this.legs=1 ends up making a new public property of the object specific to that instance. (This is why calling gk.amputate() only removed a leg from Gavin, but not Lisa.) To modify a prototype property, you must use Person.prototype.legs=1 or something like this.constructor.prototype.legs=1. (I say 'something like' because I discovered that this.constructor is not available inside private functions of the object, since this refers to the window object in that scope.)
• Wherever an anonymous function is declared inline with
  foo = function(p1,p2){ some code }
  the new Function() constructor is NOT equivalent, e.g.
  foo = new Function('p1','p2','code');
  since the latter runs in the global scope--instead of inheriting the scope of the constructor function--thus preventing it from accessing the private variables.
• As noted above in the code comments, the act of setting gk.race to some value did NOT overwrite the private race variable. Although it would be a dumb idea, you can have both private and public variables with the same name. For example, the yell() method in the following class will yield different values for foo and this.foo:

  function StupidClass(){
  
       var foo = "internal";
  
       this.foo = "external";
  
       this.yell=function(){ alert("Internal foo is "+foo+"\nExternal foo is "+this.foo) }
  
      }

• Private functions and privileged methods, like private variables and public properties, are instantiated with each new object created. So each time new Person() is called, new copies of makeOlder(), toString(), getName(), eat(), exercise(), weigh(), getRace(), getAge(), and muchTimePasses() are created. For every Person, each time. Contrast this with public methods (only one copy of beCool() and shower() exist no matter how many Person objects are created) and you can see that for memory/performance reasons it can be preferable to give up some degree of object protection and instead use only public methods.
  
  Note that doing so requires making private variables public (since without privileged accessor methods there would be no way to use them) so the public methods can get at them...and which also allows external code to see/destroy these variables. The memory/performance optimization of using only public properties and methods has consequences which may make your code less robust.
  
  For example, in the above age and maxAge are private variables; age can only be accessed externally through getAge() (it cannot be set) and maxAge cannot be read or set externally. Changing those to be public properties would allow any code to do something like gk.maxAge=1; gk.age=200; which not only does it not make sense (you shouldn't be able to manipulate someone's age or lifespan directly), but by setting those values directly the alive variable wouldn't properly be updated, leaving your Person object in a broken state.