Difference between object and instance

Question

I know this sort of question has been asked before, but I still feel that the answer is too ambiguous for me (and, by extension, some/most beginners) to grasp.

I have been trying to teach myself broader concepts of programming than procedural and basic OOP. I understand the concrete concepts of OOP (you make a class that has data (members) and functions (methods) and then instantiate that class at run time to actually do stuff, that kind of thing).

I think I have a handle on what a class is (sort of a design blueprint for an instance to be created in its likeness at compile time). But if that's the case, what is an object? I also know that in prototype based languages, this can muck things up even more, but perhaps this is why there needs to be a clear distinction between object and instance in my mind.

Beyond that, I struggle with the concepts of "object" and "instance". A lot of resources that I read (including answers at SO) say that they are largely the same and that the difference is in semantics. Other people say that there is a true conceptual difference between the two.

Can the experts here at SO help a beginner have that "aha" moment to move forward in the world of OOP?

Thanks again.

Note: this isn't homework, I don't go to school - however, I think it would help people that are looking for homework help.

Answer 1

A blueprint for a house design is like a class description. All the houses built from that blueprint are objects of that class. A given house is an instance.

Answer 2

Objects are things in memory while instances are things that reference to them. In the above pic: std(instance) -> Student Object (right)

std1(instance) -> Student Object (left)

std2(instance) -> Student Object (left)

std3(instance) -> no object (null)

Answer 3

An object is an instance of a class (for class based languages).

I think this is the simplest explanation I can come up with.

Answer 4

A class defines an object. You can go even further in many languages and say an interface defines common attributes and methods between objects.

An object is something that can represent something in the real world. When you want the object to actually represent something in the real world that object must be instantiated. Instantiation means you must define the characteristics (attributes) of this specific object, usually through a constructor.

Once you have defined these characteristics you now have an instance of an object.

Hope this clears things up.

Answer 5

I think that it is important to point out that there are generally two things. The blueprint and the copies. People tend to name these different things; classes, objects, instances are just some of the names that people use for them. The important thing is that there is the blueprint and copies of it - regardless of the names for them. If you already have the understanding for these two, just avoid the other things that are confusing you.

Answer 6

Lets compare apples to apples. We all know what an apple is. What it looks like. What it tastes like. That is a class. It is the definition of a thing. It is what we know about a thing.

Now go find an apple. That is an instance. We can see it. We can taste it. We can do things with it. It is what we have.

Class = What we know about something. A definition.

Object/Instance = Something that fits that definition that we have and can do things with.

Answer 7

In some cases, the term "object" may be used to describe an instance, but in other cases it's used to describe a reference to an instance. The term "instance" only refers to the actual instance.

For example, a List may be described as a collection of objects, but what it actually holds are references to object instances.

Answer 8

I have always liked the idea that equals the definition of a class as that of an "Abstract Data Type". That is, when you defined a class you're are defining a new type of "something", his data type representation, in terms of primitives and other "somethings", and his behavior in terms of functions and/or methods. (Sorry for the generality and formalism)

Whenever you defined a class you open a new possibility for defining certain entities with its properties and behavior, when you instantiate and/or create a particular object out of it you're actually materializing that possibility.

Sometimes the terms object and instances are interchangeable. Some OOP purists will maintain that everything is an object, I will not complain, but in the real OOP world, we developers use two concepts:

1. Class: Abstract Data Type sample from which you can derive other ADT and create objects.
2. Objects: Also called instances, represents particular examples of the data structures and functions represented by a given Abstract Data Type.

Answer 9

I have a counter Questiob to the above post: As There are mentioned above that an instance is an object that has been constructed (ie, had the constructor called). so if i Call a method other then constructor with Object , say method display() of class A, with an Object of class A then what we call this object , Object or instance ?

Class A
{
   Public A()
   {
   }
   Public void display()
   {
   }
   public static void main()
   {
     System.out.print("Class A")
   }
}


Class b
{
    private A aa;
    public b()
    {
      aa.display();
     }
 public static void main()
 {
   new b();
  }
}

Answer 10

Object Oriented Programming is a system metaphor that helps you organize the knowledge your program needs to handle, in a way that will make it easier for you to develop your program. When you choose to program using OOP you pick up your OOP-Googles, and you decide that you will see the problem of the real world as many objects collaborating between themselves, by sending messages. Instead of seeing a Guy driving a Car you see a Guy sending a message to the car indicating what he wants the car to do. The car is a big object, and will respond to that message by sending a message to it's engine or it's wheel to be able to respond properly to what the Driver told him to do in the message, etc...

After you've created your system metaphor, and you are seeing all the reality as objects sending messages, you decide to put all the things your are seeing that are relevant to your problem domain in the PC. There you notice that there are a lot of Guys driving different cards, and it's senseless to program the behavior of each one of them separately because they all behave in the same way... So you can say two things:

• All those guys behave in the same way, so I'll create a class called Driver that will specify who all the Drivers in the world behave, because they all behave in the same way. (And your are using class based OOP)
• Or your could say Hey! The second Driver behaves in the same way as the first Driver, except he likes going a little faster. And the third Driver behaves in the same way as the first Driver, except he likes zigzagging when he drives. (And you use prototype based OOP).

Then you start putting in the computer the information of how all the Drivers behave (or how the first driver behave, and how the second and third differ from that one), and after a while you have your program, and you use the code to create three drivers that are the model you are using inside that PC to refeer to the drivers you saw in the real world. Those 3 drivers that you created inside the PC are instances of either the prototype ( actually the first one is the prototype, the first one might be the prototype himself depending on how you model things) or the class that you created. The difference between instance and object is that object is the metaphor you use in the real world. You choose to see the guy and the car as objects (It would be incorrect to say that you see them as instances) collaborating between themselves. And then you use it as inspiration to create your code. The instance only exists in your program, after you've created the prototype or the class. The "objects" exist outside the PC because its the mapping you use to unite the real world with the program. It unites the Guy with the instance of Driver you created in the PC. So object and instance are extremely related, but they are not exactly the same (an instance is a "leg" of an object in the program, and the other "leg" is in the real world).

Answer 11

Object:when ever we create an object some memory is occupied by that Object Ex: Test t=new Test();//here t is an object of Test class

Instance:When ever we Declare the Instance separate memory is not occupied by that instance Ex: Test t;//here t is the instance of Test class

Answer 12

The truth is that object oriented programming often creates confusion by creating a disconnect between the philosophical side of development and the actual mechanical workings of the computer. I'll try to contrast the two for you:

The basic concept of OOP is this: Class >> Object >> Instance.

The class = the blue print. The Object is an actual thing that is built based on the 'blue print' (like the house). An instance is a virtual copy (but not a real copy) of the object.

The more technical explanation of an 'instance' is that it is a 'memory reference' or a reference variable. This means that an 'instance' is a variable in memory that only has a memory address of an object in it. The object it addresses is the same object the instance is said to be 'an instance of'. If you have many instances of an object, you really just have many variables in difference places in your memory that all have the same exact memory address in it - which are all the address of the same exact object. You can't ever 'change' an instance, although it looks like you can in your code. What you really do when you 'change' an instance is you change the original object directly. Electronically, the processor goes through one extra place in memory (the reference variable/instance) before it changes the data of the original object.

The process is: processor >> memory location of instance >> memory location of original object.

Note that it doesn't matter which instance you use - the end result will always be the same. ALL the instances will continue to maintain the same exact information in their memory locations - the object's memory address - and only the object will change.

The relationship between class and object is a bit more confusing, although philosophically its the easiest to understand (blue print >> house). If the object is actual data that is held somewhere in memory, what is 'class'? It turns out that mechanically the object is an exact copy of the class. So the class is just another variable somewhere else in memory that holds the same exact information that the object does. Note the difference between the relationships:

Object is a copy of the class. Instance is a variable that holds the memory address of the object.

You can also have multiple objects of the same class and then multiple instances of each of those objects. In these cases, each object's set of instances are equivalent in value, but the instances between objects are not. For example:

Let Class A From Class A let Object1, Object2, and Object3.

//Object1 has the same exact value as object2 and object3, but are in different places in memory.

from Object1>> let obj1_Instance1, obj1_Instace2 , obj1_Instance3

//all of these instances are also equivalent in value and in different places in memory. Their values = Object1.MemoryAddress.

etc.

Things get messier when you start introducing types. Here's an example using types from c#:

//assume class Person exists Person john = new Person();

Actually, this code is easier to analyze if you break it down into two parts:

Person john;
john = new Person();

In technical speak, the first line 'declares a variable of type Person. But what does that mean?? The general explanation is that I now have an empty variable that can only hold a Person object. But wait a minute - its an empty variable! There is nothing in that variables memory location. It turns out that 'types' are mechanically meaningless. Types were originally invented as a way to manage data and nothing else. Even when you declare primitive types such as int, str, chr (w/o initializing it), nothing happens within the computer. This weird syntactical aspect of programming is part of where people get the idea that classes are the blueprint of objects. OOP's have gotten even more confusing with types with delegate types, event handlers, etc. I would try not focus on them too much and just remember that they are all a misnomer. Nothing changes with the variable until its either becomes an object or is set to a memory address of an object.

The second line is also a bit confusing because it does two things at once:

The right side "new Person()" is evaluated first. It creates a new copy of the Person class - that is, it creates a new object.

The left side "john =", is then evaluated after that. It turns john into a reference variable giving it the memory address of the object that was just created on the right side of the same line.

If you want to become a good developer, its important to understand that no computer environment ever works based on philosophic ideals. Computers aren't even that logical - they're really just a big collection of wires that are glued together using basic boolean circuits (mostly NAND and OR).