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Please help us settle the controversy of "Nearly" everything is an object (an answer to Stack Overflow question As a novice, is there anything I should beware of before learning C#?). I thought that was the case as everything in Visual Studio at least appears as a struct. Please post a reference, so that it doesn't become "modern jackass" (This American Life).

Note that this question refers to C#, not necessarily .NET, and how it handles the data under the hood (obviously it's all 1's and 0's).

Here are the comments to "everything is an object":

  • Eh, no, it's not. – Binary Worrier
  • I'd like an example... – scotty2012
  • isn't everything derived from the base type Object? – rizzle
  • Most things are objects... – Omar Kooheji
  • Value types, ints, doubles, object references (not the objects them selves) etc aren't objects. They can be "boxed" to look like objects (e.g. i.ToString()) but really they're primitive types. Change the entry to "NEARLY everthing is an object" and I'll remove the downvote – Binary Worrier
  • I appreciate the clarification. I think the lowest level that you can interact with, say an int, in C# is as a struct, which isn't an object? - – rizzle
  • Doesn't Int32 inherit from ValueType which inherits from Object? If so, despite the behavior, an int is an object. – Chris Farmer
  • No, the boxed type for int inherits from ValueType, which inherits from Object. They're not objects in the traditional sense because a) an int isn't a reference to an int, IT IS the int. b) ints aren't garbage collected. If you declare an Int32, then that int is 4 bytes on the stack, end of story – Binary Worrier

Definition of object: "Object" as a inheritor of class System.Object vs. "object" as an instance of a type vs. "object" as a reference type."

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@annakata: Except there is a clear answer. Holy wars have no clear answers. – GEOCHET Jan 12 '09 at 17:33
Rizzle! I was just about to post this as a question, to see what the community says. P.S. I'd wait to see what Jon Skeet or Marc Gravell say before selecting an answer. – Binary Worrier Jan 12 '09 at 17:33
lol - in a debate one side is right and the other is wrong, in a holy war it's the other way around – annakata Jan 12 '09 at 17:39
Again, some clarification is needed as to what the intended definition of 'object' is before this discussion can proceed. – Ron Warholic Jan 12 '09 at 17:42
@Binary: The Object class derives from jon skeet? :) – rizzle Jan 12 '09 at 17:44

17 Answers 17

up vote 64 down vote accepted

The problem here is that this is really two questions - one question is about inheritance, in which case the answer is "nearly everything", and the other is about reference type vs value type/memory/boxing, which case the answer is "no".


In C#, the following is true:

  • All value types, including enums and nullable types, are derived from System.Object.
  • All class, array, and delegate types are derived from System.Object.
  • Interface types are not derived from System.Object. They are all convertible to System.Object, but interfaces only derive from other interface types, and System.Object is not an interface type.
  • No pointer types derive from System.Object, nor are any of them directly convertible to System.Object.
  • "Open" type parameter types are also not derived from System.Object. Type parameter types are not derived from anything; type arguments are constrained to be derived from the effective base class, but they themselves are not "derived" from anything.

From the MSDN entry for System.Object:

Supports all classes in the .NET Framework class hierarchy and provides low-level services to derived classes. This is the ultimate base class of all classes in the .NET Framework; it is the root of the type hierarchy.

Languages typically do not require a class to declare inheritance from Object because the inheritance is implicit.

Because all classes in the .NET Framework are derived from Object, every method defined in the Object class is available in all objects in the system. Derived classes can and do override some of these methods.

So not every type in C# is derived from System.Object. And even for those types that are, you still need to note the difference between reference types and value types, as they are treated very differently.


While value types do inherit from System.Object, they are treated differently in memory from reference types, and the semantics of how they are passed through methods in your code are different as well. Indeed, a value type is not treated as an Object (a reference type), until you explicitly instruct your application to do so by boxing it as a reference type. See more information about boxing in C# here.

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Because he is right. The inheritance chain goes: Object -> ValueType -> Int32. Meaning that Int32 is an object but is also a value type. Methinks that struct is shorthand for ValueType. – Quibblesome Jan 12 '09 at 17:44
From MSDN: "Boxing and unboxing enable value types to be treated as objects" ( Therefore, this implies that the value types ARENT objects if they have to be boxed in order to be "treated as objects". – TheSoftwareJedi Jan 12 '09 at 17:57
This doc is clearly misleading, as this is a bad interpretation of OOP definitions, where object is just the instance of a type. This part of the doc should be interpreted as "enables value types to be threated as reference types". They put in one sentence contradicting terms. – Sunny Milenov Jan 12 '09 at 18:04
What is an object? :) I think it's like a set in mathematics. And what is "everything"? – Mehrdad Afshari Apr 24 '09 at 13:24
I corrected the section on inheritance. The following C# types do NOT derive from System.Object: interfaces, pointers, type parameters. – RoadWarrior Sep 11 '09 at 12:56

Some people here have a strange notion of what an “object” in object-oriented programming is. In order for something to be an object it does not have to be a reference type or, more generally, follow any formal implementation.

All that means is that you can operate on it as a first-class citizen in an object-oriented world. Since you can do this on values in C# (thanks to autoboxing), everything is indeed an object. To some extend, this is even true for functions (but arguably not for classes).

Whether this is relevant in practice is another question but this is a general problem with OOP that I notice once again. Nobody is clear on the definition of OOP (yes, most people agree that it has something to do with polymorphism, inheritance and encapsulation, some throw in “abstraction” for good measure).

From a usage point of view, every value in C# handles like an object. That said, I like the currently accepted answer. It offers both technically important aspects.

Notice that in other contexts, e.g. C++, other aspects are stressed since C++ isn't necessarily object-oriented and furthermore is much more focused on low-level aspects. Therefore, the distinction between objects, POD and builtin primitives makes sometimes sense (then again, sometimes not).

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Are you saying so, that my clinging to primitive types as "not objects" is a hold over from my C++ days, and that ints are objects, even though under the covers they behave completely differently from "instances of classes"? – Binary Worrier Jan 12 '09 at 18:12
Yes, that's the gist of it. “object” is a concept, not necessarily tied to one fixed implementation and in general it's synonymous with “instance” (which might not make things better). – Konrad Rudolph Jan 12 '09 at 18:26
Well, it make's things better for me, I have "seen the light" and will update my answer accordingly. Thanks mate :) – Binary Worrier Jan 13 '09 at 10:31
Not everything is an object by this definition. For example a method or an operator are not a first-class citizen, hence not objects. – JacquesB Jan 13 '09 at 18:33
@Konrad: I prefer to use the terminology relevant to the language in question. The C# spec pretty clearly distinguishes between objects (instances of classes) and value type values. – Jon Skeet Jan 29 '09 at 21:30

A little late to the party, but I came across this in a search result on SO and figured the link below would help future generations:

Eric Lippert discusses this very thoroughly, with a much better (qualified) statement:

The way to correct this myth is to simply replace "derives from" with "is convertible to", and to ignore pointer types: every non-pointer type in C# is convertible to object.

The gist of it, if you hate reading well-illustrated explanations from people that write programming languages, is that (pointers aside), things like Interface, or generic parameter type declarations ("T") are not objects, but are guaranteed to be treatable as objects at runtime, because they have a definite instance, that will be an Object. Other types (Type, Enum, Delegate, classes, etc.) are all Objects. Including value types, which can be boxed to object as other answers have discussed.

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This deserves more +1s – nawfal May 14 '13 at 4:27

They are all treated as objects, but they are not all objects. The confusion comes in with Autoboxing.

See this for more information:

The abstraction confuses people apparently.

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I thought that value types are NOT objects. They're stored differently in memory by the CLR - value types are stored on the stack, and objects are stored on the heap. You can cast value types to a reference type to make them act like an object, but the CLR takes the value off of the stack, wraps it in an object, and stores it on the heap. That is what happens when you "box" a variable.

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Yeah this is how Java handles things, I was under the impression .net was the same. – James McMahon Jan 12 '09 at 17:51
Clarification: Value types are ONLY stored on the stack when they are not part of a reference type. Values types which are part of a reference type are stored on the heap along with the rest of the instance. – Brian Rasmussen Jan 12 '09 at 18:08

You're confusing an object with a value or reference. Basically, everything is an object. An Int is an object, but it is also a value type. A class instance is an object, but it is also a reference type.

Methods aren't objects, nor are properties. The just operate on objects. And yes, pretty much everything inherits from the object class.

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The C# spec distinguishes between an object (an instance of a class) and a value type value. – Jon Skeet Jan 29 '09 at 21:19
All value types are implicitly derived from the Object class: – BBetances Jan 29 '09 at 23:45

In C# (and in OOP in general) we have types (class - reference, struct - value, etc.). These are the definitions. And the "object" is the concrete instance of a given type.

So, if we read the question literally, yes, everything is an object when instantiated.

The confusion most probably begins with a bad choosing of the name of the very base class for everything. In .NET this is the Object class.

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The word "thing" isn't defined very well – Joe Philllips Jan 12 '09 at 17:59
oh, it is :) - thing == System.Object :) – Sunny Milenov Jan 12 '09 at 18:06

Based on all books that I read, everything in C# is an object.

Some are reference other are Value type. Value type object inherit from the class ValueType. They have different behavior but inherently ... objects.

This is the reason why you can store an Int32 in an object variable as well as everything that you can ever create in .NET.

For more detail... look at the following:

All value types are derived implicitly from the Object class.

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everything in C# is not an object. – nawfal May 14 '13 at 4:40

From: Value Types (C# Reference) - MSDN 3.5

All value types are derived implicitly from the System.ValueType.

From: Value Type Class - MSDN 3.5

ValueType overrides the virtual methods from Object with more appropriate implementations for value types.

From: Enum Class - MSDN 3.5

This class inherits from ValueType

The Inheritance Hierarchy is as follows:

  • System.Object
    • System.ValueType
      • System.Enum

Conclusion: Everything is an object

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(Assumption: Everything is a Value Type.) – namey Aug 1 '13 at 20:31

While everyone seems to be focusing on the value types vs. reference types debate, we are forgetting one type in C# that is neither reference nor value, it doesn't derive from object, and it can't be cast to object: pointers.

Unlike values and reference types, pointers cannot be cast to object.

According to the MSDN documentation on C# pointer types,

Pointer types do not inherit from object and no conversions exist between pointer types and object. Also, boxing and unboxing do not support pointers. However, you can convert between different pointer types and between pointer types and integral types.

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Depends what you mean by "everything" and by "is an object". If you define these two terms, the answer is easy :-)

For example, in some languages an if-block is an object that can be passed around as a value, assigned to a variable and so on. This is not the case in C#, so clearly not everything is an object in C#.

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The number 2 is not an object.

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but it is stored as a Int32, which is an object. – scottm Jan 12 '09 at 17:32
Scotty2012 is correct – TravisO Jan 12 '09 at 17:32
It is called autoboxing. – GEOCHET Jan 12 '09 at 17:39
But it's not boxed into an object until it's needed to be. Thus, it's not ALWAYS an object. – TheSoftwareJedi Jan 12 '09 at 17:40
You mean its not boxed into an object until the program is running? or the code is being interpreted? – scottm Jan 12 '09 at 17:42

Value types are not objects, they obey different copying semantics, different passing semantics, and must be wrapped in a class (Object) in order to be treated as such.

Edit: I think the argument is somewhat vague, as you must qualify what you mean by 'object'. Is an object just something that inherits from Object, or is it something that obeys Object's use semantics? Or are we talking the most general definition of object, where it is anything that can contain data and operations on that data?

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Don't you mean, value types aren't reference types? They are certainly objects. – Sekhat Jan 12 '09 at 18:40

C# has was is referred to as a unified type system. That means that everything can be seen as an object. However, underneath this there are two different types: value types and reference types. Value types can be viewed as an object via the boxing mechanism. This means that an object is created representing the value of the value type in question.

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"C# has was is referred to as a unified type system. That means that everything can be seen as an object." No, that means everything has a type. – Sekhat Jun 28 '10 at 9:59
From language spec "C# has a unified type system. All C# types, including primitive types such as int and double, inherit from a single root object type. Thus, all types share a set of common operations, and values of any type can be stored, transported, and operated upon in a consistent manner." – Brian Rasmussen Jun 28 '10 at 10:29
@BrianRasmussen: In the real world of the managed runtime in which C# programs execute, value-type storage locations do no not hold things that inherit from Object, but their contents can be implicitly converted to things that do inherit from Object. To the extent that the C# specification offers up a contrary abstraction, I would consider it defective. – supercat Feb 13 '13 at 20:17
@supercat I know. However, that is an implementation detail. C# allows you to view everything as object, which is what the language specification states. – Brian Rasmussen Feb 13 '13 at 20:50
@BrianRasmussen: It's more than just an implementation detail. If a method takes a generic parameter of type T:IEnumerator<string> and passes it to two other routines, the behavior will be very different if it is passed a value-type List<string>.Enumerator versus a reference of type IEnumerator<string> which points to a boxed instance of List<string>.Enumerator. The CLI documentation considers them different types and they behave differently. To suggest that the thing that's passed in the former case is an Object is IMHO unhelpful. – supercat Feb 13 '13 at 21:03

Considering that the question is referring to Object in a OOP sense, the answers is:

From a technical point of view the answer is: No

From a dogmatic point of view the answer is: Yes


Technically value types (primitives or structs) are not objects unless in "boxed" form, but because the .Net does seamless conversions of value types to their Object counterpart through the act of boxing/unboxing (creating a class instance that holds the value and is derived from Object) that means value types can be treated as both objects and simple values.

So value types are dual in nature, they behave as values and as objects. Values in .Net are Objects when they need to be, and they are not objects in the rest of cases.

The correct answer that takes the technical aspect into consideration is "Everything in .Net is as if it were an Object".

The dogmatic answer is "Everything is an Object".

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This a discussion of two worlds: language and memory.

To me language is like a layer of abstraction and the term object belongs to this level of abstraction. I don't see a point in talking about objects in terms of memeory organisation and if you do use the "object" term when talking about memory you actually are borrowing this term from a different layer of abstraction. Thus you shouldn't forget where it came from.

If we're talking about C# I don't undestand why someone would use memory organisation as an argument. Of course if I would answer this question to someone I would say "Yes, in C# everything is an object, but you also should know that under the hood it may work differently depending on...."

This may start an interesting argument but may also speak to some: in a similar discussion one could say that actually there is no object oriented programming, there's only procedural programming. Does you CPU understand objects? Even better, actually there is no software, there's only differnt hardware states :)

My point is that some terms don't translate to other layers of abstraction and you should stick the discussion to where it belongs (which in this case is a language, not memory).

Even the author of this question stated: "Note that this question refferes to C# not necessarily .NET and how it handles the data under the hood (obviously it's all 1's and 0's.)"

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Addressing the semantics, Why overload the word "object" so that it means "reference type" when we already have a perfectly good, unambiguous term for that -> "Reference Type", and the when, by overloading the word "Object" in this way we create the confusion this thread demonstrates... i.e., the mismatch between the fact that all Types, (including value types), inherit the implementation defined in the Type "System.Object". Clearly, this is at best unnecessary, and at worst extremely confusing.. Even the fact that the MS documentation is at times confusing on this issue is no excuse to propagate the confusion.

Much easier, and clearer, is to just define and use the term "object" to mean an instance of ANY type, value or reference, and the phrase "Reference Type" to describe the Types that use pointer variables and have their state stored on the Heap ...

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