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in .Net, integers are valuetypes, which means it stored on the stack. Integers are also class (System.Int32 usually). They have methods like CompareTo, Equals,...Thus, they should take more than four bytes on the stack. The example below show however that they take exactly 4 bytes:

unsafe static void Main()
    int a = 2, b = 4;
    Console.WriteLine("Adress of a : {0}", (int)&a);
    Console.WriteLine("Adress of b : {0}", (int)&b);
    Console.WriteLine("Size of integer: {0}", (int)(&a) - (int)(&b));


Adress of a : 1372876
Adress of b : 1372872
Size of integer: 4

Does the CLR make a special treatment for integer and other valuetypes (float, long, double,...)?

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I think int32 is a structure, not a class. – Shawn Mar 1 '09 at 21:51
Try running this on a 64-bit OS... – Curt Hagenlocher Mar 1 '09 at 22:24
even then the platform keeps ints as 4 bytes. native int that's a different matter. though the bad example might end up with different value I admit – ShuggyCoUk Mar 1 '09 at 22:31
Mathieu your way to calculate the size is very fragile. use sizeof() instead. – ShuggyCoUk Mar 1 '09 at 22:32
"Thus, they should take more than four bytes on the stack" why? What meta data do you need to store, since its a stack variable? – Aron May 29 '14 at 6:56

No, the fact that they're value types doesn't mean they're stored on the stack. It means they're stored wherever the variable lives.

But hey, let's roll with the local variable business, at which point (with no captures etc) they do live on the stack. And they take 4 bytes. Why would they take more? There's no need for a vtable on the stack, because the metadata already specifies the type: there's no ambiguity as to what virtual methods will be called etc.

EDIT: As pointed out in a comment by Shawn (but I wanted to make it more obvious), System.Int32 is a structure, not a class. (In fact the CLR will create a shadow reference type to cover boxed values of ints, but that's a different matter.)

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Thank you Jon, It makes things clear in my head now. – Mathieu Mar 1 '09 at 22:10
to be clear if the compiler knows the type of the variable on which a method is being invoked and said method is directly defined on that class (if virtual then there must be an override on the class/struct) then the call described in the IL contains all the required info, so no boxing is required – ShuggyCoUk Mar 1 '09 at 22:21

Thus, they should take more than four bytes on the stack.

This does not follow. The compiler and runtime knows the exact type. Value types cannot be further subtyped, so no need for "vtable" or other object specific dynamic dispatch mechanism.

When value types are boxed to put them on the heap, the normal .NET Object header is needed.

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A value type is allocated on the stack if it's a local variable in a method. If a value type is a member of a class, it will be allocated as part of the object's memory area on the heap.

A value type variable does not need any extra data to keep track of the type, as reference types does. The compiler always knows where the value type variables are and what their type is, so there is no extra data needed in addition to the actual data. An Int32 variable will always be four bytes.

A reference type is allocated on the heap, and it has a reference (or more) that points to it. The reference itself is actually a value type, so it will just be a pointer, the compiler keeps track of where it is and what type it is. The type of the reference doesn't have to be the same as the type of the object that it is pointing to, so the object needs extra information to keep track of the type. For example, an object reference pointing to an instance of the StringBuilder class:

object o = new StringBuilder();

Here the compiler keeps track of that type of the reference is object, so it will just be a pointer (4 bytes in a 32-bit application). The StringBuilder object is stored on the heap, and it has two extra pointers with it that keeps track of the actual type.

A value type can also be boxed, i.e. stored as an object on the heap. This occurs when you cast a value type to Object:

object p = 42;

This will allocate an object on the heap and copy the value of the integer into it. This object will need the extra type information to keep track of the type, so it will use 12 bytes on the heap instead of four (in a 32 bit application).

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For your StringBuilder example, the two extra pointers are part of the reference or the object? and why two and not only one? thank you. – Mathieu Mar 1 '09 at 23:34
No, the eight bytes are not including the reference, they are part of the object on the heap. A pointer to the virtual method table, and four more bytes that are not very well documented... Here is some more info:… – Guffa Mar 2 '09 at 2:07
Just to be picky: "if it's a local variable in a method" and that variable isn't captured into a closure, and the method isn't an iterator block ;-p – Marc Gravell Mar 2 '09 at 3:47

There's a difference between the type definition and the value stored for an instance of that type for example ...

// type definition
public class Bla {}
// instance of type bla
public Bla myBla = new Bla();

essentially the size of an int is as it seems (4 bytes) but as you figured out, that's the size of the memory space it requires to declare.

The type definition is stored elsewhere, methods like CompareTo are only declared once this way instead of once for each instance of that type you declare, and since they are loaded as part of the framework libraries itself, for the purpose of your application, these definitions effectively do take up 0 space.

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