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If I have an object such as List<string> that I cast into an object, and then back again, will all the strings get cast as well or just the list that contains them?

I'm thinking that the compiler would only have to check if the object was of type List<string> before casting back into a List<string> but I grew up in C#, so I'm not entirely certain what goes on behind the code that I write.

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No boxing will be needed at all as long as you are not working directly with a value type. Collections of value types may result in their contents being boxed (although proper generic classes like List will avoid this), but that happens as soon as an item is added to the collection. –  Jon Jan 12 '12 at 16:27

6 Answers 6

up vote 6 down vote accepted

When you cast a List<string> to an object, you're not really doing any casting at all. You're assigning one reference to some data, to a less-specific reference. The string objects that it contains aren't changed at all, either.

Also, to clarify, there is no boxing involved in this case. Boxing occurs when you create a reference to a value type like an int or some struct, by assigning it or passing it somehow to a variable of type object.

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Add to that that boxing requires a struct - netiher List nor String are structs, they are classes. –  TomTom Jan 12 '12 at 16:27
So does this also mean that a List<object> would be the same performance wise as a List<string> as they are both reference types? Isn't this the reason why generics were created? –  ChandlerPelhams Jan 12 '12 at 16:29
@TomTom: Yup, adding that already :) –  minitech Jan 12 '12 at 16:30
@ChandlerPelhams: Not if you intend to actually use it. To use an object as a string, you need to cast it back again. That's one of the reasons generics were created. –  minitech Jan 12 '12 at 16:30
Exactly The <string> saves you a ast when takin a string out. It also wuold save you a boxing operation IF THE PARAMTER WOULD BE A STRUCT - like in <int>. Sadly your example is not a struct (string is not a struct). And you asked for a concrete example. –  TomTom Jan 12 '12 at 16:32

Boxing occurs when a struct / value type is stored in a location which is typed to object or an interface which that struct implements. In this scenario both List<string> and string are reference types so no boxing occurs.

struct S1 : IComparable {

S1 local = new S1();  // No box. 
object obj = local;   // Box S1 instance into object
IComparable comp = local;  // Box S1 instance into IComparable
obj = "hello";  // String is a reference type, no boxing
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string is a reference type - an instance of string will never get boxed.

If however you had a List<int>, the List is a reference type, so there will be no boxing here either. int is a value type and it could be boxed IF it were cast to an object (either implicitly or explicitly).

Boxing only affects value types - List<T> is a class, hence a reference type, changing the generic type T does not affect whether an instance is passed by value or by reference.

Generic collections help prevent boxing as it enables value types to be read / written without being boxed to an object.

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OK, well how about value types? Would there be a need to box a List<int>? –  ChandlerPelhams Jan 12 '12 at 16:26
No, because List<int> is a reference type. The CONTENT would not need boxing. int a = list[0] is no boxing, but the the LIST is a reference type. –  TomTom Jan 12 '12 at 16:33

For every value type, there is a corresponding object type with the same name which is derived from ValueType. Whenever it is necessary to create a storage location (field, variable, or parameter) of a given type, the system will allocate space to store either a heap reference (if the type does not derive from ValueType), all of the type's fields (if it's a 'struct'), or the bits holding the types value. Boxing occurs when an attempt is made to store an instance of a value type into a heap reference. Unboxing occurs when an attempt is made to use a heap reference as though it were a value type. Note that in some contexts, unboxing will copy the contents of boxed object to a new storage location, but in other contexts it will regard the boxed instance as a storage location. The semantics of this are not always clear, which is one of the reasons some people hate mutable structs. In practice, mutable structs are fine if one avoids usage scenarios where the semantics get murky, and even immutable structs can suffer from the same murky semantics.

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Boxing and Unboxing is the actions that applies to Value Types not to Reference Types.

It's not that, it's just a simple cast.

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Only the List<string> will be casted.

If you want to cast the List<string> items do this:

List<string> list = new List<string>{"first", "second"};
List<object> objectsList = list.Cast<object>();

P.S. string is a reference type so it can't really get boxed and unboxed

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