Within the guts of .net, the definition for a struct containing certain members is the same as a definition for a class which those same fields and members, and which inherits from
System.ValueType. Note that compilers will not allow one to declare a
class which inherits
ValueType, but when one declares a
struct, the compiler, "behind the scenes" declares a class which does.
What makes value types special in .net is the way the run-time allocates storage locations (variables, fields, parameters, etc.) When a storage location of a type not inheriting from
ValueType is declared, the runtime will allocate space for a heap object reference. By contrast, when a storage location of a type inheriting from
ValueType is declared, the runtime will allocate space for all the public and private fields of that type. For a type like
int, the system allocates a private field which is of a special primitive type, outside the normal type system.
Note that a storage location of a value type doesn't really hold an instance of that type; instead is an instance of that type, and holds all of the fields of that type. A statement like
struct1 = struct2 does not replace the value-type instance
struct1 with the instance
struct2. Instead, it copies all of the fields from
struct2 over the corresponding fields in
struct1. Likewise if a value-type storage location is passed as a method to a procedure without using the
ref keyword, what is passed is not the struct instance itself, but rather the contents of its fields.
If it is necessary to copy a value-type storage location to a one of type not derived from
IComparable), the system will create a new heap-object instance of the value type, copy all the fields from the value type to that new instancen and store a reference to that new instance in the target storage location. This process is called "boxing". Most compilers will do this implicitly, thus attempting to behave as though a value type storage location holds an object which derives from
ValueType. It's important to note, though, that this is an illusion. If type
X derives from
Y, one has an
xx and a
yy, and one performs
xx = yy, such a statement should cause
yy to refer to the same object instance. That will happen if
yy are types not derived from
ValueType, even if
yy holds an instance of something derived from
ValueType. It will not happen, however, if
yy derives from
ValueType. In that case, the system will copy fields from one instance to another (possibly new) instance.