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I am reading CLR via C# by Jeffery Richter and it says a struct is a value type and cannot be inherited. Why not? Any technical reasons? Or philosophical ones?

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marked as duplicate by nawfal, senia, SysDragon, Brian Nickel, nvoigt May 27 '13 at 8:17

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Maybe more a question than an answer, but all structs inherit System.ValueType and if you look with Reflector, System.ValueType is an abstract class :) All structs inherit it. I think it would be beneficial if the responses to this question clarified this. – Marek Feb 22 '10 at 10:17
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@Marek: Read the second paragraph of my answer here for clarification on that: stackoverflow.com/questions/1978589/… To sum up, inheriting from ValueType doesn't have a structural implication for the struct instance. In fact, a struct value is not really a System.ValueType as far as runtime is concerned (i.e. in IL, you can't pass an int to a method that takes a ValueType without explicitly using the box instruction). Only a boxed struct (which is a reference type) really is. – Mehrdad Afshari Feb 22 '10 at 10:23
up vote 62 down vote accepted

A little of both.

Philosophically, it works out - there are classes, which are the "real" building block for object oriented programming, and there are structs, which are lightweight data types for storage but allow object-like method calls for familiarity and convenience.

Technically, being a "value type" means that the entire struct - all of it's contents - are (usually) stored wherever you have a variable or member of that type. As a local variable or function parameter, that means on the stack. For member variables, that means stored entirely as part of the object.

As a (primary) example of why inheritance is a problem, consider how storage is affected at a low level if you allowed structs to have subtypes with more members. Anything storing that struct type would take up a variable amount of memory based on which subtype it ended up containing, which would be an allocation nightmare. An object of a given class would no longer have a constant, known size at compile time and the same would be true for stack frames of any method call. This does not happen for objects, which have storage allocated on the heap and instead have constant-sized references to that storage on the stack or inside other objects.

This is just an intuitive, high-level explanation - See comments and other answers for both expanded and more precise information.

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Thanks, Jesse. Your explanation gave me some sparks. As to my understanding, OOP comes at a cost. If there's only "ref-type" and everything happens on the heap, whose management is far less efficient than the stack, the performance will be poor. So there comes the so-called "value-type" which lives on the stack for better performance, and it is because of the place of the allocation and further the memory usage paradigm that make the value-type sealed. – smwikipedia Feb 22 '10 at 13:36
    
...and if we can figure out a brand-new paradigm of using memory besides stack and heap, maybe new data types will arise. – smwikipedia Feb 22 '10 at 13:39
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@smwikipedia you should refer to Eric Lippert's article The Stack is An Implementation Detail – Robert Paulson Feb 22 '11 at 1:42
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I could see some substantial benefits to allowing the definition of a "derived struct" which would support bidirectional identity preserving conversion to/from the type from which it was derived. The "derived struct type" would not be allowed to define any new fields, and would have some limits as to what it could do, but could still be useful in some contexts. See stackoverflow.com/a/11073235/363751 if you like. – supercat Jun 17 '12 at 17:16
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Note that C# structs are conceptually the same as C++ objects, and in C++ inheritance is possible. However, the problem you mentioned is solved through object slicing, which is very unintuitive (and is basically an implementation-detail leaking into language) – BlueRaja - Danny Pflughoeft Jul 23 '15 at 23:43

Because it is the way structs are represented in .NET. They are value types and value types don't have a method table pointer allowing inheritance.

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One might add: And the reason why they don't have a method table pointer is because value types are designed to be as lightweight as possible. – bitbonk Feb 22 '10 at 10:31
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Except that structs can implement interfaces, and a method table pointer is used for calling them ... – Bevan Feb 22 '11 at 2:37
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There are a number of ways in which structs could usefully support inheritance without needing per-instance type information: (1) by saying that the only effect of FooStruct:BarStruct would be that a generic type constrained to BarStruct would be able to access members (including fields) of that type directly; (2) by saying that any type FooStruct:BarStruct must be contractually bound to use its inherited fields in such a fashion that a BarStruct formed by copying the inherited fields of an existing FooStruct must be a valid BarStruct, and... – supercat Dec 4 '13 at 21:05
    
...taking a valid FooStruct and BarStruct, and modifying a the former by copying all the fields from the latter to the former, would yield a FooStruct that was still valid. Structures which would be broken if "sliced" should be sealed, but some structures' behavior would remain perfectly sensible even when sliced (especially those which have no fields other than the ones they inherit). – supercat Dec 4 '13 at 21:09

You may find the answers to SO Question Why are .NET value types sealed? relevant. In it, @logicnp refers to ECMA 335, which states:

8.9.10 Value type inheritance

  • [...]
  • Will be sealed to avoid dealing with the complications of value slicing.
  • The more restrictive rules specified here allow for more efficient implementation without severely compromising functionality.
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