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My coworker made the claim that there is never a need to use Object when declaring variables, return parameters, etc in .NET 2.0 and newer.

He went further and said in all such cases, a Generic should be used as the alternative.

Is there any validity to this claim? Off the top of my head I use Object for locking concurrent threads...

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Your coworker is being a little too dogmatic. –  vcsjones May 25 '12 at 12:56
possible duplicate of C#: System.Object vs Generics –  Daniel A. White May 25 '12 at 12:59
@vcsjones Imagine what it's like working on a project where lots of other similar assertions are being made. Disproving them is exhausting. –  LamonteCristo May 25 '12 at 13:00
possible duplicate of why-not-always-use-generics –  nawfal Jan 16 '14 at 16:02

7 Answers 7

up vote 8 down vote accepted

Generics do trump object in a lot of cases, but only where the type is known.

There are still times when you don't know the type - object, or some other relevant base type is the answer in those instances.

For example:

object o = Activator.CreateInstance("Some type in an unreferenced assembly");

You won't be able to cast that result or maybe even know what the type is at compile time, so object is a valid use.

Your co-worker is generalising too much - perhaps point him at this question. Generics are great, give him that much, but they do not "replace" object.

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Hmm, in this case can I use the constraint where T : Object? (I never tried that) –  LamonteCristo May 25 '12 at 13:03
An unconstrained generic type is always object - it is the lowest common denominator amongst the possible type arguments. –  Adam Houldsworth May 25 '12 at 13:16

object is perfect for a lock. Generics allow you to keep it typed appropriately. You can even constrain it to an interface or base class. You can't do that with object.

Consider this:

void DoSomething(object foo)

That won't work without any casting. But with generics...

void DoSomething<T>(T foo) where T : IHasDoFoo

With C# 4.0 and dynamic, you could deffer this to runtime, but I really haven't seen a need.

void DoSomething(dynamic foo)
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object is not really preferred. It's the simplest and readily available type, but lots of other types would work just as well. –  Henk Holterman May 25 '12 at 13:10
@HenkHolterman Does it matter if the other type is value or reference? –  LamonteCristo May 25 '12 at 13:51
You can only lock on a reference type. –  Henk Holterman May 25 '12 at 14:01
Beyond the fact that people have been using Object for years, is there any reason that creating instances of type Object for locking would be better than using instances of a type named something like MonitorLock which was derived from object and contained no fields? Are actual instances of System.Object ever used for any purpose which could not be fulfilled with such a derived type? –  supercat May 25 '12 at 17:10

When using interop with COM, you don't always have a choice... Generic don't really cater for the issues of interop.

Object is also the most lightweight option for a lock, as @Daniel A. White mentioned in his answer.

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Yes there is validity. A good breakdown has already been made here.

However, I cannot confirm if there is no instance where you will never use objects, but personally I do not use them and even before generics I avoided boxing/unboxing.

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There are lots of counterexamples, including the one you mentioned, using an object for synchronisation.

Another example is the DataSource property used in databinding, which can be set to one of a variety of different object types.

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Broad counterexample: The System.Collections namespace is alive and well in .NET 4, no sign of deprecation or warning against its use on MSDN. The methods you find there take and return Objects.

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Inherent in the question are actually two questions:

  1. When should storage locations of type `Object` be used
  2. When should instances of type `Object` be used

Storage locations of type Object must obviously be used in any circumstance where it will be necessary to hold references to instances of that type (since references to such instances cannot be held in any other type). Beyond that, they should be used in cases where they will hold references to objects which have no single useful common base type. This is obviously true in many scenarios using Reflection (where the type of an object may depend upon a string computed at run-time), but can also apply to certain varieties of collection which are populated with things whose type is known at compile time. As a simple example, one could represent a hierarchical collection of string indexed by sequences of int by having each node be of type Object, and having it hold either a String or an Object[]. Reading out items from such a collection would be somewhat clunky, since one would have to examine each item and determine whether it was an instance of Object[] or String, but such a method of storage would be extremely memory-efficient, since the only object instances would be those which either held the strings or the arrays. One could define a Node type with a field of type String and one of type Node[], or even define an abstract Node type with derived types StringNode (including a field of type String) and ArrayNode (with a field of type Node[]) but such approaches would increase the number of heap objects used to hold a given set of data.

Note that in general it's better to design collections so that the type of an object to be retrieved won't depend upon what's been shoved into the collection (perhaps using "parallel collections" for different types) but not everything works out that way semantically.

With regard to instances of type Object, I'm not sure there's any role they can fill which wouldn't be just as well satisfied by a sealed type called something like TokenObject which inherits from Object. There are a number of situations where it is useful to have an object instance whose sole purpose is to be a unique token. Conceptually, it might have been nicer to say:

TokenObject myLock = new TokenObject;

than to say

Object myLock = new Object;

since the former declaration would make clear that the declared variable was never going to be used to hold anything other than a token object. Nonetheless, common practice is to use instances of type Object in cases where the only thing that matters about the object is that its reference will be unique throughout the lifetime of the program.

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