If it relates to a particular instance, then it must be an instance member (whether method, property or field). These are the most common cases, so examples are plentiful.
If it doesn't relate to a particular instance, then an instance member requires an instance that you won't use in any other way. A good example is
Math.Max, if you call
Math.Max(43, 23) then the result relates to the fact that 43 is greater than 23, not to any property of a
Math object that could conceivably change over the course of an application's running.
Some classes only have need for static members, so we make the class itself static and it can't be instantiated at all.
Propeties that relate to the nature of the class rather than a given instance should also be static for the same reason. E.g.
int.MaxValue is a property of
int, not of e.g. 93.
Note that the result of
int.MaxValue is itself an
int. This is not uncommon. Other examples include
string.Empty. This can be a convenience and also sometimes a performance benefit in preventing lots of duplicate reference types (irrelevant in the case of value types, and not to be over-stated in the case of reference types). It's important not to over do this. We wouldn't want 4294967296 different static properties on
int to make it "easy" to call them! Generally this is useful either when:
The special case can't be constructed by a constructor.
The special case is commonly used (
TimeSpan.Zero) and/or inconvenient to remember (
int.MaxValue is clearer and easier to recall than
2147483647 or even
0x7FFFFFFF). All the more so if it's both of course.
Extension methods are static methods that can be called as if they were instance members. They're very convenient, but it's generally better to use an instance member when you can. They're useful when an instance member is impossible, because:
- You don't have access to the source of the class (it's another party's class).
- You want to define it on an interface rather than a class.
- You want it to be callable on null (avoid, this is non-idiomatic in C# though more common in other languages).
- You want to define it for particular cases of generics. For example, if I created
MyDictionary<TKey, TValue> that implemented
IDictionary<TKey, TValue> I can't define a
plus method that adds a number to a stored value because that can only work when TValue is a known numeric type. I can define such a method as an extension method like
int Plus<TKey>(this MyDictionary<TKey, int> dict, int addend) that will then appear like an instance member when
TValue is int, but won't interfer with the use of
MyDictionary for other type parameters.
All of these cases give you no choice but to use an extension method, but don't use them when an instance member will do the job. It's clearer, especially since some other .NET languages will only see an extension member as a static.