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When defining a generic type parameter's constraints, we have to put class() at the front and new() at the end, for example.

Why is this, why can't I put my constraints in any order?

Are there any other restrictions on ordering besides class/struct first, new() at the end?


protected T Clone<T>() where T : class, ICopyable<T>, new()
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As background, the language specification lays out that the constraints must be in the order primary constraint, secondary constraint, constructor constraint, where a primary constraint is simply class or struct, a secondary constraint is a given interface or class type, and the constructor constraint is simply the new(). As for why they are classified as such and require that order, I have no idea. Perhaps the annotated language specification would shed some light on it? – Anthony Pegram Dec 15 '11 at 15:24
Interesting, thanks. It's the why that I'm particularly interested in. – George Duckett Dec 15 '11 at 15:30
up vote 20 down vote accepted

There's no particular reason why that order was chosen. The chosen order goes from more general to more specific, which I suppose is a reasonably nice property.

As for the question "why require an order at all?", it's simply easier on the implementation and testing teams to have a clear, unambiguous order imposed by the language. We could allow the constraints to come in any order, but what does that buy us?

The longer I work on languages the more I'm of the opinion that every time you give the user a choice, you give them an opportunity to make a bad choice. A basic design principle of C# is that we tell you when things look wrong and force you to make them right -- which is not a basic design principle of, say, JavaScript. Its basic design principle is "muddle on through and try to do what the user meant". By placing more restrictions on what is correct syntax in C# we can better ensure that the intended semantics are expressed well in the program.

For example, if I were designing a C#-like language today there is no way that I would have ambiguous syntaxes like:

class C : X , Y


... where T : X, Y

Y is clearly intended to be an interface. Is X? We can't tell syntactically whether X was intended to be an interface or a class. Suffice to say this ambiguity greatly complicates things like detecting cycles in base types vs interfaces and so on. It'd be much easier on all concerned if it were more verbose, as it is in VB.

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+1 Thanks for taking the time to provide some insight into the sort of decisions that get made and why. – George Duckett Dec 15 '11 at 16:03
I always found it odd that C# expresses inheritance and implementing interfaces differently than Java (which does it explicitly), when C# is so heavily influenced by Java in most other respects. It's even more odd given that as you say it complicates the compilers work. – MgSam May 10 '12 at 23:32
"easier on the implementation and testing teams".. that surprises me. Even though the implementation of a smaller grammar is probably a bit easier, now you have an entire extra feature to implement and test: "Generate an error when the order is wrong" – Ben Voigt Oct 31 '14 at 0:34

Like most syntax related questions, the basic answer is because the spec says so. We get the following grammar for generic type constraints from the C# 5.0 spec (Section 10.1.5)


primary-constraint   ,   secondary-constraints
primary-constraint   ,   constructor-constraint 
secondary-constraints ,   constructor-constraint 
primary-constraint   ,  secondary-constraints   ,   constructor-constraint 




secondary-constraints   ,   interface-type
secondary-constraints   ,   type-parameter


new (   )

Eric Lippert has done an excellent job of explaining why it was designed this way, so I won't expound on that.

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