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From what I know, C# allows that only the last parameter of a method is of "variable length", for example:

T f(A a, params B[] b) allows that if you have A r; .... B x, y, z; .... you can call f like f (r, x, y, z). Why C# doesn't also define something like:

T f(params A[] a, params B[] b)
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How to determine where a ends and b begins then? –  zerkms Jun 15 '11 at 1:05
It's the same way in C++, and I believe C. –  Maxpm Jun 15 '11 at 1:06
I would have thought this was pretty obvious as zerkms says... –  Alastair Pitts Jun 15 '11 at 1:07
@zerkms: When finish the elements of A type and start the elements of type B –  Tom Sarduy Jun 15 '11 at 1:13
@Tom: It is not that obvious as you think: stackoverflow.com/questions/6351878/… –  zerkms Jun 15 '11 at 1:14

7 Answers 7

up vote 10 down vote accepted

Because how would the compiler know when the variable arguments for the first parameter stop?

Pleas tell me what argOne and argTwo should contain inside of the method body:

void Foo( params object[] argOne, params object[] argTwo )
    // whatever

Foo( 1, false, "Hello", new object(), 2.3 );
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If I were OP I'd answer that compiler wouldn't have compiled such unobvious cases, but have compiled some more deterministic like params int[] a, params string[] b ;-) –  zerkms Jun 15 '11 at 1:13
@zerk: Yes. However, the rules would be horrifyingly complicated. See my answer. –  SLaks Jun 15 '11 at 1:14
@zerkms: And you would also have to avoid cases where there is an implicit conversion from one type to the other. Too complicated and not very useful to justify the feature. –  Ed S. Jun 15 '11 at 1:35

Because it would be too complicated to determine when such a construction is actually allowed.
(When the call would be unambiguous)
Although it would be possible to create a good set of rules, they would be rather complicated and difficult to understand. People would end up asking why case X doesn't work, if it has a subtle ambiguity.

For example:

  • Neither type can be an interface or generic parameter
  • If one type is an enum or a numeric type, the other must be a class other than object or Enum
  • If one type is a delegate, the other must not also be a delegate type (nor object, Delegate, nor MulticastDelegate)
  • One type cannot inherit the other
  • All of these rules apply to any types implicitly convertible to the parameter types
  • Both types must be sealed or must be value types

(some of these rules could be enforced at the callsite instead)

In practice, such a feature would have so many restrictions as to be almost worthless.

Therefore, this feature would start with -10,000 points.

It would also create a whole new category of breaking changes. Unsealing a type, adding implicit conversions, or other seemingly trivial things could now break client code.

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"Too complicated" is an understatement; it is impossible in many circumstances (i.e., when implicit conversions are allowed). –  Ed S. Jun 15 '11 at 1:09
Even C++, the king of dodgy syntactic constructions, doesn't allow this. –  Puppy Jun 15 '11 at 1:10
@EdS: No; it wouldn't be impossible. It would just have a lot of Nos. –  SLaks Jun 15 '11 at 1:12
Hence the careful use of "many circumstances" in my comment :) –  Ed S. Jun 15 '11 at 1:34
@EdS: I thought you meant it would be impossible to write the rule. –  SLaks Jun 15 '11 at 1:36

Because of ambiguity. If you went and did:

T f(params int[] a, params int[] b)

And you called:

f(1, 2, 3, 4)

How would the compiler know where one started and the other began? You could argue that such cases could still be flagged as compilation errors and still allow the unambiguous cases to continue, but with inheritance it could get complicated and it just isn't worth it. Pass two arrays instead. I can't think of any situation that would merit two parameter arrays, and even then, it's syntactic sugar. There's no difference between it and just using arrays instead.

(Another example:

T f(params string[] a, params object[] b);

string inherits from object. This is still ambiguous...)

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The only reason inheritance makes this complicated is because of a fundamental failing of the CLR type system, which it's designers admit was a mistake, to make Array<T1> convertible to Array<T2> if T1 inherits from T2. In a consistent type system then this would not be a problem at all. Not to mention that all overload resolution and such occurs at compile-time. –  Puppy Jun 15 '11 at 1:12
@DeadMG: Personally, I think the system makes sense - it allows Array to behave like any other class, instead of allowing special behaviour. Even so, that doesn't really change the way the compiler would recognize two params parameter arrays. –  minitech Jun 15 '11 at 1:14

It would pose question and lead to conflicts.

For example, let's say B inherits from A.

How would compiler understand:

f(A1, A2, )

Would it mean f({A1, A2}, {B1, B2}) or f({A1, A2, B1}, {B2})?

I think theoretically compiler could be smart and detect conflicts.
However, originally when .NET and C# itself were designed the idea was to try to avoid unambiguous and tricky cases like this.

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There are many edge cases that make this an improbable feature. Consider this example:

public static class Coolifier
  public static void BeCool<A,B>(params A[] a, params B[] b)

Coolifier.BeCool<string,string> ("I", "don't", "work.", "DO", "I", "?");

The example shows how there is no way to know where the first params [] ends and the next begins.

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void DoSomething( params object[] p1, params int[] p2 )

 DoSomething( 1, 2, 3 );

Think if the compiler could resolve that. Can you code the '...' part? If yes, would it be readable?

I can tell you: It would be a mess.

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If the 'last parameter' is of variable length, your second/third/n parameter woundn't be necessary 'cause would be contained into the first one according to your sample and would be ambigous:

T f(params A[] a, params B[] b)

b would be contained within a

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