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I wonder if there's any way something like this would be possible for value types...

public static class ExtensionMethods {
    public static void SetTo(this Boolean source, params Boolean[] bools) {
		for (int i = 0; i < bools.Length; i++) {
			bools[i] = source;

then this would be possible:

Boolean a = true, b, c = true, d = true, e;
b.SetTo(a, c, d, e);

Of course, this does not work because the bools are a value type so they are passed into the function as a value, not as a reference.

Other than wrapping the value types into reference types (by creating another class), is there any way to pass a variable into function by the reference (ref) while using params modifier?

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up vote 17 down vote accepted

This is not possible. To explain why, first read my essay on why it is that we optimize deallocation of local variables of value type by putting them on the stack:

Now that you understand that, it should be clear why you cannot store a "ref bool" in an array. If you could, then you could have an array which survives longer than the stack variable being referenced. We have two choices: either allow this, and produce programs which crash and die horribly if you get it wrong -- this is the choice made by the designers of C. Or, disallow it, and have a system which is less flexible but more safe. We chose the latter.

But let's think about this a little deeper. If what you want is to pass around "thing which allows me to set a variable", we have that. That's just a delegate:

static void DoStuff<T>(this T thing, params Action<T> actions)
    foreach(var action in actions) action(thing);
bool b = whatever;
b.DoStuff(x=>{q = x;}, x=>{r = x;} );

Make sense?

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The "thing to set a variable" looks more like a closure, which turns the variable in question into a class field. It would seem like having a special type of storage location representing "const ref to a blob holding n const byrefs and m non-const byrefs", and allowing storage locations of that type to be used for no purpose other than function parameters, should be safe. Using closures for such purposes seems icky. To my mind, using variables outside their scope is generally wrong; rather than hoisting variables to closures, it would be better to use a scope-limited means of passing them. – supercat May 18 '12 at 15:14
What I'd like to see would be a special "ByRefDelegate" which would combine a static method pointer with a byref-collection; such a thing could not be persisted--only be passed to nested routines. Methods which would accept a delegate but not persist it could have overloads accepting "ByRefDelegates", and compilers could generate those instead of closures when applicable, thus offering a big performance boost for the common case. – supercat May 18 '12 at 15:22

Unfortunately the community of Java, and now .NET, developers decided that less flexibility in the name of "safety" is the preferred solution, and to achieve the same result with less lines of code you have to opt for extraordinary complexity (all those class structures, delegates, etc.).

In Delphi I could simply do something like this:

  a: integer; f: double; n: integer;
sscanf(fmtstr, valuestr, [@a, @f, @n]);

//<-- "sscanf" is a function I wrote myself that takes an open array of pointers.

In C# You would have to do:

int a; double f; int n;
object [] o = new object[];
sscanf(fmtstr, valuestr, ref o);
a = o[0];
f = o[1];
n = o[2];

That's 5 lines of code to do what I could do in 1 line of Delphi code. I think there is a formula somewhere that the likelihood of bugs in code increases geometrically with the number of lines of code; so if you have 20 lines of code you're code is 4 times more likely to have bugs than if you have 10.

Of course, you can decrease your # lines of code by using the delegate with all those weird angle brackets and strange syntax, but I would think that's also a haven for bugs.

What ever happened to simplicity?

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There isn't really a way. You could do something like this:

public static void Main(string[] args)
    BooleanWrapper a = true, b = true, c = true, d = true, e = new BooleanWrapper();
    b.SetTo(a, c, d, e);

public static void SetTo(this BooleanWrapper sourceWrapper, params BooleanWrapper[] wrappers)
    foreach (var w in wrappers)
        w.Value = sourceWrapper.Value;

public class BooleanWrapper
    public BooleanWrapper() { }

    public BooleanWrapper(Boolean value)
        Value = value;

    public Boolean Value { get; set; }

    public static implicit operator BooleanWrapper(Boolean value)
        return new BooleanWrapper(value);

But then again how is that any better than just doing this:

public static void Main(string[] args)
    Boolean[] bools = new Boolean[5];
    bools.SetTo(bools[1]); // Note I changed the order of arguments. I think this makes more sense.

public static void SetTo(this Boolean[] bools, Boolean value)
    for(int i = 0; i < bools.Length; i++)
        bools[i] = value;

After all, an array is a sequence of variables. If you need something that behaves like a sequence of variables, use an array.

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He could do this but with the nullable-versions - bool? or Nullable<bool>. – Daniel A. White Nov 21 '09 at 17:24
No, Nullables are copied when passing (in stead of passing a reference) and you can't mutate their value either. – Joren Nov 21 '09 at 19:37

This would not be possible even if bools were reference types. While a class is a reference type, the variable in the Boolean[] is still a value, it's just that the value is a reference. Assigning the value of the reference just changes the value of that particular variable. The concept of an array of ref variables doesn't make sense (as arrays are, by their nature, a series of values).

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Arrays are NOT a series of values. Arrays are a series of variables. The reason why we disallow having arrays of references to variables is not that doing so is illogical; it is perfectly logical to do so. It's that doing so prevents us from optimizing deallocations of local variables of value type by moving the stack pointer. That is why you cannot store a reference to a variable in a field or array slot. – Eric Lippert Nov 21 '09 at 18:29
@Eric: Obviously you're right; I meant to say that arrays are a series of variables that are contiguously allocated, so being able to specify an arbitrary list of variable references to constitute an array wouldn't make sense. – Adam Robinson Nov 21 '09 at 20:36

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