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Why can't you use a ref or out parameter in a lambda expression?

I came across the error today and found a workaround but I was still curious why this is a compile-time error.

Here's a simple example:

    private void Foo()
    {
        int value;
        Bar(out value);
    }

    private void Bar(out int value)
    {
        value = 3;
        int[] array = {1, 2, 3, 4, 5};
        int newValue = array.Where(a => a == value).First();
    }
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It's about iterators, but much of the same reasoning in this post (also by Eric Lippert &mdash; he is on the language design team after all) applies to lambdas: <blogs.msdn.com/ericlippert/archive/2009/07/13/…; –  Joel Coehoorn Sep 2 '09 at 3:35
1  
May I ask what was the workaround that you had found ? –  Beatles1692 Feb 22 '12 at 13:07

3 Answers 3

up vote 50 down vote accepted

Lambdas have the appearance of changing the lifetime of variables that they capture. For instance the following lambda expression causes the parameter p1 to live longer than the current method frame as it's value can be accessed after the method frame is no longer on the stack

Func<int> Example(int p1) {
  return () => p1;
}

Another property of captured variables is that changes to the variable are also visible outside the lambda expression. For example the following prints 42

void Example2(int p1) {
  Action del = () => { p1 = 42; }
  del();
  Console.WriteLine(p1);
}

These two properties produce a certain set of effects which fly in the face of a ref parameter in the following ways

  • ref parameters may have a fixed lifetime. Consider passing a local variable as a ref parameter to a function.
  • Side effects in the lambda would need to be visible on the ref parameter itself. Both within the method and in the caller.

These are somewhat incompatible properties and are one of the reasons they are disallowed in lambda expressions.

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Nice explanation, thanks! –  skalb Sep 2 '09 at 13:56

Under the hood, the anonymous method is implemented by hoisting captured variables (which is what your question body is all about) and storing them as fields of a compiler generated class. There is no way to store a ref or out parameter as a field. Eric Lippert discussed it in a blog entry. Note that there is a difference between captured variables and lambda parameters. You can have "formal parameters" like the following as they are not captured variables:

delegate void TestDelegate (out int x);
static void Main(string[] args)
{
    TestDelegate testDel = (out int x) => { x = 10; };
    int p;
    testDel(out p);
    Console.WriteLine(p);
}
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As this is one of the top results for "C# lambda ref" on Google; I feel I need to expand on the above answers. The older (C# 2.0) anonymous delegate syntax works and it does support more complex signatures (as well closures). Lambda's and anonymous delegates at the very least have shared perceived implementation in the compiler backend (if they are not identical) - and most importantly, they support closures.

What I was trying to do when I did the search, to demonstrate the syntax:

public static ScanOperation<TToken> CreateScanOperation(
    PrattTokenDefinition<TNode, TToken, TParser, TSelf> tokenDefinition)
{
    var oldScanOperation = tokenDefinition.ScanOperation; // Closures still work.
    return delegate(string text, ref int position, ref PositionInformation currentPosition)
        {
            var token = oldScanOperation(text, ref position, ref currentPosition);
            if (token == null)
                return null;
            if (tokenDefinition.LeftDenotation != null)
                token._led = tokenDefinition.LeftDenotation(token);
            if (tokenDefinition.NullDenotation != null)
                token._nud = tokenDefinition.NullDenotation(token);
            token.Identifier = tokenDefinition.Identifier;
            token.LeftBindingPower = tokenDefinition.LeftBindingPower;
            token.OnInitialize();
            return token;
        };
}

Just keep in mind that Lambdas are procedurally and mathematically safer (because of the ref value promotion mentioned earlier): you might open a can of worms. Think carefully when using this syntax.

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I think you misunderstood the question. The question was why a lambda couldn't access ref/out variables in its container method, not why the lambda itself cannot contain ref/out variables. AFAIK there is no good reason for the latter. Today I wrote a lambda (a, b, c, ref d) => {...} and ref was red-underlined with the error message "Parameter '4' must be declared with the 'ref' keyword". Facepalm! P.S. what is "ref value promotion"? –  Qwertie May 14 at 19:53

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