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I met an interesting issue about C#. I have code like below.

List<Func<int>> actions = new List<Func<int>>();

int variable = 0;
while (variable < 5)
{
    actions.Add(() => variable * 2);
    ++ variable;
}

foreach (var act in actions)
{
    Console.WriteLine(act.Invoke());
}

I expect it to output 0, 2, 4, 6, 8. However, it actually outputs five 10s.

It seems that it is due to all actions referring to one captured variable. As a result, when they get invoked, they all have same output.

Is there a way to work round this limit to have each action instance have its own captured variable?

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6  
See also Eric Lippert's Blog series on the subject: Closing over the Loop Variable Considered Harmful –  Brian Nov 11 '10 at 21:50
5  
Also, they are changing C# 5 to work as you expect within a foreach. (breaking change) –  Neal Tibrewala Mar 4 '12 at 18:55
    
    
@Neal: although this example still doesn't work properly in C# 5, as it still outputs five 10s –  Ian Oakes Feb 6 at 5:41

6 Answers 6

up vote 59 down vote accepted

Yes - take a copy of the variable inside the loop:

while (variable < 5)
{
    int copy = variable;
    actions.Add(() => copy * 2);
    ++ variable;
}

You can think of it as if the C# compiler creates a "new" local variable every time it hits the variable declaration. In fact it'll create appropriate new closure objects, and it gets complicated (in terms of implementation) if you refer to variables in multiple scopes, but it works :)

Note that a more common occurrence of this problem is using for or foreach:

for (int i=0; i < 10; i++) // Just one variable
foreach (string x in foo) // And again, despite how it reads out loud

See section 7.14.4.2 of the C# 3.0 spec for more details of this, and my article on closures has more examples too.

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3  
I should know better than to try and answer questions when its daytime in the UK! –  cfeduke Nov 7 '08 at 7:42
5  
Jon's book also has a very good chapter on this (stop being humble, Jon!) –  Marc Gravell Nov 7 '08 at 7:57
8  
It looks better if I let other people plug it ;) (I confess that I do tend to vote up answers recommending it though.) –  Jon Skeet Nov 7 '08 at 8:03
    
Okay I've finally ordered his book and it replaces my Erlang book in the read queue. –  cfeduke Nov 7 '08 at 8:03
1  
As ever, feedback to skeet@pobox.com would be appreciated :) –  Jon Skeet Nov 7 '08 at 9:30

Yes you need to scope variable within the loop and pass it to the lambda that way:

List<Func<int>> actions = new List<Func<int>>();

int variable = 0;
while (variable < 5)
{
    int variable1 = variable;
    actions.Add(() => variable1 * 2);
    ++variable;
}

foreach (var act in actions)
{
    Console.WriteLine(act.Invoke());
}

Console.ReadLine();
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The way around this is to store the value you need in a proxy variable, and have that variable get captured.

I.E.

while( variable < 5 )
{
    int copy = variable;
    actions.Add( () => copy * 2 );
    ++variable;
}
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Yeah, it works. But, why? –  Morgan Cheng Nov 7 '08 at 7:34
    
See the explanation in my edited answer. I'm finding the relevant bit of the spec now. –  Jon Skeet Nov 7 '08 at 7:35
    
Haha jon, I actually just read your article: csharpindepth.com/Articles/Chapter5/Closures.aspx You do good work my friend. –  tjlevine Nov 7 '08 at 7:36
    
@tjlevine: Thanks very much. I'll add a reference to that in my answer. I'd forgotten about it! –  Jon Skeet Nov 7 '08 at 7:37
    
Also, Jon, I'd love to read about your thoughts on the various Java 7 closure proposals. I've seen you mention that you wanted to write one, but I haven't seen it. –  tjlevine Nov 7 '08 at 7:42

I believe what you are experiencing is something known as Closure http://en.wikipedia.org/wiki/Closure_(computer_science). Your lamba has a reference to a variable which is scoped outside the function itself. Your lamba is not interpreted until you invoke it and once it is it will get the value the variable has at execution time.

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The same situation is happening in multi-threading (C#, .NET 4.0].

See the following code:

Purpose is to print 1,2,3,4,5 in order.

for (int counter = 1; counter <= 5; counter++)
{
    new Thread (() => Console.Write (counter)).Start();
}

The output is interesting! (It might be like 21334...)

The only solution is to use local variables.

for (int counter = 1; counter <= 5; counter++)
{
    int localVar= counter;
    new Thread (() => Console.Write (localVar)).Start();
}
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This does not seem to help me. Still non-deterministic. –  Mladen Mihajlovic Jan 31 at 11:14

Behind the scenes, the compiler is generating a class that represents the closure for your method call. It uses that single instance of the closure class for each iteration of the loop. The code looks something like this, which makes it easier to see why the bug happens:

            void Main()
            {
                List<Func<int>> actions = new List<Func<int>>();

                int variable = 0;

                var closure = new CompilerGeneratedClosure();

                Func<int> anonymousMethodAction = null;

                while (closure.variable < 5)
                {
                    if(anonymousMethodAction == null)
                        anonymousMethodAction = new Func<int>(closure.YourAnonymousMethod);

                    //we're re-adding the same function 
                    actions.Add(anonymousMethodAction);

                    ++closure.variable;
                }

                foreach (var act in actions)
                {
                    Console.WriteLine(act.Invoke());
                }
            }

            class CompilerGeneratedClosure
            {
                public int variable;

                public int YourAnonymousMethod()
                {
                    return this.variable * 2;
                }
            }

This isn't actually the compiled code from your sample, but I've examined my own code and this looks very much like what the compiler would actually generate.

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protected by Elenasys Jan 6 at 22:10

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