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When using lambda expressions or anonymous methods in C#, we have to be wary of the access to modified closure pitfall. For example:

foreach (var s in strings)
{
   query = query.Where(i => i.Prop == s); // access to modified closure
   ...
}

Due to the modified closure, the above code will cause all of the Where clauses on the query to be based on the final value of s.

As explained here, this happens because the s variable declared in foreach loop above is translated like this in the compiler:

string s;
while (enumerator.MoveNext())
{
   s = enumerator.Current;
   ...
}

instead of like this:

while (enumerator.MoveNext())
{
   string s;
   s = enumerator.Current;
   ...
}

As pointed out here, there are no performance advantages to declaring a variable outside the loop, and under normal circumstances the only reason I can think of for doing this is if you plan to use the variable outside the scope of the loop:

string s;
while (enumerator.MoveNext())
{
   s = enumerator.Current;
   ...
}
var finalString = s;

However variables defined in a foreach loop cannot be used outside the loop:

foreach(string s in strings)
{
}
var finalString = s; // won't work: you're outside the scope.

So the compiler declares the variable in a way that makes it highly prone to an error that is often difficult to find and debug, while producing no perceivable benefits.

Is there something you can do with foreach loops this way that you couldn't if they were compiled with an inner-scoped variable, or is this just an arbitrary choice that was made before anonymous methods and lambda expressions were available or common, and which hasn't been revised since then?

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3  
What's wrong with String s; foreach (s in strings) { ... }? –  Brad Christie Jan 17 '12 at 17:27
3  
@BradChristie the OP is not really talking about foreachbut about lamda expressions resulting in similar code as shown by the OP... –  Yahia Jan 17 '12 at 17:30
19  
@BradChristie: Does that compile? (Error: Type and identifier are both required in a foreach statement for me) –  Austin Salonen Jan 17 '12 at 17:32
22  
@JakobBotschNielsen: It's a closed-over outer local of a lambda; why are you assuming that it is going to be on the stack at all? It's lifetime is longer than the stack frame! –  Eric Lippert Jan 21 '12 at 4:10
2  
@Anthony: Yes. The compiler team refers to this as hoisting rather than lifting, since "lifting" already has a meaning for nullable arithmetic. But stop thinking about the stack altogether. The stack is an implementation detail subject to change. The compiler uses the stack -- or registers -- when doing so is convenient and correct. In this case it is neither, so the stack isn't used. –  Eric Lippert Sep 18 '13 at 21:40

4 Answers 4

up vote 890 down vote accepted

The compiler declares the variable in a way that makes it highly prone to an error that is often difficult to find and debug, while producing no perceivable benefits.

Your criticism is entirely justified.

I discuss this problem in detail here:

Closing over the loop variable considered harmful

Is there something you can do with foreach loops this way that you couldn't if they were compiled with an inner-scoped variable? or is this just an arbitrary choice that was made before anonymous methods and lambda expressions were available or common, and which hasn't been revised since then?

The latter. The C# 1.0 specification actually did not say whether the loop variable was inside or outside the loop body, as it made no observable difference. When closure semantics were introduced in C# 2.0, the choice was made to put the loop variable outside the loop, consistent with the "for" loop.

I think it is fair to say that all regret that decision. This is one of the worst "gotchas" in C#, and we are going to take the breaking change to fix it. In C# 5 the foreach loop variable will be logically inside the body of the loop, and therefore closures will get a fresh copy every time.

The for loop will not be changed, and the change will not be "back ported" to previous versions of C#. You should therefore continue to be careful when using this idiom.

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106  
We did in fact push back on this change in C# 3 and C# 4. When we designed C# 3 we did realize that the problem (which already existed in C# 2) was going to get worse because there would be so many lambdas (and query comprehensions, which are lambdas in disguise) in foreach loops thanks to LINQ. I regret that we waited for the problem to get sufficiently bad to warrant fixing it so late, rather than fixing it in C# 3. –  Eric Lippert Jan 17 '12 at 19:21
43  
And now we will have to remember foreach is 'safe' but for is not. –  leppie Jan 18 '12 at 5:58
12  
@michielvoo: The change is breaking in the sense that it is not backward compatible. New code will not run correctly on when using an older compiler. –  leppie Jan 18 '12 at 9:00
19  
@Benjol: No, which is why we're willing to take it. Jon Skeet pointed out to me an important breaking change scenario though, which is that someone writes code in C# 5, tests it, and then shares it with people who are still using C# 4, who then naively believe it to be correct. Hopefully the number of people affected by such a scenario is small. –  Eric Lippert Jan 19 '12 at 14:20
8  
As an aside, ReSharper has always caught this and reports it as "access to modified closure". Then, by hitting Alt+Enter, will it even automatically fix your code for you. jetbrains.com/resharper –  Mike Chamberlain Mar 21 '12 at 22:57

What you are asking is thoroughly covered by Eric Lippert in his blog post Closing over the loop variable considered harmful and its sequel.

For me, the most convincing argument is that having new variable in each iteration would be inconsistent with for(;;) style loop. Would you expect to have a new int i in each iteration of for (int i = 0; i < 10; i++)?

The most common problem with this behavior is making a closure over iteration variable and it has an easy workaround:

foreach (var s in strings)
{
    var s_for_closure = s;
    query = query.Where(i => i.Prop == s_for_closure); // access to modified closure

My blog post about this issue: Closure over foreach variable in C#.

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12  
Ultimately, what people actually want when they write this isn't to have multiple variables, it's to close over the value. And it's hard to think of a usable syntax for that in the general case. –  Random832 Jan 17 '12 at 17:44
2  
+1: Excellent source. Thank you. –  StriplingWarrior Jan 17 '12 at 17:47
    
Yes, it is not possible to close by the value, however there is a very easy workaround I have just edited my answer to include. –  Krizz Jan 17 '12 at 17:50
4  
It's too bad closures in C# close over references. If they closed over values by default, we could easily specify closing over variables instead with ref. –  Sean U Jan 17 '12 at 17:53
    
@Krizz, this is a case where the forced consistency is more harmful than being inconsistent. It should "just work" as people expect, and clearly people expect something different when using foreach as opposed to a for loop, given the number of people that have hit problems before we knew about the access to modified closure issue (such as myself). –  Andy Jan 17 '12 at 19:41

Having been bitten by this, I have a habit of including locally defined variables in the innermost scope which I use to transfer to any closure. In your example:

foreach (var s in strings)
{
    query = query.Where(i => i.Prop == s); // access to modified closure

I do:

foreach (var s in strings)
{
    string search = s;
    query = query.Where(i => i.Prop == search); // New definition ensures unique per iteration.

Once you have that habit, you can avoid it in the very rare case you actually intended to bind to the outer scopes. To be honest, I don't think I have ever done so.

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17  
That is the typical workaround Thanks for the contribution. Resharper is smart enough to recognize this pattern and bring it to your attention too, which is nice. I haven't been bit by this pattern in a while, but since it is, in Eric Lippert's words, "the single most common incorrect bug report we get," I was curious to know the why more than the how to avoid it. –  StriplingWarrior Jan 17 '12 at 17:53

In C# 5.0, this problem is fixed and you can close over loop variables and get the results you expect.

The language specification says:

8.8.4 The foreach statement

(...)

A foreach statement of the form

foreach (V v in x) embedded-statement

is then expanded to:

{
  E e = ((C)(x)).GetEnumerator();
  try {
      while (e.MoveNext()) {
          V v = (V)(T)e.Current;
          embedded-statement
      }
  }
  finally {
      … // Dispose e
  }
}

(...)

The placement of v inside the while loop is important for how it is captured by any anonymous function occurring in the embedded-statement. For example:

int[] values = { 7, 9, 13 };
Action f = null;
foreach (var value in values)
{
    if (f == null) f = () => Console.WriteLine("First value: " + value);
}
f();

If v was declared outside of the while loop, it would be shared among all iterations, and its value after the for loop would be the final value, 13, which is what the invocation of f would print. Instead, because each iteration has its own variable v, the one captured by f in the first iteration will continue to hold the value 7, which is what will be printed. (Note: earlier versions of C# declared v outside of the while loop.)

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Why this early version of C# declared v inside of the while loop?msdn.microsoft.com/en-GB/library/aa664754.aspx –  colinfang Apr 29 '13 at 16:00
    
@colinfang Be sure to read Eric's answer: The C# 1.0 specification (in your link we are talking about VS 2003, i.e. C# 1.2) actually did not say whether the loop variable was inside or outside the loop body, as it make no observable difference. When closure semantics were introduced in C# 2.0, the choice was made to put the loop variable outside the loop, consistent with the "for" loop. –  Paolo Moretti Apr 29 '13 at 18:35
    
So you are saying that the examples in the link were not definitive spec at that time? –  colinfang Apr 29 '13 at 18:47
1  
@colinfang They were definitive specifications. The problem is that we are talking about a feature (i.e. function closures) that was introduced later (with C# 2.0). When C# 2.0 came up they decided to put the loop variable outside the loop. And than they changed their mind again with C# 5.0 :) –  Paolo Moretti Apr 29 '13 at 22:01

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