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Does using a lambda expression generate garbage for the GC opposed to the normal foreach loop?

// Lambda version

// Normal approach:
foreach (Foo f in Foos)

The CLR profiler shows that I have 69.9% system.Action< T > and I suspect that being the lamba version of the foreach loop as above. Is that true?

EDIT: I used the Microsoft CLR profiler: http://download.microsoft.com/download/4/4/2/442d67c7-a1c1-4884-9715-803a7b485b82/clr%20profiler.exe or http://msdn.microsoft.com/en-us/library/ff650691.aspx

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Could you also post your type definition of foo and foos? –  Shiraz Bhaiji Aug 20 '11 at 16:35
Really wish you'd chosen a better example since ForEach does absolutely nothing useful. –  Aaronaught Aug 20 '11 at 16:37
@Shiraz: Using my amazing powers of deduction, Foos is a List<Foo> and Foo is any class you like. It doesn't matter for the sake of the question. –  StriplingWarrior Aug 20 '11 at 16:38
Yeah, I'd say a list since only generic lists have the .ForEach() method (that I'm aware of anyway). –  oscilatingcretin Aug 20 '11 at 16:46
Definition of Foo... Mmm... It's just a class (or a struct) that holds all kinds of variables like strings and textures and such. Those foo classes however do NOT generate garbage themselves when their Update() is called. They use object pools and such. –  Napoleon Aug 20 '11 at 16:47

3 Answers 3

up vote 13 down vote accepted

Yes, a lambda will create garbage if the closure captures a variable from the local scope (i.e. gameTime in this context).

For example, the following C# function:

static void TestLambda(List<Foo> Foos, DateTime gameTime)
    Foos.ForEach(f => f.Update(gameTime));

Will get translated to this:

private static void TestLambda(List<Foo> Foos, DateTime gameTime)
    Program.<>c__DisplayClass1 <>c__DisplayClass = new Program.<>c__DisplayClass1();
    <>c__DisplayClass.gameTime = gameTime;
    Foos.ForEach(new Action<Foo>(<>c__DisplayClass.<TestLambda>b__0));

Note that there are two instances of new in the resulting code, meaning that there is not only Action objects being allocated (the closures), but also objects to hold the captured variables (escaping variable records).

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@Chris: You said it yourself: its generating a class that has to be GC'ed eventually. –  BrokenGlass Aug 20 '11 at 16:31
Correction, it is generating a type, and types are never GC'd. There is no reason to assume that it is creating a class instance- the generated method could (and should) be static in this case. –  Chris Shain Aug 20 '11 at 16:33
@Chris: Not entirely true. Because the generated method has to have a reference to gameTime, it cannot be static. To test this, try creating a version of the OP's code that uses a static method instead of a delegate. A closure is definitely required here. There is probably one new Type created for the delegate, assuming no other delegates in the assembly share the same closure signature, but that's not a GC issue. The GC issue is that when the Action is created, there is one additional pointer that there wouldn't have been otherwise. It's there, but it's miniscule. –  StriplingWarrior Aug 20 '11 at 16:34
@Chris, Stripling is correct. You are confusing two separate concepts. The closure both requires a hidden type to be generated by the compiler and an instance of that type to be created. You are correct, obiously, that the type only has to be defined once. But it has to be instantiated upon every execution of the enclosing context. –  Kirk Woll Aug 20 '11 at 16:44
@Chris: If you have 1000 elements in your list, calling Foos.ForEach(x => x) will create 1 delegate, not 1000. However, if your program is mostly doing .ForEach() then the delegates will start to be a lot of garbage. –  Gabe Aug 20 '11 at 16:54

Any extra memory overhead from the delegate will be trivial (the lambda expression is just a syntax shortcut for an anonymous delegate in this case), and the Garbage Collector can clean it up as soon as the ForEach call finishes, since nothing points to that function any longer.

Are the results you're getting based on running this single line of code, or is this just one line in a larger program? If it's just this one line, what happens when you change it to a for loop and profile it again? If it's part of a larger program, what makes you think this one line is the cause of 69.9% of your memory overhead?

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It's part of a much larger program. I tried changing the lambda's to regular for-loops but it's hard to measure the difference because every run has a different percentage. But when the lambda is in fact a delegate then it does produce short-therm garbage I see. –  Napoleon Aug 20 '11 at 16:46
@user: Yes it does. Furthermore, the ForEach method itself introduces a little extra overhead just because you're calling another method rather than running the for loop directly. However, I'd caution you against avoiding lambda expressions for this reason alone. For example, if you have very many Foos and their Update methods can be called in Parallel, you'd get a noticeable performance boost by using Parallel.ForEach, while the memory overhead of the lambda itself is negligible. –  StriplingWarrior Aug 20 '11 at 16:54
@StriplingWarrior "Any extra memory overhead from the delegate will be trivial ", It depends on the context - if you are working on games garbage like this is typically the biggest concern! See this post from the of the programmers behind XNA: blogs.msdn.com/b/shawnhar/archive/2007/07/02/… –  markmnl Jul 7 at 6:46
@markmnl: It is true that in certain contexts even a small performance change can make a big difference, especially in game development. As that article points out, game developers need to worry about accidentally boxing value types, declaring self-growing collections, keeping too many direct object references, and other issues that won't affect most developers. I'd still caution most people against jumping to the conclusion that lambdas are bad because they create a few bytes of memory overhead. –  StriplingWarrior Jul 8 at 17:59

In this case I think that you are using a generic method (ForEach) which will generate a new type (assuming that Foo is a reference type, only one new type will be generated), and the lambda will be compiled as a regular anonymous method. Nothing about that suggests any sort of linear increase in memory usage.

As far as the profiler is concerned, you are not measuring anything about memory or the GC. You are measuring time spent executing the method, and the lambda should not be significantly slower than the 'regular' way.

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How do you know that the user is profiling CPU rather than memory? –  Gabe Aug 20 '11 at 16:24
Because the memory profiler doesn't show % on a function by function basis. It shows memory usage by type. –  Chris Shain Aug 20 '11 at 16:27
the OP says % of Action<T> - this does seems like a memory profiler measuring how many instances/bytes this type occupies... and on the MS site it says about CLR profiler that it measures the "allocation profile" - see microsoft.com/download/en/… - from my POV this means it is a memory profiler... –  Yahia Aug 20 '11 at 16:30

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