I am looking at the new implementations in C# 7.0 and I find it interesting that they have implemented local functions but I cannot imagine a scenario where a local function would be preferred over a lambda expression, and what is the difference between the two.

I do understand that lambdas are anonymous functions meanwhile local functions are not, but I can't figure out a real world scenario, where local function has advantages over lambda expressions

Any example would be much appreciated. Thanks.

  • 12
    Generics, out parameters, recursive functions without having to initialize the lambda to null, etc.
    – Kirk Woll
    Dec 3, 2016 at 0:55
  • 5
    @KirkWoll - You should post this as an answer. Dec 3, 2016 at 1:10

5 Answers 5


This was explained by Mads Torgersen in C# Design Meeting Notes where local functions were first discussed:

You want a helper function. You are only using it from within a single function, and it likely uses variables and type parameters that are in scope in that containing function. On the other hand, unlike a lambda you don't need it as a first class object, so you don't care to give it a delegate type and allocate an actual delegate object. Also you may want it to be recursive or generic, or to implement it as an iterator.

To expand on it some more, the advantages are:

  1. Performance.

    When creating a lambda, a delegate has to be created, which is an unnecessary allocation in this case. Local functions are really just functions, no delegates are necessary.

    Also, local functions are more efficient with capturing local variables: lambdas usually capture variables into a class, while local functions can use a struct (passed using ref), which again avoids an allocation.

    This also means calling local functions is cheaper and they can be inlined, possibly increasing performance even further.

  2. Local functions can be recursive.

    Lambdas can be recursive too, but it requires awkward code, where you first assign null to a delegate variable and then the lambda. Local functions can naturally be recursive (including mutually recursive).

  3. Local functions can be generic.

    Lambdas cannot be generic, since they have to be assigned to a variable with a concrete type (that type can use generic variables from the outer scope, but that's not the same thing).

  4. Local functions can be implemented as an iterator.

    Lambdas cannot use the yield return (and yield break) keyword to implement IEnumerable<T>-returning function. Local functions can.

  5. Local functions look better.

    This is not mentioned in the above quote and might be just my personal bias, but I think that normal function syntax looks better than assigning a lambda to a delegate variable. Local functions are also more succinct.


    int add(int x, int y) => x + y;
    Func<int, int, int> add = (x, y) => x + y;
  • 37
    I would like to add that local functions have parameter names on the caller side. Lambdas don't.
    – Lensflare
    Apr 3, 2017 at 8:46
  • 3
    @Lensflare It's true that parameter names of lambdas are not preserved, but that's because they have to be converted to delegates, which have their own names. For example: Func<int, int, int> f = (x, y) => x + y; f(arg1:1, arg2:1);.
    – svick
    Apr 4, 2017 at 10:39
  • 1
    Great list! However, I can imagine how the IL/JIT compiler could perform all optimizations mentioned in 1. also for delegates if their usage adheres to certain rules. Feb 20, 2018 at 9:48
  • 1
    @Casebash Because lambdas always use a delegate and that delegate holds the closure as an object. So, lambdas could use a struct, but it would have to be boxed, so you would still have that additional allocation.
    – svick
    Mar 1, 2018 at 13:38
  • 1
    @svick Great answer! One question: when would you do the opposite, choose lambda instead of local functions?
    – happybits
    Mar 25, 2019 at 13:57

In addition to svick's great answer there is one more advantage to local functions:
They can be defined anywhere in the function, even after the return statement.

public double DoMath(double a, double b)
    var resultA = f(a);
    var resultB = f(b);
    return resultA + resultB;

    double f(double x) => 5 * x + 3;
  • 7
    This is really useful, as I can getting used to putting all the helper functions in a #region Helpers at the bottom of the function, so to avoid clutter within that function and espically avoid clutter in the main class. Apr 23, 2018 at 8:23
  • 1
    I also appreciate this. It makes the main function that you're looking at easier to read, as you don't need to look around to find where it starts. If you want to see the implementation details, keep looking past the end. Jul 17, 2019 at 17:10
  • 13
    if your functions are so big they need regions in them, they're too big.
    – ssmith
    Dec 11, 2019 at 4:13
  • 1
    @ssmith Not necessarily. With modern C# features you can code using non-OOP techniques -- i.e. in a functional manner or even an old school, procedural-style way, and one of the ways to do it would be putting the body of the entire application into the one static Main() method. Frankly -- that's what C# 9's top level statements do under the hood.
    – Ruslan
    Apr 5, 2022 at 19:44
  • @Ruslan Yeah, I'll stand by my original statement. Yes, you can make 1000+ line long main() methods using top level statements. That doesn't mean you should. For example, this one is "only" 540 lines but it's still a total mess trying to find anything in it (for me, at least). github.com/DamianEdwards/MinimalApiPlayground/blob/main/src/…
    – ssmith
    Apr 6, 2022 at 20:57

If you also wonder how to test local function you should check JustMock as it has the functionality to do it. Here is a simple class example that will be tested:

public class Foo // the class under test
    public int GetResult() 
        return 100 + GetLocal(); 
        int GetLocal () 
            return 42; 

And here is how the test looks:

public class MockLocalFunctions 
    public void BasicUsage() 
        var foo = Mock.Create<Foo>(Behavior.CallOriginal); 
        Mock.Local.Function.Arrange<int>(foo, "GetResult", "GetLocal").DoNothing(); 

        var result = foo. GetResult(); 

        Assert.AreEqual(100, result); 

Here is a link to JustMock documentation.

Disclaimer. I am one of the developers responsible for JustMock.


I was curious how much exactly local functions are faster than lambda's, so I wrote a little benchmark:

public void TestLambda()
    Func<int, int> _Square = (x) => x * x;

public void TestLocalFunc()
    int _Square(int x) => x * x;

And I was stunned by the results.

4 orders of magnitude faster!

|        Method |      Mean |     Error |    StdDev |    Median | Allocated |
|-------------- |----------:|----------:|----------:|----------:|----------:|
|    TestLambda | 1.4949 ns | 0.1997 ns | 0.0109 ns | 1.4898 ns |         - |
| TestLocalFunc | 0.0008 ns | 0.0237 ns | 0.0013 ns | 0.0000 ns |         - |

// * Warnings *
  BenchMark.TestLocalFunc: ShortRun -> The method duration is indistinguishable from the empty method duration

I use inline functions to avoid garbage collection pressure specially when dealing with longer running methods. Say one would like to get 2 years or market data for a given ticker symbol. Also, one can pack a lot of functionality and business logic if one needs to.

what one does is open a socket connection to the server and loop over the data binding an event to a event. One can think of it the same way as a class is designed, only one is not writing helper methods all over the place that are really only working for one pice of functionality. below is some sample of how this might look like, please note that i am using variables and the "helper" methods are below the finally. In the Finally I nicely remove the event handlers, if my Exchange class would be external/injected i would not have any pending event handler registrated

void List<HistoricalData> RequestData(Ticker ticker, TimeSpan timeout)
    var socket= new Exchange(ticker);
    bool done=false;
    socket.OnData += _onData;
    socket.OnDone += _onDone;
    var request= NextRequestNr();
    var result = new List<HistoricalData>();
    var start= DateTime.Now;
      {   //stop when take to long….
      return result;

        socket.OnDone-= _onDone;

   void _OnData(object sender, HistoricalData data)
   void _onDone(object sender, EndEventArgs args)
      if(args.ReqId==request )

You can see the advantages as mentioned below, here you can see a sample implementation. Hope that helps explaining the benefits.

  • 2
    1. That's a really complex example and explanation just to demonstrate local functions. 2. Local functions don't avoid any allocations when compared with lambdas in this example, because they still have to be converted to delegates. So I don't see how they would avoid GC.
    – svick
    Aug 23, 2018 at 23:23
  • 2
    not passing /copying variables around, svick's answer covers the rest really well. No need to duplicate his answer Aug 24, 2018 at 13:22

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.