I have a collection of integer values in a List collection. I want to call a function for each value in the collection where one of the function's argument is a collection value. Without doing this in a foreach loop... is there a way to accomplish this with a lambda/linq expression?

something like... myList.Where(p => myFunc(p.Value)); ?

thanks in advance, -s

marked as duplicate by Michael Freidgeim, poke c# Aug 15 '16 at 8:29

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  • Do you need the values produced by the function or just the side effects of having run the function? – Nick Larsen Dec 10 '09 at 20:54
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    Is there some reason why you reject the foreach loop solution? I say that a statement should have side effects. If you want to call a side-effecting function on each member of a sequence then a statement specifically designed to do exactly that -- the foreach statement -- seems like the natural choice. Can you explain why you're rejecting the language feature precisely designed to do what you want? – Eric Lippert Dec 10 '09 at 23:04
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    @Eric Exactly, and I was about to post that. I've never understood why anyone would use List<T>.ForEach over foreach. Good use of Linq can obfuscate a lot of complicated, nested code; but, sometimes it just seems like people like the way lambda expressions look. – Shibumi Jun 14 '11 at 18:33

LINQ doesn't help here, but you can use List<T>.ForEach:

List<T>.ForEach Method

Performs the specified action on each element of the List.


myList.ForEach(p => myFunc(p));

The value passed to the lambda expression is the list item, so in this example p is a long if myList is a List<long>.

  • thanks- this is exactly what i was looking for and probably saw somewhere but couldn't remember... – Stratton Dec 10 '09 at 20:56
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    Alternatively, you can just specify myList.ForEach(myFunc) if myFunc matches the signature of the expected ForEach delegate. – Steve Guidi Mar 28 '12 at 23:25

As other posters have noted, you can use List<T>.ForEach.

However, you can easily write an extension method that allows you to use ForEach on any IEnumerable<T>

public static void ForEach<T>(this IEnumerable<T> source, Action<T> action)
    foreach(T item in source)

Which means you can now do:

myList.Where( ... ).ForEach( ... );

Yap! You can use List.ForEach but the problem is that works only for list (For sure you can change everything to a List on the fly, but less code more fun :) ). Beside, you have to use Action<> prediction that does not provide any return type.

Anyway there is an answer for what you wanted, you can make it possible in the same way you guessed with Func<> but with a tiny trick as below:

I will do everything here on the fly:

string[] items = (new string[] { "d", "f" }).
    Select(x => new Func<string>(() => { 
        //Do something here...
        return x.ToUpper(); 
)).Select(t => t.Invoke()).ToArray<string>();

There are some points here:

First, I have defined a string array on the fly that can be replaced by any collection that supports LINQ.

Second, Inside of the Select one Func<string> is going to be declared for each element of the given array as it called x.

(Look at the empty parenthesis and remember that when you define a Func<type**1**, type**2**, ..., type**n**> always the last type is the return type, so when you write just Func<string> it indicates a function that has no input parameter and its return type is string)

It is clear that we want to use the function over the given array (new string[] { "d", "f" }), and that's why I define a function with no parameter and also I have used same variable x inside of Func<> to refer to the same array elements.

Third, If you don't put the second Select then you have a collection of two functions that return string, and already they've got their inputs from the first array. You can do this and keep the result in an anonymous variable and then call their .Invoke methods. I write it here:

var functions = (new string[] { "d", "f" }).
       Select(x => new Func<string>(() => { 
          //Do something here...
          return x.ToUpper(); 
string[] items = functions.Select(t => t.Invoke()).ToArray<string>();

Finally, I've converted the result to an array! Now you have a string array!

Sorry It get long!! I hope it would be useful.

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    Since we're already using linq, why not preface the .ForEach() with a .ToList()? IEnumerable<T>.ToList<T> returns an IList<T>. – Joachim Brandon LeBlanc Oct 9 '14 at 15:42

You could use the List.ForEach method, as such:

myList.ForEach(p => myFunc(p));

No - if you want to call a function for each item in a list, you have to call the function for each item in the list.

However, you can use the IList<T>.ForEach() method as a bit of syntactic sugar to make the "business end" of the code more readable, like so:

items.ForEach(item => DoSomething(item));

You can use the ForEach method:




If you don't wan't to use the ForEach method of List<T>, but rather use IEnumerable<T> (as one often does when "LINQ:ing"), I suggest MoreLINQ written by Jon Skeet, et al.

MoreLINQ will give you ForEach, and also Pipe (and a bunch of other methods), which performs an action on each element, but returns the same IEnumerable<T> (compared to void).


Here is a mini (yet complete) example.

public class Employee
    public string EmployeeNumber { get; set; }
    public DateTime? HireDate { get; set; }
public class EmployeeCollection : List<Employee>
{ }

private void RunTest()
    EmployeeCollection empcoll = new EmployeeCollection();
    empcoll.Add(new Employee() { EmployeeNumber = "1111", HireDate = DateTime.Now });
    empcoll.Add(new Employee() { EmployeeNumber = "3333", HireDate = DateTime.Now });
    empcoll.Add(new Employee() { EmployeeNumber = "2222", HireDate = null });
    empcoll.Add(new Employee() { EmployeeNumber = "4444", HireDate = null });

    //Here's the "money" line!
    empcoll.Where(x => x.HireDate.HasValue == false).ToList().ForEach(item => ReportEmployeeWithMissingHireDate(item.EmployeeNumber));

private void ReportEmployeeWithMissingHireDate(string employeeNumber)
    Console.WriteLine("We need to find a HireDate for '{0}'!", employeeNumber);

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