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I have an Enumerable<T> and am looking for a method that allows me to execute an action for each element, kind of like Select but then for side-effects. Something like:

string[] Names = ...;
Names.each(s => Console.Writeline(s));

or

Names.each(s => GenHTMLOutput(s));   
// (where GenHTMLOutput cannot for some reason receive the enumerable itself as a parameter)

I did try Select(s=> { Console.WriteLine(s); return s; }), but it wasn't printing anything.

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up vote 29 down vote accepted

A quick-and-easy way to get this is:

Names.ToList().ForEach(e => ...);
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1  
ToList() will evaluate every node in the IEnumerable, meaning that any lazy evaluation is done at that point. I'd rather leave this as late as possible by making my own extensions method. – Jeff Yates Feb 9 '09 at 18:20
    
Sorry guys, I chose the unpopular method. I understand the downside of losing lazy evaluation, but when i'm doing the ForEach on my list, I want it to happen NOW anyway, so there's not much advantage is lazying off anymore. – Daniel Magliola Feb 9 '09 at 19:00
    
The extension method IS better, and it's probably faster too, but this is "kind of" more standard for me, and short enough to type. Thanks Jay! – Daniel Magliola Feb 9 '09 at 19:01
2  
There is a big problem with this. If you do ToList then all of the objects must exist in memory at once. If the source is a DB then at least using IEnumerable your objects may be unloaded once finished. Use ToList and you can run out of memory for large data sets! DON'T USE IT! – Peter Morris Feb 9 '09 at 22:16
3  
Yes, there are plenty of drawbacks to this approach, but I'm amazed at how often they aren't a problem, and this simple approach works just fine. Fact is, most of my sequences are < 100 elements. (Maybe you're doing more interesting programming than I do.) – Jay Bazuzi Feb 10 '09 at 1:26

You are looking for the ever-elusive ForEach that currently only exists on the List generic collection. There are many discussions online about whether Microsoft should or should not add this as a LINQ method. Currently, you have to roll your own:

public static void ForEach<T>(this IEnumerable<T> value, Action<T> action)
{
  foreach (T item in value)
  {
    action(item);
  }
}

While the All() method provides similar abilities, it's use-case is for performing a predicate test on every item rather than an action. Of course, it can be persuaded to perform other tasks but this somewhat changes the semantics and would make it harder for others to interpret your code (i.e. is this use of All() for a predicate test or an action?).

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1  
I'd prefer it if it would be added. Including an overload that takes a Func<T,TResult> action and returns IEnumerable<TResult>. Even if that can be done with Select already. – peSHIr Feb 9 '09 at 18:13
    
You can certainly write one to do that, if that is your use-case. – Jeff Yates Feb 9 '09 at 18:13
1  
Using All would be a bad idea - If any of those Func<T, bool>'s returned false, then execution would end. – David B Feb 9 '09 at 19:15
    
Yup, that's another great reason not to use it. – Jeff Yates Feb 10 '09 at 6:05

Unfortunately there is no built-in way to do this in the current version of LINQ. The framework team neglected to add a .ForEach extension method. There's a good discussion about this going on right now on the following blog.

http://blogs.msdn.com/kirillosenkov/archive/2009/01/31/foreach.aspx

It's rather easy to add one though.

public static void ForEach<T>(this IEnumerable<T> enumerable, Action<T> action) {
  foreach ( var cur in enumerable ) {
    action(cur);
  }
}
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To be able to use this in concatenated LinQ sequence consider returning enumerable as IEnumerable<T>. For example: ...Select(...).ForEach(...).Where(...).Distinct(); – HaraldDutch May 11 '15 at 13:25

You cannot do this right away with LINQ and IEnumerable - you need to either implement your own extension method, or cast your enumeration to an array with LINQ and then call Array.ForEach():

Array.ForEach(MyCollection.ToArray(), x => x.YourMethod());

Please note that because of the way value types and structs work, if the collection is of a value type and you modify the elements of the collection this way, it will have no effect on the elements of the original collection.

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Disclaimer: This post no longer resembles my original answer, but rather incorporates the some seven years experience I've gained since. I made the edit because this is a highly-viewed question and none of the existing answers really covered all the angles. If you want to see my original answer, it's available in the revision history for this post.


The first thing to understand here is C# linq operations like Select(), All(), Where(), etc, have their roots in functional programming. The idea was to bring some of the more useful and approachable parts of functional programming to the .Net world. This is important, because a key tenet of functional programming is that these operations should be free of side effects. It's hard to understate what this means. Adding a each() or ForEach() operation is more than just outside of the functional programming scope of the other operations, but also in direct opposition to them.

But I understand this feels unsatisfying. You have a real problem you need to solve. Why should all this ivory tower philosophy get in the way of something that might be genuinely useful?

Eric Lippert, who was on the C# design team at the time, can help us out here. He recommends just using a traditional foreach loop:

[ForEach()] adds zero new representational power to the language. Doing this lets you rewrite this perfectly clear code:

foreach(Foo foo in foos){ statement involving foo; }

into this code:

foos.ForEach(foo=>{ statement involving foo; });

His point is, when you look closely at your syntax options, you don't gain anything new from a ForEach() extension versus a traditional foreach loop. I partially disagree. Imagine you have this:

 foreach(var item in Some.Long(and => possibly)
                         .Complicated(set => ofLINQ)
                         .Expression(to => evaluate)
 {
     // now do something
 } 

This code obfuscates meaning, because it separates the foreach keyword from the operations in the loop. It also lists the loop command prior to the operations that define the sequence on which the loop operates. It feels much more natural to want to have those operations come first, and then have the the loop command at the end of the query definition. Also, the code is just ugly. It seems like it would be much nicer to be able to write this:

Some.Long(and => possibly) .Complicated(set => ofLINQ) .Expression(to => evaluate) .ForEach(item => { // now do something });

However, even here, I eventually came around to Eric's point of view. I realized that code like you see above is calling out for an additional variable. If you have a complicated set of LINQ expressions like that, you can add some valuable information to your code by first assigning the result of the LINQ expression to a new variable:

var queryForSomeThing = Some.Long(and => possibly)
                        .Complicated(set => ofLINQ)
                        .Expressions(to => evaluate);
foreach(var item in queryForSomeThing)
{
    // now do something
}

This code feels more natural. It puts the foreach keyword back next to the rest of the loop, and after the query definition. Most of all, the variable name can add new information that will be helpful to future programmers trying to understand the purpose of the LINQ query. Again, we see the desired ForEach() operator really added no new expressive power to the language.

However, we are still missing two features of a hypothetical ForEach() extension method:

  1. It's not composable. I can't add a further .Where() or GroupBy() or OrderBy() after a foreach loop inline with the rest of the code, without creating a new statement.
  2. It's not lazy. These operations happen immediately. It doesn't allow me to, say, have a form where a user chooses an operation as one field in a larger screen that is not acted on until the user presses a command button. This form might allow the user to change their mind before executing the command. This is perfectly normal (easy even) with a LINQ query, but not as simple with a foreach.

You could, of course, make your own ForEach() extension method. Several other answers have implementations of this method already; it's not all that complicated. However, I feel like it's unnecessary. There's already an existing method that fits what we want to do from both semantic and operational standpoints. Both of the missing features above can be addressed by use of the existing Select() operator.

Select() fits the kind of transformation or projection described by both of the examples above. Keep in mind, though, that I would still avoid creating side effects. The call to Select() should return either new objects or projections from the originals. This can sometimes be aided through the use of an anonymous type or dynamic object (if and only if necessary). If you need the results to persist in, say, an original list variable, you can always call .ToList() and assign it back to your original variable. I'll add here that I like to prefer working IEnumerable<T> variables as much as possible over more concrete types.

myList = myList.Select(item => new SomeType(item.value1, item.value2 *4)).ToList();

In summary:

  1. Just stick with foreach most of the time.
  2. When foreach won't do, use Select()
  3. When you need to use Select(), you can still avoid side effects.
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1  
Downvoted: This will only process all items if the predicate continues to return "true". If you are executing a method which returns a boolean it could be very easy to accidentally introduce an error without realising it. – Peter Morris Feb 9 '09 at 18:11
    
@PeterMorris I believe he meant that you can use the lambda to do whatever you want and when you are done executing your code simply return true. In this case you will probably want to use a statement lambda which require curly braces. Not a bad solution if you only want to use built in functionality and retain lazy evaluation. – Alex Jorgenson May 10 at 13:10
    
@AlexJorgenson .All() is supposed to be side-effect free, it's not a good way to go about this kind of thing as its purpose is for something else – Peter Morris May 11 at 15:55
    
@Peter Morris Definitely. I wrote this post before I had fully come to terms with that. I had an understanding of the linq operators, but less so of the functional programming roots behind them. Today, I'd agree with Eric Lippert's recommendation to just use foreach. – Joel Coehoorn May 11 at 16:59
    
My only complaint is the foreach semantics are a little weird in this situation. It puts the loop command before the query on which the loop operates. A ForEach() extension puts things in a better order: do all this filtering/sorting/etc, and after all that perform some operation on whatever is left. Even here, I take it as an indication I should assign my linq operations to some variable, and then use this variable for the foreach loop. Then the variable name can add valuable information to the code about what some otherwise-complex linq instructions are intended to accomplish. – Joel Coehoorn May 11 at 17:09

Because LINQ is designed to be a query feature and not an update feature you will not find an extension which executes methods on IEnumerable<T> because that would allow you to execute a method (potentially with side effects). In this case you may as well just stick with

foreach(string name in Names)
Console.WriteLine(name);

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+1 - This is what I use. – David B Feb 9 '09 at 19:17

There is a ForEach method off of List. You could convert the Enumerable to List by calling the .ToList() method, and then call the ForEach method off of that.

Alternatively, I've heard of people defining their own ForEach method off of IEnumerable. This can be accomplished by essentially calling the ForEach method, but instead wrapping it in an extension method:

public static class IEnumerableExtensions
{
    public static IEnumerable<T> ForEach<T>(this IEnumerable<T> _this, Action<T> del)
    {
        List<T> list = _this.ToList();
        list.ForEach(del);
        return list;
    }
}
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That would force a complete sequence evaluation taking up memory for each element of the temporary List. I'd go with the extension method on IEnumerable<T> any time I can get away with to preserve the lazy evaluation properties as long as possible. – peSHIr Feb 9 '09 at 18:11

Well, you can also use the standard foreach keyword, just format it into a oneliner:

foreach(var n in Names.Where(blahblah)) DoStuff(n);

Sorry, thought this option deserves to be here :)

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Using Parallel Linq:

Names.AsParallel().ForAll(name => ...)

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