What is the most efficient way to write the old-school:

StringBuilder sb = new StringBuilder();
if (strings.Count > 0)
    foreach (string s in strings)
        sb.Append(s + ", ");
    sb.Remove(sb.Length - 2, 2);
return sb.ToString();

...in LINQ?

  • 1
    Did you discover any other super cool LINQ ways of doing things?
    – Robert S.
    Jan 23, 2009 at 15:44
  • 4
    Well the selected answer and all the other options don't work in Linq to Entities. Jul 30, 2009 at 12:40
  • 3
    @Binoj Antony, don't make your database do string concatenation.
    – Amy B
    Jun 8, 2010 at 15:18
  • 6
    @Pr0fess0rX: Because it can't and because it shouldn't. I don't know about other databases but in SQL Server you can only concat (n)varcahr which limits you to (n)varchar(max). It shouldn't because business logic shouldn't be implemented in the data layer.
    – the_drow
    Apr 27, 2011 at 10:36
  • None of the answers work with the EntityFramework - see the comment I placed below the marked answer. Does anyone know a solution?
    – Matt
    Feb 10, 2014 at 11:51

17 Answers 17


This answer shows usage of LINQ (Aggregate) as requested in the question and is not intended for everyday use. Because this does not use a StringBuilder it will have horrible performance for very long sequences. For regular code use String.Join as shown in the other answer

Use aggregate queries like this:

string[] words = { "one", "two", "three" };
var res = words.Aggregate(
   "", // start with empty string to handle empty list case.
   (current, next) => current + ", " + next);

This outputs:

, one, two, three

An aggregate is a function that takes a collection of values and returns a scalar value. Examples from T-SQL include min, max, and sum. Both VB and C# have support for aggregates. Both VB and C# support aggregates as extension methods. Using the dot-notation, one simply calls a method on an IEnumerable object.

Remember that aggregate queries are executed immediately.

More information - MSDN: Aggregate Queries

If you really want to use Aggregate use variant using StringBuilder proposed in comment by CodeMonkeyKing which would be about the same code as regular String.Join including good performance for large number of objects:

 var res = words.Aggregate(
     new StringBuilder(), 
     (current, next) => current.Append(current.Length == 0? "" : ", ").Append(next))
  • 5
    The first example doesn't output "one, two, three", it outputs ", one, two, three" (Notice the leading comma).
    – Mort
    Feb 6, 2019 at 7:51
  • In your first example, since you seed with "", the first value used in current is an empty string. So, for 1 or more element, you'll always get , at the start of the string. Mar 14, 2019 at 1:08
  • @Mort I have fixed this
    – sergtk
    Aug 20, 2019 at 15:53
return string.Join(", ", strings.ToArray());

In .Net 4, there's a new overload for string.Join that accepts IEnumerable<string>. The code would then look like:

return string.Join(", ", strings);
  • 4
    OK, so the solution doesn't use Linq, but it seems to work pretty well to me Dec 22, 2008 at 10:59
  • 28
    This is the most correct answer. It is faster than both the question and the accepted answer and is much clearer than Aggregate, which requires a paragraph-long explanation every time it is used.
    – PRMan
    May 21, 2016 at 16:51

Why use Linq?

string[] s = {"foo", "bar", "baz"};
Console.WriteLine(String.Join(", ", s));

That works perfectly and accepts any IEnumerable<string> as far as I remember. No need Aggregate anything here which is a lot slower.

  • 10
    .NET 4.0 has an IEnumerable<string> and IEnumrable<T> overload, which will make it much easier to use
    – Cine
    Jun 2, 2010 at 6:30
  • 4
    As Cine points out, .NET 4.0 has the overload. Previous versions don't. You can still String.Join(",", s.ToArray()) in the older versions though.
    – Martijn
    Jan 24, 2011 at 14:30
  • 1
    FYI: merged from stackoverflow.com/questions/122670/…
    – Shog9
    Dec 31, 2013 at 16:36
  • @Shog9 Merging makes answers here look like duplicated efforts, and the timestamps dont help at all.. Still the way to go.
    – nawfal
    Jan 4, 2014 at 12:06
  • @Armin: It could be useful if your source is streaming data instead of being a finite known size collection. Also, the streaming could be because the data comes in progressively. Then the LINQ solution could process data as it arrives instead of having to wait for the whole collection to be received. This way, if for instance only one value of a processed object is required, it is concatenated, the complex object is dropped and can then be recycled.
    – bkqc
    Aug 31, 2016 at 17:47

Have you looked at the Aggregate extension method?

var sa = (new[] { "yabba", "dabba", "doo" }).Aggregate((a,b) => a + "," + b);
  • 25
    That's probably slower than String.Join(), and harder to read in code. Does answer the question for a "LINQ way", though :-) Sep 23, 2008 at 18:12
  • 7
    Yeah, I didn't want to taint the answer with my opinions. :P
    – Robert S.
    Sep 23, 2008 at 18:18
  • 2
    It's unquestionably quite a bit slower, actually. Even using Aggregate with a StringBuilder instead of concatenation is slower than String.Join. May 7, 2009 at 20:33
  • 4
    Made a test with 10.000.000 iterations, aggregate took 4.3 secs and string.join took 2.3 secs. So I would say the perf diff is unimportant for 99% of common use cases. So if you're already doing a lot of linq to process your data, there's usually no need to break that nice syntax and use string.join imo. gist.github.com/joeriks/5791981
    – joeriks
    Jun 16, 2013 at 13:05
  • 1
    FYI: merged from stackoverflow.com/questions/122670/…
    – Shog9
    Dec 31, 2013 at 16:36

Real example from my code:

return selected.Select(query => query.Name).Aggregate((a, b) => a + ", " + b);

A query is an object that has a Name property which is a string, and I want the names of all the queries on the selected list, separated by commas.

  • 2
    Given the comments about performance, I should add that the example is from code that runs once when a dialog closes, and the list is unlikely to ever have more than about ten strings on it! Oct 22, 2008 at 15:53
  • 1
    Any clue how to do this same task in Linq to Entities? Jul 30, 2009 at 12:40
  • 1
    Excellent example. Thank you for putting this into a real world scenario. I had the same exact situation, with a property of an object that needed concating. Oct 20, 2009 at 23:18
  • 1
    Upvoted for helping me figure out that first part of selecting the string property of my List<T>
    – Nikki9696
    Apr 20, 2011 at 15:58
  • 1
    Please write about performance of this approaching with larger array. Jun 28, 2015 at 18:50

Here is the combined Join/Linq approach I settled on after looking at the other answers and the issues addressed in a similar question (namely that Aggregate and Concatenate fail with 0 elements).

string Result = String.Join(",", split.Select(s => s.Name));

or (if s is not a string)

string Result = String.Join(",", split.Select(s => s.ToString()));

  • Simple
  • easy to read and understand
  • works for generic elements
  • allows using objects or object properties
  • handles the case of 0-length elements
  • could be used with additional Linq filtering
  • performs well (at least in my experience)
  • doesn't require (manual) creation of an additional object (e.g. StringBuilder) to implement

And of course Join takes care of the pesky final comma that sometimes sneaks into other approaches (for, foreach), which is why I was looking for a Linq solution in the first place.

  • 1
    miss-matched parenthesis. Dec 18, 2013 at 16:48
  • 1
    FYI: merged from stackoverflow.com/questions/122670/…
    – Shog9
    Dec 31, 2013 at 16:37
  • 4
    I like this answer because using .Select() like this provides an easy place to modify each element during this operation. For example, wrapping each item in some character like so string Result = String.Join(",", split.Select(s => "'" + s + "'"));
    – Sam Storie
    Dec 30, 2014 at 20:11

You can use StringBuilder in Aggregate:

  List<string> strings = new List<string>() { "one", "two", "three" };

  StringBuilder sb = strings
    .Select(s => s)
    .Aggregate(new StringBuilder(), (ag, n) => ag.Append(n).Append(", "));

  if (sb.Length > 0) { sb.Remove(sb.Length - 2, 2); }


(The Select is in there just to show you can do more LINQ stuff.)

  • 2
    +1 nice. However, IMO it's better to avoid adding the extra "," than to erase it afterward. Something like new[] {"one", "two", "three"}.Aggregate(new StringBuilder(), (sb, s) =>{if (sb.Length > 0) sb.Append(", ");sb.Append(s);return sb;}).ToString();
    – dss539
    May 19, 2010 at 20:54
  • 5
    You would save precious clock cycles by not checking the if (length > 0) in the linq and by taking it out. Jun 9, 2010 at 5:00
  • 1
    I agree with dss539. My version is along the lines of new[] {"", "one", "two", "three"}.Aggregate(new StringBuilder(), (sb, s) => (String.IsNullOrEmpty(sb.ToString())) ? sb.Append(s) : sb.Append(", ").Append(s)).ToString();
    – ProfNimrod
    Jan 14, 2014 at 22:08
  • 1
    @ProfNimrod, Your code turns the StringBuffer into a string on every iteration (sb.ToString()). (It also checks for null something that could never be null.) You completely lose the advantage of the StringBuffer, and it’s as bad as just concatenating strings.
    – andrewf
    Nov 24, 2020 at 14:29

quick performance data for the StringBuilder vs Select & Aggregate case over 3000 elements:

Unit test - Duration (seconds)
LINQ_StringBuilder - 0.0036644
LINQ_Select.Aggregate - 1.8012535

    public void LINQ_StringBuilder()
        IList<int> ints = new List<int>();
        for (int i = 0; i < 3000;i++ )
        StringBuilder idString = new StringBuilder();
        foreach (int id in ints)
            idString.Append(id + ", ");
    public void LINQ_SELECT()
        IList<int> ints = new List<int>();
        for (int i = 0; i < 3000; i++)
        string ids = ints.Select(query => query.ToString())
                         .Aggregate((a, b) => a + ", " + b);
  • Helpful in deciding to go the non LINQ route for this May 12, 2013 at 17:46
  • 4
    The time difference is probably StringBuilder vs String Concatination using +. Nothing to do with LINQ or Aggregate. Put StringBuilder into LINQ Aggregate (plenty of examples on SO), and it should be just as fast.
    – controlbox
    Sep 10, 2016 at 21:10

I always use the extension method:

public static string JoinAsString<T>(this IEnumerable<T> input, string seperator)
    var ar = input.Select(i => i.ToString());
    return string.Join(seperator, ar);

By 'super-cool LINQ way' you might be talking about the way that LINQ makes functional programming a lot more palatable with the use of extension methods. I mean, the syntactic sugar that allows functions to be chained in a visually linear way (one after the other) instead of nesting (one inside the other). For example:

int totalEven = Enumerable.Sum(Enumerable.Where(myInts, i => i % 2 == 0));

can be written like this:

int totalEven = myInts.Where(i => i % 2 == 0).Sum();

You can see how the second example is easier to read. You can also see how more functions can be added with less of the indentation problems or the Lispy closing parens appearing at the end of the expression.

A lot of the other answers state that the String.Join is the way to go because it is the fastest or simplest to read. But if you take my interpretation of 'super-cool LINQ way' then the answer is to use String.Join but have it wrapped in a LINQ style extension method that will allow you to chain your functions in a visually pleasing way. So if you want to write sa.Concatenate(", ") you just need to create something like this:

public static class EnumerableStringExtensions
   public static string Concatenate(this IEnumerable<string> strings, string separator)
      return String.Join(separator, strings);

This will provide code that is as performant as the direct call (at least in terms of algorithm complexity) and in some cases may make the code more readable (depending on the context) especially if other code in the block is using the chained function style.


Here it is using pure LINQ as a single expression:

static string StringJoin(string sep, IEnumerable<string> strings) {
  return strings
       new StringBuilder().Append(strings.FirstOrDefault() ?? ""), 
       (sb, x) => sb.Append(sep).Append(x));

And its pretty damn fast!


I'm going to cheat a little and throw out a new answer to this that seems to sum up the best of everything on here instead of sticking it inside of a comment.

So you can one line this:

List<string> strings = new List<string>() { "one", "two", "three" };

string concat = strings        
    .Aggregate(new StringBuilder("\a"), 
                    (current, next) => current.Append(", ").Append(next))
    .Replace("\a, ",string.Empty); 

Edit: You'll either want to check for an empty enumerable first or add an .Replace("\a",string.Empty); to the end of the expression. Guess I might have been trying to get a little too smart.

The answer from @a.friend might be slightly more performant, I'm not sure what Replace does under the hood compared to Remove. The only other caveat if some reason you wanted to concat strings that ended in \a's you would lose your separators... I find that unlikely. If that is the case you do have other fancy characters to choose from.


Lots of choices here. You can use LINQ and a StringBuilder so you get the performance too like so:

StringBuilder builder = new StringBuilder();
List<string> MyList = new List<string>() {"one","two","three"};

MyList.ForEach(w => builder.Append(builder.Length > 0 ? ", " + w : w));
return builder.ToString();
  • It would be faster to not check the builder.Length > 0 in the ForEach and by removing the first comma after the ForEach Jun 9, 2010 at 5:02

You can combine LINQ and string.join() quite effectively. Here I am removing an item from a string. There are better ways of doing this too but here it is:

filterset = String.Join(",",
                                 .Where(f => mycomplicatedMatch(f,paramToMatch))

I did the following quick and dirty when parsing an IIS log file using linq, it worked @ 1 million lines pretty well (15 seconds), although got an out of memory error when trying 2 millions lines.

    static void Main(string[] args)

        Debug.WriteLine(DateTime.Now.ToString() + " entering main");

        string[] lines = File.ReadAllLines(@"C:\Log File Analysis\12-8 E5.log");


        string[] a = lines.Where(x => !x.StartsWith("#Software:") &&
                                      !x.StartsWith("#Version:") &&
                                      !x.StartsWith("#Date:") &&
                                      !x.StartsWith("#Fields:") &&
                                      !x.Contains("_vti_") &&
                                      !x.Contains("/c$") &&
                                      !x.Contains("/favicon.ico") &&
                                      !x.Contains("/ - 80")


        string[] b = a
                    .Select(l => l.Split(' '))
                    .Select(words => string.Join(",", words))

        System.IO.File.WriteAllLines(@"C:\Log File Analysis\12-8 E5.csv", b);

        Debug.WriteLine(DateTime.Now.ToString() + " leaving main");


The real reason I used linq was for a Distinct() I neede previously:

string[] b = a
    .Select(l => l.Split(' '))
    .Where(l => l.Length > 11)
    .Select(words => string.Format("{0},{1}",
        words[6].ToUpper(), // virtual dir / service
        words[10]) // client ip

I blogged about this a while ago, what I did seams to be exactly what you're looking for:


In the blog post describe how to implement extension methods that works on IEnumerable and are named Concatenate, this will let you write things like:

var sequence = new string[] { "foo", "bar" };
string result = sequence.Concatenate();

Or more elaborate things like:

var methodNames = typeof(IFoo).GetMethods().Select(x => x.Name);
string result = methodNames.Concatenate(", ");

FWIW I benchmarked string.Join vs .Aggregate on a string array of 15 strings using BDN:

Method Mean Error StdDev Gen0 Allocated
String_Join 92.99 ns 9.905 ns 0.543 ns 0.0560 352 B
LING_Aggregate 406.00 ns 74.662 ns 4.092 ns 0.4640 2912 B

The gap increases with bigger arrays

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