What's the most efficient way to concatenate strings?

  • 9
    I want to place a prominent warning here that the accepted answer is significantly incomplete because it does not discuss all relevant cases. – usr Jun 23 '16 at 13:57
  • @usr Indeed... more detailed information about StringBuilder usage cases can be found here. – Tamir Vered Jan 26 '17 at 13:00
  • My new favorite as of C# 6 is $"Constant text here {foo} and {bar}"... it's like String.Format on steroids. Which, performance wise, is a tiny bit slower at one liners than + and String.Concat, but much better than those, albeit slower than StringBuilder, at multiple calls. Practically speaking, the performance differences are such that, if I had to choose only one way to concatenate, I would choose string interpolations using $... If two ways, then add StringBuilder to my toolbox. With those two ways you're set. – u8it Sep 22 '17 at 20:54
  • The String.Join answer below doesn't do + justice and is, practically speaking, a bad way to concatenate strings, but it is surprisingly fast performance wise. The answer why is interesting. String.Concat and String.Join can both act on arrays, but String.Join is actually faster. Apparently, String.Join is pretty sophisticated and more optimized than String.Concat, partly because it operates similarly to StringBuilder in that it calculates string length first and then constructs the string benefiting from this knowledge using UnSafeCharBuffer. – u8it Sep 22 '17 at 21:22
  • Ok, so it's fast, but String.Join also requires constructing an array which seems resource inefficient right?... Turns out that + and String.Concat construct arrays for their constituents anyway. Consequently, manually creating an array and feeding it to String.Join is comparatively faster... however, StringBuilder still outperforms String.Join in about every practical way while $ is only slightly slower and much faster at long strings… not to mention that it’s awkward and ugly to use String.Join if you have to create an array for it on the spot. – u8it Sep 22 '17 at 21:22

17 Answers 17


The StringBuilder.Append() method is much better than using the + operator. But I've found that, when executing 1000 concatenations or less, String.Join() is even more efficient than StringBuilder.

StringBuilder sb = new StringBuilder();

The only problem with String.Join is that you have to concatenate the strings with a common delimiter.

Edit: as @ryanversaw pointed out, you can make the delimiter string.Empty.

string key = String.Join("_", new String[] 
{ "Customers_Contacts", customerID, database, SessionID });
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  • 12
    StringBuilder has a huge comparable start-up cost, it's only efficient when used with very large strings, or very many concatenations. It isn't trivial to find out for any given situation. If performance is of issue, profiling is your friend (check ANTS). – Abel Nov 4 '09 at 13:22
  • 32
    This is not true for single line concatenation. Say you do myString = "foo" + var1 + "bar" + var2 + "hello" + var3 + "world", the compiler automatically turns that into a string.concat call, which is as efficient as it gets. This answer is incorrect, there are plenty of better answers to choose from – csauve Jan 12 '11 at 17:56
  • 2
    For trivial string concatentation use what ever is most readable. string a = b + c + d; will almost always be faster than doing it with StringBuilder, but the difference is typically irrelevant. Use StringBuilder (or other option of your choice) when repeatedly adding to the same string (eg. building up a report) or when dealing with large strings. – Swanny Jun 26 '11 at 10:28
  • 5
    Why haven't you mentioned string.Concat? – Venemo Sep 27 '13 at 12:56

Rico Mariani, the .NET Performance guru, had an article on this very subject. It's not as simple as one might suspect. The basic advice is this:

If your pattern looks like:

x = f1(...) + f2(...) + f3(...) + f4(...)

that's one concat and it's zippy, StringBuilder probably won't help.

If your pattern looks like:

if (...) x += f1(...)
if (...) x += f2(...)
if (...) x += f3(...)
if (...) x += f4(...)

then you probably want StringBuilder.

Yet another article to support this claim comes from Eric Lippert where he describes the optimizations performed on one line + concatenations in a detailed manner.

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  • 1
    What about String.Format() ? – IronSlug Jul 22 '15 at 8:55

There are 6 types of string concatenations:

  1. Using the plus (+) symbol.
  2. Using string.Concat().
  3. Using string.Join().
  4. Using string.Format().
  5. Using string.Append().
  6. Using StringBuilder.

In an experiment, it has been proved that string.Concat() is the best way to approach if the words are less than 1000(approximately) and if the words are more than 1000 then StringBuilder should be used.

For more information, check this site.

string.Join() vs string.Concat()

The string.Concat method here is equivalent to the string.Join method invocation with an empty separator. Appending an empty string is fast, but not doing so is even faster, so the string.Concat method would be superior here.

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  • 4
    Should read it has been proved string.Concat() or + is the best way. Yes I can get this from the article but it saves me one click. So, + and concat compile into the same code. – brumScouse Aug 7 '15 at 13:51
  • I used this basis to try and make a method of mine more efficient, where I was only needing to concatenate exactly 3 strings. I found that + was actually 3 milliseconds faster than string.Concat(), though I have not looked into the amount of strings required before string.Concat() outraces +. – Gnemlock Nov 9 '18 at 6:13

From Chinh Do - StringBuilder is not always faster:

Rules of Thumb

  • When concatenating three dynamic string values or less, use traditional string concatenation.

  • When concatenating more than three dynamic string values, use StringBuilder.

  • When building a big string from several string literals, use either the @ string literal or the inline + operator.

Most of the time StringBuilder is your best bet, but there are cases as shown in that post that you should at least think about each situation.

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If you're operating in a loop, StringBuilder is probably the way to go; it saves you the overhead of creating new strings regularly. In code that'll only run once, though, String.Concat is probably fine.

However, Rico Mariani (.NET optimization guru) made up a quiz in which he stated at the end that, in most cases, he recommends String.Format.

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  • I've been recommending the use of string.format over string + string for years to people I've worked with. I think the readability advantages are an additional advantage beyond the performance benefit. – Scott Lawrence Nov 14 '08 at 18:38
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    This is the actual correct answer. The currently accepted answer for StringBuilder is incorrect, as it does not mention single line appends for which string.concat or + is faster. Little known fact is that the compiler actually translates +'s into string.concat's. Also, for loops or for multiple line concats I use a custom built string builder that only appends when .ToString is called - overcoming the indeterminate buffer problem that StringBuilder has – csauve Jan 12 '11 at 17:53
  • 2
    string.Format is not the fastest way under any circumstances. I don't know how to contrive a case where it comes ahead. – usr Jun 23 '16 at 13:55
  • @usr - note that Rico is explicitly not saying it's the fastest, just that it's his recommendation: "Even though it's the worst performing, and we knew that much in advance, both of your CLR Performance Architects concur that [string.Format] should be the default choice. In the highly unlikely event that it becomes a perf problem the issue is readily addressable with only modest local changes. Normally you're just cashing-in on some nice maintainability." – Adam V Apr 30 '18 at 14:00
  • @AdamV the question is about the fastest way. I disgree about it being the default choice though not for perf reasons. It can be clumsy syntax. Resharper can convert back and forth at will. – usr May 8 '18 at 16:13

Here is the fastest method I've evolved over a decade for my large-scale NLP app. I have variations for IEnumerable<T> and other input types, with and without separators of different types (Char, String), but here I show the simple case of concatenating all strings in an array into a single string, with no separator. Latest version here is developed and unit-tested on C# 7 and .NET 4.7.

There are two keys to higher performance; the first is to pre-compute the exact total size required. This step is trivial when the input is an array as shown here. For handling IEnumerable<T> instead, it is worth first gathering the strings into a temporary array for computing that total (The array is required to avoid calling ToString() more than once per element since technically, given the possibility of side-effects, doing so could change the expected semantics of a 'string join' operation).

Next, given the total allocation size of the final string, the biggest boost in performance is gained by building the result string in-place. Doing this requires the (perhaps controversial) technique of temporarily suspending the immutability of a new String which is initially allocated full of zeros. Any such controversy aside, however...

...note that this is the only bulk-concatenation solution on this page which entirely avoids an extra round of allocation and copying by the String constructor.

Complete code:

/// <summary>
/// Concatenate the strings in 'rg', none of which may be null, into a single String.
/// </summary>
public static unsafe String StringJoin(this String[] rg)
    int i;
    if (rg == null || (i = rg.Length) == 0)
        return String.Empty;

    if (i == 1)
        return rg[0];

    String s, t;
    int cch = 0;
        cch += rg[--i].Length;
    while (i > 0);
    if (cch == 0)
        return String.Empty;

    i = rg.Length;
    fixed (Char* _p = (s = new String(default(Char), cch)))
        Char* pDst = _p + cch;
            if ((t = rg[--i]).Length > 0)
                fixed (Char* pSrc = t)
                    memcpy(pDst -= t.Length, pSrc, (UIntPtr)(t.Length << 1));
        while (pDst > _p);
    return s;

[DllImport("MSVCR120_CLR0400", CallingConvention = CallingConvention.Cdecl)]
static extern unsafe void* memcpy(void* dest, void* src, UIntPtr cb);

I should mention that this code has a slight modification from what I use myself. In the original, I call the cpblk IL instruction from C# to do the actual copying. For simplicity and portability in the code here, I replaced that with P/Invoke memcpy instead, as you can see. For highest performance on x64 (but maybe not x86) you may want to use the cpblk method instead.

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  • string.Join does all of these things already for you. There's no need to write it yourself. It computes the size of the final string, constructs a string of that size, and then writes out to the underlying character array. It even has the bonus of using readable variable names in the process. – Servy Nov 10 '17 at 22:09
  • 1
    @Servy Thanks for the comment; indeed String.Join can be efficient. As I hinted in the intro, the code here is just the simplest illustration of a family of functions I use for scenarios that String.Join either does not handle (such as optimizing for Char separator) or did not handle in previous versions of .NET. I suppose I shouldn't have picked this for the simplest example, since it is a case that String.Join already handles well, albeit with the "inefficiency," likely unmeasurable, of processing a vacuous separator, viz. String.Empty. – Glenn Slayden Nov 10 '17 at 22:22
  • Sure, in the case that you don't have a separator, then you should call Concat, which also does this correctly. Either way you don't need to write the code yourself. – Servy Nov 10 '17 at 22:25
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    @Servy I've compared the performance of String.Join versus my code using this test harness. For 10 million random concatenation operations of up to 100 word-sized strings each, the code shown above is consistently 34% faster than String.Join on x64 release build with .NET 4.7. Since the OP explicitly requests the "most efficient" method, the result suggests that my answer applies. If this addresses your concerns, I invite you to reconsider your downvote. – Glenn Slayden Nov 12 '17 at 3:39
  • 1
    I recently benchmarked this on x64 full CLR 4.7.1 and find it to be about twice as fast as string.Join with about 25% less memory allocated (i.imgur.com/SxIpEmL.png) when using cpblk or github.com/JonHanna/Mnemosyne – quentin-starin Apr 22 '18 at 21:18

From this MSDN article:

There is some overhead associated with creating a StringBuilder object, both in time and memory. On a machine with fast memory, a StringBuilder becomes worthwhile if you're doing about five operations. As a rule of thumb, I would say 10 or more string operations is a justification for the overhead on any machine, even a slower one.

So if you trust MSDN go with StringBuilder if you have to do more than 10 strings operations/concatenations - otherwise simple string concat with '+' is fine.

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It's also important to point it out that you should use the + operator if you are concatenating string literals.

When you concatenate string literals or string constants by using the + operator, the compiler creates a single string. No run time concatenation occurs.

How to: Concatenate Multiple Strings (C# Programming Guide)

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Adding to the other answers, please keep in mind that StringBuilder can be told an initial amount of memory to allocate.

The capacity parameter defines the maximum number of characters that can be stored in the memory allocated by the current instance. Its value is assigned to the Capacity property. If the number of characters to be stored in the current instance exceeds this capacity value, the StringBuilder object allocates additional memory to store them.

If capacity is zero, the implementation-specific default capacity is used.

Repeatedly appending to a StringBuilder that hasn't been pre-allocated can result in a lot of unnecessary allocations just like repeatedly concatenating regular strings.

If you know how long the final string will be, can trivially calculate it, or can make an educated guess about the common case (allocating too much isn't necessarily a bad thing), you should be providing this information to the constructor or the Capacity property. Especially when running performance tests to compare StringBuilder with other methods like String.Concat, which do the same thing internally. Any test you see online which doesn't include StringBuilder pre-allocation in its comparisons is wrong.

If you can't make any kind of guess about the size, you're probably writing a utility function which should have its own optional argument for controlling pre-allocation.

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Following may be one more alternate solution to concatenate multiple strings.

String str1 = "sometext";
string str2 = "some other text";

string afterConcate = $"{str1}{str2}";

string interpolation

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  • 1
    This is actually surprising nice as a general method of concatenation. It's basically String.Format but more readable and easier to work with. Bench-marking it, it's slightly slower than + and String.Concat at one line concatenations but much better than both of those at repetitive calls making StringBuilder less necessary. – u8it Sep 22 '17 at 20:24
  • Under the hood, string interpolation uses String.Format, and under the hood String.Format uses a cached StringBuilder. String interpolation is a great addition to the C#6 language. – Matt Parkins Jul 13 at 13:12

The most efficient is to use StringBuilder, like so:

StringBuilder sb = new StringBuilder();
String strResult = sb.ToString();

@jonezy: String.Concat is fine if you have a couple of small things. But if you're concatenating megabytes of data, your program will likely tank.

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  • hey what is the solution for megabytes of data? – Neel Mar 10 '16 at 13:22

Try this 2 pieces of code and you will find the solution.

 static void Main(string[] args)
        StringBuilder s = new StringBuilder();
        for (int i = 0; i < 10000000; i++)
            s.Append( i.ToString());


static void Main(string[] args)
        string s = "";
        for (int i = 0; i < 10000000; i++)
            s += i.ToString();

You will find that 1st code will end really quick and the memory will be in a good amount.

The second code maybe the memory will be ok, but it will take longer... much longer. So if you have an application for a lot of users and you need speed, use the 1st. If you have an app for a short term one user app, maybe you can use both or the 2nd will be more "natural" for developers.


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For just two strings, you definitely do not want to use StringBuilder. There is some threshold above which the StringBuilder overhead is less than the overhead of allocating multiple strings.

So, for more that 2-3 strings, use DannySmurf's code. Otherwise, just use the + operator.

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System.String is immutable. When we modify the value of a string variable then a new memory is allocated to the new value and the previous memory allocation released. System.StringBuilder was designed to have concept of a mutable string where a variety of operations can be performed without allocation separate memory location for the modified string.

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Another solution:

inside the loop, use List instead of string.

List<string> lst= new List<string>();

for(int i=0; i<100000; i++){
return String.Join("", lst.ToArray());;

it is very very fast.

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It really depends on your usage pattern. A detailed benchmark between string.Join, string,Concat and string.Format can be found here: String.Format Isn't Suitable for Intensive Logging

(This is actually the same answer I gave to this question)

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It would depend on the code. StringBuilder is more efficient generally, but if you're only concatenating a few strings and doing it all in one line, code optimizations will likely take care of it for you. It's important to think about how the code looks too: for larger sets StringBuilder will make it easier to read, for small ones StringBuilder will just add needless clutter.

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