574

I've just had to write a string reverse function in C# 2.0 (i.e. LINQ not available) and came up with this:

public string Reverse(string text)
{
    char[] cArray = text.ToCharArray();
    string reverse = String.Empty;
    for (int i = cArray.Length - 1; i > -1; i--)
    {
        reverse += cArray[i];
    }
    return reverse;
}

Personally I'm not crazy about the function and am convinced that there's a better way to do it. Is there?

5
  • 64
    Surprisingly tricky if you want proper international support. Example: Croatian/Serbian have two-character letters lj, nj etc. Proper reverse of "ljudi" is "idulj", NOT "idujl". I'm sure you'd fare far worse when it comes to Arabic, Thai etc.
    – dbkk
    Nov 14, 2009 at 10:46
  • 2
    I wonder if it's slower to concat a string instead of initializing a temp array and storing the results in that, and then finally converting that to a string? Jun 1, 2013 at 5:29
  • 4
    Much newer related thread: Reverse a string with accent chars? Jul 23, 2013 at 15:15
  • 15
    This question could be improved by defining what you mean by "best". Fastest? Most readable? Most reliable across various edge cases (null checks, multiple languages, etc.)? Most maintainable across versions of C# and .NET?
    – hypehuman
    Apr 15, 2016 at 14:23
  • 5
    Why there is no inbuilt direct way to do this simple task? Aug 15, 2021 at 13:58

53 Answers 53

823
public static string Reverse( string s )
{
    char[] charArray = s.ToCharArray();
    Array.Reverse(charArray);
    return new string(charArray);
}
18
  • 19
    sambo99: It doesn't need to mention unicode: chars in C# are unicode characters, not bytes. Xor may be faster, but apart from being far less readable, that may even be what Array.Reverse() uses internally. Oct 23, 2008 at 13:18
  • 31
    @Arachnid: Actually, chars in C# are UTF-16 code units; it takes two of them to represent a supplementary character. See jaggersoft.com/csharp_standard/9.4.1.htm. Oct 23, 2008 at 15:18
  • 6
    Yeah sambo99 I suppose you are correct but it's a pretty rare case to use UTF-32. And XOR is only faster for a very small range of values, the correct answer would be to implement different methods for different lengths I suppose. But this is clear and concise which is a benefit in my opinion.
    – PeteT
    Dec 8, 2008 at 15:52
  • 27
    Unicode control characters makes this method useless for non latin character sets. See Jon Skeet explanation, using a sock puppet: codeblog.jonskeet.uk/2009/11/02/… (1/4 the way down), or the video: vimeo.com/7516539 Apr 19, 2010 at 23:14
  • 24
    Hope you don't encounter any surrogates or combining characters.
    – dalle
    Oct 14, 2010 at 19:04
217

Here a solution that properly reverses the string "Les Mise\u0301rables" as "selbare\u0301siM seL". This should render just like selbarésiM seL, not selbaŕesiM seL (note the position of the accent), as would the result of most implementations based on code units (Array.Reverse, etc) or even code points (reversing with special care for surrogate pairs).

using System;
using System.Collections.Generic;
using System.Globalization;
using System.Linq;

public static class Test
{
    private static IEnumerable<string> GraphemeClusters(this string s) {
        var enumerator = StringInfo.GetTextElementEnumerator(s);
        while(enumerator.MoveNext()) {
            yield return (string)enumerator.Current;
        }
    }
    private static string ReverseGraphemeClusters(this string s) {
        return string.Join("", s.GraphemeClusters().Reverse().ToArray());
    }

    public static void Main()
    {
        var s = "Les Mise\u0301rables";
        var r = s.ReverseGraphemeClusters();
        Console.WriteLine(r);
    }
}

(And live running example here: https://ideone.com/DqAeMJ)

It simply uses the .NET API for grapheme cluster iteration, which has been there since ever, but a bit "hidden" from view, it seems.

9
  • 1
    This fails for some locale dependent stuff, though. Feb 27, 2013 at 12:46
  • 1
    Mmm. I'm guessing it's still future proof then (assuming it's a limitation of the BCL implementation? Fixes to that will automatically benefit use of these APIs)
    – sehe
    Feb 27, 2013 at 13:06
  • 3
    It's actually significantly faster to instantiate StringInfo(s), then iterate through SubstringByTextElements(x, 1) and build a new string with a StringBuilder.
    – user502255
    Jul 9, 2016 at 4:03
  • 5
    It's a bit strange that you've used Jon Skeet's example that he gave years earlier codeblog.jonskeet.uk/2009/11/02/… Les Misérables (though Jon didn't mention a solution, he just listed issues). Good that you came up with a solution. Maybe Jon skeet invented a time machine, went back to 2009 and posted the problem example that you used in your solution.
    – barlop
    Jul 10, 2016 at 11:55
  • 1
    Also, you can make your example much much simpler if you say "lés" (it's 3 letters, and one e, and it's easy to see what's going on). instead of including the word miserables too, as somebody might look at the 'e' there in "miserables" by accident, which also has an 's' on it and on the other side.
    – barlop
    Jul 10, 2016 at 13:11
131

This is turning out to be a surprisingly tricky question.

I would recommend using Array.Reverse for most cases as it is coded natively and it is very simple to maintain and understand.

It seems to outperform StringBuilder in all the cases I tested.

public string Reverse(string text)
{
   if (text == null) return null;

   // this was posted by petebob as well 
   char[] array = text.ToCharArray();
   Array.Reverse(array);
   return new String(array);
}

There is a second approach that can be faster for certain string lengths which uses Xor.

    public static string ReverseXor(string s)
    {
        if (s == null) return null;
        char[] charArray = s.ToCharArray();
        int len = s.Length - 1;

        for (int i = 0; i < len; i++, len--)
        {
            charArray[i] ^= charArray[len];
            charArray[len] ^= charArray[i];
            charArray[i] ^= charArray[len];
        }

        return new string(charArray);
    }

Note If you want to support the full Unicode UTF16 charset read this. And use the implementation there instead. It can be further optimized by using one of the above algorithms and running through the string to clean it up after the chars are reversed.

Here is a performance comparison between the StringBuilder, Array.Reverse and Xor method.

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Diagnostics;

namespace ConsoleApplication4
{
    class Program
    {
        delegate string StringDelegate(string s);

        static void Benchmark(string description, StringDelegate d, int times, string text)
        {
            Stopwatch sw = new Stopwatch();
            sw.Start();
            for (int j = 0; j < times; j++)
            {
                d(text);
            }
            sw.Stop();
            Console.WriteLine("{0} Ticks {1} : called {2} times.", sw.ElapsedTicks, description, times);
        }

        public static string ReverseXor(string s)
        {
            char[] charArray = s.ToCharArray();
            int len = s.Length - 1;

            for (int i = 0; i < len; i++, len--)
            {
                charArray[i] ^= charArray[len];
                charArray[len] ^= charArray[i];
                charArray[i] ^= charArray[len];
            }

            return new string(charArray);
        }

        public static string ReverseSB(string text)
        {
            StringBuilder builder = new StringBuilder(text.Length);
            for (int i = text.Length - 1; i >= 0; i--)
            {
                builder.Append(text[i]);
            }
            return builder.ToString();
        }

        public static string ReverseArray(string text)
        {
            char[] array = text.ToCharArray();
            Array.Reverse(array);
            return (new string(array));
        }

        public static string StringOfLength(int length)
        {
            Random random = new Random();
            StringBuilder sb = new StringBuilder();
            for (int i = 0; i < length; i++)
            {
                sb.Append(Convert.ToChar(Convert.ToInt32(Math.Floor(26 * random.NextDouble() + 65))));
            }
            return sb.ToString();
        }

        static void Main(string[] args)
        {

            int[] lengths = new int[] {1,10,15,25,50,75,100,1000,100000};

            foreach (int l in lengths)
            {
                int iterations = 10000;
                string text = StringOfLength(l);
                Benchmark(String.Format("String Builder (Length: {0})", l), ReverseSB, iterations, text);
                Benchmark(String.Format("Array.Reverse (Length: {0})", l), ReverseArray, iterations, text);
                Benchmark(String.Format("Xor (Length: {0})", l), ReverseXor, iterations, text);

                Console.WriteLine();    
            }

            Console.Read();
        }
    }
}

Here are the results:

26251 Ticks String Builder (Length: 1) : called 10000 times.
33373 Ticks Array.Reverse (Length: 1) : called 10000 times.
20162 Ticks Xor (Length: 1) : called 10000 times.

51321 Ticks String Builder (Length: 10) : called 10000 times.
37105 Ticks Array.Reverse (Length: 10) : called 10000 times.
23974 Ticks Xor (Length: 10) : called 10000 times.

66570 Ticks String Builder (Length: 15) : called 10000 times.
26027 Ticks Array.Reverse (Length: 15) : called 10000 times.
24017 Ticks Xor (Length: 15) : called 10000 times.

101609 Ticks String Builder (Length: 25) : called 10000 times.
28472 Ticks Array.Reverse (Length: 25) : called 10000 times.
35355 Ticks Xor (Length: 25) : called 10000 times.

161601 Ticks String Builder (Length: 50) : called 10000 times.
35839 Ticks Array.Reverse (Length: 50) : called 10000 times.
51185 Ticks Xor (Length: 50) : called 10000 times.

230898 Ticks String Builder (Length: 75) : called 10000 times.
40628 Ticks Array.Reverse (Length: 75) : called 10000 times.
78906 Ticks Xor (Length: 75) : called 10000 times.

312017 Ticks String Builder (Length: 100) : called 10000 times.
52225 Ticks Array.Reverse (Length: 100) : called 10000 times.
110195 Ticks Xor (Length: 100) : called 10000 times.

2970691 Ticks String Builder (Length: 1000) : called 10000 times.
292094 Ticks Array.Reverse (Length: 1000) : called 10000 times.
846585 Ticks Xor (Length: 1000) : called 10000 times.

305564115 Ticks String Builder (Length: 100000) : called 10000 times.
74884495 Ticks Array.Reverse (Length: 100000) : called 10000 times.
125409674 Ticks Xor (Length: 100000) : called 10000 times.

It seems that Xor can be faster for short strings.

4
  • 3
    That doesn't return a string - you need to wrap this in a call to "new String(...)"
    – Greg Beech
    Oct 23, 2008 at 0:43
  • BTW .. I just had a look at the implementation of Array.Reverse, and its done naitively for chars ... it should be much faster than the StringBuilder option. Oct 23, 2008 at 0:46
  • Good post, I think I would stick with my answer Array.Reverse not just because it seems to have good performance across string lengths but also because it is concise in the code. lets face it maintenance is half the problem. Also whats the performance penalty of all those using statements.
    – PeteT
    Oct 23, 2008 at 2:52
  • 10
    These methods don't handle strings containing characters outside of the Base Multilingual Plane, i.e., Unicode characters >= U+10000 that are represented with two C# chars. I've posted an answer that handles such strings correctly. Oct 23, 2008 at 3:42
90

If you can use LINQ (.NET Framework 3.5+) than following one liner will give you short code. Don't forget to add using System.Linq; to have access to Enumerable.Reverse:

public string ReverseString(string srtVarable)
{
    return new string(srtVarable.Reverse().ToArray());
}

Notes:

  • not the fastest version - according to Martin Niederl 5.7 times slower than the fastest choice here.
  • this code as many other options completely ignores all sorts of multi-character combinations, so limit usage to homework assignments and strings which do not contain such characters. See another answer in this question for implementation that correctly handles such combinations.
2
  • That is around 5.7 times slower than the most upvoted version so i would not recommend using this! May 6, 2017 at 13:42
  • When I wrote the original question in 2008 the system I was working on at that time was using C# 2.0 and LINQ wasn't available to me - as per the comment at the beginning of the question.
    – Guy
    Jul 11, 2021 at 14:03
52

If the string contains Unicode data (strictly speaking, non-BMP characters) the other methods that have been posted will corrupt it, because you cannot swap the order of high and low surrogate code units when reversing the string. (More information about this can be found on my blog.)

The following code sample will correctly reverse a string that contains non-BMP characters, e.g., "\U00010380\U00010381" (Ugaritic Letter Alpa, Ugaritic Letter Beta).

public static string Reverse(this string input)
{
    if (input == null)
        throw new ArgumentNullException("input");

    // allocate a buffer to hold the output
    char[] output = new char[input.Length];
    for (int outputIndex = 0, inputIndex = input.Length - 1; outputIndex < input.Length; outputIndex++, inputIndex--)
    {
        // check for surrogate pair
        if (input[inputIndex] >= 0xDC00 && input[inputIndex] <= 0xDFFF &&
            inputIndex > 0 && input[inputIndex - 1] >= 0xD800 && input[inputIndex - 1] <= 0xDBFF)
        {
            // preserve the order of the surrogate pair code units
            output[outputIndex + 1] = input[inputIndex];
            output[outputIndex] = input[inputIndex - 1];
            outputIndex++;
            inputIndex--;
        }
        else
        {
            output[outputIndex] = input[inputIndex];
        }
    }

    return new string(output);
}
11
  • 30
    Actually, chars in C# are 16-bit UTF-16 code units; a supplementary character is encoded using two of them, so this is necessary, Oct 23, 2008 at 15:14
  • 15
    It seems like System.String really ought to expose a HereBeDragons property for strings that contain Unicode supplementary characters. Oct 23, 2008 at 20:54
  • 4
    @SebastianNegraszus: That's correct: this method just reverses the codepoints in the string. Reversing the grapheme clusters would probably be more "useful" overall (but what's the "use" of reversing an arbitrary string in the first place?), but is not easy to implement with just the built-in methods in the .NET Framework. Nov 6, 2012 at 14:38
  • 2
    @Richard: The rules for breaking grapheme clusters are a little more complicated than just detecting combining code points; see the documentation on Grapheme Cluster Boundaries in UAX #29 for more information. Feb 5, 2013 at 16:56
  • 3
    Very good info! Does ANYONE have a failing test for the Array.Reverse test? And by test I mean a sample string not a whole unit test... It would really help me (and others) convince different persons about this issue.. Jul 2, 2013 at 15:44
32

Ok, in the interest of "don't repeat yourself," I offer the following solution:

public string Reverse(string text)
{
   return Microsoft.VisualBasic.Strings.StrReverse(text);
}

My understanding is that this implementation, available by default in VB.NET, properly handles Unicode characters.

3
22

Have a look at the wikipedia entry here. They implement the String.Reverse extension method. This allows you to write code like this:

string s = "olleh";
s.Reverse();

They also use the ToCharArray/Reverse combination that other answers to this question suggest. The source code looks like this:

public static string Reverse(this string input)
{
    char[] chars = input.ToCharArray();
    Array.Reverse(chars);
    return new String(chars);
}
1
  • That's wonderful, except extension methods weren't introduced in c# 2.0.
    – Kobi
    Jul 7, 2009 at 12:40
22

Starting with .NET Core 2.1 there is a new way to reverse a string using the string.Create method.

Note that this solution does not handle Unicode combining characters etc. correctly, as "Les Mise\u0301rables" would be converted to "selbarésiM seL". See the other answers for a better solution.

public static string Reverse(string input)
{
    return string.Create<string>(input.Length, input, (chars, state) =>
    {
        state.AsSpan().CopyTo(chars);
        chars.Reverse();
    });
}

This essentially copies the characters of input to a new string and reverses the new string in-place.

Why is string.Create useful?

When we create a string from an existing array, a new internal array is allocated and the values are copied. Otherwise, it would be possible to mutate a string after its creation (in a safe environment). That is, in the following snippet we have to allocate an array of length 10 twice, one as the buffer and one as the string's internal array.

var chars = new char[10];
// set array values
var str = new string(chars);

string.Create essentially allows us to manipulate the internal array during creation time of the string. This is, we do not need a buffer anymore and can therefore avoid allocating that one char array.

Steve Gordon has written about it in more detail here. There is also an article on MSDN.

How to use string.Create?

public static string Create<TState>(int length, TState state, SpanAction<char, TState> action);

The method takes three parameters:

  1. The length of the string to create,
  2. the data you want to use to dynamically create the new string,
  3. and a delegate that creates the final string from the data, where the first parameter points to the internal char array of the new string and the second is the data (state) you passed to string.Create.

Inside the delegate we can specify how the new string is created from the data. In our case, we just copy the characters of the input string to the Span used by the new string. Then we reverse the Span and hence the whole string is reversed.

Benchmarks

To compare my proposed way of reversing a string with the accepted answer, I have written two benchmarks using BenchmarkDotNet.

public class StringExtensions
{
    public static string ReverseWithArray(string input)
    {
        var charArray = input.ToCharArray();
        Array.Reverse(charArray);
        return new string(charArray);
    }

    public static string ReverseWithStringCreate(string input)
    {
        return string.Create(input.Length, input, (chars, state) =>
        {
            state.AsSpan().CopyTo(chars);
            chars.Reverse();
        });
    }
}

[MemoryDiagnoser]
public class StringReverseBenchmarks
{
    private string input;

    [Params(10, 100, 1000)]
    public int InputLength { get; set; }


    [GlobalSetup]
    public void SetInput()
    {
        // Creates a random string of the given length
        this.input = RandomStringGenerator.GetString(InputLength);
    }

    [Benchmark(Baseline = true)]
    public string WithReverseArray() => StringExtensions.ReverseWithArray(input);

    [Benchmark]
    public string WithStringCreate() => StringExtensions.ReverseWithStringCreate(input);
}

Here are the results on my machine:

| Method           | InputLength |         Mean |      Error |    StdDev |  Gen 0 | Allocated |
| ---------------- | ----------- | -----------: | ---------: | --------: | -----: | --------: |
| WithReverseArray | 10          |    45.464 ns |  0.4836 ns | 0.4524 ns | 0.0610 |      96 B |
| WithStringCreate | 10          |    39.749 ns |  0.3206 ns | 0.2842 ns | 0.0305 |      48 B |
|                  |             |              |            |           |        |           |
| WithReverseArray | 100         |   175.162 ns |  2.8766 ns | 2.2458 ns | 0.2897 |     456 B |
| WithStringCreate | 100         |   125.284 ns |  2.4657 ns | 2.0590 ns | 0.1473 |     232 B |
|                  |             |              |            |           |        |           |
| WithReverseArray | 1000        | 1,523.544 ns |  9.8808 ns | 8.7591 ns | 2.5768 |    4056 B |
| WithStringCreate | 1000        | 1,078.957 ns | 10.2948 ns | 9.6298 ns | 1.2894 |    2032 B |

As you can see, with ReverseWithStringCreate we allocate only half of the memory used by the ReverseWithArray method.

3
  • It is much faster than Linq reverse
    – code4j
    Oct 7, 2019 at 17:58
  • I just tried this method on .Net 6 and it returns "selbaŕesiM seL" which seems correct, while the other mentioned Grapheme-method returns "selbarésiM seL" which is incorrect. So it seems that this method is not only correct, but around 100x faster.
    – wertzui
    Mar 2, 2022 at 18:46
  • This is the fastest way to reverse a string I have found yet. It's also so simple and readable. Aug 16, 2022 at 11:28
19

Greg Beech posted an unsafe option that is indeed as fast as it gets (it's an in-place reversal); but, as he indicated in his answer, it's a completely disastrous idea.

That said, I'm surprised there is so much of a consensus that Array.Reverse is the fastest method. There's still an unsafe approach that returns a reversed copy of a string (no in-place reversal shenanigans) significantly faster than the Array.Reverse method for small strings:

public static unsafe string Reverse(string text)
{
    int len = text.Length;

    // Why allocate a char[] array on the heap when you won't use it
    // outside of this method? Use the stack.
    char* reversed = stackalloc char[len];

    // Avoid bounds-checking performance penalties.
    fixed (char* str = text)
    {
        int i = 0;
        int j = i + len - 1;
        while (i < len)
        {
            reversed[i++] = str[j--];
        }
    }

    // Need to use this overload for the System.String constructor
    // as providing just the char* pointer could result in garbage
    // at the end of the string (no guarantee of null terminator).
    return new string(reversed, 0, len);
}

Here are some benchmark results.

You can see that the performance gain shrinks and then disappears against the Array.Reverse method as the strings get larger. For small- to medium-sized strings, though, it's tough to beat this method.

2
  • 4
    StackOverflow on large strings. Jan 28, 2014 at 19:11
  • @rezomegreldize: Yep, that'll happen ;)
    – Dan Tao
    Jan 28, 2014 at 19:17
16

If you want to play a really dangerous game, then this is by far the fastest way there is (around four times faster than the Array.Reverse method). It's an in-place reverse using pointers.

Note that I really do not recommend this for any use, ever (have a look here for some reasons why you should not use this method), but it's just interesting to see that it can be done, and that strings aren't really immutable once you turn on unsafe code.

public static unsafe string Reverse(string text)
{
    if (string.IsNullOrEmpty(text))
    {
        return text;
    }

    fixed (char* pText = text)
    {
        char* pStart = pText;
        char* pEnd = pText + text.Length - 1;
        for (int i = text.Length / 2; i >= 0; i--)
        {
            char temp = *pStart;
            *pStart++ = *pEnd;
            *pEnd-- = temp;
        }

        return text;
    }
}
3
  • 1
    Im pretty sure this will return incorrect results for utf16 strings, it is really asking trouble :) Oct 23, 2008 at 3:07
  • 1
    Hi you should link to this post on this stackoverflow.com/questions/229346/… , as I said before this is really asking for trouble ... Oct 23, 2008 at 11:53
  • 1
    This may be completely evil and ill-advised (as you yourself concede), but there's still a high-performance way to reverse a string using unsafe code that isn't evil and still beats Array.Reverse in many cases. Take a look at my answer.
    – Dan Tao
    Jun 15, 2010 at 18:33
16

The easy and nice answer is using the Extension Method:

static class ExtentionMethodCollection
{
    public static string Inverse(this string @base)
    {
        return new string(@base.Reverse().ToArray());
    }
}

and here's the output:

string Answer = "12345".Inverse(); // = "54321"
4
  • Reverse() and ToArray() are in the wrong order in your code sample. Feb 24, 2017 at 0:30
  • What purpose does the @ serve? Jul 3, 2018 at 8:50
  • 2
    @user5389726598465 See this link: learn.microsoft.com/en-us/dotnet/csharp/language-reference/… Because 'base' is a keyword in C#, it must be prefixed with @ for the C# compiler to interpret it as an identifier. May 10, 2019 at 8:02
  • reverse returns IEnumerable<TSource> which is not a string as implied by writing string Answer = "12345".Inverse(); // = "54321" Oct 10, 2021 at 17:10
14

Firstly you don't need to call ToCharArray as a string can already be indexed as a char array, so this will save you an allocation.

The next optimisation is to use a StringBuilder to prevent unnecessary allocations (as strings are immutable, concatenating them makes a copy of the string each time). To further optimise this we pre-set the length of the StringBuilder so it won't need to expand its buffer.

public string Reverse(string text)
{
    if (string.IsNullOrEmpty(text))
    {
        return text;
    }

    StringBuilder builder = new StringBuilder(text.Length);
    for (int i = text.Length - 1; i >= 0; i--)
    {
        builder.Append(text[i]);
    }

    return builder.ToString();
}

Edit: Performance Data

I tested this function and the function using Array.Reverse with the following simple program, where Reverse1 is one function and Reverse2 is the other:

static void Main(string[] args)
{
    var text = "abcdefghijklmnopqrstuvwxyz";

    // pre-jit
    text = Reverse1(text); 
    text = Reverse2(text);

    // test
    var timer1 = Stopwatch.StartNew();
    for (var i = 0; i < 10000000; i++)
    {
        text = Reverse1(text);
    }

    timer1.Stop();
    Console.WriteLine("First: {0}", timer1.ElapsedMilliseconds);

    var timer2 = Stopwatch.StartNew();
    for (var i = 0; i < 10000000; i++)
    {
        text = Reverse2(text);
    }

    timer2.Stop();
    Console.WriteLine("Second: {0}", timer2.ElapsedMilliseconds);

    Console.ReadLine();
}

It turns out that for short strings the Array.Reverse method is around twice as quick as the one above, and for longer strings the difference is even more pronounced. So given that the Array.Reverse method is both simpler and faster I'd recommend you use that rather than this one. I leave this one up here just to show that it isn't the way you should do it (much to my surprise!)

1
  • Wouldn't storing text.Length in a variable give a little more speed as you are referencing this via an object? Oct 23, 2008 at 1:59
12

Try using Array.Reverse


public string Reverse(string str)
{
    char[] array = str.ToCharArray();
    Array.Reverse(array);
    return new string(array);
}
2
  • Fails to handle combining code points amongst many other things. Mar 1, 2013 at 23:16
  • @MooingDuck I looked up code points. Yes. You are correct. It does not handle code points. It is tough to determine all of the requirements for such a simple looking question. Thanks for the feedback
    – Mike Two
    Mar 2, 2013 at 1:28
12

"Best" can depend on many things, but here are few more short alternatives ordered from fast to slow:

string s = "z̽a̎l͘g̈o̓😀😆", pattern = @"(?s).(?<=(?:.(?=.*$(?<=((\P{M}\p{C}?\p{M}*)\1?))))*)";

string s1 = string.Concat(s.Reverse());                          // "☐😀☐̓ög͘l̎a̽z"  👎

string s2 = Microsoft.VisualBasic.Strings.StrReverse(s);         // "😆😀o̓g̈l͘a̎̽z"  👌

string s3 = string.Concat(StringInfo.ParseCombiningCharacters(s).Reverse()
    .Select(i => StringInfo.GetNextTextElement(s, i)));          // "😆😀o̓g̈l͘a̎z̽"  👍

string s4 = Regex.Replace(s, pattern, "$2").Remove(s.Length);    // "😆😀o̓g̈l͘a̎z̽"  👍
10
public static string Reverse(string input)
{
    return string.Concat(Enumerable.Reverse(input));
}

Of course you can extend string class with Reverse method

public static class StringExtensions
{
    public static string Reverse(this string input)
    {
        return string.Concat(Enumerable.Reverse(input));
    }
}
1
  • Enumerable.Reverse(input) is equal to input.Reverse()
    – fubo
    May 17, 2018 at 11:41
7

Sorry for long post, but this might be interesting

using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Text;

namespace ConsoleApplication1
{
    class Program
    {
        public static string ReverseUsingArrayClass(string text)
        {
            char[] chars = text.ToCharArray();
            Array.Reverse(chars);
            return new string(chars);
        }

        public static string ReverseUsingCharacterBuffer(string text)
        {
            char[] charArray = new char[text.Length];
            int inputStrLength = text.Length - 1;
            for (int idx = 0; idx <= inputStrLength; idx++) 
            {
                charArray[idx] = text[inputStrLength - idx];                
            }
            return new string(charArray);
        }

        public static string ReverseUsingStringBuilder(string text)
        {
            if (string.IsNullOrEmpty(text))
            {
                return text;
            }

            StringBuilder builder = new StringBuilder(text.Length);
            for (int i = text.Length - 1; i >= 0; i--)
            {
                builder.Append(text[i]);
            }

            return builder.ToString();
        }

        private static string ReverseUsingStack(string input)
        {
            Stack<char> resultStack = new Stack<char>();
            foreach (char c in input)
            {
                resultStack.Push(c);
            }

            StringBuilder sb = new StringBuilder();
            while (resultStack.Count > 0)
            {
                sb.Append(resultStack.Pop());
            }
            return sb.ToString();
        }

        public static string ReverseUsingXOR(string text)
        {
            char[] charArray = text.ToCharArray();
            int length = text.Length - 1;
            for (int i = 0; i < length; i++, length--)
            {
                charArray[i] ^= charArray[length];
                charArray[length] ^= charArray[i];
                charArray[i] ^= charArray[length];
            }

            return new string(charArray);
        }


        static void Main(string[] args)
        {
            string testString = string.Join(";", new string[] {
                new string('a', 100), 
                new string('b', 101), 
                new string('c', 102), 
                new string('d', 103),                                                                   
            });
            int cycleCount = 100000;

            Stopwatch stopwatch = new Stopwatch();
            stopwatch.Start();
            for (int i = 0; i < cycleCount; i++) 
            {
                ReverseUsingCharacterBuffer(testString);
            }
            stopwatch.Stop();
            Console.WriteLine("ReverseUsingCharacterBuffer: " + stopwatch.ElapsedMilliseconds + "ms");

            stopwatch.Reset();
            stopwatch.Start();
            for (int i = 0; i < cycleCount; i++) 
            {
                ReverseUsingArrayClass(testString);
            }
            stopwatch.Stop();
            Console.WriteLine("ReverseUsingArrayClass: " + stopwatch.ElapsedMilliseconds + "ms");

            stopwatch.Reset();
            stopwatch.Start();
            for (int i = 0; i < cycleCount; i++) 
            {
                ReverseUsingStringBuilder(testString);
            }
            stopwatch.Stop();
            Console.WriteLine("ReverseUsingStringBuilder: " + stopwatch.ElapsedMilliseconds + "ms");

            stopwatch.Reset();
            stopwatch.Start();
            for (int i = 0; i < cycleCount; i++) 
            {
                ReverseUsingStack(testString);
            }
            stopwatch.Stop();
            Console.WriteLine("ReverseUsingStack: " + stopwatch.ElapsedMilliseconds + "ms");

            stopwatch.Reset();
            stopwatch.Start();
            for (int i = 0; i < cycleCount; i++) 
            {
                ReverseUsingXOR(testString);
            }
            stopwatch.Stop();
            Console.WriteLine("ReverseUsingXOR: " + stopwatch.ElapsedMilliseconds + "ms");            
        }
    }
}

Results:

  • ReverseUsingCharacterBuffer: 346ms
  • ReverseUsingArrayClass: 87ms
  • ReverseUsingStringBuilder: 824ms
  • ReverseUsingStack: 2086ms
  • ReverseUsingXOR: 319ms
3
  • I added a similar comparison in my post, its a community wiki so you should be able to edit. The performance really depends on the length of the string as well as the algorithm, it would be interesting to graph it. I still think Array.Reverse will be fastest in all cases ... Oct 23, 2008 at 1:43
  • "will be fastest in all cases" when magical TrySZReverse function (it's used in Reverse implementation) fails, Array.Reverse fallbacks to simple implementation involving boxing, so my method will win. However I don't know what is a condition to make TrySZReverse fail.
    – aku
    Oct 23, 2008 at 2:03
  • Turns out its not fastest in all cases :), I updated my post. This still needs to be tested with unicode for both correctness and speed. Oct 23, 2008 at 2:49
7

Don't bother with a function, just do it in place. Note: The second line will throw an argument exception in the Immediate window of some VS versions.

string s = "Blah";
s = new string(s.ToCharArray().Reverse().ToArray()); 
1
  • This is not really in place, since you are creating a new string
    – mbadawi23
    Sep 8, 2018 at 16:52
6
public string Reverse(string input)
{
    char[] output = new char[input.Length];

    int forwards = 0;
    int backwards = input.Length - 1;

    do
    {
        output[forwards] = input[backwards];
        output[backwards] = input[forwards];
    }while(++forwards <= --backwards);

    return new String(output);
}

public string DotNetReverse(string input)
{
    char[] toReverse = input.ToCharArray();
    Array.Reverse(toReverse);
    return new String(toReverse);
}

public string NaiveReverse(string input)
{
    char[] outputArray = new char[input.Length];
    for (int i = 0; i < input.Length; i++)
    {
        outputArray[i] = input[input.Length - 1 - i];
    }

    return new String(outputArray);
}    

public string RecursiveReverse(string input)
{
    return RecursiveReverseHelper(input, 0, input.Length - 1);
}

public string RecursiveReverseHelper(string input, int startIndex , int endIndex)
{
    if (startIndex == endIndex)
    {
        return "" + input[startIndex];
    }

    if (endIndex - startIndex == 1)
    {
        return "" + input[endIndex] + input[startIndex];
    }

    return input[endIndex] + RecursiveReverseHelper(input, startIndex + 1, endIndex - 1) + input[startIndex];
}


void Main()
{
    int[] sizes = new int[] { 10, 100, 1000, 10000 };
    for(int sizeIndex = 0; sizeIndex < sizes.Length; sizeIndex++)
    {
        string holaMundo  = "";
        for(int i = 0; i < sizes[sizeIndex]; i+= 5)
        {   
            holaMundo += "ABCDE";
        }

        string.Format("\n**** For size: {0} ****\n", sizes[sizeIndex]).Dump();

        string odnuMaloh = DotNetReverse(holaMundo);

        var stopWatch = Stopwatch.StartNew();
        string result = NaiveReverse(holaMundo);
        ("Naive Ticks: " + stopWatch.ElapsedTicks).Dump();

        stopWatch.Restart();
        result = Reverse(holaMundo);
        ("Efficient linear Ticks: " + stopWatch.ElapsedTicks).Dump();

        stopWatch.Restart();
        result = RecursiveReverse(holaMundo);
        ("Recursive Ticks: " + stopWatch.ElapsedTicks).Dump();

        stopWatch.Restart();
        result = DotNetReverse(holaMundo);
        ("DotNet Reverse Ticks: " + stopWatch.ElapsedTicks).Dump();
    }
}

Output

For size: 10

Naive Ticks: 1
Efficient linear Ticks: 0
Recursive Ticks: 2
DotNet Reverse Ticks: 1

For size: 100

Naive Ticks: 2
Efficient linear Ticks: 1
Recursive Ticks: 12
DotNet Reverse Ticks: 1

For size: 1000

Naive Ticks: 5
Efficient linear Ticks: 2
Recursive Ticks: 358
DotNet Reverse Ticks: 9

For size: 10000

Naive Ticks: 32
Efficient linear Ticks: 28
Recursive Ticks: 84808
DotNet Reverse Ticks: 33
1
  • 1
    Need to check for empty string in Reverse(...). Otherwise, good work.
    – user1908746
    Jan 6, 2020 at 21:37
5

I've made a C# port from Microsoft.VisualBasic.Strings. I'm not sure why they keep such useful functions (from VB) outside the System.String in Framework, but still under Microsoft.VisualBasic. Same scenario for financial functions (e.g. Microsoft.VisualBasic.Financial.Pmt()).

public static string StrReverse(this string expression)
{
    if ((expression == null))
        return "";

    int srcIndex;

    var length = expression.Length;
    if (length == 0)
        return "";

    //CONSIDER: Get System.String to add a surrogate aware Reverse method

    //Detect if there are any graphemes that need special handling
    for (srcIndex = 0; srcIndex <= length - 1; srcIndex++)
    {
        var ch = expression[srcIndex];
        var uc = char.GetUnicodeCategory(ch);
        if (uc == UnicodeCategory.Surrogate || uc == UnicodeCategory.NonSpacingMark || uc == UnicodeCategory.SpacingCombiningMark || uc == UnicodeCategory.EnclosingMark)
        {
            //Need to use special handling
            return InternalStrReverse(expression, srcIndex, length);
        }
    }

    var chars = expression.ToCharArray();
    Array.Reverse(chars);
    return new string(chars);
}

///<remarks>This routine handles reversing Strings containing graphemes
/// GRAPHEME: a text element that is displayed as a single character</remarks>
private static string InternalStrReverse(string expression, int srcIndex, int length)
{
    //This code can only be hit one time
    var sb = new StringBuilder(length) { Length = length };

    var textEnum = StringInfo.GetTextElementEnumerator(expression, srcIndex);

    //Init enumerator position
    if (!textEnum.MoveNext())
    {
        return "";
    }

    var lastSrcIndex = 0;
    var destIndex = length - 1;

    //Copy up the first surrogate found
    while (lastSrcIndex < srcIndex)
    {
        sb[destIndex] = expression[lastSrcIndex];
        destIndex -= 1;
        lastSrcIndex += 1;
    }

    //Now iterate through the text elements and copy them to the reversed string
    var nextSrcIndex = textEnum.ElementIndex;

    while (destIndex >= 0)
    {
        srcIndex = nextSrcIndex;

        //Move to next element
        nextSrcIndex = (textEnum.MoveNext()) ? textEnum.ElementIndex : length;
        lastSrcIndex = nextSrcIndex - 1;

        while (lastSrcIndex >= srcIndex)
        {
            sb[destIndex] = expression[lastSrcIndex];
            destIndex -= 1;
            lastSrcIndex -= 1;
        }
    }

    return sb.ToString();
}
1
  • +1, a nice addition! I just tried it with string s = "abo\u0327\u0307\u035d\U0001d166cd", which contains the letter o followed by 3 combining diacritical marks in the BMP and one combining mark (MUSICAL SYMBOL COMBINING STEM) from the astral plane (non-BMP) and it keeps them intact. But the method is slow if such characters only appear at the end of a long string, as it has to go twice over the whole array.
    – Abel
    May 6, 2015 at 12:44
5

Simplest way:

string reversed = new string(text.Reverse().ToArray());
0
4

"Better way" depends on what is more important to you in your situation, performance, elegance, maintainability etc.

Anyway, here's an approach using Array.Reverse:

string inputString="The quick brown fox jumps over the lazy dog.";
char[] charArray = inputString.ToCharArray(); 
Array.Reverse(charArray); 

string reversed = new string(charArray);
4

How about:

    private string Reverse(string stringToReverse)
    {
        char[] rev = stringToReverse.Reverse().ToArray();
        return new string(rev); 
    }
1
  • Has the same codepoint issues as other methods above and will perform much slower than when doing a ToCharArray first. The LINQ enumerator is also way slower than Array.Reverse().
    – Abel
    May 6, 2015 at 10:44
4

Stack-based solution.

    public static string Reverse(string text)
    {
        var stack = new Stack<char>(text);
        var array = new char[stack.Count];

        int i = 0;
        while (stack.Count != 0)
        {
            array[i++] = stack.Pop();
        }

        return new string(array);
    }

Or

    public static string Reverse(string text)
    {
        var stack = new Stack<char>(text);
        return string.Join("", stack);
    }
4

Had to submit a recursive example:

private static string Reverse(string str)
{
    if (str.IsNullOrEmpty(str) || str.Length == 1)
        return str;
    else
        return str[str.Length - 1] + Reverse(str.Substring(0, str.Length - 1));
}
1
  • 2
    string of Length 0 are not handled May 15, 2013 at 14:07
4

Since I like a couple of the answers - one for using string.Create and therefore high performance and low allocation and another for correctness - using the StringInfo class, I decided a combined approach is needed. This is the ultimate string reversal method :)

private static string ReverseString(string str)
    {
        return string.Create(str.Length, str, (chars, state) =>
        {
            var enumerator = StringInfo.GetTextElementEnumerator(state);
            var position = state.Length;
            while (enumerator.MoveNext())
            {
                var cluster = ((string)enumerator.Current).AsSpan();
                cluster.CopyTo(chars.Slice(position - cluster.Length));
                position -= cluster.Length;
            }
        });
    }

There's an even better way using a method of the StringInfo class which skips a lot of string allocations by the Enumerator by returning just the indexes.

private static string ReverseString(string str)
    {
        return string.Create(str.Length, str, (chars, state) =>
        {
            var position = 0;
            var indexes = StringInfo.ParseCombiningCharacters(state); // skips string creation
            var stateSpan = state.AsSpan();
            for (int len = indexes.Length, i = len - 1; i >= 0; i--)
            {
                var index = indexes[i];
                var spanLength = i == len - 1 ? state.Length - index : indexes[i + 1] - index;
                stateSpan.Slice(index, spanLength).CopyTo(chars.Slice(position));
                position += spanLength;
            }
        });
    }

Some benchmarks compared to the LINQ solution:

String length 20:

LINQ                       Mean: 2,355.5 ns   Allocated: 1440 B
string.Create              Mean:   851.0 ns   Allocated:  720 B
string.Create with indexes Mean:   466.4 ns   Allocated:  168 B

String length 450:

LINQ                          Mean: 34.33 us   Allocated: 22.98 KB
string.Create                 Mean:   19.13 us   Allocated: 14.98 KB
string.Create with indexes    Mean:   10.32 us   Allocated: 2.69 KB
3

If it ever came up in an interview and you were told you can't use Array.Reverse, i think this might be one of the fastest. It does not create new strings and iterates only over half of the array (i.e O(n/2) iterations)

    public static string ReverseString(string stringToReverse)
    {
        char[] charArray = stringToReverse.ToCharArray();
        int len = charArray.Length-1;
        int mid = len / 2;

        for (int i = 0; i < mid; i++)
        {
            char tmp = charArray[i];
            charArray[i] = charArray[len - i];
            charArray[len - i] = tmp;
        }
        return new string(charArray);
    }
2
  • 3
    I'm pretty certain stringToReverse.ToCharArray() call will produce a O(N) execution time. Sep 8, 2012 at 5:35
  • 1
    In Big-O notation, the factor not dependent on x, or in your case, n, is not used. Your algorithm has performance f(x) = x + ½x + C, where C is some constant. Since both C and the factor are not dependent on x, your algorithm is O(x). That does not mean that it won't be faster for any input of length x, but its performance is linearly dependent on the input length. To answer @MarcelValdezOrozco, yes, it is also O(n), though it copies per 16-byte chunks to improve speed (it does not use a straight memcpy on the total length).
    – Abel
    May 6, 2015 at 12:11
3

Sorry for posting on this old thread. I am practicing some code for an interview.

This was what I came up with for C#. My first version before refactoring was horrible.

static String Reverse2(string str)
{
    int strLen = str.Length, elem = strLen - 1;
    char[] charA = new char[strLen];

    for (int i = 0; i < strLen; i++)
    {
        charA[elem] = str[i];
        elem--;
    }

    return new String(charA);
}

In Contrast to the Array.Reverse method below, it appears faster with 12 characters or less in the string. After 13 characters, the Array.Reverse starts to get faster, and it eventually dominates pretty heavily on speed. I just wanted to point out approximately where the speed starts to change.

static String Reverse(string str)
{     
    char[] charA = str.ToCharArray();

    Array.Reverse(charA);

    return new String(charA);
}

At 100 characters in the string, it is faster than my version x 4. However, if I knew that the strings would always be less than 13 characters, I would use the one I made.

Testing was done with Stopwatch and 5000000 iterations. Also, I'm not sure if my version handles Surrogates or combined character situations with Unicode encoding.

2
public static string Reverse2(string x)
        {
            char[] charArray = new char[x.Length];
            int len = x.Length - 1;
            for (int i = 0; i <= len; i++)
                charArray[i] = x[len - i];
            return new string(charArray);
        }
2

If you have a string that only contains ASCII characters, you can use this method.

    public static string ASCIIReverse(string s)
    {
        byte[] reversed = new byte[s.Length];

        int k = 0;
        for (int i = s.Length - 1; i >= 0; i--)
        {
            reversed[k++] = (byte)s[i];
        }

        return Encoding.ASCII.GetString(reversed);
    }
2

First of all what you have to understand is that str+= will resize your string memory to make space for 1 extra char. This is fine, but if you have, say, a book with 1000 pages that you want to reverse, this will take very long to execute.

The solution that some people might suggest is using StringBuilder. What string builder does when you perform a += is that it allocates much larger chunks of memory to hold the new character so that it does not need to do a reallocation every time you add a char.

If you really want a fast and minimal solution I'd suggest the following:

            char[] chars = new char[str.Length];
            for (int i = str.Length - 1, j = 0; i >= 0; --i, ++j)
            {
                chars[j] = str[i];
            }
            str = new String(chars);

In this solution there is one initial memory allocation when the char[] is initialized and one allocation when the string constructor builds the string from the char array.

On my system I ran a test for you that reverses a string of 2 750 000 characters. Here are the results for 10 executions:

StringBuilder: 190K - 200K ticks

Char Array: 130K - 160K ticks

I also ran a test for normal String += but I abandoned it after 10 minutes with no output.

However, I also noticed that for smaller strings the StringBuilder is faster, so you will have to decide on the implementation based on the input.

Cheers

1
  • @Charles Ah yea there is the char set limitation I suppose.
    – Reasurria
    Feb 21, 2020 at 8:58

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