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I m looking for the fastest way to replace multiple (~500) substrings of a big (~1mb) string. Whatever I have tried it seems that String.Replace is the fastest way of doing it.

I just care about the fastest possible way. Not code readability, maintainability etc. I dont care if I need to use unsafe code or pre-process the original string either.

EDIT: After the comments I have added some more details:

Each replace iteration will replace ABC on the string with some other string (different per replace iteration). The string to replace will ALWAYS be the same - ABC will always be ABC. Never ABD. So if there are 400.000 thousands replace iterations. The same string - ABC - will be replaced with some other (different) string each time.

I can be in control on what ABC is. I can make it super-short or super-long as long as it doesn't affect the results. Clearly ABC can't be hello cause hello will exist as a word in most of the input strings.


Example replace from string: BC

Example replace with strings: AA, BB, CC, DD, EE (5 iterations)

Example outputs:


Average case: Input string is 100-200kb with 40.000 replace iterations. Worst case: Input string is 1-2mb with 400.000 replace iterations.

I can do ANYTHING. Do it in parallel, do it unsafe, etc. It doesnt matter how I do it. What matters is that it needs to be as fast as it gets.


share|improve this question
You could look at handling chunks at a time, but String.Replace would be the way to go. Can you give us more context? – liquidsnake786 Nov 26 '13 at 15:15
since it is an optimization issue, please explain what is the average and worst input string, and what is the average and worst substrings. If it's only about replacing a 1 or 2 char long string, the issue will be very different from replacing very long strings. – GameAlchemist Nov 26 '13 at 15:38
Will the replacing string always be as long as the replaced string? That would save tons of time creating arrays and coping data. Also it could help if you have many texts that need to be replaced in the same source? Then the search machine could search for all of them at the same time, that could replace all in one iteration. – MrFox Nov 29 '13 at 13:43
Do you definitely need the result as a string, rather than (say) a char array? If you can decide the delimiter beforehand, and it will never occur in the real string, do you really need the string in one chunk? It feels like you've naturally just got chunks. It would really help if you'd describe more of the purpose of this... – Jon Skeet Nov 30 '13 at 9:17
Is this an attempt to change a DNA? :) – Larry Nov 30 '13 at 18:22

As I were mildly interested in this problem, I crafted few solutions. With hardcore optimizations it's possible to go down even more.

To get the latest source:

And the output

| Implementation       | Average | Separate runs      |
| Simple               |    3485 | 9002, 4497, 443, 0 |
| SimpleParallel       |    1298 | 3440, 1606, 146, 0 |
| ParallelSubstring    |     470 | 1259, 558, 64, 0   |
| Fredou unsafe        |     356 | 953, 431, 41, 0    |
| Unsafe+unmanaged_mem |      92 | 229, 114, 18, 8    |

You won't probably beat the .NET guys in crafting your own replace method, it's most likely already using unsafe. I do believe you can get it down by factor of two if you write it completely in C.

My implementations might be buggy, but you can get the general idea.

share|improve this answer
new Random(Guid.NewGuid().GetHashCode()); This is not much better than the default behavior, simply because of the pigeonhole principle. Just create one Random object and be done with it. – Nov 29 '13 at 12:06
What if your partitioner splits a substring? – Adam Mills Nov 29 '13 at 13:25
Apart from doing the iterations in parallel, you could also consider breaking up the input string in large chunks (being careful not to cut up a placeholder) and process those in parallel. Although that sounds like an optimization String.Replace already could be doing by itself. Paging Jon Skeet, paging Jon Skeet... – SQB Nov 29 '13 at 13:25
This looks quite promising. One thing I noticed is that the FAST INDEX scan works better for a high number of iterations. For a low number, say 100, (although this wasn't in the average / worst case scenario) it works worse than the rest. I will wait a bit to see if we get any other interesting ideas and if not I will award the points to you sir. Very good - thanks. – Yannis Nov 29 '13 at 15:13
I indeed have added extra depth of parallelization now. I am little bit sad that it did not WIN. It was extremly tricky to implement it :(.. Ps usually you write a code that switches from parallel processing to sequential processing once the input values are small enough. I do agree that it's pointless in this case and removed it. However it's definitely better when multiple threads are creating Random objects. – Erti-Chris Eelmaa Nov 29 '13 at 15:33

Using unsafe and compiled as x64


Implementation       | Exec   | GC
#1 Simple            | 4706ms |  0ms
#2 Simple parallel   | 2265ms |  0ms
#3 ParallelSubstring |  800ms | 21ms
#4 Fredou unsafe     |  432ms | 15ms

take the code of Erti-Chris Eelmaa and replace my previous one with this.

I don't think I will do another iteration but i did learn a few thing with unsafe which is a good thing :-)

    private unsafe static void FredouImplementation(string input, int inputLength, string replace, string[] replaceBy)
        var indexes = new List<int>();

        //inputLength = input.Length;
        //replaceBy = new string[] { "AA", "BB", "CC", "DD", "EE" };

        //my own string.indexof to save a few ms
        int len = inputLength;

        fixed (char* i = input, r = replace)
            int replaceValAsInt = *((int*)r);

            while (--len > -1)
                if (replaceValAsInt == *((int*)&i[len]))

        var idx = indexes.ToArray();
        len = indexes.Count;

        Parallel.For(0, replaceBy.Length, l =>
            Process(input, inputLength, replaceBy[l], idx, len)

    private unsafe static void Process(string input, int len, string replaceBy, int[] idx, int idxLen)
        var output = new char[len];

        fixed (char* o = output, i = input, r = replaceBy)
            int replaceByValAsInt = *((int*)r);

            //direct copy, simulate string.copy
            while (--len > -1)
                o[len] = i[len];

            while (--idxLen > -1)
                ((int*)&o[idx[idxLen]])[0] = replaceByValAsInt;

share|improve this answer
im going to look at unsafe later today :-) – Fredou Nov 30 '13 at 18:25
about 33% faster with unsafe – Fredou Dec 1 '13 at 2:57
That's nice. I see you're doing some things, such as declaring variables outside loop, so they wouldn't get repeated(such as by/inputLength) - does this actually win you some milliseconds? I am wondering because one would expect C# compiler do the magic, but what I've seen, it really doesn't do such simple things. I can only suggest you to implement substring parallelization too, and see if you can get it even faster than 250ms or so. My #3d solution focuses too much time in GC, I will try to declare them "globally" as you do(output) – Erti-Chris Eelmaa Dec 1 '13 at 11:48
@Erti-ChrisEelmaa you need to look at the il produced to know why i'm moving the variable inside the parallel loop – Fredou Dec 1 '13 at 18:25
@Fredou; I have updated my post. I've upgraded it to 1MB string now. Note that you have to measure GC too. That means measuring the "output = new string[]" part, otherwise you're just cheating :P. If we are dealing with OP data(2MB string + 500 replacements), your solution would run out of memory, since you allocate everything at once(that is - on a 32-bit system). – Erti-Chris Eelmaa Dec 2 '13 at 16:59

It sounds like you are tokenising the string? I would look at producing a buffer and indexing your tokens. Or using a templating engine

As a naive example you could use code generation to make the following method

public string Produce(string tokenValue){

    var builder = new StringBuilder();

    return builder.ToString();


If your running the iterations enough times, the time to build the template will pay for itself. You can then also call that method in parallel with no side effects. Also look at interning your strings

share|improve this answer

I made a variation on Fredou's code that requires less compares as it works on int* instead of char*. It still requires n iterations for a string of n length, it just has to do less comparing. You could have n/2 iterations if the string is neatly aligned by 2 (so the string to replace can only occur at indexes 0, 2, 4, 6, 8, etc) or even n/4 if it's aligned by 4 (you'd use long*). I'm not very good at bit fiddling like this, so someone might be able to find some obvious flaw in my code that could be more efficient. I verified that the result of my variation is the same as that of the simple string.Replace.

Additionally, I expect that some gains could be made in the 500x string.Copy that it does, but haven't looked into that yet.

My results (Fredou II):

#1 Simple            |     6816 |     0
#2 Simple parallel   |     4202 |     0
#3 ParallelSubstring |    27839 |     4
#4 Fredou I          |     2103 |   106
#5 Fredou II         |     1334 |    91

So about 2/3 of the time (x86, but x64 was about the same).

For this code:

private unsafe struct TwoCharStringChunk
  public fixed char chars[2];

private unsafe static void FredouImplementation_Variation1(string input, int inputLength, string replace, TwoCharStringChunk[] replaceBy)
  var output = new string[replaceBy.Length];

  for (var i = 0; i < replaceBy.Length; ++i)
    output[i] = string.Copy(input);

  var r = new TwoCharStringChunk();
  r.chars[0] = replace[0];
  r.chars[1] = replace[1];

  _staticToReplace = r;

  Parallel.For(0, replaceBy.Length, l => Process_Variation1(output[l], input, inputLength, replaceBy[l]));

private static TwoCharStringChunk _staticToReplace ;

private static unsafe void Process_Variation1(string output, string input, int len, TwoCharStringChunk replaceBy)
  int n = 0;
  int m = len - 1;

  fixed (char* i = input, o = output, chars = _staticToReplace .chars)
    var replaceValAsInt = *((int*)chars);
    var replaceByValAsInt = *((int*)replaceBy.chars);

    while (n < m)
      var compareInput = *((int*)&i[n]);

      if (compareInput == replaceValAsInt)
        ((int*)&o[n])[0] = replaceByValAsInt;
        n += 2;

The struct with the fixed buffer is not strictly necessary here and could have been replaced with a simple int field, but expand the char[2] to char[3] and this code can be made to work with three letter strings as well, which wouldn't be possible if it was an int field.

It required some changes to the Program.cs as well, so here's the full gist:

EDIT: I'm not sure why my ParallelSubstring is so slow. I'm running .NET 4 in Release mode, no debugger, in either x86 or x64.

share|improve this answer
you should adapt your solution with my updated code. i don't use string.copy anymore which is freaking slow :-) I like the int32 approach. I'm still learning how to do unsafe code :-) – Fredou Dec 3 '13 at 15:16
i did a quick test on my side and with a fixed struct of 2 char with my current solution, it save about 2-4% on runtime which seem good. i will let you do the real thing :-) – Fredou Dec 3 '13 at 16:11
Can you fire up profiler and see why Parallel substring is so slow :P? Believe it or not, my solution is still fastest one on my computer. How many cores do you have? – Erti-Chris Eelmaa Dec 3 '13 at 17:27
I have two cores at home, but my/Fredou's implementation is multicore as well so it should scale similarly. – JulianR Dec 3 '13 at 18:17

As your input string can be as long as 2Mb, I don't foresee any memory allocation problem. You can load everything in memory and replace your data.

If from BC you ALWAYS needs to replace for AA, a String.Replace will be ok. But, if you need more control, you could use a Regex.Replace:

var output = Regex.Replace(input, "BC", (match) =>
    // here you can add some juice, like counters, etc
    return "AA";
share|improve this answer
I have tried that and it's actually slower than string.Replace(..) – Yannis Nov 26 '13 at 16:27
Did you try to compile the regex? – Bidou Nov 29 '13 at 10:32
Regex is not always fast. But is much more robust for strange cases. – Vitor Canova Nov 29 '13 at 11:51
@VitorCanova: What exactly do you mean by "much more robust"? Both string.Replace and Regex.Replace are good at doing what they're meant to do. If you're trying to replace text based on a pattern, then a regular expression is almost certainly the right approach - but if you're not using a pattern, Replace should be fine. What sort of case are you thinking about? – Jon Skeet Nov 30 '13 at 9:18
Sorry, I think a made a mistake when I took the word "robust". What I really meant is exactly what you said. It is for more complex things. Just like StringBuilder is not the best choice when making concatenation of two little strings but for a bunch of strings with no known size and repetition it is the best. ;) – Vitor Canova Nov 30 '13 at 17:12

You probably won't get anything faster than String.Replace (unless you go native) because iirc String.Replace is implemented in CLR itself for maximum performance. If you want 100% performance, you can conveniently interface with native ASM code via C++/CLI and go from there.

share|improve this answer

My approach is a little like templating - it takes the input string and pulls out (removes) the substrings that are to be replaced. Then it takes the remaining parts of the string (the template) and combines them with the new replacement substrings. This is done in a parallel operation (template + each replacement string), which builds the output strings.

I think what I am explaining above may be clearer with code. This uses your sample inputs from above:

const char splitter = '\t';   // use a char that will not appear in your string

string oldString = "BC";
string[] newStrings = { "AA", "BB", "CC", "DD", "EE" };

// In input, replace oldString with tabs, so that we can do String.Split later
var inputTabbed = input.Replace(oldString, splitter.ToString());

var inputs = inputTabbed.Split(splitter);
/* inputs (the template) now contains:
[0] "A" 
[1] "DA"
[2] "A" 
[3] "DA"
[4] "A" 
[5] "DA"
[6] "A" 
[7] "DA"
[8] "D" 

// In parallel, build the output using the template (inputs)
// and the replacement strings (newStrings)
var outputs = new List<string>();
Parallel.ForEach(newStrings, iteration =>
        var output = string.Join(iteration, inputs);
        // only lock the list operation
        lock (outputs) { outputs.Add(output); }

foreach (var output in outputs)



So you can do a comparison, here is a complete method which can be used in the test code by Erti-Chris Eelmaa:

private static void TemplatingImp(string input, string replaceWhat, IEnumerable<string> replaceIterations)
    const char splitter = '\t';   // use a char that will not appear in your string

    var inputTabbed = input.Replace(replaceWhat, splitter.ToString());
    var inputs = inputTabbed.Split(splitter);

    // In parallel, build the output using the split parts (inputs)
    // and the replacement strings (newStrings)
    //var outputs = new List<string>();
    Parallel.ForEach(replaceIterations, iteration =>
        var output = string.Join(iteration, inputs);
share|improve this answer

I had a similar issue on a project and I've implemented a Regex solution to perform multiple and case insensitive replacements on a file.

For efficiency purposes, I set criteria to go through the original string only once.

I've published a simple console app to test some strategies on

The code for the Regex solution is similar to this:

Dictionary<string, string> replacements = new Dictionary<string, string>(StringComparer.OrdinalIgnoreCase);
    // Fill the dictionary with the proper replacements:

        StringBuilder patternBuilder = new StringBuilder();

                bool firstReplacement = true;

                foreach (var replacement in replacements.Keys)
                    if (!firstReplacement)
                        firstReplacement = false;


                var regex = new Regex(patternBuilder.ToString(), RegexOptions.IgnoreCase);

                return regex.Replace(sourceContent, new MatchEvaluator(match => replacements[match.Groups[1].Value]));

EDIT: The execution times running the test application on my computer are:

  • Looping through the replacements calling string.Substring() (CASE SENSITIVE): 2ms
  • Single pass using Regex with multiple replacements at once (Case insensitive): 8ms
  • Looping through replacements using a ReplaceIgnoreCase Extension (Case insensitive): 55ms
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