I have to write thousands of dynamically generated lines to a text file. I have two choices, Which consumes less resources and is faster than the other?

A. Using StringBuilder and File.WriteAllText

StringBuilder sb = new StringBuilder();

foreach(Data dataItem in Datas)
            "{0}, {1}-{2}",

File.WriteAllText("C:\\example.txt", sb.ToString(), new UTF8Encoding(false)); 

B. Using File.AppendText

using(StreamWriter sw = File.AppendText("C:\\example.txt"))
    foreach (Data dataItem in Datas)
                "{0}, {1}-{2}",
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  • I need to do this operation as fast as I can, because involves networking and database writing. And I have some bottlenecks related, so I'm asking this question because I need, not because I'm not aware about the article you linked. Apr 24, 2013 at 12:13
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    I'm not sure speed should be your main concern here. Memory usage is clearly what should drive your decision. If the data is always small then you can just run some tests to determine which is faster.
    – juharr
    Apr 24, 2013 at 12:15

2 Answers 2


Your first version, which puts everything into a StringBuilder and then writes it, will consume the most memory. If the text is very large, you have the potential of running out of memory. It has the potential to be faster, but it could also be slower.

The second option will use much less memory (basically, just the StreamWriter buffer), and will perform very well. I would recommend this option. It performs well--possibly better than the first method--and doesn't have the same potential for running out of memory.

You can speed it quite a lot by increasing the size of the output buffer. Rather than


Create the stream with:

const int BufferSize = 65536;  // 64 Kilobytes
StreamWriter sw = new StreamWriter("filename", true, Encoding.UTF8, BufferSize);

A buffer size of 64K gives much better performance than the default 4K buffer size. You can go larger, but I've found that larger than 64K gives minimal performance gains, and on some systems can actually decrease performance.

  • This buffer size is difficult to anticipate, because I never know the amount of lines and data that takes. I think between 2k and 4k. I had the risk of OutOfMemoryException if I arbitrary will choose a buffersize minor than what I need. Apr 24, 2013 at 14:55
  • @AlbertoLeón: No, picking a too-small buffer size won't give you an out of memory exception. That's just a temporary buffer that the StreamWriter uses to prevent it from having to call the Windows Write function for every character. It buffers data and then writes it in blocks. You won't get an error if you try to write a block that's larger than the buffer. Apr 24, 2013 at 15:10
  • great! Then I think your solution improve my second aproach, I like it. Apr 24, 2013 at 15:45
  • "I've found that larger than 64K gives minimal performance gains, and on some systems can actually decrease performance". I am interested to know, How? By explicitly benchmarking or by implicitly from the real-world data in your applications? Sep 8, 2018 at 12:22
  • @user1451111 I did not do rigorous benchmarking. I did test several of my applications at various buffer sizes. A lot has changed in the .NET Framework since I gathered the data on which the answer is based. Things might very well be different now. Sep 9, 2018 at 21:43

You do have at least one other choice, using File.AppendAllLines()

var data = from item in Datas
            select string.Format("{0}, {1}-{2}", item.Property1, item.Property2, item.Property3);

File.AppendAllLines("Filename", data, new UTF8Encoding(false));

This will theoretically use less memory than your first approach since only one line at a time will be buffered in memory.

It will probably be almost exactly the same as your second approach though. I'm just showing you a third alternative. The only advantage of this one is that you can feed it a Linq sequence, which can be useful sometimes.

The I/O speed will dwarf any other considerations, so you should concentrate on minimising memory usage as juharr noted above (and also considering the dangers of premature optimisation, of course!)

That means using your second approach, or the one I put here.

  • I think I like this one the best. Good answer. Apr 24, 2013 at 14:32
  • I surprised because the reduced number of lines. Is more legible. But what is var data? Is an array of strings? Apr 24, 2013 at 14:57
  • @AlbertoLeón: data is an IEnumerable<string>. You will need to read up on LINQ in order to understand the ramifications of that. Apr 24, 2013 at 15:52
  • For those who don't like the special syntax of LINQ and prefer the function style, it would be var data = Datas.Select(item => string.Format(...));
    – Ben Voigt
    Aug 18, 2018 at 1:24

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