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I came across a situation where I have a pretty big file that I need to read binary data from.

Consequently, I realized that the default BinaryReader implementation in .NET is pretty slow. Upon looking at it with Reflector I came across this:

public virtual int ReadInt32()
{
    if (this.m_isMemoryStream)
    {
        MemoryStream stream = this.m_stream as MemoryStream;
        return stream.InternalReadInt32();
    }
    this.FillBuffer(4);
    return (((this.m_buffer[0] | (this.m_buffer[1] << 8)) | (this.m_buffer[2] << 0x10)) | (this.m_buffer[3] << 0x18));
}

Which strikes me as extremely inefficient, thinking at how computers were designed to work with 32 bit values since the 32 bit cpu was invented.

So I made my own (unsafe) FastBinaryReader class with code such as this instead:

public unsafe class FastBinaryReader :IDisposable
{
    private static byte[] buffer = new byte[50];
    //private Stream baseStream;

    public Stream BaseStream { get; private set; }
    public FastBinaryReader(Stream input)
    {
        BaseStream = input;
    }



    public int ReadInt32()
    {
        BaseStream.Read(buffer, 0, 4);

        fixed (byte* numRef = &(buffer[0]))
        {
            return *(((int*)numRef));
        }
    }
...
}

Which is much faster - I managed to shave off 5-7 seconds off the time it took to read a 500 MB file, but it's still pretty slow overall (29 seconds initially, ~22 seconds now with my FastBinaryReader)

It still kind of baffles me as to why it still takes so long to read such a relatively small file. If I copy the file from one disk to another it takes only a couple of seconds, so disk throughput is not an issue.

I further inlined the ReadInt32/etc calls, and I ended up with this code:

using (var br = new FastBinaryReader(new FileStream(cacheFilePath, FileMode.Open, FileAccess.Read, FileShare.Read, 0x10000, FileOptions.SequentialScan)))

  while (br.BaseStream.Position < br.BaseStream.Length)
  {
      var doc = DocumentData.Deserialize(br);
      docData[doc.InternalId] = doc;
  }
}


   public static DocumentData Deserialize(FastBinaryReader reader)
   {
       byte[] buffer = new byte[4 + 4 + 8 + 4 + 4 + 1 + 4];
       reader.BaseStream.Read(buffer, 0, buffer.Length);

       DocumentData data = new DocumentData();
       fixed (byte* numRef = &(buffer[0]))
       {
           data.InternalId = *((int*)&(numRef[0]));
           data.b = *((int*)&(numRef[4]));
           data.c = *((long*)&(numRef[8]));
           data.d = *((float*)&(numRef[16]));
           data.e = *((float*)&(numRef[20]));
           data.f = numRef[24];
           data.g = *((int*)&(numRef[25]));
       }
       return data;
   }

Any further ideas on how to make this even faster? I was thinking maybe I could use Marshalling to map the entire file straight into memory on top of some custom structure, since the data is linear, fixed size and sequential.

SOLVED: I came to the conclusion that FileStream's buffering/BufferedStream are flawed. Please see the accepted answer and my own answer (with the solution) below.

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It may be helpful: stackoverflow.com/questions/19558435/… –  Amir Pournasserian Nov 7 '13 at 13:32

4 Answers 4

up vote 6 down vote accepted

When you do a filecopy, large chunks of data are read and written to disk.

You are reading the entire file 4 bytes at a time. This is bound to be slower. Even if the stream implementation is smart enough to buffer, you still have at least 500mb/4 = 131072000 api calls.

Isn't it more wise to just read a large chunk of data, and then go through it sequentially, and repeat until the file has been processed?

R

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1  
There's a parameter in the FileStream constructor which specifies the buffer size, so the read is indeed done in chunks. I tried various values for the buffer size, but there were no major improvements. Extra large buffer sizes actually hurt performance in my measurements. –  legenden Aug 6 '09 at 12:03
    
still you are doing the immense number of calls to 'ReadInt32'. Just getting it yourself from a consecutive piece of memory will be much quicker. –  Toad Aug 6 '09 at 12:06
    
Please re-read the question, I am not using ReadInt32 in the actual implementation, there is only 1 read per object, and all the conversions are inlined, see the last two blocks of code. –  legenden Aug 6 '09 at 12:12
    
right... sorry about that. I guess then that the immense amount of small memory allocations might be the problem. –  Toad Aug 6 '09 at 12:25
    
I will award your question as the accepted answer because you suggested reading large chunks of data from the file. That would have been redundant if the actual FileStream's buffering implementation wasn't flawed, but apparently it is. –  legenden Aug 6 '09 at 12:30

Interesting, reading the whole file into a buffer and going through it in memory made a huge difference. This is at the cost of memory, but we have plenty.

This makes me think that the FileStream's (or BufferedStream's for that matter) buffer implementation is flawed, because no matter what size buffer I tried, performance still sucked.

  using (var br = new FileStream(cacheFilePath, FileMode.Open, FileAccess.Read, FileShare.Read, 0x10000, FileOptions.SequentialScan))
  {
      byte[] buffer = new byte[br.Length];
      br.Read(buffer, 0, buffer.Length);
      using (var memoryStream = new MemoryStream(buffer))
      {
          while (memoryStream.Position < memoryStream.Length)
          {
              var doc = DocumentData.Deserialize(memoryStream);
              docData[doc.InternalId] = doc;
          }
      }
  }

Down to 2-5 seconds (depends on disk cache I'm guessing) now from 22. Which is good enough for now.

share|improve this answer
    
so my answer wasn't that flawed ;^) –  Toad Aug 6 '09 at 12:26
2  
Thanks. But there's actually a problem with .NET's buffer implementation, because I tried a buffer size exactly as big as the file (which should have been equivalent to the intermediary MemoryStream), and that still sucked performance-wise. In theory your suggestion should have been redundant, but in practice - jackpot. –  legenden Aug 6 '09 at 12:36
5  
you can just say var buffer = File.ReadAllBytes(cacheFilePath); save some code and it's much faster –  gjvdkamp Apr 3 '12 at 20:00

I ran into a similar performance issue with BinaryReader/FileStream, and after profiling, I discovered that the problem isn't with FileStream buffering, but instead with this line:

while (br.BaseStream.Position < br.BaseStream.Length) {

Specifically, the property br.BaseStream.Length on a FileStream makes a (relatively) slow system call to get the file size on each loop. After changing the code to this:

long length = br.BaseStream.Length;
while (br.BaseStream.Position < length) {

and using an appropriate buffer size for the FileStream, I achieved similar performance to the MemoryStream example.

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One caveat; you might want to double-check your CPU's endianness... assuming little-endian is not quite safe (think: itanium etc).

You might also want to see if BufferedStream makes any difference (I'm not sure it will).

share|improve this answer
    
Yup, I'm aware of endianess issues, but this is a proprietary application where I have full control over deployment. Regarding BufferedStream, from my understanding the FileStream is already buffered, so it would just add an unnecessary intermediary buffer. P.S.: I'm also using your protobuf library in this project, so many thanks for that :) –  legenden Aug 6 '09 at 11:53
3  
I just made a new measurement with a wrapping BufferedStream, and as anticipated, there is no difference. –  legenden Aug 6 '09 at 12:01

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