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I try to detect which character encoding is used in my file.

I try with this code to get the standard encoding

public static Encoding GetFileEncoding(string srcFile)
    {
      // *** Use Default of Encoding.Default (Ansi CodePage)
      Encoding enc = Encoding.Default;

      // *** Detect byte order mark if any - otherwise assume default
      byte[] buffer = new byte[5];
      FileStream file = new FileStream(srcFile, FileMode.Open);
      file.Read(buffer, 0, 5);
      file.Close();

      if (buffer[0] == 0xef && buffer[1] == 0xbb && buffer[2] == 0xbf)
        enc = Encoding.UTF8;
      else if (buffer[0] == 0xfe && buffer[1] == 0xff)
        enc = Encoding.Unicode;
      else if (buffer[0] == 0 && buffer[1] == 0 && buffer[2] == 0xfe && buffer[3] == 0xff)
        enc = Encoding.UTF32;
      else if (buffer[0] == 0x2b && buffer[1] == 0x2f && buffer[2] == 0x76)
        enc = Encoding.UTF7;
      else if (buffer[0] == 0xFE && buffer[1] == 0xFF)      
        // 1201 unicodeFFFE Unicode (Big-Endian)
        enc = Encoding.GetEncoding(1201);      
      else if (buffer[0] == 0xFF && buffer[1] == 0xFE)      
        // 1200 utf-16 Unicode
        enc = Encoding.GetEncoding(1200);


      return enc;
    }

My five first byte are 60, 118, 56, 46 and 49.

Is there a chart that shows which encoding matches those five first bytes?

share|improve this question
2  
The byte order mark should not be used to detect encodings. There are cases when it is ambiguous which encoding is used: UTF-16 LE, and UTF-32 LE both start with the same two bytes. The BOM should only be used to detect byte order (hence its name). Also UTF-8 strictly speaking should not even have a byte order mark and adding one can interfere with some software that doesn't expect it. –  Mark Byers Dec 23 '10 at 15:46
    
@Mark Bayers, so it's there a way i can detech witch encoding are use in my file ? –  Cédric Boivin Dec 23 '10 at 16:09
3  
@Mark Byers: UTF-32 LE starts with the same 2 bytes as UTF-16 LE. However, it also follows with bytes 00 00 which is (I think very) unlikely in UTF-16 LE. Also, the BOM in theory should indicate as you say, but in practice, it acts as a signature to show what encoding it. See: unicode.org/faq/utf_bom.html#bom4 –  Dan W Oct 12 '12 at 1:14

7 Answers 7

up vote 40 down vote accepted

You can't depend on the file having a BOM. UTF-8 doesn't require it. And non-Unicode encodings don't even have a BOM. There are, however, other ways to detect the encoding.

UTF-32

BOM is 00 00 FE FF (for BE) or FF FE 00 00 (for LE).

But UTF-32 is easy to detect even without a BOM. This is because the Unicode code point range is restricted to U+10FFFF, and thus UTF-32 units always have the pattern 00 {0x|10} xx xx (for BE) or xx xx {0x|10} 00 (for LE). If the data has a length that's a multiple of 4, and follows one of these patterns, you can safely assume it's UTF-32. False positives are nearly impossible due to the rarity of 00 bytes in byte-oriented encodings.

US-ASCII

No BOM, but you don't need one. ASCII can be easily identified by the lack of bytes in the 80-FF range.

UTF-8

BOM is EF BB BF. But you can't rely on this. Lots of UTF-8 files don't have a BOM, especially if they originated on non-Windows systems.

But you can safely assume that if a file validates as UTF-8, it is UTF-8. False positives are rare.

Specifically, given that the data is not ASCII, the false positive rate for a 2-byte sequence is only 3.9% (1920/49152). For a 7-byte sequence, it's less than 1%. For a 12-byte sequence, it's less than 0.1%. For a 24-byte sequence, it's less than 1 in a million.

UTF-16

BOM is FE FF (for BE) or FF FE (for LE). Note that the UTF-16LE BOM is found at the start of the UTF-32LE BOM, so check UTF-32 first.

There may be UTF-16 files without a BOM, but it would be really hard to detect them. The only reliable way to recognize UTF-16 without a BOM is to look for surrogate pairs (D[8-B]xx D[C-F]xx), but non-BMP characters are too rarely-used to make this approach practical.

XML

If your file starts with the bytes 3C 3F 78 6D 6C (i.e., the ASCII characters "<?xml"), then look for an encoding= declaration. If present, then use that encoding. If absent, then assume UTF-8, which is the default XML encoding.

If you need to support EBCDIC, also look for the equivalent sequence 4C 6F A7 94 93.

In general, if you have a file format that contains an encoding declaration, then look for that declaration rather than trying to guess the encoding.

None of the above

There are hundreds of other encodings, which require more effort to detect. I recommend trying Mozilla's charset detector or a .NET port of it.

share|improve this answer
    
Can you clarify your analysis of UTF-8 above? I think you are saying that if you have a random [flat] distribution of characters from which the file is made, you have low probabilities of getting confused. As a practical matter, no text files have flat distributions like this... so I'd expect a severe impact on the analysis with false positive rate being much higher. How can you distinguish between UTF-16 and UTF-8 if the files are an even number of bytes? –  Ira Baxter Jul 16 '12 at 7:05
    
Yes, it's for a random distribution of octets. For real data, it's more difficult to calculate. But the point is, for a legacy-encoded (e.g., windows-1252) file to get misinterpreted as being UTF-8, it would have to contain weird character sequences like ’. –  dan04 Jul 18 '12 at 12:58
    
OK, what I expected. Can you address distinguishing UTF-8/UTF-16? PS: Thanks for a very helpful answer. +1 –  Ira Baxter Jul 18 '12 at 13:48
    
You can't detect UTF-16 by validation like you can with UTF-8 because the false positive rate is much higher. For example, about 93.8% of random 4-byte sequences happen to be valid UTF-16, the only invalid ones being noncharacters and unpaired surrogates. And 100% of even-length ASCII strings happen to be valid UTF-16 (even if it's a nonsensical Chinese sentence like 畂桳栠摩琠敨映捡獴). The only reliable way to detect UTF-16 is to look for the BOM, FE FF or FF FE. You'd still get a false positive for Latin1 þÿ or ÿþ, but those are unlikely combinations. –  dan04 Jul 18 '12 at 14:07
2  
For UTF-16BE text files, if a certain percentage of even bytes are zeroed (or check odd bytes for UTF-16LE), then there's a good probability that the encoding is UTF-16. What do you think? –  Dan W Oct 12 '12 at 1:26

Use StreamReader and direct it to detect the encoding for you:

using (var reader = new System.IO.StreamReader(path, true))
{
    var currentEncoding = reader.CurrentEncoding;
}
share|improve this answer
2  
Not work, the StreamReader suppose that your file is in UTF-8 –  Cédric Boivin Dec 23 '10 at 15:52
    
@Cedric: Check MSDN for this constructor. Do you have evidence that the constructor doesn't work consistently with the documentation? Granted, that is possible in Microsoft's docs :-) –  Phil Hunt Dec 23 '10 at 15:57
    
sorry, your rigth. But it's dont work :-( the encoding is not good –  Cédric Boivin Dec 23 '10 at 16:54
2  
This version also only checks for BOM –  SACO Jul 27 '12 at 13:41
2  
Um, don't you have to call Read() before reading CurrentEncoding? The MSDN for CurrentEncoding says "The value can be different after the first call to any Read method of StreamReader, since encoding autodetection is not done until the first call to a Read method." –  Carl Walsh Oct 25 '13 at 18:45

If you want to pursue a "simple" solution, you might find this class I put together useful:

http://www.architectshack.com/TextFileEncodingDetector.ashx

It does the BOM detection automatically first, and then tries to differentiate between Unicode encodings without BOM, vs some other default encoding (generally Windows-1252, incorrectly labelled as Encoding.ASCII in .Net).

As noted above, a "heavier" solution involving NCharDet or MLang may be more appropriate, and as I note on the overview page of this class, the best is to provide some form of interactivity with the user if at all possible, because there simply is no 100% detection rate possible!

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If your file starts with the bytes 60, 118, 56, 46 and 49, then you have an ambiguous case. It could be UTF-8 (without BOM) or any of the single byte encodings like ASCII, ANSI, ISO-8859-1 etc.

share|improve this answer
    
Hummmm ... so i need to test all ? –  Cédric Boivin Dec 23 '10 at 16:05

I use Ude that is a C# port of Mozilla Universal Charset Detector. It is easy to use and gives some really good results.

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