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I have an array of chars, some of them are ASCII 128 and 130 in decimal. I am trying to read them as normal chars, but instead of 128 I get 8218 as an int (casted to byte, got 26). I need to get that number between 128 and 130. I found some articles on Encodings, some people say I need to use Encoding 439.

Any ideas?

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In C# char is 16bit. How do you read that array? –  lukas Jul 26 '12 at 22:10
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ASCII value of >=128 is going to be tricky in a 7-bit encoding. (i.e. there's no ASCII value 128) en.wikipedia.org/wiki/ASCII Perhaps you should be using ISO-8859? en.wikipedia.org/wiki/ISO/IEC_8859-1 , the most common 8 bit encoding. –  spender Jul 26 '12 at 22:10
    
Are you sure you want a char and not a byte? A c# char is 2 bytes... Can you show some code? –  craig1231 Jul 26 '12 at 22:22
    
Encoding 439 is not exist –  DarkGray Jul 26 '12 at 22:51
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1 Answer

A char (System.Char) in the CLR environment is an unsigned 16-bit number, a UTF-16 code unit. From the Unicode Standard, Chapter 3, §3.9:

Code unit: The minimal bit combination that can represent a unit of encoded text for processing or interchange.

  • Code units are particular units of computer storage. Other character encoding standards typically use code units defined as 8-bit units—that is, octets. The Unicode Standard uses 8-bit code units in the UTF-8 encoding form, 16-bit code units in the UTF-16 encoding form, and 32-bit code units in the UTF-32 encoding form.

  • A code unit is also referred to as a code value in the information industry.

  • In the Unicode Standard, specific values of some code units cannot be used to represent an encoded character in isolation. This restriction applies to isolated surrogate code units in UTF-16 and to the bytes 80–FF in UTF-8. Similar restrictions apply for the implementations of other character encoding standards; for example, the bytes 81–9F, E0–FC in SJIS (Shift-JIS) cannot represent an encoded character by themselves.

Your "ASCII" text is no longer ASCII once it's in the CLR world. ASCII is a 7-bit encoding and the code points 0x00–0x7F are maintained across all Unicode encodings (UTF-8, -16, -24, -32) for the sake of compatability. In the non-Unicode world, 0x80–0xFF have always had multiple character mappings (and don't even look at EBCDIC vs ASCII). Some ASCII implementations provided for parity as well: the high order bit would be set to maintain the desired parity.

  • Even parity. The high order bit is set to maintain an even number of 'on' bits in the octet.
  • Odd parity. The high order bit is set to maintain an odd number of 'on' bits in the octet.
  • No parity. The high order bit is never set.

Presumably you're reading your "ASCII" text using a UTF-8 encoder/decoder (the CLR default). To get the numeric values you expect in your chars, you'll need to read the text using an encode/decoder suitable for the encoding your text is actually in (Windows 1252? something else?).

A better approach for you, perhaps, would be to read your text octet by octet as binary, using System.IO.FileStream, rather than System.IO.TextReader and its minions. Then you've got the raw octets and you can convert them to text as you wish, or do math on the raw octet values.

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