If I convert a character to byte and then back to char, that character mysteriously disappears and becomes something else. How is this possible?

This is the code:

char a = 'È';       // line 1       
byte b = (byte)a;   // line 2       
char c = (char)b;   // line 3
System.out.println((char)c + " " + (int)c);

Until line 2 everything is fine:

  • In line 1 I could print "a" in the console and it would show "È".

  • In line 2 I could print "b" in the console and it would show -56, that is 200 because byte is signed. And 200 is "È". So it's still fine.

But what's wrong in line 3? "c" becomes something else and the program prints ? 65480. That's something completely different.

What I should write in line 3 in order to get the correct result?

  • 12
    A byte is 8 bit. char is 16 bit. Got the idea?
    – Rohit Jain
    Jul 28 '13 at 20:41
  • @RohitJain And a character — by which I mean a Unicode code point — can take two chars or four bytes. Furthermore, who knows what normalization form things are in? The string "È" can itself comprise one or two code points depending on whether it is in Normalization Form C or D respectively.
    – tchrist
    Jul 29 '13 at 2:49
  • 3
    Two bytes for char vs one for byte is a problem in the general case, but here, on its own, that wouldn't matter as 'È' is a codepoint below 256, so could be stored in one byte. Problem here is that char is unsigned while byte isn't. Casting char to byte only works for ASCII, so not for codepoints above 127, like here.
    – Lumi
    Feb 6 '14 at 11:22
  • Does this answer your question? Char into byte? (Java) Aug 26 '20 at 9:01

A character in Java is a Unicode code-unit which is treated as an unsigned number. So if you perform c = (char)b the value you get is 2^16 - 56 or 65536 - 56.

Or more precisely, the byte is first converted to a signed integer with the value 0xFFFFFFC8 using sign extension in a widening conversion. This in turn is then narrowed down to 0xFFC8 when casting to a char, which translates to the positive number 65480.

From the language specification:

5.1.4. Widening and Narrowing Primitive Conversion

First, the byte is converted to an int via widening primitive conversion (§5.1.2), and then the resulting int is converted to a char by narrowing primitive conversion (§5.1.3).

To get the right point use char c = (char) (b & 0xFF) which first converts the byte value of b to the positive integer 200 by using a mask, zeroing the top 24 bits after conversion: 0xFFFFFFC8 becomes 0x000000C8 or the positive number 200 in decimals.

Above is a direct explanation of what happens during conversion between the byte, int and char primitive types.

If you want to encode/decode characters from bytes, use Charset, CharsetEncoder, CharsetDecoder or one of the convenience methods such as new String(byte[] bytes, Charset charset) or String#toBytes(Charset charset). You can get the character set (such as UTF-8 or Windows-1252) from StandardCharsets.

  • 9
    Actually, a Java char is not a Unicode code point. It is a UTF-16 code unit. To actually represent an arbitrary Unicode “character” (by which I mean an actual code point), a Java char is not good enough: you must use an int (effectively giving you UTF-32), which can take up to two chars in legacy UTF-16 notation. That’s why everything has a codePointAt API, not just the bad old legacy charAt API.
    – tchrist
    Jul 29 '13 at 2:37
  • Why is the char c = (char) (b & 0xFF) only using a single byte, when Java chars are supposed to be two bytes? Jun 6 '14 at 16:05
  • 1
    @Maarten .. Thanks for the nice catch. Do you know the reason as to why the byte is first widened to an integer and then narrowed to a character? Why not directly widen a byte to a character?
    – Rocky Inde
    Apr 19 '16 at 10:50
  • 2
    @RockyInde I've looked at this answer again now it is at 50 upvotes. The answer seems correct, but the answer to this comment did not. It is mainly because everything is generally converted to integers in Java. int really is the main type in Java; calculations of bytes, shorts and chars are all widened to integer types during such a calculation. This conversion is just a basic but weird example of this. Nov 5 '18 at 16:28

new String(byteArray, Charset.defaultCharset())

This will convert a byte array to the default charset in java. It may throw exceptions depending on what you supply with the byteArray.

  • 1
    Wrong. From the documentation: "This method always replaces malformed-input and unmappable-character sequences with this charset's default replacement string. The CharsetDecoder class should be used when more control over the decoding process is required." So it doesn't throw exceptions as you suggest. Apr 13 '20 at 0:28
  • Doesn't mean it is wrong. It means if you need more control, use CharsetDecoder
    – Joe
    Apr 13 '20 at 3:28
  • No, it is wrong because you indicate that it may throw exceptions while it doesn't. Yes, you can use CharsetDecoder for more control, but that doesn't make the answer correct. Happy to upvote corrected answers. Oct 26 '20 at 22:50

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