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The JavaDoc says "The null byte '\u0000' is encoded in 2-byte format rather than 1-byte, so that the encoded strings never have embedded nulls."

But what does this even mean? What's an embedded null in this context? I am trying to convert from a Java saved UTF-8 string to "real" UTF-8.

share|improve this question
Use readUTF on the datastream to get a (real) unicode string. – hakre Jun 22 '11 at 12:31
@hakre, thanks. But I don't think I can change the behavior of that program, I just have to deal with what it gives me. – Prof. Falken Jun 22 '11 at 12:33
Is the problem you're having in the data written by a DataOutputStream, or in the data read by a DataInputStream? – Matt Ball Jun 22 '11 at 12:36
It's written by a DataOutputStream. Then I tried to read this in a (supposedly) UTF-8 aware C program, which I am hacking on. @Matt Ball – Prof. Falken Jun 22 '11 at 12:38
Java generates invalid UTF-8 for such things. A strict interpretation must guard against that. It’s a problem. – tchrist Jun 23 '11 at 15:58
up vote 15 down vote accepted

In C a string is terminated by the byte value 00.

The thing here is that you can have 0-chars in Java strings but to avoid confusion when passing the string over to C (which all native methods are written in) the character is encoded in another way, namely as two bytes

11000000 10000000

(according to the javadoc) neither of which is actually 00.

This is a hack to work around something you cannot change easily.

Also note, that this is valid UTF-8 and decode correctly to 00.

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Thank you! This does indeed answer my question. Unfortunately, it did not give me any insights into why my program fails, but I will keep looking. :-) – Prof. Falken Jun 22 '11 at 12:37
I'm not sure about this is valid UTF-8 - a naive decoder will decode it to 0, but RFC 3629 says clearly: *Implementations of the decoding algorithm above MUST protect against decoding invalid sequences. For instance, a naive implementation may decode the overlong UTF-8 sequence C0 80 into the character U+0000 [...]. – Paŭlo Ebermann Jun 22 '11 at 12:50
It is not the shortest encoding of 0, but it decodes to 0. – Thorbjørn Ravn Andersen Jun 22 '11 at 13:03
@Amigable: To be clearer: It was legal UTF-8 before version 3.1. Since 3.1, each character must be encoded in the shortest form possible. This is also mentioned in the definition of UTF-8 on page 93f in the current version 6.0 of the Unicode standard (unicode.org/versions/Unicode6.0.0, chapter Conformance). (UTF-8 sequences which map to surrogates are also invalid). – Paŭlo Ebermann Jun 22 '11 at 13:12
There are other languages that use this, too. I know Tcl does and I would assume there's more. – RHSeeger Jun 22 '11 at 13:21

No "embedded nulls" means that the raw data does not contain a single 0x00 (NULL) byte.

\u0000 gets encoded to (binary) 11000000 10000000, (hex) 0xC080.

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Which is not valid UTF-8. – tchrist Jun 23 '11 at 15:58

That's not a Java-wide difference, only in DataInput/OutputStream. If the string data was written using DataOutputStream then just read it in using DataInputStream.

If you need to write the string data to, say, a file, don't use DataOutputStream, use a Writer, which is meant for character streams.

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Thanks, but I can't change the Java program at this time, only deal with the output it creates. – Prof. Falken Jun 22 '11 at 12:39
That is quite unfortunate. – Matt Ball Jun 22 '11 at 12:40
Indeed. I may be able to change that later though, if I get a chance to update all the other clients. – Prof. Falken Jun 22 '11 at 12:41

This is only for the method writeUTF of DataOutputStream, not for normal converted streams (OutputStreamWriter or such).

It means that if you have a string "\u0000", it will be encoded as 0xC0 0x80 instead of simply 0x00.

And in the other way around, this sequence 0xB0 0x80, which will never occur in normal UTF-8 strings, represents a nul character.

Also, the documentation you linked seems to be from the time when Unicode still was a 16-bit character set - nowadays it also allows characters over 0xFFFF, which will be represented by two Java char values each (in UTF-16 format, a surrogate pair), and will need 4 bytes in UTF-8, if I calculated right. I'm note sure about the implementation here, though - it looks like these are simply written in CESU-8 format (e.g. two 3-byte sequences, each corresponding to a UTF-16 surrogate, which together give one Unicode character). You will have to take care of this, too.

If you are using Java, the simplest thing would be to use DataInputStream to read this into a string, and then convert it (with getBytes("UTF-8") or a OutputStreamWriter to real UTF-8 data.

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Thanks, interesting. And also thanks for introducing CESU-8, didn't know about that acronym. – Prof. Falken Jun 22 '11 at 12:43
Also, for our purposes we never go outside the 16-bit character set. – Prof. Falken Jun 22 '11 at 12:45
Did you mean "represented by Java char values"? If so, I never understood how, because chars are only 16 bit right? – Prof. Falken Jun 22 '11 at 12:47
It should have been represented by two Java char values. Thanks for noting. – Paŭlo Ebermann Jun 22 '11 at 12:51
The JavaDocs that the OP linked were from Java 1.4.2. Here are the latest: download.oracle.com/javase/6/docs/api/java/io/… – Matt Ball Jun 22 '11 at 12:54

If you are having difficulty reading a "saved" Java string, you need to look at the specification for the methods that read/write in that format:

  • If the string was written using DataOutput.writeUTF8, the DataInput.readUTF8() javadoc is a definitive spec. In addition to the non-standard handling of NUL, it specifies that the string starts with an unsigned 16-bit byte count.

  • If the string was written using ObjectOutputStream.writeObject() then the serialization spec is definitive.

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