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I am quite confused about the concept of character encoding.

What is Unicode, GBK, etc? How does a programming language use them?

Do I need to bother knowing about them? Is there a simpler or faster way of programming without having to trouble myself with them?

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The classic off-site resource for this is Joel Spolsky's essay The Absolute Minimum Every Software Developer Absolutely, Positively Must Know About Unicode and Character Sets (No Excuses!). – Raedwald Apr 10 '15 at 12:32
It's a late reply, but I posted some explanations about the mentioned encodings and charsets + also some shortcuts (e.g. for java) – bvdb Aug 1 '15 at 10:49
up vote 17 down vote accepted

(Note that I'm using some of these terms loosely/colloquially for a simpler explanation that still hits the key points.)

A byte can only have 256 distinct values, being 8 bits.

Since there are character sets with more than 256 characters in the character set one cannot in general simply say that each character is a byte.

Therefore, there must be mappings that describe how to turn each character in a character set into a sequence of bytes. Some characters might be mapped to a single byte but others will have to be mapped to multiple bytes.

Those mappings are encodings, because they are telling you how to encode characters into sequences of bytes.

As for Unicode, at a very high level, Unicode is an attempt to assign a single, unique number to every character. Obviously that number has to be something wider than a byte since there are more than 256 characters :) Java uses a version of Unicode where every character is assigned a 16-bit value (and this is why Java characters are 16 bits wide and have integer values from 0 to 65535). When you get the byte representation of a Java character, you have to tell the JVM the encoding you want to use so it will know how to choose the byte sequence for the character.

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ASCII is fundamental

Originally 1 character was always stored as 1 byte. A byte (8 bits) has the potential to distinct 256 possible values. But in fact only the first 7 bits were used. So only 128 characters were defined. This set is known as the ASCII character set.

  • 0x00 - 0x1F contain steering codes (e.g. CR, LF, STX, ETX, EOT, BEL, ...)
  • 0x20 - 0x40 contain numbers and punctuation
  • 0x41 - 0x7F contain mostly alphabetic characters
  • 0x80 - 0xFF the 8th bit = undefined.

French, German and many other languages needed additional characters. (e.g. à, é, ç, ô, ...) which were not available in the ASCII character set. So they used the 8th bit to define their characters. This is what is known as "extended ASCII".

The problem is that the additional 1 bit has not enough capacity to cover all languages in the world. So each region has his own ASCII variant. There are many extended ASCII encodings (latin-1 being a very popular one).

Popular question: "Is ASCII a character set or is it an encoding" ? ASCII is a character set. However, in programming charset and encoding are wildly used as synonyms. If I want to refer to an encoding that only contains the ASCII characters and nothing more (the 8th bit is always 0): that's US-ASCII.

Unicode goes one step further

Unicode also is a character set (not an encoding). It uses the same characters like the ASCII standard, but it extends the list with additional characters, which gives each character a codepoint in format u+xxxx. It has the ambition to contain all characters (and popular icons) used in the entire world.

UTF-8, UTF-16 and UTF-32 are encodings that apply the Unicode character table. But they each have a slightly different way on how to encode them. UTF-8 will only use 1 byte when encoding an ASCII character, giving the same output as any other ASCII encoding. But for other characters, it will use the first bit to indicate that a 2nd byte will follow.

GBK is an encoding, which just like UTF-8 uses multiple bytes. The first byte follows the ASCII standard, so only 7 bits are used. The 8th bit is used to indicate the presence of a 2nd byte, which is used to represent about 22,000 Chinese characters. But an important difference, is that this does not respect the Unicode character set.

Mime types

Mime types are also often confused with encodings.

There is no straightforward way to decode a file. It would have been ideal if all files contained a prefix to indicate what encoding their data was stored in. In the end it is up to the application (or its developer) to determine an encoding (e.g. US-ASCII, UTF-8, some system default ...).

When sending data over the internet the same problem exists. Fortunately some protocols such as HTTP use mime type declarations to specify what kind of data and charset the data uses. A typical HTTP header contains this:

Content-Type: text/html; charset=utf-8

But for text/xml that would be pointless (a charset parameter will even be ignored). XML parsers in general will read the first line of the file, looking for the <?xml encoding=... tag. If it's there, then they will reopen the file using that encoding.

The same problem exists when sending e-mails. An e-mail can contain a html message or just plain text.


In case of Java (and many other programming languages) in addition to the dangers of encodings, there's also the complexity of casting bytes and integers to characters because their content is stored in different ranges.

  • a byte is stored as a signed byte (range: -128 to 127).
  • the char type in java is stored in 2 unsigned bytes (range: 0 - 65535)
  • a stream returns an integer in range -1 to 255.

If you know that your data only contains ASCII values. Then with the proper skill you can parse your data from bytes to characters or wrap them immediately in Strings.

// the -1 indicates that there is no data
int input = stream.read();
if (input == -1) throw new EOFException();

// bytes must be made positive first.
byte myByte = (byte) input;
int unsignedInteger = myByte & 0xFF;
char ascii = (char)(unsignedInteger);

The shortcut in java is to use readers and writers and to specify the encoding when you instantiate them.

// wrap your stream in a reader. 
// specify the encoding
// The reader will decode the data for you
Reader reader = new InputStreamReader(inputStream, StandardCharsets.UTF_8);

As explained earlier for XML files it doesn't matter that much, because any decent DOM or JAXB marshaller will check for an encoding attribute.

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Just a small note: Since almost all encodings encode the 128 basic ASCII characters in the same way, as long as all used characters are defined in this basic set, you can actually encode/decode your message using almost any random encoding. (e.g. UTF-8, US-ASCII, latin-1, GBK, ...). – bvdb Nov 27 '15 at 11:18
Also interesting is the BOM (byte-order-mark) which is used for encodings that use multiple bytes (e.g. UTF-16). It indicates which of the bytes is the first one (most significant). This marker-byte is put in front of the message. Another good reason to use decent Readers. – bvdb Nov 27 '15 at 11:19

Character encoding is what you use to solve the problem of writing software for somebody who uses a different language than you do.

You don't know how what the characters are and how they are ordered. Therefore, you don't know what the strings in this new language will look like in binary and frankly, you don't care.

What you do have is a way of translating strings from the language you speak to the language they speak (say a translator). You now need a system that is capable of representing both languages in binary without conflicts. The encoding is that system.

It is what allows you to write software that works regardless of the way languages are represented in binary.

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