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In , plain text is the data (e.g. file contents) that represent only characters of readable material but not its graphical representation nor other objects (images, etc.). It may also include a limited number of characters that control simple arrangement of text, such as line breaks or tabulation characters. Plain text is different from , where style information is included, and from "binary files" in which some portions must be interpreted as binary objects (encoded integers, real numbers, images, etc.).

The encoding has traditionally been either , sometimes . -based encodings such as UTF-8 and UTF-16 are gradually replacing the older ASCII derivatives limited to 7 or 8 bit codes.


Plain text and rich text
Files that contain or other are generally considered plain-text, as long as the entirety remains in directly form (as in , , and so on (as Coombs, Renear, and DeRose argue, punctuation is itself markup)). The use of plain text rather than bit-streams to express markup, enables files to survive much better "in the wild", in part by making them largely immune to computer architecture incompatibilities.

According to The Unicode Standard,

  • " Plain text is a pure sequence of character codes; plain Ue-encoded text is therefore a sequence of Unicode character codes."
  • styled text, also known as rich text, is any text representation containing plain text completed by information such as a language identifier, font size, color, hypertext links. The Unicode Standard, version 6.1, General Structure, page 14

For instance, rich text such as , RTF, HTML, XML, , and rely on plain text.

According to The Unicode Standard, plain text has two main properties in regard to rich text:

  • "plain text is the underlying content stream to which formatting can be applied."
  • "Plain text is public, standardized, and universally readable.".


Plain text, the Unicode definition
The Unicode definition of plain text:
  • "Plain text represents the basic, interchangeable content of text."
  • "Plain text represents character content only, not its appearance."
  • "It can be displayed in a variety of ways and requires a rendering process to make it visible with a particular appearance."
  • "If the same plain text sequence is given to disparate rendering processes, there is no expectation that rendered text in each instance should have the same appearance."
  • "Instead, the disparate rendering processes are simply required to make the text legible according to the intended reading."
  • "This legibility criterion constrains the range of possible appearances."
  • "The relationship between appearance and content of plain text may be summarized as follows: Plain text must contain enough information to permit the text to be rendered legibly, and nothing more."
  • "The Unicode Standard encodes plain text."
  • "The distinction between plain text and other forms of data in the same data stream is the function of a higher-level protocol and is not specified by the Unicode Standard itself."
The Unicode Standard, version 6.1, General Structure, page 15


Usage
The purpose of using plain text today is primarily independence from programs that require their very own special encoding or formatting or . Plain text files can be opened, read, and edited with countless and utilities.

A command-line interface allows people to give commands in plain text and get a response, also in plain text.

Many other computer programs are also capable of processing or creating plain text, such as countless programs in , Windows, classic Mac OS, and and its kin; as well as web browsers (a few browsers such as Lynx and the Line Mode Browser produce only plain text for display) and other readers.

Plain text files are almost universal in programming; a source code file containing instructions in a programming language is almost always a plain text file. Plain text is also commonly used for configuration files, which are read for saved settings at the startup of a program.

Plain text is used for much .

A comment, a ".txt" file, or a generally contains only plain text (without formatting) intended for humans to read.

The best format for storing knowledge persistently is plain text, rather than some . Andrew Hunt, David Thomas. "The Pragmatic Programmer". 1999. Chapter 14: "The Power of Plain Text". p. 73.


Encoding

Character encodings
Before the early 1960s, computers were mainly used for number-crunching rather than for text, and memory was extremely expensive. Computers often allocated only 6 bits for each character, permitting only 64 characters—assigning codes for A-Z, a-z, and 0-9 would leave only 2 codes: nowhere near enough. Most computers opted not to support lower-case letters. Thus, early text projects such as 's Index Thomisticus, the , and others had to resort to conventions such as keying an asterisk preceding letters actually intended to be upper-case.

of argued strongly for going to 8-bit bytes, because someday people might want to process text; and won. Although IBM used , most text from then on came to be encoded in , using values from 0 to 31 for (non-printing) control characters, and values from 32 to 127 for graphic characters such as letters, digits, and punctuation. Most machines stored characters in 8 bits rather than 7, ignoring the remaining bit or using it as a .

The near-ubiquity of ASCII was a great help, but failed to address international and linguistic concerns. The dollar-sign ("$") was not so useful in England, and the accented characters used in Spanish, French, German, and many other languages were entirely unavailable in ASCII (not to mention characters used in Greek, Russian, and most Eastern languages). Many individuals, companies, and countries defined extra characters as needed—often reassigning control characters, or using value in the range from 128 to 255. Using values above 128 conflicts with using the 8th bit as a checksum, but the checksum usage gradually died out.

These additional characters were encoded differently in different countries, making texts impossible to decode without figuring out the originator's rules. For instance, a browser might display ¬A rather than ` if it tried to interpret one character set as another. The International Organisation for Standardisation (ISO) eventually developed several under ISO 8859, to accommodate various languages. The first of these (ISO 8859-1) is also known as"Latin-1", and covers the needs of most (not all) European languages that use Latin-based characters (there was not quite enough room to cover them all). ISO 2022 then provided conventions for"switching" between different character sets in mid-file. Many other organisations developed variations on these, and for many years Windows and Macintosh computers used incompatible variations.

The text-encoding situation became more and more complex, leading to efforts by ISO and by the Unicode Consortium to develop a single, unified character encoding that could cover all known (or at least all currently known) languages. After some conflict, these efforts were unified. currently allows for 1,114,112 code values, and assigns codes covering nearly all modern text writing systems, as well as many historical ones and for many non-linguistic characters such as printer's , mathematical symbols, etc.

Text is considered plain-text regardless of its encoding. To properly understand or process it the recipient must know (or be able to figure out) what encoding was used; however, they need not know anything about the computer architecture that was used, or about the binary structures defined by whatever program (if any) created the data.

Perhaps the most common way of explicitly stating the specific encoding of plain text is with a . For email and , the default MIME type is "text/plain" -- plain text without markup. Another MIME type often used in both email and http is "text/html; charset=UTF-8" -- plain text represented using UTF-8 character encoding with HTML markup. Another common MIME type is "application/json" -- plain text represented using UTF-8 character encoding with markup.

When a document is received without any explicit indication of the character encoding, some applications use charset detection to attempt to guess what encoding was used.


Control codes
reserves the first 32 codes (numbers 0–31 decimal) for control characters known as the "C0 set": codes originally intended not to represent printable information, but rather to control devices (such as ) that make use of ASCII, or to provide about data streams such as those stored on magnetic tape. They include common characters like the and the .

In 8-bit character sets such as Latin-1 and the other ISO 8859 sets, the first 32 characters of the "upper half" (128 to 159) are also control codes, known as the "C1 set". They are rarely used directly; when they turn up in documents which are ostensibly in an ISO 8859 encoding, their code positions generally refer instead to the characters at that position in a proprietary, system-specific encoding, such as Windows-1252 or Mac OS Roman, that use the codes to instead provide additional graphic characters.

defines additional control characters, including bi-directional text direction override characters (used to explicitly mark right-to-left writing inside left-to-right writing and the other way around) and variation selectors to select alternate forms of , and other characters.


See also

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