From mboxrd@z Thu Jan 1 00:00:00 1970 Path: news.gmane.org!not-for-mail From: Kenichi Handa Newsgroups: gmane.emacs.devel Subject: Re: Emacs 23 character code space Date: Wed, 05 Nov 2008 21:27:54 +0900 Message-ID: References: NNTP-Posting-Host: lo.gmane.org Mime-Version: 1.0 (generated by SEMI 1.14.3 - "Ushinoya") Content-Type: text/plain; charset=US-ASCII X-Trace: ger.gmane.org 1225888122 814 80.91.229.12 (5 Nov 2008 12:28:42 GMT) X-Complaints-To: usenet@ger.gmane.org NNTP-Posting-Date: Wed, 5 Nov 2008 12:28:42 +0000 (UTC) Cc: emacs-devel@gnu.org To: Eli Zaretskii Original-X-From: emacs-devel-bounces+ged-emacs-devel=m.gmane.org@gnu.org Wed Nov 05 13:29:44 2008 connect(): Connection refused Return-path: Envelope-to: ged-emacs-devel@m.gmane.org Original-Received: from lists.gnu.org ([199.232.76.165]) by lo.gmane.org with esmtp (Exim 4.50) id 1KxhVv-0001Rd-E3 for ged-emacs-devel@m.gmane.org; Wed, 05 Nov 2008 13:29:43 +0100 Original-Received: from localhost ([127.0.0.1]:46090 helo=lists.gnu.org) by lists.gnu.org with esmtp (Exim 4.43) id 1KxhUm-0007rW-VD for ged-emacs-devel@m.gmane.org; Wed, 05 Nov 2008 07:28:25 -0500 Original-Received: from mailman by lists.gnu.org with tmda-scanned (Exim 4.43) id 1KxhUg-0007r7-Nk for emacs-devel@gnu.org; Wed, 05 Nov 2008 07:28:18 -0500 Original-Received: from exim by lists.gnu.org with spam-scanned (Exim 4.43) id 1KxhUd-0007qJ-Ti for emacs-devel@gnu.org; Wed, 05 Nov 2008 07:28:17 -0500 Original-Received: from [199.232.76.173] (port=50041 helo=monty-python.gnu.org) by lists.gnu.org with esmtp (Exim 4.43) id 1KxhUd-0007qG-N4 for emacs-devel@gnu.org; Wed, 05 Nov 2008 07:28:15 -0500 Original-Received: from mx1.aist.go.jp ([150.29.246.133]:51544) by monty-python.gnu.org with esmtp (Exim 4.60) (envelope-from ) id 1KxhUV-0005Ii-4S; Wed, 05 Nov 2008 07:28:08 -0500 Original-Received: from rqsmtp1.aist.go.jp (rqsmtp1.aist.go.jp [150.29.254.115]) by mx1.aist.go.jp with ESMTP id mA5CRtrP012677; Wed, 5 Nov 2008 21:27:55 +0900 (JST) env-from (handa@m17n.org) Original-Received: from smtp1.aist.go.jp by rqsmtp1.aist.go.jp with ESMTP id mA5CRtn8025271; Wed, 5 Nov 2008 21:27:55 +0900 (JST) env-from (handa@m17n.org) Original-Received: by smtp1.aist.go.jp with ESMTP id mA5CRsw5023576; Wed, 5 Nov 2008 21:27:54 +0900 (JST) env-from (handa@m17n.org) Original-Received: from handa by etlken.m17n.org with local (Exim 4.69) (envelope-from ) id 1KxhUI-0005VH-CR; Wed, 05 Nov 2008 21:27:54 +0900 In-reply-to: (message from Eli Zaretskii on Tue, 04 Nov 2008 22:19:26 +0200) User-Agent: SEMI/1.14.3 (Ushinoya) FLIM/1.14.2 (Yagi-Nishiguchi) APEL/10.2 Emacs/23.0.60 (i686-pc-linux-gnu) MULE/6.0 (HANACHIRUSATO) X-detected-operating-system: by monty-python.gnu.org: Solaris 9 X-BeenThere: emacs-devel@gnu.org X-Mailman-Version: 2.1.5 Precedence: list List-Id: "Emacs development discussions." List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Original-Sender: emacs-devel-bounces+ged-emacs-devel=m.gmane.org@gnu.org Errors-To: emacs-devel-bounces+ged-emacs-devel=m.gmane.org@gnu.org Xref: news.gmane.org gmane.emacs.devel:105401 Archived-At: In article , Eli Zaretskii writes: > > May I leave the work of reflecting what I wrote to the > > section before "Character Code" to you? > Sure. Thank you. > > I'll continue to fix the document after that section. Attached is the remaining part. Please reflect that to the document. I'm sorry for asking you this tiresome work. I still can't establish a reliable internet connection for committing by myself. --- Kenichi Handa handa@ni.aist.go.jp ---------------------------------------------------------------------- @node Character Codes @section Character Codes @cindex character codes The unibyte and multibyte text representations use different character codes. The valid character codes for unibyte representation range from 0 to 255---the values that can fit in one byte. The valid character codes for multibyte representation range from 0 to 4194303 (#x3FFFFF). In this code space, codes 0 through 127 are for @acronym{ASCII} charcters, codes 129 through 4194175 (#x3FFF7F) are for non-@acronym{ASCII} characters (among them, codes 0 through 1114111 (#10FFFF) corresponds to Unicode characters of the same codes), and codes 4194176 (#x3FFF80) through 4194303 (#x3FFFFF) are for 8-bit characters. @defun characterp charcode This returns @code{t} if @var{charcode} is a valid character, and @code{nil} otherwise. @example (characterp 65) @result{} t (characterp 4194303) @result{} t (characterp 4194304) @result{} nil @end example @end defun @defun get-byte pos &optional string This function returns a byte value of a character at poistion @var{pos}. If the current buffer is unibyte, byte values are the same as character codes. If it is multibyte, byte values of @acronym{ASCII} characters are the same as chacter codes, whereas byte values of 8-bit characters are the low 8-bit of character codes. If the character at @var{pos} is non-@acronym{ASCII}, an error is signalled. The optional argument @var{string} specifies a string from which to get a byte value of a character. @end defun @node Character Sets @section Character Sets @cindex character sets A character set is a set of characters, and it assigns a unique code point to each character belonging to the set. Emacs decodes a specific code point of a specific character set to an Emacs character. For example, @code{iso-8859-1} is one character set, and it contains the character A-grave by code-point #xC0. Emacs decodes that character into Emacs' character of code #xC0. @code{iso-8859-2} is another character set, and it contains the character R-acute by code-point #xC0. Emacs decodes that character into Emacs' character of code #x154. @code{unicode} is also a character set. It contains both A-grave and R-acute by code-point #xC0 and #x154 respectively. Emacs decodes them to Emacs' character #xC0 and #x154. Actually, all characters in @code{unicode} are decoded to characters of the same code values (in the range #x0 through #x10FFFF). Some character set contains characters not included in @code{unicode} (for example, characters for private use). Emacs decodes such characters into a character code space uniquely kept for each character set. That code space is in the range #x110000 through #x3FFF7F. Emacs has two special character set named @code{emacs} and @code{eight-bit}. The former contains all @acronym{ASCII} and non-@acronym{ASCII} characters, and the latter contains all remaining characters; i.e. all 8-bit characters. How to define a characte set is an arcane matter, and is not documented here. @defun charsetp object Returns @code{t} if @var{object} is a symbol that names a character set, @code{nil} otherwise. @end defun @defvar charset-list The value is a list of all defined character set names. @end defvar @defun charset-list This function returns the value of @code{charset-list}. It is only provided for backward compatibility. @end defun @defun charset-priority-list &optional highestp This functions returns a list of character sets sorted by their priorities. If @var{highestp} is non-@code{nil}, returns a character set of highest priority instread of returning a list. @end defun @defun char-charset character This function returns the name of the character set of highest priority that @var{character} belongs to. @acronym{ASCII} characters are an exception. For them, this function always returns @code{ascii}. @end defun @defun charset-plist charset This function returns the charset property list of the character set @var{charset}. Although @var{charset} is a symbol, this is not the same as the property list of that symbol. Charset properties are used for special purposes within Emacs. @end defun @defun charset-dimension charset This function returns the dimension of @var{charset}. Here, dimension means the number of bytes required to represent the highest code point (not an Emacs character code) of a character. For example, the dimension of @code{iso-8859-1} is one, the dimension of @code{japanese-jisx0208} is two, and the dimension of @code{unicode} is three. @end defun @deffn Command list-charset-chars charset This command displays a list of characters in the character set @var{charset}. @end deffn @defun decode-char charset code-point This function decodes a character of @var{charset} that has code point @var{code-point} to Emacs' character, and return it. If @var{charset} doesn't contain a character of @var{code-point}, the value is @code{nil}. If @var{code-point} doesnt't fit in Lisp integer, it can be specified by a cons (HIGHER-16-BIT-VALUE . LOWER-16-BIT-VALUE). @end defun @defun encode-char char charset This function encodes the character @var{char} to a code-point of @var{charset}. If @var{charset} doesn't contain @var{char}, the value is @code{nil}. @end defun @defun split-char character Return a list containing the name of the character set of highest priority to which @var{character} belongs, followed by one to four byte values (integers) representing a code point of @var{character} within that character set. The number of byte values is the character set's dimension. @acronym{ASCII} characters are an exception. For them, the first element of the list is always @code{ascii}. It is only provided for backward compatibility. You should use @code{encode-char} instead. @end defun @defun make-char charset &optional code1 code2 code3 code4 This function returns the character in character set @var{charset} whose code point is represented by the byte values @var{code1} through @var{code4}. The number of byte values should be the dimesion of @var{charset}. If the specified values are less than that dimension, 0 is assumed. It is only provided for backward compatibility. You should use @code{decode-char} instead. @end defun @node Scanning Charsets @section Scanning for Character Sets Sometimes it is useful to find out which character sets appear in a part of a buffer or a string. One use for this is in determining which coding systems (@pxref{Coding Systems}) are capable of representing all of the text in question. @defun charset-after &optional pos This function return the charset of highest priority containing a character in the current buffer at position @var{pos}. If @var{pos} is omitted or @code{nil}, it defaults to the current value of point. If @var{pos} is out of range, the value is @code{nil}. @end defun @defun find-charset-region beg end &optional translation This function returns a list of the character sets of highest priority that contain characters in the current buffer between positions @var{beg} and @var{end}. The optional argument @var{translation} specifies a translation table to be used in scanning the text (@pxref{Translation of Characters}). If it is non-@code{nil}, then each character in the region is translated through this table, and the value returned describes the translated characters instead of the characters actually in the buffer. @end defun @defun find-charset-string string &optional translation This function returns a list of the character sets of highest priority that contain characters in the string @var{string}. It is just like @code{find-charset-region}, except that it applies to the contents of @var{string} instead of part of the current buffer. @end defun @node Translation of Characters @section Translation of Characters @cindex character translation tables @cindex translation tables A @dfn{translation table} is a char-table that specifies a mapping of characters (or sequences of characters) into characters (or sequences of characters). These tables are used in encoding and decoding, and for other purposes. Some coding systems specify their own particular translation tables; there are also default translation tables which apply to all coding systems. A translation table has two extra slots; the first is @code{nil} or a translation table that performs the reverse translation, and the second is a maximum number of characters to look up for translation. In decoding, the translation table's translations are applied to the characters that result from ordinary decoding. If a coding system has property @code{:deocde-translation-table}, that specifies the translation table or the list of cascading translation table to use. (This is a property of the coding system, as returned by @code{coding-system-get}, not a property of the symbol that is the coding system's name. @xref{Coding System Basics,, Basic Concepts of Coding Systems}.) In the latter case, characters are translated by each translation tables in the specified order. And, at last, if @code{standard-translation-table-for-decode} is non-@code{nil}, the resulting characters are translated by that table. In encoding, the translation table's translations are applied to the characters in the buffer, and the result of translation is actually encoded. If a coding system has property @code{:encode-translation-table}, that specifies the translation table or the list of cascading translation tables to use. In addition, if the variable @code{standard-translation-table-for-encode} is non-@code{nil}, it is used at last. @defvar standard-translation-table-for-decode This is the default translation table for decoding. For coding systems that specifies any other translation tables, those tables translate charcters before this table. @end defvar @defvar standard-translation-table-for-encode This is the default translation table for encoding. For coding systems that specifies any other translation tables, those tables translate characters before this table. @end defvar @defun make-translation-table &rest translations This function returns a translation table based on the argument @var{translations}. Each element of @var{translations} should be a list of elements of the form @code{(@var{from} . @var{to})}; this says to translate the character @var{from} into @var{to}. The arguments and the forms in each argument are processed in order, and if a previous form already translates @var{to} to some other character, say @var{to-alt}, @var{from} is also translated to @var{to-alt}. The first extra slot of the returned translation table is @code{nil}; i.e. this fucntion does not make a translation table for reverse translation. @end defun @defun make-translation-table-from-vector vec This function returns a translation table made from @var{vec} that is an array of 256 elements to map byte values 0 through 255 to characters. Elements may be nil for untranslated bytes. The returned table has a translation table for reverse mapping in the first extra slot. This function provides an easy way to make a private coding system that maps each byte to a specific character. You can specify the returned table and the reverse translation table in it to the properties @code{:decode-translation-table} and @code{:encode-translation-table} respectively in @code{define-coding-system}. @end defun @defun make-translation-table-from-alist alist This function is similar to @code{make-translation-table} but returns a complex translation table rather than a simple one to one mapping. @var{alist} is an alist, each element has the form @code{(@var{from} . @var{to})}, where @var{from} and @var{to} are a character or a vector of characters. If @var{from} is a character, that character is translated to @var{to} (i.e. to a character of a character sequence). If @var{from} is a vector of characters, that sequence is translated to @var{to}. The returned table has a translation table for reverse mapping in the first extra slot. @end defun @node Coding Systems @section Coding Systems @cindex coding system When Emacs reads or writes a file, and when Emacs sends text to a subprocess or receives text from a subprocess, it normally performs character code conversion and end-of-line conversion as specified by a particular @dfn{coding system}. How to define a coding system is an arcane matter, and is not documented here. @menu * Coding System Basics:: Basic concepts. * Encoding and I/O:: How file I/O functions handle coding systems. * Lisp and Coding Systems:: Functions to operate on coding system names. * User-Chosen Coding Systems:: Asking the user to choose a coding system. * Default Coding Systems:: Controlling the default choices. * Specifying Coding Systems:: Requesting a particular coding system for a single file operation. * Explicit Encoding:: Encoding or decoding text without doing I/O. * Terminal I/O Encoding:: Use of encoding for terminal I/O. * MS-DOS File Types:: How DOS "text" and "binary" files relate to coding systems. @end menu @node Coding System Basics @subsection Basic Concepts of Coding Systems @cindex character code conversion @dfn{Character code conversion} involves conversion between the encoding used inside Emacs and some other encoding. Emacs supports many different encodings, in that it can convert to and from them. For example, it can convert text to or from encodings such as Latin 1, Latin 2, Latin 3, Latin 4, Latin 5, and several variants of ISO 2022. In some cases, Emacs supports several alternative encodings for the same characters; for example, there are three coding systems for the Cyrillic (Russian) alphabet: ISO, Alternativnyj, and KOI8. FIXME: I don't know what this sentence means. Most coding systems specify a particular character code for conversion, but some of them leave the choice unspecified---to be chosen heuristically for each file, based on the data. In general, a coding system doesn't guarantee roundtrip identity: decoding a byte sequence using coding system, then encoding the resulting text in the same coding system, can produce a different byte sequence. For example, the following coding systems guarantee that the byte sequence will be the same as what you originally decoded: @quotation iso-8859-1, utf-8, big5, shift_jis, euc-jp @end quotation but the following coding systems do not: @quotation iso-2022-jp, iso-2022-kr, utf-16 @end quotation Encoding buffer text and then decoding the result can also fail to reproduce the original text. For instance, if you encode a character by a coding system not supporting that character, the result is unpredictable, and thus decoding of it using the same coding system may produce the different text. Currently, Emacs can't report the error of encoding unsupported characters. @cindex EOL conversion @cindex end-of-line conversion @cindex line end conversion @dfn{End of line conversion} handles three different conventions used on various systems for representing end of line in files. The Unix convention is to use the linefeed character (also called newline). The DOS convention is to use a carriage-return and a linefeed at the end of a line. The Mac convention is to use just carriage-return. @cindex base coding system @cindex variant coding system @dfn{Base coding systems} such as @code{latin-1} leave the end-of-line conversion unspecified, to be chosen based on the data. @dfn{Variant coding systems} such as @code{latin-1-unix}, @code{latin-1-dos} and @code{latin-1-mac} specify the end-of-line conversion explicitly as well. Most base coding systems have three corresponding variants whose names are formed by adding @samp{-unix}, @samp{-dos} and @samp{-mac}. The coding system @code{raw-text} is special in that it prevents character code conversion, and causes the buffer visited with that coding system to be a unibyte buffer. It does not specify the end-of-line conversion, allowing that to be determined as usual by the data, and has the usual three variants which specify the end-of-line conversion. @code{no-conversion} is equivalent to @code{raw-text-unix}: it specifies no conversion of either character codes or end-of-line. The coding system @code{emacs-internal} specifies that the data is represented in the internal Emacs encoding. This is like @code{raw-text} in that no code conversion happens, but different in that the result is multibyte data. @defun coding-system-get coding-system property This function returns the specified property of the coding system @var{coding-system}. Most coding system properties exist for internal purposes, but one that you might find useful is @code{:mime-charset}. That property's value is the name used in MIME for the character coding which this coding system can read and write. Examples: @example (coding-system-get 'iso-latin-1 :mime-charset) @result{} iso-8859-1 (coding-system-get 'iso-2022-cn :mime-charset) @result{} iso-2022-cn (coding-system-get 'cyrillic-koi8 :mime-charset) @result{} koi8-r @end example The value of the @code{:mime-charset} property is also defined as an alias for the coding system. @end defun @node Encoding and I/O @subsection Encoding and I/O The principal purpose of coding systems is for use in reading and writing files. The function @code{insert-file-contents} uses a coding system for decoding the file data, and @code{write-region} uses one to encode the buffer contents. You can specify the coding system to use either explicitly (@pxref{Specifying Coding Systems}), or implicitly using a default mechanism (@pxref{Default Coding Systems}). But these methods may not completely specify what to do. For example, they may choose a coding system such as @code{undefined} which leaves the character code conversion to be determined from the data. In these cases, the I/O operation finishes the job of choosing a coding system. Very often you will want to find out afterwards which coding system was chosen. @defvar buffer-file-coding-system This buffer-local variable records the coding system used for saving the buffer and for writing part of the buffer with @code{write-region}. If the text to be written cannot be safely encoded using the coding system specified by this variable, these operations select an alternative encoding by calling the function @code{select-safe-coding-system} (@pxref{User-Chosen Coding Systems}). If selecting a different encoding requires to ask the user to specify a coding system, @code{buffer-file-coding-system} is updated to the newly selected coding system. @code{buffer-file-coding-system} does @emph{not} affect sending text to a subprocess. @end defvar @defvar save-buffer-coding-system This variable specifies the coding system for saving the buffer (by overriding @code{buffer-file-coding-system}). Note that it is not used for @code{write-region}. When a command to save the buffer starts out to use @code{buffer-file-coding-system} (or @code{save-buffer-coding-system}), and that coding system cannot handle the actual text in the buffer, the command asks the user to choose another coding system (by calling @code{select-safe-coding-system}). After that happens, the command also updates @code{buffer-file-coding-system} to represent the coding system that the user specified. @end defvar @defvar last-coding-system-used I/O operations for files and subprocesses set this variable to the coding system name that was used. The explicit encoding and decoding functions (@pxref{Explicit Encoding}) set it too. @strong{Warning:} Since receiving subprocess output sets this variable, it can change whenever Emacs waits; therefore, you should copy the value shortly after the function call that stores the value you are interested in. @end defvar The variable @code{selection-coding-system} specifies how to encode selections for the window system. @xref{Window System Selections}. @defvar file-name-coding-system The variable @code{file-name-coding-system} specifies the coding system to use for encoding file names. Emacs encodes file names using that coding system for all file operations. If @code{file-name-coding-system} is @code{nil}, Emacs uses a default coding system determined by the selected language environment. In the default language environment, any non-@acronym{ASCII} characters in file names are not encoded specially; they appear in the file system using the internal Emacs representation. @end defvar @strong{Warning:} if you change @code{file-name-coding-system} (or the language environment) in the middle of an Emacs session, problems can result if you have already visited files whose names were encoded using the earlier coding system and are handled differently under the new coding system. If you try to save one of these buffers under the visited file name, saving may use the wrong file name, or it may get an error. If such a problem happens, use @kbd{C-x C-w} to specify a new file name for that buffer. @node Lisp and Coding Systems @subsection Coding Systems in Lisp Here are the Lisp facilities for working with coding systems: @defun coding-system-list &optional base-only This function returns a list of all coding system names (symbols). If @var{base-only} is non-@code{nil}, the value includes only the base coding systems. Otherwise, it includes alias and variant coding systems as well. @end defun @defun coding-system-p object This function returns @code{t} if @var{object} is a coding system name or @code{nil}. @end defun @defun check-coding-system coding-system This function checks the validity of @var{coding-system}. If that is valid or @code{nil}, it returns @var{coding-system}. Otherwise it signals an error with condition @code{coding-system-error}. @end defun @defun coding-system-eol-type coding-system This function returns the type of end-of-line (a.k.a.@: @dfn{eol}) conversion used by @var{coding-system}. If @var{coding-system} specifies a certain eol conversion, the return value is an integer 0, 1, or 2, standing for @code{unix}, @code{dos}, and @code{mac}, respectively. If @var{coding-system} doesn't specify eol conversion explicitly, the return value is a vector of coding systems, each one with one of the possible eol conversion types, like this: @lisp (coding-system-eol-type 'latin-1) @result{} [latin-1-unix latin-1-dos latin-1-mac] @end lisp @noindent If this function returns a vector, Emacs will decide, as part of the text encoding or decoding process, what eol conversion to use. For decoding, the end-of-line format of the text is auto-detected, and the eol conversion is set to match it (e.g., DOS-style CRLF format will imply @code{dos} eol conversion). For encoding, the eol conversion is taken from the appropriate default coding system (e.g., @code{default-buffer-file-coding-system} for @code{buffer-file-coding-system}), or from the default eol conversion appropriate for the underlying platform. @end defun @defun coding-system-change-eol-conversion coding-system eol-type This function returns a coding system which is like @var{coding-system} except for its eol conversion, which is specified by @code{eol-type}. @var{eol-type} should be @code{unix}, @code{dos}, @code{mac}, or @code{nil}. If it is @code{nil}, the returned coding system determines the end-of-line conversion from the data. @var{eol-type} may also be 0, 1 or 2, standing for @code{unix}, @code{dos} and @code{mac}, respectively. @end defun @defun coding-system-change-text-conversion eol-coding text-coding This function returns a coding system which uses the end-of-line conversion of @var{eol-coding}, and the text conversion of @var{text-coding}. If @var{text-coding} is @code{nil}, it returns @code{undecided}, or one of its variants according to @var{eol-coding}. @end defun @defun find-coding-systems-region from to This function returns a list of coding systems that could be used to encode a text between @var{from} and @var{to}. All coding systems in the list can safely encode any multibyte characters in that portion of the text. If the text contains no multibyte characters, the function returns the list @code{(undecided)}. @end defun @defun find-coding-systems-string string This function returns a list of coding systems that could be used to encode the text of @var{string}. All coding systems in the list can safely encode any multibyte characters in @var{string}. If the text contains no multibyte characters, this returns the list @code{(undecided)}. @end defun @defun find-coding-systems-for-charsets charsets This function returns a list of coding systems that could be used to encode all the character sets in the list @var{charsets}. @end defun @defun detect-coding-region start end &optional highest This function chooses a plausible coding system for decoding the text from @var{start} to @var{end}. This text should be a byte sequence; i.e. @acronym{ASCII} or 8-bit characters (@pxref{Explicit Encoding}). Normally this function returns a list of coding systems that could handle decoding the text that was scanned. They are listed in order of decreasing priority. But if @var{highest} is non-@code{nil}, then the return value is just one coding system, the one that is highest in priority. If the region contains only @acronym{ASCII} characters except for such ISO-2022 control characters ISO-2022 as @code{ESC}, the value is @code{undecided} or @code{(undecided)}, or a variant specifying end-of-line conversion, if that can be deduced from the text. @end defun @defun detect-coding-string string &optional highest This function is like @code{detect-coding-region} except that it operates on the contents of @var{string} instead of bytes in the buffer. @end defun @xref{Coding systems for a subprocess,, Process Information}, in particular the description of the functions @code{process-coding-system} and @code{set-process-coding-system}, for how to examine or set the coding systems used for I/O to a subprocess. @node User-Chosen Coding Systems @subsection User-Chosen Coding Systems @cindex select safe coding system @defun select-safe-coding-system from to &optional default-coding-system accept-default-p file This function selects a coding system for encoding specified text, asking the user to choose if necessary. Normally the specified text is the text in the current buffer between @var{from} and @var{to}. If @var{from} is a string, the string specifies the text to encode, and @var{to} is ignored. If @var{default-coding-system} is non-@code{nil}, that is the first coding system to try; if that can handle the text, @code{select-safe-coding-system} returns that coding system. It can also be a list of coding systems; then the function tries each of them one by one. After trying all of them, it next tries the current buffer's value of @code{buffer-file-coding-system} (if it is not @code{undecided}), then the value of @code{default-buffer-file-coding-system} and finally the user's most preferred coding system, which the user can set using the command @code{prefer-coding-system} (@pxref{Recognize Coding,, Recognizing Coding Systems, emacs, The GNU Emacs Manual}). If one of those coding systems can safely encode all the specified text, @code{select-safe-coding-system} chooses it and returns it. Otherwise, it asks the user to choose from a list of coding systems which can encode all the text, and returns the user's choice. @var{default-coding-system} can also be a list whose first element is t and whose other elements are coding systems. Then, if no coding system in the list can handle the text, @code{select-safe-coding-system} queries the user immediately, without trying any of the three alternatives described above. The optional argument @var{accept-default-p}, if non-@code{nil}, should be a function to determine whether a coding system selected without user interaction is acceptable. @code{select-safe-coding-system} calls this function with one argument, the base coding system of the selected coding system. If @var{accept-default-p} returns @code{nil}, @code{select-safe-coding-system} rejects the silently selected coding system, and asks the user to select a coding system from a list of possible candidates. @vindex select-safe-coding-system-accept-default-p If the variable @code{select-safe-coding-system-accept-default-p} is non-@code{nil}, its value overrides the value of @var{accept-default-p}. As a final step, before returning the chosen coding system, @code{select-safe-coding-system} checks whether that coding system is consistent with what would be selected if the contents of the region were read from a file. (If not, this could lead to data corruption in a file subsequently re-visited and edited.) Normally, @code{select-safe-coding-system} uses @code{buffer-file-name} as the file for this purpose, but if @var{file} is non-@code{nil}, it uses that file instead (this can be relevant for @code{write-region} and similar functions). If it detects an apparent inconsistency, @code{select-safe-coding-system} queries the user before selecting the coding system. @end defun Here are two functions you can use to let the user specify a coding system, with completion. @xref{Completion}. @defun read-coding-system prompt &optional default This function reads a coding system using the minibuffer, prompting with string @var{prompt}, and returns the coding system name as a symbol. If the user enters null input, @var{default} specifies which coding system to return. It should be a symbol or a string. @end defun @defun read-non-nil-coding-system prompt This function reads a coding system using the minibuffer, prompting with string @var{prompt}, and returns the coding system name as a symbol. If the user tries to enter null input, it asks the user to try again. @xref{Coding Systems}. @end defun @node Default Coding Systems @subsection Default Coding Systems This section describes variables that specify the default coding system for certain files or when running certain subprograms, and the function that I/O operations use to access them. The idea of these variables is that you set them once and for all to the defaults you want, and then do not change them again. To specify a particular coding system for a particular operation in a Lisp program, don't change these variables; instead, override them using @code{coding-system-for-read} and @code{coding-system-for-write} (@pxref{Specifying Coding Systems}). @defvar auto-coding-regexp-alist This variable is an alist of text patterns and corresponding coding systems. Each element has the form @code{(@var{regexp} . @var{coding-system})}; a file whose first few kilobytes match @var{regexp} is decoded with @var{coding-system} when its contents are read into a buffer. The settings in this alist take priority over @code{coding:} tags in the files and the contents of @code{file-coding-system-alist} (see below). The default value is set so that Emacs automatically recognizes mail files in Babyl format and reads them with no code conversions. @end defvar @defvar file-coding-system-alist This variable is an alist that specifies the coding systems to use for reading and writing particular files. Each element has the form @code{(@var{pattern} . @var{coding})}, where @var{pattern} is a regular expression that matches certain file names. The element applies to file names that match @var{pattern}. The @sc{cdr} of the element, @var{coding}, should be either a coding system, a cons cell containing two coding systems, or a function name (a symbol with a function definition). If @var{coding} is a coding system, that coding system is used for both reading the file and writing it. If @var{coding} is a cons cell containing two coding systems, its @sc{car} specifies the coding system for decoding, and its @sc{cdr} specifies the coding system for encoding. If @var{coding} is a function name, the function should take one argument, a list of all arguments passed to @code{find-operation-coding-system}. It must return a coding system or a cons cell containing two coding systems. This value has the same meaning as described above. If @var{coding} (or what returned by the above function) is @code{undecided}, the normal code-detection is performed. @end defvar @defvar process-coding-system-alist This variable is an alist specifying which coding systems to use for a subprocess, depending on which program is running in the subprocess. It works like @code{file-coding-system-alist}, except that @var{pattern} is matched against the program name used to start the subprocess. The coding system or systems specified in this alist are used to initialize the coding systems used for I/O to the subprocess, but you can specify other coding systems later using @code{set-process-coding-system}. @end defvar @strong{Warning:} Coding systems such as @code{undecided}, which determine the coding system from the data, do not work entirely reliably with asynchronous subprocess output. This is because Emacs handles asynchronous subprocess output in batches, as it arrives. If the coding system leaves the character code conversion unspecified, or leaves the end-of-line conversion unspecified, Emacs must try to detect the proper conversion from one batch at a time, and this does not always work. Therefore, with an asynchronous subprocess, if at all possible, use a coding system which determines both the character code conversion and the end of line conversion---that is, one like @code{latin-1-unix}, rather than @code{undecided} or @code{latin-1}. @defvar network-coding-system-alist This variable is an alist that specifies the coding system to use for network streams. It works much like @code{file-coding-system-alist}, with the difference that the @var{pattern} in an element may be either a port number or a regular expression. If it is a regular expression, it is matched against the network service name used to open the network stream. @end defvar @defvar default-process-coding-system This variable specifies the coding systems to use for subprocess (and network stream) input and output, when nothing else specifies what to do. The value should be a cons cell of the form @code{(@var{input-coding} . @var{output-coding})}. Here @var{input-coding} applies to input from the subprocess, and @var{output-coding} applies to output to it. @end defvar @defvar auto-coding-functions This variable holds a list of functions that try to determine a coding system for a file based on its undecoded contents. Each function in this list should be written to look at text in the current buffer, but should not modify it in any way. The buffer will contain undecoded text of parts of the file. Each function should take one argument, @var{size}, which tells it how many characters to look at, starting from point. If the function succeeds in determining a coding system for the file, it should return that coding system. Otherwise, it should return @code{nil}. If a file has a @samp{coding:} tag, that takes precedence, so these functions won't be called. @end defvar @defun find-operation-coding-system operation &rest arguments This function returns the coding system to use (by default) for performing @var{operation} with @var{arguments}. The value has this form: @example (@var{decoding-system} . @var{encoding-system}) @end example The first element, @var{decoding-system}, is the coding system to use for decoding (in case @var{operation} does decoding), and @var{encoding-system} is the coding system for encoding (in case @var{operation} does encoding). The argument @var{operation} is a symbol, one of @code{write-region}, @code{start-process}, @code{call-process}, @code{call-process-region}, @code{insert-file-contents}, or @code{open-network-stream}. These are the names of the Emacs I/O primitives that can do character code and eol conversion. The remaining arguments should be the same arguments that might be given to the corresponding I/O primitive. Depending on the primitive, one of those arguments is selected as the @dfn{target}. For example, if @var{operation} does file I/O, whichever argument specifies the file name is the target. For subprocess primitives, the process name is the target. For @code{open-network-stream}, the target is the service name or port number. Depending on @var{operation}, this function looks up the target in @code{file-coding-system-alist}, @code{process-coding-system-alist}, or @code{network-coding-system-alist}. If the target is found in the alist, @code{find-operation-coding-system} returns its association in the alist; otherwise it returns @code{nil}. If @var{operation} is @code{insert-file-contents}, the argument corresponding to the target may be a cons cell of the form @code{(@var{filename} . @var{buffer})}). In that case, @var{filename} is a file name to look up in @code{file-coding-system-alist}, and @var{buffer} is a buffer that contains the file's contents (not yet decoded). If @code{file-coding-system-alist} specifies a function to call for this file, and that function needs to examine the file's contents (as it usually does), it should examine the contents of @var{buffer} instead of reading the file. @end defun @node Specifying Coding Systems @subsection Specifying a Coding System for One Operation You can specify the coding system for a specific operation by binding the variables @code{coding-system-for-read} and/or @code{coding-system-for-write}. @defvar coding-system-for-read If this variable is non-@code{nil}, it specifies the coding system to use for reading a file, or for input from a synchronous subprocess. It also applies to any asynchronous subprocess or network stream, but in a different way: the value of @code{coding-system-for-read} when you start the subprocess or open the network stream specifies the input decoding method for that subprocess or network stream. It remains in use for that subprocess or network stream unless and until overridden. The right way to use this variable is to bind it with @code{let} for a specific I/O operation. Its global value is normally @code{nil}, and you should not globally set it to any other value. Here is an example of the right way to use the variable: @example ;; @r{Read the file with no character code conversion.} ;; @r{Assume @acronym{crlf} represents end-of-line.} (let ((coding-system-for-read 'emacs-mule-dos)) (insert-file-contents filename)) @end example When its value is non-@code{nil}, this variable takes precedence over all other methods of specifying a coding system to use for input, including @code{file-coding-system-alist}, @code{process-coding-system-alist} and @code{network-coding-system-alist}. @end defvar @defvar coding-system-for-write This works much like @code{coding-system-for-read}, except that it applies to output rather than input. It affects writing to files, as well as sending output to subprocesses and net connections. When a single operation does both input and output, as do @code{call-process-region} and @code{start-process}, both @code{coding-system-for-read} and @code{coding-system-for-write} affect it. @end defvar @defvar inhibit-eol-conversion When this variable is non-@code{nil}, no end-of-line conversion is done, no matter which coding system is specified. This applies to all the Emacs I/O and subprocess primitives, and to the explicit encoding and decoding functions (@pxref{Explicit Encoding}). @end defvar @node Explicit Encoding @subsection Explicit Encoding and Decoding @cindex encoding in coding systems @cindex decoding in coding systems All the operations that transfer text in and out of Emacs have the ability to use a coding system to encode or decode the text. You can also explicitly encode and decode text using the functions in this section. The result of encoding, and the input to decoding, are not ordinary text. They logically consist of a series of byte values; that is, a series of @acronym{ASCII} and 8-bit characters. In a multibyte buffer or string, 8-bit characters have character codes higher than 255, but Emacs effectively get their byte values on those operation. The usual way to read a file into a buffer as a sequence of bytes, so you can decode the contents explicitly, is with @code{insert-file-contents-literally} (@pxref{Reading from Files}); alternatively, specify a non-@code{nil} @var{rawfile} argument when visiting a file with @code{find-file-noselect}. These methods result in a unibyte buffer. The usual way to use the byte sequence that results from explicitly encoding text is to copy it to a file or process---for example, to write it with @code{write-region} (@pxref{Writing to Files}), and suppress encoding by binding @code{coding-system-for-write} to @code{no-conversion}. Here are the functions to perform explicit encoding or decoding. The encoding functions produce sequences of bytes; the decoding functions are meant to operate on sequences of bytes. All of these functions discard text properties. @deffn Command encode-coding-region start end coding-system &optional destination This command encodes the text from @var{start} to @var{end} according to coding system @var{coding-system}. The encoded text replaces the original text in the buffer. The result of encoding is logically a sequence of bytes, but the buffer remains multibyte if it was multibyte before. This command returns the length of the encoded text. However, you can get the encoded text in the different way by specifying non-@code{nil} value to @var{destination}. If it is a buffer, the encoded text is inserted in that buffer after point (point does not move). If it is t, this function returns the encoded text as a unibyte string. @end deffn @defun encode-coding-string string coding-system &optional nocopy buffer This function encodes the text in @var{string} according to coding system @var{coding-system}. It returns a new string containing the encoded text, except when @var{nocopy} is non-@code{nil}, in which case the function may return @var{string} itself if the encoding operation is trivial. The result of encoding is a unibyte string. However, if @var{buffer} is a buffer, the encoded text is inserted in that buffer after point (point does not move). In this case, the return value is the length of the encoded text. @end defun @deffn Command decode-coding-region start end coding-system destination This command decodes the text from @var{start} to @var{end} according to coding system @var{coding-system}. The decoded text replaces the original text in the buffer. To make explicit decoding useful, the text before decoding ought to be a sequence of byte values, but both multibyte and unibyte buffers are acceptable. This command returns the length of the decoded text. However, you can get the decoded text in the different way by specifying non-@code{nil} value to @var{destination}. If it is a buffer, the decoded text is inserted in that buffer after point (point does not move). If it is t, this function returns the decoded text as a multibyte string. @end deffn @defun decode-coding-string string coding-system &optional nocopy buffer This function decodes the text in @var{string} according to coding system @var{coding-system}. It returns a new string containing the decoded text, except when @var{nocopy} is non-@code{nil}, in which case the function may return @var{string} itself if the decoding operation is trivial. To make explicit decoding useful, the contents of @var{string} ought to be a sequence of byte values, but a multibyte string is acceptable. However, if @var{buffer} is a buffer, the decoded text is inserted in that buffer after point (point does not move). In this case, the return value is the length of the decoded text. @end defun @defun decode-coding-inserted-region from to filename &optional visit beg end replace This function decodes the text from @var{from} to @var{to} as if it were being read from file @var{filename} using @code{insert-file-contents} using the rest of the arguments provided. The normal way to use this function is after reading text from a file without decoding, if you decide you would rather have decoded it. Instead of deleting the text and reading it again, this time with decoding, you can call this function. @end defun @node Terminal I/O Encoding @subsection Terminal I/O Encoding Emacs can decode keyboard input using a coding system, and encode terminal output. This is useful for terminals that transmit or display text using a particular encoding such as Latin-1. Emacs does not set @code{last-coding-system-used} for encoding or decoding for the terminal. @defun keyboard-coding-system This function returns the coding system that is in use for decoding keyboard input---or @code{nil} if no coding system is to be used. @end defun @deffn Command set-keyboard-coding-system coding-system This command specifies @var{coding-system} as the coding system to use for decoding keyboard input. If @var{coding-system} is @code{nil}, that means do not decode keyboard input. @end deffn @defun terminal-coding-system This function returns the coding system that is in use for encoding terminal output---or @code{nil} for no encoding. @end defun @deffn Command set-terminal-coding-system coding-system This command specifies @var{coding-system} as the coding system to use for encoding terminal output. If @var{coding-system} is @code{nil}, that means do not encode terminal output. @end deffn @node MS-DOS File Types @subsection MS-DOS File Types @cindex DOS file types @cindex MS-DOS file types @cindex Windows file types @cindex file types on MS-DOS and Windows @cindex text files and binary files @cindex binary files and text files On MS-DOS and Microsoft Windows, Emacs guesses the appropriate end-of-line conversion for a file by looking at the file's name. This feature classifies files as @dfn{text files} and @dfn{binary files}. By ``binary file'' we mean a file of literal byte values that are not necessarily meant to be characters; Emacs does no end-of-line conversion and no character code conversion for them. On the other hand, the bytes in a text file are intended to represent characters; when you create a new file whose name implies that it is a text file, Emacs uses DOS end-of-line conversion. @defvar buffer-file-type This variable, automatically buffer-local in each buffer, records the file type of the buffer's visited file. When a buffer does not specify a coding system with @code{buffer-file-coding-system}, this variable is used to determine which coding system to use when writing the contents of the buffer. It should be @code{nil} for text, @code{t} for binary. If it is @code{t}, the coding system is @code{no-conversion}. Otherwise, @code{undecided-dos} is used. Normally this variable is set by visiting a file; it is set to @code{nil} if the file was visited without any actual conversion. @end defvar @defopt file-name-buffer-file-type-alist This variable holds an alist for recognizing text and binary files. Each element has the form (@var{regexp} . @var{type}), where @var{regexp} is matched against the file name, and @var{type} may be @code{nil} for text, @code{t} for binary, or a function to call to compute which. If it is a function, then it is called with a single argument (the file name) and should return @code{t} or @code{nil}. When running on MS-DOS or MS-Windows, Emacs checks this alist to decide which coding system to use when reading a file. For a text file, @code{undecided-dos} is used. For a binary file, @code{no-conversion} is used. If no element in this alist matches a given file name, then @code{default-buffer-file-type} says how to treat the file. @end defopt @defopt default-buffer-file-type This variable says how to handle files for which @code{file-name-buffer-file-type-alist} says nothing about the type. If this variable is non-@code{nil}, then these files are treated as binary: the coding system @code{no-conversion} is used. Otherwise, nothing special is done for them---the coding system is deduced solely from the file contents, in the usual Emacs fashion. @end defopt @node Input Methods @section Input Methods @cindex input methods @dfn{Input methods} provide convenient ways of entering non-@acronym{ASCII} characters from the keyboard. Unlike coding systems, which translate non-@acronym{ASCII} characters to and from encodings meant to be read by programs, input methods provide human-friendly commands. (@xref{Input Methods,,, emacs, The GNU Emacs Manual}, for information on how users use input methods to enter text.) How to define input methods is not yet documented in this manual, but here we describe how to use them. Each input method has a name, which is currently a string; in the future, symbols may also be usable as input method names. @defvar current-input-method This variable holds the name of the input method now active in the current buffer. (It automatically becomes local in each buffer when set in any fashion.) It is @code{nil} if no input method is active in the buffer now. @end defvar @defopt default-input-method This variable holds the default input method for commands that choose an input method. Unlike @code{current-input-method}, this variable is normally global. @end defopt @deffn Command set-input-method input-method This command activates input method @var{input-method} for the current buffer. It also sets @code{default-input-method} to @var{input-method}. If @var{input-method} is @code{nil}, this command deactivates any input method for the current buffer. @end deffn @defun read-input-method-name prompt &optional default inhibit-null This function reads an input method name with the minibuffer, prompting with @var{prompt}. If @var{default} is non-@code{nil}, that is returned by default, if the user enters empty input. However, if @var{inhibit-null} is non-@code{nil}, empty input signals an error. The returned value is a string. @end defun @defvar input-method-alist This variable defines all the supported input methods. Each element defines one input method, and should have the form: @example (@var{input-method} @var{language-env} @var{activate-func} @var{title} @var{description} @var{args}...) @end example Here @var{input-method} is the input method name, a string; @var{language-env} is another string, the name of the language environment this input method is recommended for. (That serves only for documentation purposes.) @var{activate-func} is a function to call to activate this method. The @var{args}, if any, are passed as arguments to @var{activate-func}. All told, the arguments to @var{activate-func} are @var{input-method} and the @var{args}. @var{title} is a string to display in the mode line while this method is active. @var{description} is a string describing this method and what it is good for. @end defvar The fundamental interface to input methods is through the variable @code{input-method-function}. @xref{Reading One Event}, and @ref{Invoking the Input Method}. @node Locales @section Locales @cindex locale POSIX defines a concept of ``locales'' which control which language to use in language-related features. These Emacs variables control how Emacs interacts with these features. @defvar locale-coding-system @cindex keyboard input decoding on X This variable specifies the coding system to use for decoding system error messages and---on X Window system only---keyboard input, for encoding the format argument to @code{format-time-string}, and for decoding the return value of @code{format-time-string}. @end defvar @defvar system-messages-locale This variable specifies the locale to use for generating system error messages. Changing the locale can cause messages to come out in a different language or in a different orthography. If the variable is @code{nil}, the locale is specified by environment variables in the usual POSIX fashion. @end defvar @defvar system-time-locale This variable specifies the locale to use for formatting time values. Changing the locale can cause messages to appear according to the conventions of a different language. If the variable is @code{nil}, the locale is specified by environment variables in the usual POSIX fashion. @end defvar @defun locale-info item This function returns locale data @var{item} for the current POSIX locale, if available. @var{item} should be one of these symbols: @table @code @item codeset Return the character set as a string (locale item @code{CODESET}). @item days Return a 7-element vector of day names (locale items @code{DAY_1} through @code{DAY_7}); @item months Return a 12-element vector of month names (locale items @code{MON_1} through @code{MON_12}). @item paper Return a list @code{(@var{width} @var{height})} for the default paper size measured in millimeters (locale items @code{PAPER_WIDTH} and @code{PAPER_HEIGHT}). @end table If the system can't provide the requested information, or if @var{item} is not one of those symbols, the value is @code{nil}. All strings in the return value are decoded using @code{locale-coding-system}. @xref{Locales,,, libc, The GNU Libc Manual}, for more information about locales and locale items. @end defun @ignore arch-tag: be705bf8-941b-4c35-84fc-ad7d20ddb7cb @end ignore