postgresql 6.4 multi-byte (MB) support README Jul 22 1998 Tatsuo Ishii t-ishii@sra.co.jp http://www.sra.co.jp/people/t-ishii/PostgreSQL/ 0. Introduction The MB support is intended for allowing PostgreSQL to handle multi-byte character sets such as EUC(Extended Unix Code), Unicode and Mule internal code. With the MB enabled you can use multi-byte character sets in regexp ,LIKE and some functions. The encoding system chosen is determined when initializing your PostgreSQL installation using initdb(1). Note that this can be overrided when creating a database using createdb(1) or create database SQL command. So you could have multiple databases with different encoding system. MB also fixes some problems concerning with 8-bit single byte character sets including ISO8859. (I would not say all of problems have been fixed. I just confirmed that the regression test ran fine and a few French characters could be used with the patch. Please let me know if you find any problem while using 8-bit characters) 1. How to use create src/Makefile.custom with a line including: MB=encoding_system or run configure with the mb option: % configure --with-mb=encoding_system where encoding_system is one of: EUC_JP Japanese EUC EUC_CN Chinese EUC EUC_KR Korean EUC EUC_TW Taiwan EUC UNICODE Unicode(UTF-8) MULE_INTERNAL Mule internal LATIN1 ISO 8859-1 English and some European languages LATIN2 ISO 8859-2 English and some European languages LATIN3 ISO 8859-3 English and some European languages LATIN4 ISO 8859-4 English and some European languages LATIN5 ISO 8859-5 English and some European languages Example: % cat Makefile.custom MB=EUC_JP or % configure --with-mb=EUC_JP If MB is disabled, nothing is changed except better supporting for 8-bit single byte character sets. 2. How to set encoding initdb command defines the default encoding for a PostgreSQL installation. For example: % initdb -e EUC_JP sets the default encoding to EUC_JP(Extended Unix Code for Japanese). Note that you can use "-pgencoding" instead of "-e" if you like longer option string:-) If no -e or -pgencoding option is given, the encoding specified at the compile time is used. You can create a database with a different encoding. % createdb -E EUC_KR korean will create a database named "korean" with EUC_KR encoding. The another way to accomplish this is to use a SQL command: CREATE DATABASE korean WITH ENCODING = 'EUC_KR'; 3. PGCLIENTENCODING If an environment variable PGCLIENTENCODING is defined on the frontend, automatic encoding translation is done by the backend. For example, if the backend has been compiled with MB=EUC_JP and PGCLIENTENCODING=SJIS(Shift JIS: yet another Japanese encoding system), then any SJIS strings coming from the frontend would be translated to EUC_JP before going into the parser. Outputs from the backend would be translated to SJIS of course. Supported encodings for PGCLIENTENCODING are: EUC_JP Japanese EUC SJIS Yet another Japanese encoding EUC_CN Chinese EUC EUC_KR Korean EUC EUC_TW Taiwan EUC MULE_INTERNAL Mule internal LATIN1 ISO 8859-1 English and some European languages LATIN2 ISO 8859-2 English and some European languages LATIN3 ISO 8859-3 English and some European languages LATIN4 ISO 8859-4 English and some European languages LATIN5 ISO 8859-5 English and some European languages Note that UNICODE is not supported(yet). Also note that the translation is not always possible. Suppose you choose EUC_JP for the backend, LATIN1 for the frotend, then some Japanese characters cannot be translated into latin. In this case, a letter cannot be represented in the Latin character set, would be transformed as: (HEXA DECIMAL) 3. SET CLIENT_ENCODING TO command Actually setting the frontend side encoding information is done by a new command: SET CLIENT_ENCODING TO 'encoding'; where encoding is one of the encodings those can be set to PGCLIENTENCODING. Also you can use SQL92 syntax "SET NAMES" for this purpose: SET NAMES 'encoding'; To query the current the frontend encoding: SHOW CLIENT_ENCODING; To return to the default encoding: RESET CLIENT_ENCODING; This would reset the frontend encoding to same as the backend encoding, thus no endoing translation would be performed. 4. References These are good sources to start learning various kind of encoding systems. ftp://ftp.ora.com/pub/examples/nutshell/ujip/doc/cjk.inf Detailed explanations of EUC_JP, EUC_CN, EUC_KR, EUC_TW appear in section 3.2. Unicode: http://www.unicode.org/ The homepage of UNICODE. RFC 2044 UTF-8 is defined here. 5. History Jul 22, 1998 * determine encoding at initdb/createdb rather than compile time * support for PGCLIENTENCODING when issuing COPY command * support for SQL92 syntax "SET NAMES" * support for LATIN2-5 * add UNICODE regression test case * new test suite for MB * clean up source files Jun 5, 1998 * add support for the encoding translation between the backend and the frontend * new command SET CLIENT_ENCODING etc. added * add support for LATIN1 character set * enhance 8 bit cleaness April 21, 1998 some enhancements/fixes * character_length(), position(), substring() are now aware of multi-byte characters * add octet_length() * add --with-mb option to configure * new regression tests for EUC_KR (contributed by "Soonmyung. Hong" ) * add some test cases to the EUC_JP regression test * fix problem in regress/regress.sh in case of System V * fix toupper(), tolower() to handle 8bit chars Mar 25, 1998 MB PL2 is incorporated into PostgreSQL 6.3.1 Mar 10, 1998 PL2 released * add regression test for EUC_JP, EUC_CN and MULE_INTERNAL * add an English document (this file) * fix problems concerning 8-bit single byte characters Mar 1, 1998 PL1 released