/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ module com { module sun { module star { module i18n { /** Character conversions like case folding or Hiragana to Katakana.

Transliteration is a character to character conversion but it is not always a one to one mapping between characters. Transliteration modules are primarily used by collation, and search and replace modules to perform approximate search. It can also be used to format the numbers in different numbering systems.

In order to select transliteration modules for different purposes, they are classified with attributes of TransliterationType.

For Western languages there would be three transliteration modules available to compare two mixed case strings: upper to lower, lower to upper, and ignore case.

A typical calling sequence of transliteration is

  1. getAvailableModules()
  2. loadModulesByImplNames()
  3. equals()
or another one is
  1. loadModule()
  2. transliterate()

*/ /* comment: * 0. * All the IGNORE-type functionalities (Range, equals) are based on mapping. * except equals() method in IGNORE_CASE, which is based on Locale-independent * case folding * ( This second assumption is very complicated and may cause confusion of use) * * 1. * We are assuming Upper to Lower mapping as one of transliteration. * The mapping depends on Locale. * Upper <-> Lower methods are just wrappers to provide equals() and Range() * * 2. * equals() in IGNORE_CASE module is locale-independent and * we don't provide locale-sensitive ones. * The reason we provided locale-independent ones is that IGNORE_CASE is mainly * dedicated to StarOffice internal code. * * 3. * TransliterationModules is used just for convenience without calling * getAvailableModule. * * 4. * Implementation name in the methods below is not the same as * the true implementation name registered. * In particular, for generic modules:"UPPERCASE_LOWERCASE", * "LOWERCASE_UPPERCASE", "IGNORE_CASE", there is no registered name. */ published interface XTransliteration: com::sun::star::uno::XInterface { /** Unique ASCII name to identify a module. This name is used to get its localized name for menus, dialogs etc. The behavior is undefined for TransliterationType::CASCADE modules. */ string getName(); /** Return the attribute(s) associated with this transliteration object, as defined in TransliterationType. The value is determined by the transliteration modules. For example, for UPPERCASE_LOWERCASE, a ONE_TO_ONE is returned, for IGNORE_CASE, IGNORE is returned. */ short getType(); /** Load instance of predefined module - old style method. */ void loadModule( [in] TransliterationModules eModType, [in] ::com::sun::star::lang::Locale aLocale ); /** Load a sequence of instances of predefined modules - supersedes method XTransliteration::loadModule(). */ void loadModuleNew( [in] sequence aModType, [in] ::com::sun::star::lang::Locale aLocale ); /** Load instance of UNO registered module.

Each transliteration module is registered under a different service name. The convention for the service name is com.sun.star.i18n.Transliteration.l10n.{implName}. The {implName} is a unique name used to identify a module. The implName is used to get a localized name for the transliteration module. The implName is used in locale data to list the available transliteration modules for the locale. There are some transliteration modules that are always available. The names of those modules are listed as enum TransliterationModules names. For modules not listed there it is possible to load them directly by their implName. @param aImplName The module's {implName} under which it is registered with com.sun.star.i18n.Transliteration.l10n.{implName}. @param aLocale The locale for which the module is requested. */ void loadModuleByImplName( [in] string aImplName, [in] ::com::sun::star::lang::Locale aLocale ); /** Load a sequence of instances of transliteration modules. Output of one module is fed as input to the next module in the sequence. The object created by this call has TransliterationType CASCADE and IGNORE types. @param aImplNameList Only IGNORE type modules can be specified. @param aLocale The locale for which the modules are requested. */ void loadModulesByImplNames( [in] sequence aImplNameList, [in] ::com::sun::star::lang::Locale aLocale ); /** List the available transliteration modules for a given locale. It can be filtered based on its type. @param nType A bitmask field of values defined in TransliterationType @param aLocale The locale for which the modules are requested. */ sequence getAvailableModules( [in] ::com::sun::star::lang::Locale aLocale, [in] short nType ); /** Transliterate a substring. This method can be called if the object doesn't have TransliterationType IGNORE attribute. @param aInStr The input string. @param nStartPos Start position within aInStr from where transliteration starts. @param nCount Number of code points to be transliterated. @param rOffset To find the grapheme of input string corresponding to the grapheme of output string, rOffset provides the offset array whose index is the offset of output string, the element containing the position within the input string before transliteration. */ string transliterate( [in] string aInStr, [in] long nStartPos, [in] long nCount, [out] sequence rOffset ); /** @deprecated For internal use, this method is supported to get the "transliteration", which equals() is based on. */ string folding( [in] string aInStr, [in] long nStartPos, [in] long nCount, [out] sequence rOffset ); /** Match two substrings and find if they are equivalent as per this transliteration.

This method can be called if the object has TransliterationType IGNORE attribute.

Returns the number of matched code points in any case, even if strings are not equal, for example:
equals( "a", 0, 1, nMatch1, "aaa", 0, 3, nMatch2 )
returns `FALSE` and nMatch:=1 and nMatch2:=1
equals( "aab", 0, 3, nMatch1, "aaa", 0, 3, nMatch2 )
returns `FALSE` and nMatch:=2 and nMatch2:=2

@param aStr1 First string to match. @param nPos1 Start position within aStr1. @param nCount1 Number of code points to use of aStr1. @param rMatch1 Returns number of matched code points in aStr1. @param aStr2 Second string to match. @param nPos2 Start position within aStr2. @param nCount2 Number of code points to use of aStr2. @param rMatch2 Returns number of matched code points in aStr2. @returns `TRUE` if the substrings are equal per this transliteration
`FALSE` else. */ boolean equals( [in] string aStr1, [in] long nPos1, [in] long nCount1, [out] long rMatch1, [in] string aStr2, [in] long nPos2, [in] long nCount2, [out] long rMatch2 ); /** Transliterate one set of characters to another.

This method is intended for getting corresponding ranges and can be called if the object has TransliterationType IGNORE attribute.

For example: generic CASE_IGNORE transliterateRange( "a", "i" ) returns {"A","I","a","i"}, transliterateRange( "a", "a" ) returns {"A","A","a","a"}.

Use this transliteration to create regular expressions like [a-i] --> [A-Ia-i].

@returns String sequence containing corresponding transliterated pairs of characters to represent a range. */ sequence transliterateRange( [in] string aStr1, [in] string aStr2 ); /** Compare 2 substrings as per this transliteration. It translates both substrings before comparing them. @param aStr1 First string. @param nOff1 Offset (from 0) of the first substring. @param nLen1 Length (from offset) of the first substring. @param aStr2 Second string. @param nOff2 Offset (from 0) of the second substring. @param nLen2 Length (from offset) of the second substring. @returns 1 if the first substring is greater than the second substring
0 if the first substring is equal to the second substring
-1 if the first substring is less than the second substring */ long compareSubstring( [in] string aStr1, [in] long nOff1, [in] long nLen1, [in] string aStr2, [in] long nOff2, [in] long nLen2 ); /** Compare 2 strings as per this transliteration. It translates both strings before comparing them. @returns 1 if the first string is greater than the second string
0 if the first string is equal to the second string
-1 if the first string is less than the second string */ long compareString( [in] string aStr1, [in] string aStr2 ); }; }; }; }; }; /* vim:set shiftwidth=4 softtabstop=4 expandtab: */