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594 lines
22 KiB
594 lines
22 KiB
/****************************************************************************
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**
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** Explanation of moc and the meta object system
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**
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** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
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**
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** This file is part of the TQt GUI Toolkit.
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**
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** This file may be used under the terms of the GNU General
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** Public License versions 2.0 or 3.0 as published by the Free
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** Software Foundation and appearing in the files LICENSE.GPL2
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** and LICENSE.GPL3 included in the packaging of this file.
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** Alternatively you may (at your option) use any later version
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** of the GNU General Public License if such license has been
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** publicly approved by Trolltech ASA (or its successors, if any)
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** and the KDE Free TQt Foundation.
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**
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** Please review the following information to ensure GNU General
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** Public Licensing requirements will be met:
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** http://trolltech.com/products/qt/licenses/licensing/opensource/.
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** If you are unsure which license is appropriate for your use, please
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** review the following information:
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** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
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** or contact the sales department at sales@trolltech.com.
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**
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** This file may be used under the terms of the Q Public License as
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** defined by Trolltech ASA and appearing in the file LICENSE.QPL
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** included in the packaging of this file. Licensees holding valid Qt
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** Commercial licenses may use this file in accordance with the Qt
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** Commercial License Agreement provided with the Software.
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**
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** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
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** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
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** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
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** herein.
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**
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**********************************************************************/
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/*! \defgroup i18n
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\title Internationalization with Qt
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\keyword internationalization
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\keyword i18n
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The internationalization of an application is the process of making
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the application usable by people in countries other than one's own.
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\tableofcontents
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In some cases internationalization is simple, for example, making a US
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application accessible to Australian or British users may require
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little more than a few spelling corrections. But to make a US
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application usable by Japanese users, or a Korean application usable
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by German users, will require that the software operate not only in
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different languages, but use different input techniques, character
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encodings and presentation conventions.
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Qt tries to make internationalization as painless as possible for
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developers. All input widgets and text drawing methods in TQt offer
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built-in support for all supported languages. The built-in font engine
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is capable of correctly and attractively rendering text that contains
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characters from a variety of different writing systems at the same
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time.
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Qt supports most languages in use today, in particular:
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\list
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\i All East Asian languages (Chinese, Japanese and Korean)
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\i All Western languages (using Latin script)
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\i Arabic
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\i Cyrillic languages (Russian)
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\i Greek
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\i Hebrew
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\i Thai and Lao
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\i All scripts in Unicode 3.2 that do not require special processing
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\endlist
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On Windows NT/2000/XP and Unix/X11 with Xft (client side font support)
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the following languages are also supported:
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\list
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\i Bengali
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\i Devanagari
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\i Dhivehi (Thaana)
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\i Gujarati
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\i Gurmukhi
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\i Kannada
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\i Khmer
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\i Malayalam (X11 only)
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\i Myanmar (X11 only)
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\i Syriac
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\i Tamil
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\i Telugu
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\i Tibetan (X11 only)
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\endlist
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Many of these writing systems exhibit special features:
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\list
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\i <b>Special line breaking behavior.</b> Some of the Asian languages are
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written without spaces between words. Line breaking can occur either
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after every character (with exceptions) as in Chinese, Japanese and
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Korean, or after logical word boundaries as in Thai.
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\i <b>Bidirectional writing.</b> Arabic and Hebrew are written from right to
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left, except for numbers and embedded English text which is written
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left to right. The exact behavior is defined in the \link
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http://www.unicode.org/unicode/reports/tr9/ Unicode Technical Report
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#9 \endlink.
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\i <b>Non spacing or diacritical marks</b> (accents or umlauts in European
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languages). Some languages such as Vietnamese make extensive use of
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these marks and some characters can have more than one mark at the
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same time to clarify pronunciation.
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\i <b>Ligatures.</b> In special contexts, some pairs of characters get
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replaced by a combined glyph forming a ligature. Common examples are
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the fl and fi ligatures used in typesetting US and European books.
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\endlist
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Qt tries to take care of all the special features listed above. You
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usually don't have to worry about these features so long as you use
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Qt's input widgets (e.g. TQLineEdit, TQTextEdit, and derived classes)
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and Qt's display widgets (e.g. TQLabel).
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Support for these writing systems is transparent to the programmer
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and completely encapsulated in Qt's text engine. This means that you
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don't need to have any knowledge about the writing system used in a
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particular language, except for the following small points:
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\list
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\i TQPainter::drawText( int x, int y, const TQString &str ) will always
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draw the string with it's left edge at the position specified with
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the x, y parameters. This will usually give you left aligned strings.
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Arabic and Hebrew application strings are usually right
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aligned, so for these languages use the version of drawText() that
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takes a TQRect since this will align in accordance with the language.
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\i When you write your own text input controls, use \l
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TQFontMetrics::charWidth() to determine the width of a character in a
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string. In some languages (e.g. Arabic or languages from the Indian
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subcontinent), the width and shape of a glyph changes depending on the
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surrounding characters. Writing input controls usually requires a
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certain knowledge of the scripts it is going to be used in. Usually
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the easiest way is to subclass TQLineEdit or TQTextEdit.
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\endlist
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The following sections give some information on the status
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of the internationalization (i18n) support in Qt.
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See also the \link linguist-manual.book TQt Linguist\endlink manual.
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\section1 Step by Step
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Writing multi-platform international software with TQt is a gentle,
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incremental process. Your software can become internationalized in
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the following stages:
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\section2 Use TQString for all User-visible Text
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Since TQString uses the Unicode encoding internally, every
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language in the world can be processed transparently using
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familiar text processing operations. Also, since all Qt
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functions that present text to the user take a TQString as a
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parameter, there is no char* to TQString conversion overhead.
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Strings that are in "programmer space" (such as TQObject names
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and file format texts) need not use TQString; the traditional
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char* or the TQCString class will suffice.
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You're unlikely to notice that you are using Unicode;
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TQString, and TQChar are just like easier versions of the crude
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const char* and char from traditional C.
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\section2 Use tr() for all Literal Text
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Wherever your program uses \c{"quoted text"} for text that will
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be presented to the user, ensure that it is processed by the \l
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QApplication::translate() function. Essentially all that is necessary
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to achieve this is to use \l TQObject::tr(). For example, assuming the
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\c LoginWidget is a subclass of TQWidget:
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\code
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LoginWidget::LoginWidget()
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{
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TQLabel *label = new TQLabel( tr("Password:"), this );
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...
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}
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\endcode
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This accounts for 99% of the user-visible strings you're likely to
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write.
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If the quoted text is not in a member function of a
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TQObject subclass, use either the tr() function of an
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appropriate class, or the QApplication::translate() function
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directly:
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\code
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void some_global_function( LoginWidget *logwid )
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{
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TQLabel *label = new TQLabel(
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LoginWidget::tr("Password:"), logwid );
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}
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void same_global_function( LoginWidget *logwid )
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{
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TQLabel *label = new TQLabel(
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tqApp->translate("LoginWidget", "Password:"),
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logwid );
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}
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\endcode
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If you need to have translatable text completely
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outside a function, there are two macros to help: TQT_TR_NOOP()
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and TQT_TRANSLATE_NOOP(). They merely mark the text for
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extraction by the \e lupdate utility described below.
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The macros expand to just the text (without the context).
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Example of TQT_TR_NOOP():
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\code
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TQString FriendlyConversation::greeting( int greet_type )
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{
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static const char* greeting_strings[] = {
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TQT_TR_NOOP( "Hello" ),
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TQT_TR_NOOP( "Goodbye" )
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};
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return tr( greeting_strings[greet_type] );
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}
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\endcode
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Example of TQT_TRANSLATE_NOOP():
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\code
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static const char* greeting_strings[] = {
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TQT_TRANSLATE_NOOP( "FriendlyConversation", "Hello" ),
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TQT_TRANSLATE_NOOP( "FriendlyConversation", "Goodbye" )
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};
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TQString FriendlyConversation::greeting( int greet_type )
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{
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return tr( greeting_strings[greet_type] );
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}
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TQString global_greeting( int greet_type )
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{
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return tqApp->translate( "FriendlyConversation",
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greeting_strings[greet_type] );
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}
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\endcode
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If you disable the const char* to TQString automatic conversion
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by compiling your software with the macro TQT_NO_CAST_ASCII
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defined, you'll be very likely to catch any strings you are
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missing. See TQString::fromLatin1() for more information.
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Disabling the conversion can make programming a bit cumbersome.
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If your source language uses characters outside Latin-1, you
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might find TQObject::trUtf8() more convenient than
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TQObject::tr(), as tr() depends on the
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QApplication::defaultCodec(), which makes it more fragile than
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TQObject::trUtf8().
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\section2 Use TQKeySequence() for Accelerator Values
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Accelerator values such as Ctrl+Q or Alt+F need to be
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translated too. If you hardcode \c CTRL+Key_Q for "Quit" in
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your application, translators won't be able to override
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it. The correct idiom is
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\code
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TQPopupMenu *file = new TQPopupMenu( this );
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file->insertItem( tr("&Quit"), this, TQ_SLOT(quit()),
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TQKeySequence(tr("Ctrl+Q", "File|Quit")) );
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\endcode
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\section2 Use TQString::arg() for Dynamic Text
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The TQString::arg() functions offer a simple means for substituting
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arguments:
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\code
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void FileCopier::showProgress( int done, int total,
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const TQString& current_file )
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{
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label.setText( tr("%1 of %2 files copied.\nCopying: %3")
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.arg(done)
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.arg(total)
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.arg(current_file) );
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}
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\endcode
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In some languages the order of arguments may need to change, and this
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can easily be achieved by changing the order of the % arguments. For
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example:
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\code
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TQString s1 = "%1 of %2 files copied. Copying: %3";
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TQString s2 = "Kopierer nu %3. Av totalt %2 filer er %1 kopiert.";
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tqDebug( s1.arg(5).arg(10).arg("somefile.txt").ascii() );
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tqDebug( s2.arg(5).arg(10).arg("somefile.txt").ascii() );
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\endcode
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produces the correct output in English and Norwegian:
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\code
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5 of 10 files copied. Copying: somefile.txt
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Kopierer nu somefile.txt. Av totalt 10 filer er 5 kopiert.
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\endcode
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\section2 Produce Translations
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Once you are using tr() throughout an application, you can start
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producing translations of the user-visible text in your program.
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\link linguist-manual.book TQt Linguist\endlink's manual provides
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further information about Qt's translation tools, \e{Qt Linguist}, \e
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lupdate and \e lrelease.
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Translation of a TQt application is a three-step process:
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\list 1
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\i Run \e lupdate to extract translatable text from the C++ source
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code of the TQt application, resulting in a message file for
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translators (a \c .ts file). The utility recognizes the tr() construct
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and the QT_*_NOOP macros described above and produces \c .ts files
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(usually one per language).
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\i Provide translations for the source texts in the \c .ts file, using
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\e{Qt Linguist}. Since \c .ts files are in XML format, you can also
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edit them by hand.
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\i Run \e lrelease to obtain a light-weight message file (a \c .qm
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file) from the \c .ts file, suitable only for end use. Think of the \c
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.ts files as "source files", and \c .qm files as "object files". The
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translator edits the \c .ts files, but the users of your application
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only need the \c .qm files. Both kinds of files are platform and
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locale independent.
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\endlist
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Typically, you will repeat these steps for every release of your
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application. The \e lupdate utility does its best to reuse the
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translations from previous releases.
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Before you run \e lupdate, you should prepare a project file. Here's
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an example project file (\c .pro file):
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\code
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HEADERS = funnydialog.h \
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wackywidget.h
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SOURCES = funnydialog.cpp \
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main.cpp \
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wackywidget.cpp
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FORMS = fancybox.ui
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TRANSLATIONS = superapp_dk.ts \
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superapp_fi.ts \
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superapp_no.ts \
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superapp_se.ts
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\endcode
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When you run \e lupdate or \e lrelease, you must give the name of the
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project file as a command-line argument.
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In this example, four exotic languages are supported: Danish, Finnish,
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Norwegian and Swedish. If you use \link qmake-manual.book
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qmake\endlink, you usually don't need an extra project
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file for \e lupdate; your \c qmake project file will work fine once
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you add the \c TRANSLATIONS entry.
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In your application, you must \l TQTranslator::load() the translation
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files appropriate for the user's language, and install them using \l
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QApplication::installTranslator().
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If you have been using the old TQt tools (\c tqtfindtr, \c msg2tqm and \c
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tqtmergetr), you can use \e tqm2ts to convert your old \c .qm files.
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\e linguist, \e lupdate and \e lrelease are installed in the \c bin
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subdirectory of the base directory TQt is installed into. Click Help|Manual
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in \e{Qt Linguist} to access the user's manual; it contains a tutorial
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to get you started.
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While these utilities offer a convenient way to create \c .qm files,
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any system that writes \c .qm files is sufficient. You could make an
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application that adds translations to a TQTranslator with
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TQTranslator::insert() and then writes a \c .qm file with
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TQTranslator::save(). This way the translations can come from any
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source you choose.
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\target qt-itself
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Qt itself contains over 400 strings that will also need to be
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translated into the languages that you are targeting. You will find
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translation files for French and German in \c $TQTDIR/translations as
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well as a template for translating to other languages. (This directory
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also contains some additional unsupported translations which may be
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useful.)
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Typically, your application's main() function will look like this:
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\code
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int main( int argc, char **argv )
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{
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QApplication app( argc, argv );
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// translation file for Qt
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TQTranslator qt( 0 );
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qt.load( TQString( "qt_" ) + TQTextCodec::locale(), "." );
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app.installTranslator( &qt );
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// translation file for application strings
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TQTranslator myapp( 0 );
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myapp.load( TQString( "myapp_" ) + TQTextCodec::locale(), "." );
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app.installTranslator( &myapp );
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...
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return app.exec();
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}
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\endcode
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\section2 Support for Encodings
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The TQTextCodec class and the facilities in TQTextStream make it easy to
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support many input and output encodings for your users' data. When an
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application starts, the locale of the machine will determine the 8-bit
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encoding used when dealing with 8-bit data: such as for font
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selection, text display, 8-bit text I/O and character input.
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|
The application may occasionally require encodings other than the
|
|
default local 8-bit encoding. For example, an application in a
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Cyrillic KOI8-R locale (the de-facto standard locale in Russia) might
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need to output Cyrillic in the ISO 8859-5 encoding. Code for this
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would be:
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\code
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TQString string = ...; // some Unicode text
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TQTextCodec* codec = TQTextCodec::codecForName( "ISO 8859-5" );
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TQCString encoded_string = codec->fromUnicode( string );
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...; // use encoded_string in 8-bit operations
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\endcode
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For converting Unicode to local 8-bit encodings, a shortcut is
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available: the \link TQString::local8Bit() local8Bit\endlink() method
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|
of TQString returns such 8-bit data. Another useful shortcut is the
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\link TQString::utf8() utf8\endlink() method, which returns text in the
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|
8-bit UTF-8 encoding: this perfectly preserves Unicode information
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|
while looking like plain US-ASCII if the text is wholly US-ASCII.
|
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|
For converting the other way, there are the TQString::fromUtf8() and
|
|
TQString::fromLocal8Bit() convenience functions, or the general code,
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|
demonstrated by this conversion from ISO 8859-5 Cyrillic to Unicode
|
|
conversion:
|
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\code
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TQCString encoded_string = ...; // Some ISO 8859-5 encoded text.
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TQTextCodec* codec = TQTextCodec::codecForName("ISO 8859-5");
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TQString string = codec->toUnicode(encoded_string);
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|
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...; // Use string in all of Qt's TQString operations.
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\endcode
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Ideally Unicode I/O should be used as this maximizes the portability
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of documents between users around the world, but in reality it is
|
|
useful to support all the appropriate encodings that your users will
|
|
need to process existing documents. In general, Unicode (UTF-16 or
|
|
UTF-8) is best for information transferred between arbitrary people,
|
|
while within a language or national group, a local standard is often
|
|
more appropriate. The most important encoding to support is the one
|
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returned by TQTextCodec::codecForLocale(), as this is the one the user
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is most likely to need for communicating with other people and
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applications (this is the codec used by local8Bit()).
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Qt supports most of the more frequently used encodings natively. For a
|
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complete list of supported encodings see the \l TQTextCodec
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documentation.
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In some cases and for less frequently used encodings it may be
|
|
necessary to write your own TQTextCodec subclass. Depending on the
|
|
urgency, it may be useful to contact Trolltech technical support or
|
|
ask on the \c qt-interest mailing list to see if someone else is
|
|
already working on supporting the encoding. A useful interim measure
|
|
can be to use the TQTextCodec::loadCharmapFile() function to build a
|
|
data-driven codec, although this approach has a memory and speed
|
|
penalty, especially with dynamically loaded libraries. For details of
|
|
writing your own TQTextCodec, see the main TQTextCodec class
|
|
documentation.
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\keyword localization
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\section2 Localize
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Localization is the process of adapting to local conventions, for
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example presenting dates and times using the locally preferred
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formats. Such localizations can be accomplished using appropriate tr()
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strings.
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\code
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void Clock::setTime(const TQTime& t)
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{
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if ( tr("AMPM") == "AMPM" ) {
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// 12-hour clock
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} else {
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// 24-hour clock
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}
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}
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\endcode
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In the example, for the US we would leave the translation of "AMPM" as
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it is and thereby use the 12-hour clock branch; but in Europe we would
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translate it as something else (anything else, e.g. "EU") and this
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will make the code use the 24-hour clock branch.
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|
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Localizing images is not recommended. Choose clear icons that are
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appropriate for all localities, rather than relying on local puns or
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|
stretched metaphors.
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\section1 Dynamic Translation
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Some applications, such as TQt Linguist, must be able to support changes
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|
to the user's language settings while they are still running. To make
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|
widgets aware of changes to the system language, implement a public
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|
slot called \c languageChange() in each widget that needs to be notified.
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|
In this slot, you should update the text displayed by widgets using the
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\l{TQObject::tr()}{tr()} function in the usual way; for example:
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|
|
|
\code
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|
void MyWidget::languageChange()
|
|
{
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|
titleLabel->setText(tr("Document Title"));
|
|
...
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|
okPushButton->setText(tr("&OK"));
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|
}
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|
\endcode
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|
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|
The default event handler for TQWidget subclasses responds to the
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\link TQEvent::Type LanguageChange\endlink event, and will call this slot
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|
when necessary; other application components can also connect signals
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|
to this slot to force widgets to update themselves.
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|
|
|
\section1 System Support
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|
|
|
Some of the operating systems and windowing systems that TQt runs on
|
|
only have limited support for Unicode. The level of support available
|
|
in the underlying system has some influence on the support that TQt can
|
|
provide on those platforms, although in general TQt applications need
|
|
not be too concerned with platform-specific limitations.
|
|
|
|
\section2 Unix/X11
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|
|
|
\list
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|
\i Locale-oriented fonts and input methods. TQt hides these and
|
|
provides Unicode input and output.
|
|
\i Filesystem conventions such as
|
|
\link http://www.ietf.org/rfc/rfc2279.txt UTF-8 \endlink
|
|
are under development
|
|
in some Unix variants. All TQt file functions allow Unicode,
|
|
but convert filenames to the local 8-bit encoding, as
|
|
this is the Unix convention
|
|
(see TQFile::setEncodingFunction()
|
|
to explore alternative encodings).
|
|
\i File I/O defaults to the local 8-bit encoding,
|
|
with Unicode options in TQTextStream.
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|
\endlist
|
|
|
|
\section2 Windows
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|
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|
\list
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|
\i TQt provides full Unicode support, including input methods, fonts,
|
|
clipboard, drag-and-drop and file names.
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|
\i File I/O defaults to Latin-1, with Unicode options in TQTextStream.
|
|
Note that some Windows programs do not understand big-endian
|
|
Unicode text files even though that is the order prescribed by
|
|
the Unicode Standard in the absence of higher-level protocols.
|
|
\i Unlike programs written with MFC or plain winlib, TQt programs
|
|
are portable between Windows 95/98 and Windows NT.
|
|
\e {You do not need different binaries to support Unicode.}
|
|
\endlist
|
|
|
|
\section1 Note about Locales on X11
|
|
|
|
Many Unix distributions contain only partial support for some locales.
|
|
For example, if you have a \c /usr/share/locale/ja_JP.EUC directory,
|
|
this does not necessarily mean you can display Japanese text; you also
|
|
need JIS encoded fonts (or Unicode fonts), and the \c
|
|
/usr/share/locale/ja_JP.EUC directory needs to be complete. For best
|
|
results, use complete locales from your system vendor.
|
|
|
|
\section1 Relevant TQt Classes
|
|
|
|
These classes are relevant to internationalizing TQt applications.
|
|
*/
|