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+/****************************************************************************
+**
+** Implementation of TQFont, TQFontMetrics and TQFontInfo classes
+**
+** Created : 941207
+**
+** Copyright (C) 2010 Timothy Pearson and (C) 1992-2008 Trolltech ASA.
+**
+** This file is part of the kernel module of the TQt GUI Toolkit.
+**
+** This file may be used under the terms of the GNU General
+** Public License versions 2.0 or 3.0 as published by the Free
+** Software Foundation and appearing in the files LICENSE.GPL2
+** and LICENSE.GPL3 included in the packaging of this file.
+** Alternatively you may (at your option) use any later version
+** of the GNU General Public License if such license has been
+** publicly approved by Trolltech ASA (or its successors, if any)
+** and the KDE Free TQt Foundation.
+**
+** Please review the following information to ensure GNU General
+** Public Licensing requirements will be met:
+** http://trolltech.com/products/qt/licenses/licensing/opensource/.
+** If you are unsure which license is appropriate for your use, please
+** review the following information:
+** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
+** or contact the sales department at sales@trolltech.com.
+**
+** This file may be used under the terms of the Q Public License as
+** defined by Trolltech ASA and appearing in the file LICENSE.TQPL
+** included in the packaging of this file.  Licensees holding valid TQt
+** Commercial licenses may use this file in accordance with the TQt
+** Commercial License Agreement provided with the Software.
+**
+** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
+** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
+** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
+** herein.
+**
+**********************************************************************/
+
+#include <tqtglobaldefines.h>
+#ifdef USE_QT4
+// Nasty, nasty horrid HACK to get access to QFont's private members
+// This is TERRIBLE and I wish there was a way around it
+// See also QRect
+#define private protected
+#include <Qt/qfont.h>
+#undef private
+#endif // USE_QT4
+
+#define TQT_FATAL_ASSERT
+
+#include "tqfont.h"
+#include "tqfontdatabase.h"
+#include "tqfontmetrics.h"
+#include "tqfontinfo.h"
+#include "tqpainter.h"
+#include "tqdict.h"
+#include "tqcache.h"
+#include "tqdatastream.h"
+#include "tqapplication.h"
+#include "tqcleanuphandler.h"
+#include "tqstringlist.h"
+#ifdef TQ_WS_MAC
+#include "tqpaintdevicemetrics.h"
+#endif
+
+#include <private/tqunicodetables_p.h>
+#include "tqfontdata_p.h"
+#include "tqfontengine_p.h"
+#include "tqpainter_p.h"
+#include "tqtextengine_p.h"
+
+// #define TQFONTCACHE_DEBUG
+#ifdef TQFONTCACHE_DEBUG
+#  define FC_DEBUG qDebug
+#else
+#  define FC_DEBUG if (FALSE) qDebug
+#endif
+
+#ifdef USE_QT4
+
+void TQFont::tqt_x11SetScreen( int screen ) {
+	x11SetScreen(screen);
+}
+int TQFont::tqt_x11Screen() const {
+	return x11Screen();
+}
+
+#else // USE_QT4
+
+bool TQFontDef::operator==( const TQFontDef &other ) const
+{
+    /*
+      TQFontDef comparison is more complicated than just simple
+      per-member comparisons.
+
+      When comparing point/pixel sizes, either point or pixelsize
+      could be -1.  in This case we have to compare the non negative
+      size value.
+
+      This test will fail if the point-sizes differ by 1/2 point or
+      more or they do not round to the same value.  We have to do this
+      since our API still uses 'int' point-sizes in the API, but store
+      deci-point-sizes internally.
+
+      To compare the family members, we need to parse the font names
+      and compare the family/foundry strings separately.  This allows
+      us to compare e.g. "Helvetica" and "Helvetica [Adobe]" with
+      positive results.
+    */
+    if (pixelSize != -1 && other.pixelSize != -1) {
+	if (pixelSize != other.pixelSize)
+	    return FALSE;
+    } else if (pointSize != -1 && other.pointSize != -1) {
+	if (pointSize != other.pointSize
+	    && (TQABS(pointSize - other.pointSize) >= 5
+		|| tqRound(pointSize/10.) != tqRound(other.pointSize/10.)))
+	    return FALSE;
+    } else {
+	return FALSE;
+    }
+
+    if (!ignorePitch && !other.ignorePitch && fixedPitch != other.fixedPitch)
+	return FALSE;
+
+    if (stretch != 0 && other.stretch != 0 && stretch != other.stretch)
+	return FALSE;
+
+    TQString this_family, this_foundry, other_family, other_foundry;
+    TQFontDatabase::parseFontName(family, this_foundry, this_family);
+    TQFontDatabase::parseFontName(other.family, other_foundry, other_family);
+
+    return ( tqstyleHint     == other.tqstyleHint
+	    && styleStrategy == other.styleStrategy
+	    && weight        == other.weight
+	    && italic        == other.italic
+	    && this_family   == other_family
+	    && (this_foundry.isEmpty()
+		|| other_foundry.isEmpty()
+		|| this_foundry == other_foundry)
+#ifdef TQ_WS_X11
+	    && addStyle == other.addStyle
+#endif // TQ_WS_X11
+	);
+}
+
+
+
+
+TQFontPrivate::TQFontPrivate()
+    : engineData( 0 ), painttqdevice( 0 ),
+      rawMode( FALSE ), underline( FALSE ), overline( FALSE ), strikeOut( FALSE ),
+      tqmask( 0 )
+{
+#ifdef TQ_WS_X11
+    screen = TQPaintDevice::x11AppScreen();
+#else
+    screen = 0;
+#endif // TQ_WS_X11
+}
+
+TQFontPrivate::TQFontPrivate( const TQFontPrivate &other )
+    : TQShared(), request( other.request ), engineData( 0 ),
+      painttqdevice( other.painttqdevice ), screen( other.screen ),
+      rawMode( other.rawMode ), underline( other.underline ), overline( other.overline ),
+      strikeOut( other.strikeOut ), tqmask( other.tqmask )
+{
+}
+
+TQFontPrivate::~TQFontPrivate()
+{
+    if ( engineData )
+	engineData->deref();
+    engineData = 0;
+}
+
+void TQFontPrivate::resolve( const TQFontPrivate *other )
+{
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( other != 0 );
+#endif
+
+    if ( ( tqmask & Complete ) == Complete ) return;
+
+    // assign the unset-bits with the set-bits of the other font def
+    if ( ! ( tqmask & Family ) )
+	request.family = other->request.family;
+
+    if ( ! ( tqmask & Size ) ) {
+	request.pointSize = other->request.pointSize;
+	request.pixelSize = other->request.pixelSize;
+    }
+
+    if ( ! ( tqmask & StyleHint ) )
+	request.tqstyleHint = other->request.tqstyleHint;
+
+    if ( ! ( tqmask & StyleStrategy ) )
+	request.styleStrategy = other->request.styleStrategy;
+
+    if ( ! ( tqmask & Weight ) )
+	request.weight = other->request.weight;
+
+    if ( ! ( tqmask & Italic ) )
+	request.italic = other->request.italic;
+
+    if ( ! ( tqmask & FixedPitch ) )
+	request.fixedPitch = other->request.fixedPitch;
+
+    if ( ! ( tqmask & Stretch ) )
+	request.stretch = other->request.stretch;
+
+    if ( ! ( tqmask & Underline ) )
+	underline = other->underline;
+
+    if ( ! ( tqmask & Overline ) )
+	overline = other->overline;
+
+    if ( ! ( tqmask & StrikeOut ) )
+	strikeOut = other->strikeOut;
+}
+
+
+
+
+TQFontEngineData::TQFontEngineData()
+    : lineWidth( 1 )
+{
+#if defined(TQ_WS_X11) || defined(TQ_WS_WIN)
+    memset( engines, 0, TQFont::LastPrivateScript * sizeof( TQFontEngine * ) );
+#else
+    engine = 0;
+#endif // TQ_WS_X11 || TQ_WS_WIN
+#ifndef TQ_WS_MAC
+    memset( widthCache, 0, widthCacheSize*sizeof( uchar ) );
+#endif
+}
+
+TQFontEngineData::~TQFontEngineData()
+{
+#if defined(TQ_WS_X11) || defined(TQ_WS_WIN)
+    for ( int i = 0; i < TQFont::LastPrivateScript; i++ ) {
+	if ( engines[i] )
+	    engines[i]->deref();
+	engines[i] = 0;
+    }
+#else
+    if ( engine )
+	engine->deref();
+    engine = 0;
+#endif // TQ_WS_X11 || TQ_WS_WIN
+}
+
+
+
+
+/*!
+    \class TQFont tqfont.h
+    \brief The TQFont class specifies a font used for drawing text.
+
+    \ingroup graphics
+    \ingroup appearance
+    \ingroup shared
+    \mainclass
+
+    When you create a TQFont object you specify various attributes that
+    you want the font to have. TQt will use the font with the specified
+    attributes, or if no matching font exists, TQt will use the closest
+    matching installed font. The attributes of the font that is
+    actually used are retrievable from a TQFontInfo object. If the
+    window system provides an exact match exactMatch() returns TRUE.
+    Use TQFontMetrics to get measurements, e.g. the pixel length of a
+    string using TQFontMetrics::width().
+
+    Use TQApplication::setFont() to set the application's default font.
+
+    If a choosen X11 font does not include all the characters that
+    need to be displayed, TQFont will try to tqfind the characters in the
+    nearest equivalent fonts. When a TQPainter draws a character from a
+    font the TQFont will report whether or not it has the character; if
+    it does not, TQPainter will draw an unfilled square.
+
+    Create TQFonts like this:
+    \code
+    TQFont serifFont( "Times", 10, Bold );
+    TQFont sansFont( "Helvetica [Cronyx]", 12 );
+    \endcode
+
+    The attributes set in the constructor can also be set later, e.g.
+    setFamily(), setPointSize(), setPointSizeFloat(), setWeight() and
+    setItalic(). The remaining attributes must be set after
+    contstruction, e.g. setBold(), setUnderline(), setOverline(),
+    setStrikeOut() and setFixedPitch(). TQFontInfo objects should be
+    created \e after the font's attributes have been set. A TQFontInfo
+    object will not change, even if you change the font's
+    attributes. The corresponding "get" functions, e.g. family(),
+    pointSize(), etc., return the values that were set, even though
+    the values used may differ. The actual values are available from a
+    TQFontInfo object.
+
+    If the requested font family is unavailable you can influence the
+    \link #fontmatching font matching algorithm\endlink by choosing a
+    particular \l{TQFont::StyleHint} and \l{TQFont::StyleStrategy} with
+    setStyleHint(). The default family (corresponding to the current
+    style hint) is returned by defaultFamily().
+
+    The font-matching algorithm has a lastResortFamily() and
+    lastResortFont() in cases where a suitable match cannot be found.
+    You can provide substitutions for font family names using
+    insertSubstitution() and insertSubstitutions(). Substitutions can
+    be removed with removeSubstitution(). Use substitute() to retrieve
+    a family's first substitute, or the family name itself if it has
+    no substitutes. Use substitutes() to retrieve a list of a family's
+    substitutes (which may be empty).
+
+    Every TQFont has a key() which you can use, for example, as the key
+    in a cache or dictionary. If you want to store a user's font
+    preferences you could use TQSettings, writing the font information
+    with toString() and reading it back with fromString(). The
+    operator<<() and operator>>() functions are also available, but
+    they work on a data stream.
+
+    It is possible to set the height of characters shown on the screen
+    to a specified number of pixels with setPixelSize(); however using
+    setPointSize() has a similar effect and provides tqdevice
+    independence.
+
+    Under the X Window System you can set a font using its system
+    specific name with setRawName().
+
+    Loading fonts can be expensive, especially on X11. TQFont tqcontains
+    extensive optimizations to make the copying of TQFont objects fast,
+    and to cache the results of the slow window system functions it
+    depends upon.
+
+    \target fontmatching
+    The font matching algorithm works as follows:
+    \list 1
+    \i The specified font family is searched for.
+    \i If not found, the tqstyleHint() is used to select a tqreplacement
+       family.
+    \i Each tqreplacement font family is searched for.
+    \i If none of these are found or there was no tqstyleHint(), "helvetica"
+       will be searched for.
+    \i If "helvetica" isn't found TQt will try the lastResortFamily().
+    \i If the lastResortFamily() isn't found TQt will try the
+       lastResortFont() which will always return a name of some kind.
+    \endlist
+
+    Once a font is found, the remaining attributes are matched in order of
+    priority:
+    \list 1
+    \i fixedPitch()
+    \i pointSize() (see below)
+    \i weight()
+    \i italic()
+    \endlist
+
+    If you have a font which matches on family, even if none of the
+    other attributes match, this font will be chosen in preference to
+    a font which doesn't match on family but which does match on the
+    other attributes. This is because font family is the dominant
+    search criteria.
+
+    The point size is defined to match if it is within 20% of the
+    requested point size. When several fonts match and are only
+    distinguished by point size, the font with the closest point size
+    to the one requested will be chosen.
+
+    The actual family, font size, weight and other font attributes
+    used for drawing text will depend on what's available for the
+    chosen family under the window system. A TQFontInfo object can be
+    used to determine the actual values used for drawing the text.
+
+    Examples:
+
+    \code
+    TQFont f("Helvetica");
+    \endcode
+    If you had both an Adobe and a Cronyx Helvetica, you might get
+    either.
+
+    \code
+    TQFont f1( "Helvetica [Cronyx]" );  // TQt 3.x
+    TQFont f2( "Cronyx-Helvetica" );    // TQt 2.x compatibility
+    \endcode
+    You can specify the foundry you want in the family name. Both fonts,
+    f1 and f2, in the above example will be set to  "Helvetica
+    [Cronyx]".
+
+    To determine the attributes of the font actually used in the window
+    system, use a TQFontInfo object, e.g.
+    \code
+    TQFontInfo info( f1 );
+    TQString family = info.family();
+    \endcode
+
+    To tqfind out font metrics use a TQFontMetrics object, e.g.
+    \code
+    TQFontMetrics fm( f1 );
+    int pixelWidth = fm.width( "How many pixels wide is this text?" );
+    int pixelHeight = fm.height();
+    \endcode
+
+    For more general information on fonts, see the
+    \link http://www.nwalsh.com/comp.fonts/FAQ/ comp.fonts FAQ.\endlink
+    Information on encodings can be found from
+    \link http://czyborra.com/ Roman Czyborra's\endlink page.
+
+    \sa TQFontMetrics TQFontInfo TQFontDatabase TQApplication::setFont()
+    TQWidget::setFont() TQPainter::setFont() TQFont::StyleHint
+    TQFont::Weight
+*/
+
+/*!
+    \enum TQFont::Script
+
+    This enum represents \link tqunicode.html Unicode \endlink allocated
+    scripts. For exhaustive coverage see \link
+    http://www.amazon.com/exec/obidos/ASIN/0201616335/trolltech/t The
+    Unicode Standard Version 3.0 \endlink. The following scripts are
+    supported:
+
+    Modern European alphabetic scripts (left to right):
+
+    \value Latin consists of most alphabets based on the original Latin alphabet.
+    \value Greek covers ancient and modern Greek and Coptic.
+    \value Cyrillic covers the Slavic and non-Slavic languages using
+	   cyrillic alphabets.
+    \value Armenian tqcontains the Armenian alphabet used with the
+	   Armenian language.
+    \value Georgian covers at least the language Georgian.
+    \value Runic covers the known constituents of the Runic alphabets used
+	   by the early and medieval societies in the Germanic,
+	   Scandinavian, and Anglo-Saxon areas.
+    \value Ogham is an alphabetical script used to write a very early
+	   form of Irish.
+    \value SpacingModifiers are small signs indicating modifications
+	   to the preceeding letter.
+    \value CombiningMarks consist of diacritical marks not specific to
+	   a particular alphabet, diacritical marks used in
+	   combination with mathematical and technical symbols, and
+	   glyph encodings applied to multiple letterforms.
+
+    Middle Eastern scripts (right to left):
+
+    \value Hebrew is used for writing Hebrew, Yiddish, and some other languages.
+    \value Arabic covers the Arabic language as well as Persian, Urdu,
+	   Kurdish and some others.
+    \value Syriac is used to write the active liturgical languages and
+	   dialects of several Middle Eastern and Southeast Indian
+	   communities.
+    \value Thaana is used to write the Maledivian Dhivehi language.
+
+    South and Southeast Asian scripts (left to right with few historical exceptions):
+
+    \value Devanagari covers classical Sanskrit and modern Hindi as
+	   well as several other languages.
+    \value Bengali is a relative to Devanagari employed to write the
+	   Bengali language used in West Bengal/India and Bangladesh
+	   as well as several minority languages.
+    \value Gurmukhi is another Devanagari relative used to write Punjabi.
+    \value Gujarati is closely related to Devanagari and used to write
+	   the Gujarati language of the Gujarat state in India.
+    \value Oriya is used to write the Oriya language of Orissa state/India.
+    \value Tamil is used to write the Tamil language of Tamil Nadu state/India,
+	   Sri Lanka, Singapore and parts of Malaysia as well as some
+	   minority languages.
+    \value Telugu is used to write the Telugu language of Andhra
+	   Pradesh state/India and some minority languages.
+    \value Kannada is another South Indian script used to write the
+	   Kannada language of Karnataka state/India and some minority
+	   languages.
+    \value Malayalam is used to write the Malayalam language of Kerala
+	   state/India.
+    \value Sinhala is used for Sri Lanka's majority language Sinhala
+	   and is also employed to write Pali, Sanskrit, and Tamil.
+    \value Thai is used to write Thai and other Southeast Asian languages.
+    \value Lao is a language and script quite similar to Thai.
+    \value Tibetan is the script used to write Tibetan in several
+	   countries like Tibet, the bordering Indian regions and
+	   Nepal. It is also used in the Buddist philosophy and
+	   liturgy of the Mongolian cultural area.
+    \value Myanmar is mainly used to write the Burmese language of
+	   Myanmar (former Burma).
+    \value Khmer is the official language of Kampuchea.
+
+    East Asian scripts (traditionally top-down, right to left, modern
+    often horizontal left to right):
+
+    \value Han consists of the CJK (Chinese, Japanese, Korean)
+	   idiographic characters.
+    \value Hiragana is a cursive syllabary used to indicate phonetics
+	   and pronounciation of Japanese words.
+    \value Katakana is a non-cursive syllabic script used to write
+	   Japanese words with visual emphasis and non-Japanese words
+	   in a phonetical manner.
+    \value Hangul is a Korean script consisting of alphabetic components.
+    \value Bopomofo is a phonetic alphabet for Chinese (mainly Mandarin).
+    \value Yi (also called Cuan or Wei) is a syllabary used to write
+	   the Yi language of Southwestern China, Myanmar, Laos, and Vietnam.
+
+    Additional scripts that do not fit well into the script categories above:
+
+    \value Ethiopic is a syllabary used by several Central East African languages.
+    \value Cherokee is a left-to-right syllabic script used to write
+	   the Cherokee language.
+    \value CanadianAboriginal consists of the syllabics used by some
+	   Canadian aboriginal societies.
+    \value Mongolian is the traditional (and recently reintroduced)
+	   script used to write Mongolian.
+
+    Symbols:
+
+    \value CurrencySymbols tqcontains currency symbols not encoded in other scripts.
+    \value LetterlikeSymbols consists of symbols derived  from
+	   ordinary letters of an alphabetical script.
+    \value NumberForms are provided for compatibility with other
+	   existing character sets.
+    \value MathematicalOperators consists of encodings for operators,
+	   relations and other symbols like arrows used in a mathematical context.
+    \value TechnicalSymbols tqcontains representations for control
+	   codes, the space symbol, APL symbols and other symbols
+	   mainly used in the context of electronic data processing.
+    \value GeometricSymbols covers block elements and geometric tqshapes.
+    \value MiscellaneousSymbols consists of a heterogeneous collection
+	   of symbols that do not fit any other Unicode character
+	   block, e.g. Dingbats.
+    \value EnclosedAndSquare is provided for compatibility with some
+	   East Asian standards.
+    \value Braille is an international writing system used by blind
+	   people. This script encodes the 256 eight-dot patterns with
+	   the 64 six-dot patterns as a subset.
+
+    \value Tagalog
+    \value Hanunoo
+    \value Buhid
+    \value Tagbanwa
+
+    \value KatakanaHalfWidth
+
+    \value Limbu (Unicode 4.0)
+    \value TaiLe (Unicode 4.0)
+
+    \value Unicode includes all the above scripts.
+*/
+
+/*! \internal
+
+    Constructs a font for use on the paint tqdevice \a pd using the
+    specified font \a data.
+*/
+TQFont::TQFont( TQFontPrivate *data, TQPaintDevice *pd )
+{
+    d = new TQFontPrivate( *data );
+    TQ_CHECK_PTR( d );
+    d->painttqdevice = pd;
+
+    // now a single reference
+    d->count = 1;
+}
+
+/*! \internal
+    Detaches the font object from common font data.
+*/
+void TQFont::detach()
+{
+    if (d->count == 1) {
+	if ( d->engineData )
+	    d->engineData->deref();
+	d->engineData = 0;
+
+	return;
+    }
+
+    TQFontPrivate *old_d = d;
+    d = new TQFontPrivate( *old_d );
+
+    /*
+      if this font is a copy of the application default font, set the
+      fontdef tqmask to zero to indicate that *nothing* has been
+      explicitly set by the programmer.
+    */
+    const TQFont appfont = TQApplication::font();
+    if ( old_d == appfont.d )
+	d->tqmask = 0;
+
+    if ( old_d->deref() )
+	delete old_d;
+}
+
+/*!
+    Constructs a font object that uses the application's default font.
+
+    \sa TQApplication::setFont(), TQApplication::font()
+*/
+TQFont::TQFont()
+{
+    const TQFont appfont = TQApplication::font();
+    d = appfont.d;
+    d->ref();
+}
+
+/*!
+    Constructs a font object with the specified \a family, \a
+    pointSize, \a weight and \a italic settings.
+
+    If \a pointSize is <= 0 it is set to 1.
+
+    The \a family name may optionally also include a foundry name,
+    e.g. "Helvetica [Cronyx]". (The TQt 2.x syntax, i.e.
+    "Cronyx-Helvetica", is also supported.) If the \a family is
+    available from more than one foundry and the foundry isn't
+    specified, an arbitrary foundry is chosen. If the family isn't
+    available a family will be set using the \link #fontmatching font
+    matching\endlink algorithm.
+
+    \sa Weight, setFamily(), setPointSize(), setWeight(), setItalic(),
+    setStyleHint() TQApplication::font()
+*/
+TQFont::TQFont( const TQString &family, int pointSize, int weight, bool italic )
+{
+
+    d = new TQFontPrivate;
+    TQ_CHECK_PTR( d );
+
+    d->tqmask = TQFontPrivate::Family;
+
+    if (pointSize <= 0) {
+	pointSize = 12;
+    } else {
+	d->tqmask |= TQFontPrivate::Size;
+    }
+
+    if (weight < 0) {
+	weight = Normal;
+    } else {
+	d->tqmask |= TQFontPrivate::Weight | TQFontPrivate::Italic;
+    }
+
+    d->request.family = family;
+    d->request.pointSize = pointSize * 10;
+    d->request.pixelSize = -1;
+    d->request.weight = weight;
+    d->request.italic = italic;
+}
+
+/*!
+    Constructs a font that is a copy of \a font.
+*/
+TQFont::TQFont( const TQFont &font )
+{
+    d = font.d;
+    d->ref();
+}
+
+/*!
+    Destroys the font object and frees all allocated resources.
+*/
+TQFont::~TQFont()
+{
+    if ( d->deref() )
+	delete d;
+    d = 0;
+}
+
+/*!
+    Assigns \a font to this font and returns a reference to it.
+*/
+TQFont &TQFont::operator=( const TQFont &font )
+{
+    if ( font.d != d ) {
+	if ( d->deref() )
+	    delete d;
+	d = font.d;
+	d->ref();
+    }
+
+    return *this;
+}
+
+/*!
+    Returns the requested font family name, i.e. the name set in the
+    constructor or the last setFont() call.
+
+    \sa setFamily() substitutes() substitute()
+*/
+TQString TQFont::family() const
+{
+    return d->request.family;
+}
+
+/*!
+    Sets the family name of the font. The name is case insensitive and
+    may include a foundry name.
+
+    The \a family name may optionally also include a foundry name,
+    e.g. "Helvetica [Cronyx]". (The TQt 2.x syntax, i.e.
+    "Cronyx-Helvetica", is also supported.) If the \a family is
+    available from more than one foundry and the foundry isn't
+    specified, an arbitrary foundry is chosen. If the family isn't
+    available a family will be set using the \link #fontmatching font
+    matching\endlink algorithm.
+
+    \sa family(), setStyleHint(), TQFontInfo
+*/
+void TQFont::setFamily( const TQString &family )
+{
+    detach();
+
+    d->request.family = family;
+#if defined(TQ_WS_X11)
+    d->request.addStyle = TQString::null;
+#endif // TQ_WS_X11
+
+    d->tqmask |= TQFontPrivate::Family;
+}
+
+/*!
+    Returns the point size in 1/10ths of a point.
+
+    The returned value will be -1 if the font size has been specified
+    in pixels.
+
+    \sa pointSize() pointSizeFloat()
+  */
+int TQFont::deciPointSize() const
+{
+    return d->request.pointSize;
+}
+
+/*!
+    Returns the point size of the font. Returns -1 if the font size
+    was specified in pixels.
+
+    \sa setPointSize() deciPointSize() pointSizeFloat()
+*/
+int TQFont::pointSize() const
+{
+    return d->request.pointSize == -1 ? -1 : (d->request.pointSize + 5) / 10;
+}
+
+/*!
+    Sets the point size to \a pointSize. The point size must be
+    greater than zero.
+
+    \sa pointSize() setPointSizeFloat()
+*/
+void TQFont::setPointSize( int pointSize )
+{
+    if ( pointSize <= 0 ) {
+
+#if defined(TQT_CHECK_RANGE)
+	qWarning( "TQFont::setPointSize: Point size <= 0 (%d)", pointSize );
+#endif
+
+	return;
+    }
+
+    detach();
+
+    d->request.pointSize = pointSize * 10;
+    d->request.pixelSize = -1;
+
+    d->tqmask |= TQFontPrivate::Size;
+}
+
+/*!
+    Sets the point size to \a pointSize. The point size must be
+    greater than zero. The requested precision may not be achieved on
+    all platforms.
+
+    \sa pointSizeFloat() setPointSize() setPixelSize()
+*/
+void TQFont::setPointSizeFloat( float pointSize )
+{
+    if ( pointSize <= 0.0 ) {
+#if defined(TQT_CHECK_RANGE)
+	qWarning( "TQFont::setPointSize: Point size <= 0 (%f)", pointSize );
+#endif
+	return;
+    }
+
+    detach();
+
+    d->request.pointSize = tqRound(pointSize * 10.0);
+    d->request.pixelSize = -1;
+
+    d->tqmask |= TQFontPrivate::Size;
+}
+
+/*!
+    Returns the point size of the font. Returns -1 if the font size was
+    specified in pixels.
+
+    \sa pointSize() setPointSizeFloat() pixelSize() TQFontInfo::pointSize() TQFontInfo::pixelSize()
+*/
+float TQFont::pointSizeFloat() const
+{
+    return float( d->request.pointSize == -1 ? -10 : d->request.pointSize ) / 10.0;
+}
+
+/*!
+    Sets the font size to \a pixelSize pixels.
+
+    Using this function makes the font tqdevice dependent. Use
+    setPointSize() or setPointSizeFloat() to set the size of the font
+    in a tqdevice independent manner.
+
+    \sa pixelSize()
+*/
+void TQFont::setPixelSize( int pixelSize )
+{
+    if ( pixelSize <= 0 ) {
+#if defined(TQT_CHECK_RANGE)
+	qWarning( "TQFont::setPixelSize: Pixel size <= 0 (%d)", pixelSize );
+#endif
+	return;
+    }
+
+    detach();
+
+    d->request.pixelSize = pixelSize;
+    d->request.pointSize = -1;
+
+    d->tqmask |= TQFontPrivate::Size;
+}
+
+/*!
+    Returns the pixel size of the font if it was set with
+    setPixelSize(). Returns -1 if the size was set with setPointSize()
+    or setPointSizeFloat().
+
+    \sa setPixelSize() pointSize() TQFontInfo::pointSize() TQFontInfo::pixelSize()
+*/
+int TQFont::pixelSize() const
+{
+    return d->request.pixelSize;
+}
+
+/*! \obsolete
+
+  Sets the logical pixel height of font characters when shown on
+  the screen to \a pixelSize.
+*/
+void TQFont::setPixelSizeFloat( float pixelSize )
+{
+    setPixelSize( (int)pixelSize );
+}
+
+/*!
+    Returns TRUE if italic has been set; otherwise returns FALSE.
+
+    \sa setItalic()
+*/
+bool TQFont::italic() const
+{
+    return d->request.italic;
+}
+
+/*!
+    If \a enable is TRUE, italic is set on; otherwise italic is set
+    off.
+
+    \sa italic(), TQFontInfo
+*/
+void TQFont::setItalic( bool enable )
+{
+    detach();
+
+    d->request.italic = enable;
+    d->tqmask |= TQFontPrivate::Italic;
+}
+
+/*!
+    Returns the weight of the font which is one of the enumerated
+    values from \l{TQFont::Weight}.
+
+    \sa setWeight(), Weight, TQFontInfo
+*/
+int TQFont::weight() const
+{
+    return d->request.weight;
+}
+
+/*!
+    \enum TQFont::Weight
+
+    TQt uses a weighting scale from 0 to 99 similar to, but not the
+    same as, the scales used in Windows or CSS. A weight of 0 is
+    ultralight, whilst 99 will be an extremely black.
+
+    This enum tqcontains the predefined font weights:
+
+    \value Light 25
+    \value Normal 50
+    \value DemiBold 63
+    \value Bold 75
+    \value Black 87
+*/
+
+/*!
+    Sets the weight the font to \a weight, which should be a value
+    from the \l TQFont::Weight enumeration.
+
+    \sa weight(), TQFontInfo
+*/
+void TQFont::setWeight( int weight )
+{
+    if ( weight < 0 || weight > 99 ) {
+
+#if defined(TQT_CHECK_RANGE)
+	qWarning( "TQFont::setWeight: Value out of range (%d)", weight );
+#endif
+
+	return;
+    }
+
+    detach();
+
+    d->request.weight = weight;
+    d->tqmask |= TQFontPrivate::Weight;
+}
+
+/*!
+    \fn bool TQFont::bold() const
+
+    Returns TRUE if weight() is a value greater than \link Weight
+    TQFont::Normal \endlink; otherwise returns FALSE.
+
+    \sa weight(), setBold(), TQFontInfo::bold()
+*/
+
+/*!
+    \fn void TQFont::setBold( bool enable )
+
+    If \a enable is true sets the font's weight to \link Weight
+    TQFont::Bold \endlink; otherwise sets the weight to \link Weight
+    TQFont::Normal\endlink.
+
+    For finer boldness control use setWeight().
+
+    \sa bold(), setWeight()
+*/
+
+/*!
+    Returns TRUE if underline has been set; otherwise returns FALSE.
+
+    \sa setUnderline()
+*/
+bool TQFont::underline() const
+{
+    return d->underline;
+}
+
+/*!
+    If \a enable is TRUE, sets underline on; otherwise sets underline
+    off.
+
+    \sa underline(), TQFontInfo
+*/
+void TQFont::setUnderline( bool enable )
+{
+    detach();
+
+    d->underline = enable;
+    d->tqmask |= TQFontPrivate::Underline;
+}
+
+/*!
+    Returns TRUE if overline has been set; otherwise returns FALSE.
+
+    \sa setOverline()
+*/
+bool TQFont::overline() const
+{
+    return d->overline;
+}
+
+/*!
+  If \a enable is TRUE, sets overline on; otherwise sets overline off.
+
+  \sa overline(), TQFontInfo
+*/
+void TQFont::setOverline( bool enable )
+{
+    detach();
+
+    d->overline = enable;
+    d->tqmask |= TQFontPrivate::Overline;
+}
+
+/*!
+    Returns TRUE if strikeout has been set; otherwise returns FALSE.
+
+    \sa setStrikeOut()
+*/
+bool TQFont::strikeOut() const
+{
+    return d->strikeOut;
+}
+
+/*!
+    If \a enable is TRUE, sets strikeout on; otherwise sets strikeout
+    off.
+
+    \sa strikeOut(), TQFontInfo
+*/
+void TQFont::setStrikeOut( bool enable )
+{
+    detach();
+
+    d->strikeOut = enable;
+    d->tqmask |= TQFontPrivate::StrikeOut;
+}
+
+/*!
+    Returns TRUE if fixed pitch has been set; otherwise returns FALSE.
+
+    \sa setFixedPitch(), TQFontInfo::fixedPitch()
+*/
+bool TQFont::fixedPitch() const
+{
+    return d->request.fixedPitch;
+}
+
+/*!
+    If \a enable is TRUE, sets fixed pitch on; otherwise sets fixed
+    pitch off.
+
+    \sa fixedPitch(), TQFontInfo
+*/
+void TQFont::setFixedPitch( bool enable )
+{
+    detach();
+
+    d->request.fixedPitch = enable;
+    d->request.ignorePitch = FALSE;
+    d->tqmask |= TQFontPrivate::FixedPitch;
+}
+
+/*!
+    Returns the StyleStrategy.
+
+    The style strategy affects the \link #fontmatching font
+    matching\endlink algorithm. See \l TQFont::StyleStrategy for the
+    list of strategies.
+
+    \sa setStyleHint() TQFont::StyleHint
+*/
+TQFont::StyleStrategy TQFont::styleStrategy() const
+{
+    return (StyleStrategy) d->request.styleStrategy;
+}
+
+/*!
+    Returns the StyleHint.
+
+    The style hint affects the \link #fontmatching font
+    matching\endlink algorithm. See \l TQFont::StyleHint for the list
+    of strategies.
+
+    \sa setStyleHint(), TQFont::StyleStrategy TQFontInfo::tqstyleHint()
+*/
+TQFont::StyleHint TQFont::tqstyleHint() const
+{
+    return (StyleHint) d->request.tqstyleHint;
+}
+
+/*!
+    \enum TQFont::StyleHint
+
+    Style hints are used by the \link #fontmatching font
+    matching\endlink algorithm to tqfind an appropriate default family
+    if a selected font family is not available.
+
+    \value AnyStyle leaves the font matching algorithm to choose the
+	   family. This is the default.
+
+    \value SansSerif the font matcher prefer sans serif fonts.
+    \value Helvetica is a synonym for \c SansSerif.
+
+    \value Serif the font matcher prefers serif fonts.
+    \value Times is a synonym for \c Serif.
+
+    \value TypeWriter the font matcher prefers fixed pitch fonts.
+    \value Courier a synonym for \c TypeWriter.
+
+    \value OldEnglish the font matcher prefers decorative fonts.
+    \value Decorative is a synonym for \c OldEnglish.
+
+    \value System the font matcher prefers system fonts.
+*/
+
+/*!
+    \enum TQFont::StyleStrategy
+
+    The style strategy tells the \link #fontmatching font
+    matching\endlink algorithm what type of fonts should be used to
+    tqfind an appropriate default family.
+
+    The following strategies are available:
+
+    \value PreferDefault the default style strategy. It does not prefer
+	   any type of font.
+    \value PreferBitmap prefers bitmap fonts (as opposed to outline
+	   fonts).
+    \value PreferDevice prefers tqdevice fonts.
+    \value PreferOutline prefers outline fonts (as opposed to bitmap fonts).
+    \value ForceOutline forces the use of outline fonts.
+    \value NoAntialias don't antialias the fonts.
+    \value PreferAntialias antialias if possible.
+    \value OpenGLCompatible forces the use of OpenGL compatible
+           fonts.
+
+    Any of these may be OR-ed with one of these flags:
+
+    \value PreferMatch prefer an exact match. The font matcher will try to
+	   use the exact font size that has been specified.
+    \value PreferQuality prefer the best quality font. The font matcher
+	   will use the nearest standard point size that the font
+	   supports.
+*/
+
+/*!
+    Sets the style hint and strategy to \a hint and \a strategy,
+    respectively.
+
+    If these aren't set explicitly the style hint will default to
+    \c AnyStyle and the style strategy to \c PreferDefault.
+
+    TQt does not support style hints on X11 since this information
+    is not provided by the window system.
+
+    \sa StyleHint, tqstyleHint(), StyleStrategy, styleStrategy(), TQFontInfo
+*/
+void TQFont::setStyleHint( StyleHint hint, StyleStrategy strategy )
+{
+    detach();
+
+    if ( ( d->tqmask & ( TQFontPrivate::StyleHint | TQFontPrivate::StyleStrategy ) ) &&
+	 (StyleHint) d->request.tqstyleHint == hint &&
+	 (StyleStrategy) d->request.styleStrategy == strategy )
+	return;
+
+    d->request.tqstyleHint = hint;
+    d->request.styleStrategy = strategy;
+    d->tqmask |= TQFontPrivate::StyleHint;
+    d->tqmask |= TQFontPrivate::StyleStrategy;
+
+#if defined(TQ_WS_X11)
+    d->request.addStyle = TQString::null;
+#endif // TQ_WS_X11
+}
+
+/*!
+    Sets the style strategy for the font to \a s.
+
+    \sa TQFont::StyleStrategy
+*/
+void TQFont::setStyleStrategy( StyleStrategy s )
+{
+    detach();
+
+    if ( ( d->tqmask & TQFontPrivate::StyleStrategy ) &&
+	 s == (StyleStrategy)d->request.styleStrategy )
+	return;
+
+    d->request.styleStrategy = s;
+    d->tqmask |= TQFontPrivate::StyleStrategy;
+}
+
+
+/*!
+    \enum TQFont::Stretch
+
+    Predefined stretch values that follow the CSS naming convention.
+
+    \value UltraCondensed 50
+    \value ExtraCondensed 62
+    \value Condensed 75
+    \value SemiCondensed 87
+    \value Unstretched 100
+    \value SemiExpanded 112
+    \value Expanded 125
+    \value ExtraExpanded 150
+    \value UltraExpanded 200
+
+    \sa setStretch() stretch()
+*/
+
+/*!
+    Returns the stretch factor for the font.
+
+    \sa setStretch()
+ */
+int TQFont::stretch() const
+{
+    return d->request.stretch;
+}
+
+/*!
+    Sets the stretch factor for the font.
+
+    The stretch factor changes the width of all characters in the font
+    by \a factor percent.  For example, setting \a factor to 150
+    results in all characters in the font being 1.5 times ( ie. 150% )
+    wider.  The default stretch factor is 100.  The minimum stretch
+    factor is 1, and the maximum stretch factor is 4000.
+
+    The stretch factor is only applied to outline fonts.  The stretch
+    factor is ignored for bitmap fonts.
+
+    NOTE: TQFont cannot stretch XLFD fonts.  When loading XLFD fonts on
+    X11, the stretch factor is matched against a predefined set of
+    values for the SETWIDTH_NAME field of the XLFD.
+
+    \sa stretch() TQFont::StyleStrategy
+*/
+void TQFont::setStretch( int factor )
+{
+    if ( factor < 1 || factor > 4000 ) {
+#ifdef TQT_CHECK_RANGE
+	qWarning( "TQFont::setStretch(): parameter '%d' out of range", factor );
+#endif // TQT_CHECK_RANGE
+
+	return;
+    }
+
+    detach();
+
+    if ( ( d->tqmask & TQFontPrivate::Stretch ) &&
+	 d->request.stretch == (uint)factor )
+	return;
+
+    d->request.stretch = (uint)factor;
+    d->tqmask |= TQFontPrivate::Stretch;
+}
+
+/*!
+    If \a enable is TRUE, turns raw mode on; otherwise turns raw mode
+    off. This function only has an effect under X11.
+
+    If raw mode is enabled, TQt will search for an X font with a
+    complete font name matching the family name, ignoring all other
+    values set for the TQFont. If the font name matches several fonts,
+    TQt will use the first font returned by X. TQFontInfo \e cannot be
+    used to fetch information about a TQFont using raw mode (it will
+    return the values set in the TQFont for all parameters, including
+    the family name).
+
+    \warning Do not use raw mode unless you really, really need it! In
+    most (if not all) cases, setRawName() is a much better choice.
+
+    \sa rawMode(), setRawName()
+*/
+void TQFont::setRawMode( bool enable )
+{
+    detach();
+
+    if ( (bool) d->rawMode == enable ) return;
+
+    d->rawMode = enable;
+}
+
+/*!
+    Returns TRUE if a window system font exactly matching the settings
+    of this font is available.
+
+    \sa TQFontInfo
+*/
+bool TQFont::exactMatch() const
+{
+    TQFontEngine *engine = d->engineForScript( TQFont::NoScript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return d->rawMode ? engine->type() != TQFontEngine::Box
+			     : d->request == engine->fontDef;
+}
+
+/*!
+    Returns TRUE if this font is equal to \a f; otherwise returns
+    FALSE.
+
+    Two TQFonts are considered equal if their font attributes are
+    equal. If rawMode() is enabled for both fonts, only the family
+    fields are compared.
+
+    \sa operator!=() isCopyOf()
+*/
+bool TQFont::operator==( const TQFont &f ) const
+{
+    return f.d == d || ( f.d->request   == d->request   &&
+			 f.d->underline == d->underline &&
+			 f.d->overline  == d->overline  &&
+			 f.d->strikeOut == d->strikeOut );
+}
+
+/*!
+    Returns TRUE if this font is different from \a f; otherwise
+    returns FALSE.
+
+    Two TQFonts are considered to be different if their font attributes
+    are different. If rawMode() is enabled for both fonts, only the
+    family fields are compared.
+
+    \sa operator==()
+*/
+bool TQFont::operator!=( const TQFont &f ) const
+{
+    return !(operator==( f ));
+}
+
+/*!
+    Returns TRUE if this font and \a f are copies of each other, i.e.
+    one of them was created as a copy of the other and neither has
+    been modified since. This is much stricter than equality.
+
+    \sa operator=() operator==()
+*/
+bool TQFont::isCopyOf( const TQFont & f ) const
+{
+    return d == f.d;
+}
+
+/*!
+    Returns TRUE if raw mode is used for font name matching; otherwise
+    returns FALSE.
+
+    \sa setRawMode() rawName()
+*/
+bool TQFont::rawMode() const
+{
+    return d->rawMode;
+}
+
+/*!
+    Returns a new TQFont that has attributes copied from \a other.
+*/
+TQFont TQFont::resolve( const TQFont &other ) const
+{
+    if ( *this == other && d->tqmask == other.d->tqmask )
+	return *this;
+
+    TQFont font( *this );
+    font.detach();
+
+    /*
+      if this font is a copy of the application default font, set the
+      fontdef tqmask to zero to indicate that *nothing* has been
+      explicitly set by the programmer.
+    */
+    const TQFont appfont = TQApplication::font();
+    if ( d == appfont.d )
+	font.d->tqmask = 0;
+
+    font.d->resolve( other.d );
+
+    return font;
+}
+
+#ifndef TQT_NO_COMPAT
+
+/*! \obsolete
+
+  Please use TQApplication::font() instead.
+*/
+TQFont TQFont::defaultFont()
+{
+    return TQApplication::font();
+}
+
+/*! \obsolete
+
+  Please use TQApplication::setFont() instead.
+*/
+void TQFont::setDefaultFont( const TQFont &f )
+{
+    TQApplication::setFont( f );
+}
+
+
+#endif
+
+
+
+
+#ifndef TQT_NO_STRINGLIST
+
+/*****************************************************************************
+  TQFont substitution management
+ *****************************************************************************/
+
+typedef TQDict<TQStringList> TQFontSubst;
+static TQFontSubst *fontSubst = 0;
+static TQSingleCleanupHandler<TQFontSubst> qfont_cleanup_fontsubst;
+
+
+// create substitution dict
+static void initFontSubst()
+{
+    // default substitutions
+    static const char *initTbl[] = {
+
+#if defined(TQ_WS_X11)
+	"arial",        "helvetica",
+	"helv",         "helvetica",
+	"tms rmn",      "times",
+#elif defined(TQ_WS_WIN)
+	"times",        "Times New Roman",
+	"courier",      "Courier New",
+	"helvetica",    "Arial",
+#endif
+
+	0,              0
+    };
+
+    if (fontSubst)
+	return;
+
+    fontSubst = new TQFontSubst(17, FALSE);
+    TQ_CHECK_PTR( fontSubst );
+    fontSubst->setAutoDelete( TRUE );
+    qfont_cleanup_fontsubst.set(&fontSubst);
+
+    for ( int i=0; initTbl[i] != 0; i += 2 )
+	TQFont::insertSubstitution(TQString::tqfromLatin1(initTbl[i]),
+				  TQString::tqfromLatin1(initTbl[i+1]));
+}
+
+
+/*!
+    Returns the first family name to be used whenever \a familyName is
+    specified. The lookup is case insensitive.
+
+    If there is no substitution for \a familyName, \a familyName is
+    returned.
+
+    To obtain a list of substitutions use substitutes().
+
+    \sa setFamily() insertSubstitutions() insertSubstitution() removeSubstitution()
+*/
+TQString TQFont::substitute( const TQString &familyName )
+{
+    initFontSubst();
+
+    TQStringList *list = fontSubst->tqfind(familyName);
+    if (list && list->count() > 0)
+	return *(list->at(0));
+
+    return familyName;
+}
+
+
+/*!
+    Returns a list of family names to be used whenever \a familyName
+    is specified. The lookup is case insensitive.
+
+    If there is no substitution for \a familyName, an empty list is
+    returned.
+
+    \sa substitute() insertSubstitutions() insertSubstitution() removeSubstitution()
+ */
+TQStringList TQFont::substitutes(const TQString &familyName)
+{
+    initFontSubst();
+
+    TQStringList ret, *list = fontSubst->tqfind(familyName);
+    if (list)
+	ret += *list;
+    return ret;
+}
+
+
+/*!
+    Inserts the family name \a substituteName into the substitution
+    table for \a familyName.
+
+    \sa insertSubstitutions() removeSubstitution() substitutions() substitute() substitutes()
+*/
+void TQFont::insertSubstitution(const TQString &familyName,
+			       const TQString &substituteName)
+{
+    initFontSubst();
+
+    TQStringList *list = fontSubst->tqfind(familyName);
+    if (! list) {
+	list = new TQStringList;
+	fontSubst->insert(familyName, list);
+    }
+
+    if (! list->tqcontains(substituteName))
+	list->append(substituteName);
+}
+
+
+/*!
+    Inserts the list of families \a substituteNames into the
+    substitution list for \a familyName.
+
+    \sa insertSubstitution(), removeSubstitution(), substitutions(), substitute()
+*/
+void TQFont::insertSubstitutions(const TQString &familyName,
+				const TQStringList &substituteNames)
+{
+    initFontSubst();
+
+    TQStringList *list = fontSubst->tqfind(familyName);
+    if (! list) {
+	list = new TQStringList;
+	fontSubst->insert(familyName, list);
+    }
+
+    TQStringList::ConstIterator it = substituteNames.begin();
+    while (it != substituteNames.end()) {
+	if (! list->tqcontains(*it))
+	    list->append(*it);
+	it++;
+    }
+}
+
+// ### mark: should be called removeSubstitutions()
+/*!
+    Removes all the substitutions for \a familyName.
+
+    \sa insertSubstitutions(), insertSubstitution(), substitutions(), substitute()
+*/
+void TQFont::removeSubstitution( const TQString &familyName )
+{ // ### function name should be removeSubstitutions() or
+  // ### removeSubstitutionList()
+    initFontSubst();
+
+    fontSubst->remove(familyName);
+}
+
+
+/*!
+    Returns a sorted list of substituted family names.
+
+    \sa insertSubstitution(), removeSubstitution(), substitute()
+*/
+TQStringList TQFont::substitutions()
+{
+    initFontSubst();
+
+    TQStringList ret;
+    TQDictIterator<TQStringList> it(*fontSubst);
+
+    while (it.current()) {
+	ret.append(it.currentKey());
+	++it;
+    }
+
+    ret.sort();
+
+    return ret;
+}
+
+#endif // TQT_NO_STRINGLIST
+
+
+/*  \internal
+    Internal function. Converts boolean font settings to an unsigned
+    8-bit number. Used for serialization etc.
+*/
+static TQ_UINT8 get_font_bits( const TQFontPrivate *f )
+{
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( f != 0 );
+#endif
+
+    TQ_UINT8 bits = 0;
+    if ( f->request.italic )
+	bits |= 0x01;
+    if ( f->underline )
+	bits |= 0x02;
+    if ( f->overline )
+	bits |= 0x40;
+    if ( f->strikeOut )
+	bits |= 0x04;
+    if ( f->request.fixedPitch )
+	bits |= 0x08;
+    // if ( f.hintSetByUser )
+    // bits |= 0x10;
+    if ( f->rawMode )
+	bits |= 0x20;
+    return bits;
+}
+
+
+#ifndef TQT_NO_DATASTREAM
+
+/*  \internal
+    Internal function. Sets boolean font settings from an unsigned
+    8-bit number. Used for serialization etc.
+*/
+static void set_font_bits( TQ_UINT8 bits, TQFontPrivate *f )
+{
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( f != 0 );
+#endif
+
+    f->request.italic        = (bits & 0x01) != 0;
+    f->underline             = (bits & 0x02) != 0;
+    f->overline              = (bits & 0x40) != 0;
+    f->strikeOut             = (bits & 0x04) != 0;
+    f->request.fixedPitch    = (bits & 0x08) != 0;
+    // f->hintSetByUser      = (bits & 0x10) != 0;
+    f->rawMode               = (bits & 0x20) != 0;
+}
+
+#endif
+
+
+/*!
+    Returns the font's key, a textual representation of a font. It is
+    typically used as the key for a cache or dictionary of fonts.
+
+    \sa TQMap
+*/
+TQString TQFont::key() const
+{
+    return toString();
+}
+
+/*!
+    Returns a description of the font. The description is a
+    comma-separated list of the attributes, perfectly suited for use
+    in TQSettings.
+
+    \sa fromString() operator<<()
+ */
+TQString TQFont::toString() const
+{
+    const TQChar comma( ',' );
+    return family() + comma +
+	TQString::number(  pointSizeFloat() ) + comma +
+	TQString::number(       pixelSize() ) + comma +
+	TQString::number( (int) tqstyleHint() ) + comma +
+	TQString::number(          weight() ) + comma +
+	TQString::number( (int)    italic() ) + comma +
+	TQString::number( (int) underline() ) + comma +
+	TQString::number( (int) strikeOut() ) + comma +
+	TQString::number( (int)fixedPitch() ) + comma +
+	TQString::number( (int)   rawMode() );
+}
+
+
+/*!
+    Sets this font to match the description \a descrip. The description
+    is a comma-separated list of the font attributes, as returned by
+    toString().
+
+    \sa toString() operator>>()
+ */
+bool TQFont::fromString(const TQString &descrip)
+{
+#ifndef TQT_NO_STRINGLIST
+    TQStringList l(TQStringList::split(',', descrip));
+
+    int count = (int)l.count();
+#else
+    int count = 0;
+    TQString l[11];
+    int from = 0;
+    int to = descrip.tqfind( ',' );
+    while ( to > 0 && count < 11 ) {
+	l[count] = descrip.mid( from, to-from );
+	count++;
+	from = to+1;
+	to = descrip.tqfind( ',', from );
+    }
+#endif // TQT_NO_STRINGLIST
+    if ( !count || ( count > 2 && count < 9 ) || count > 11 ) {
+
+#ifdef TQT_CHECK_STATE
+	qWarning("TQFont::fromString: invalid description '%s'",
+                 descrip.isEmpty() ? "(empty)" : descrip.latin1());
+#endif
+
+	return FALSE;
+    }
+
+    setFamily(l[0]);
+    if ( count > 1 && l[1].toDouble() > 0.0 )
+	setPointSizeFloat(l[1].toDouble());
+    if ( count == 9 ) {
+	setStyleHint((StyleHint) l[2].toInt());
+	setWeight(l[3].toInt());
+	setItalic(l[4].toInt());
+	setUnderline(l[5].toInt());
+	setStrikeOut(l[6].toInt());
+	setFixedPitch(l[7].toInt());
+	setRawMode(l[8].toInt());
+    } else if ( count == 10 ) {
+	if ( l[2].toInt() > 0 )
+	    setPixelSize( l[2].toInt() );
+	setStyleHint((StyleHint) l[3].toInt());
+	setWeight(l[4].toInt());
+	setItalic(l[5].toInt());
+	setUnderline(l[6].toInt());
+	setStrikeOut(l[7].toInt());
+	setFixedPitch(l[8].toInt());
+	setRawMode(l[9].toInt());
+    }
+
+    return TRUE;
+}
+
+#if !defined( TQ_WS_TQWS )
+/*! \internal
+
+  Internal function that dumps font cache statistics.
+*/
+void TQFont::cacheStatistics()
+{
+
+
+}
+#endif // !TQ_WS_TQWS
+
+
+
+/*****************************************************************************
+  TQFont stream functions
+ *****************************************************************************/
+#ifndef TQT_NO_DATASTREAM
+
+/*!
+    \relates TQFont
+
+    Writes the font \a font to the data stream \a s. (toString()
+    writes to a text stream.)
+
+    \sa \link datastreamformat.html Format of the TQDataStream operators \endlink
+*/
+TQDataStream &operator<<( TQDataStream &s, const TQFont &font )
+{
+    if ( s.version() == 1 ) {
+	TQCString fam( font.d->request.family.latin1() );
+	s << fam;
+    } else {
+	s << font.d->request.family;
+    }
+
+    if ( s.version() <= 3 ) {
+	TQ_INT16 pointSize = (TQ_INT16) font.d->request.pointSize;
+	if ( pointSize == -1 ) {
+#ifdef TQ_WS_X11
+	    pointSize = (TQ_INT16)(font.d->request.pixelSize*720/TQPaintDevice::x11AppDpiY());
+#else
+	    pointSize = (TQ_INT16)TQFontInfo( font ).pointSize() * 10;
+#endif
+	}
+	s << pointSize;
+    } else {
+	s << (TQ_INT16) font.d->request.pointSize;
+	s << (TQ_INT16) font.d->request.pixelSize;
+    }
+
+    s << (TQ_UINT8) font.d->request.tqstyleHint;
+    if ( s.version() >= 5 )
+	s << (TQ_UINT8 ) font.d->request.styleStrategy;
+    return s << (TQ_UINT8) 0
+	     << (TQ_UINT8) font.d->request.weight
+	     << get_font_bits(font.d);
+}
+
+
+/*!
+    \relates TQFont
+
+    Reads the font \a font from the data stream \a s. (fromString()
+    reads from a text stream.)
+
+    \sa \link datastreamformat.html Format of the TQDataStream operators \endlink
+*/
+TQDataStream &operator>>( TQDataStream &s, TQFont &font )
+{
+    if (font.d->deref()) delete font.d;
+
+    font.d = new TQFontPrivate;
+    font.d->tqmask = TQFontPrivate::Complete;
+
+    TQ_INT16 pointSize, pixelSize = -1;
+    TQ_UINT8 tqstyleHint, styleStrategy = TQFont::PreferDefault, charSet, weight, bits;
+
+    if ( s.version() == 1 ) {
+	TQCString fam;
+	s >> fam;
+	font.d->request.family = TQString( fam );
+    } else {
+	s >> font.d->request.family;
+    }
+
+    s >> pointSize;
+    if ( s.version() >= 4 )
+	s >> pixelSize;
+    s >> tqstyleHint;
+    if ( s.version() >= 5 )
+	s >> styleStrategy;
+    s >> charSet;
+    s >> weight;
+    s >> bits;
+
+    font.d->request.pointSize = pointSize;
+    font.d->request.pixelSize = pixelSize;
+    font.d->request.tqstyleHint = tqstyleHint;
+    font.d->request.styleStrategy = styleStrategy;
+    font.d->request.weight = weight;
+
+    set_font_bits( bits, font.d );
+
+    return s;
+}
+
+#endif // TQT_NO_DATASTREAM
+
+
+
+
+/*****************************************************************************
+  TQFontMetrics member functions
+ *****************************************************************************/
+
+/*!
+    \class TQFontMetrics tqfontmetrics.h
+    \brief The TQFontMetrics class provides font metrics information.
+
+    \ingroup graphics
+    \ingroup shared
+
+    TQFontMetrics functions calculate the size of characters and
+    strings for a given font. There are three ways you can create a
+    TQFontMetrics object:
+
+    \list 1
+    \i Calling the TQFontMetrics constructor with a TQFont creates a
+    font metrics object for a screen-compatible font, i.e. the font
+    cannot be a printer font<sup>*</sup>. If the font is changed
+    later, the font metrics object is \e not updated.
+
+    \i TQWidget::fontMetrics() returns the font metrics for a widget's
+    font. This is equivalent to TQFontMetrics(widget->font()). If the
+    widget's font is changed later, the font metrics object is \e not
+    updated.
+
+    \i TQPainter::fontMetrics() returns the font metrics for a
+    painter's current font. If the painter's font is changed later, the
+    font metrics object is \e not updated.
+    \endlist
+
+    <sup>*</sup> If you use a printer font the values returned may be
+    inaccurate. Printer fonts are not always accessible so the nearest
+    screen font is used if a printer font is supplied.
+
+    Once created, the object provides functions to access the
+    individual metrics of the font, its characters, and for strings
+    rendered in the font.
+
+    There are several functions that operate on the font: ascent(),
+    descent(), height(), leading() and lineSpacing() return the basic
+    size properties of the font. The underlinePos(), overlinePos(),
+    strikeOutPos() and lineWidth() functions, return the properties of
+    the line that underlines, overlines or strikes out the
+    characters. These functions are all fast.
+
+    There are also some functions that operate on the set of glyphs in
+    the font: minLeftBearing(), minRightBearing() and maxWidth().
+    These are by necessity slow, and we recommend avoiding them if
+    possible.
+
+    For each character, you can get its width(), leftBearing() and
+    rightBearing() and tqfind out whether it is in the font using
+    inFont(). You can also treat the character as a string, and use
+    the string functions on it.
+
+    The string functions include width(), to return the width of a
+    string in pixels (or points, for a printer), boundingRect(), to
+    return a rectangle large enough to contain the rendered string,
+    and size(), to return the size of that rectangle.
+
+    Example:
+    \code
+    TQFont font( "times", 24 );
+    TQFontMetrics fm( font );
+    int pixelsWide = fm.width( "What's the width of this text?" );
+    int pixelsHigh = fm.height();
+    \endcode
+
+    \sa TQFont TQFontInfo TQFontDatabase
+*/
+
+/*!
+    Constructs a font metrics object for \a font.
+
+    The font must be screen-compatible, i.e. a font you use when
+    drawing text in \link TQWidget widgets\endlink or \link TQPixmap
+    pixmaps\endlink, not TQPicture or TQPrinter.
+
+    The font metrics object holds the information for the font that is
+    passed in the constructor at the time it is created, and is not
+    updated if the font's attributes are changed later.
+
+  Use TQPainter::fontMetrics() to get the font metrics when painting.
+  This will give correct results also when painting on paint tqdevice
+  that is not screen-compatible.
+*/
+TQFontMetrics::TQFontMetrics( const TQFont &font )
+    : d( font.d ), painter( 0 ), fscript( TQFont::NoScript )
+{
+    d->ref();
+}
+
+/*!
+    \overload
+
+    Constructs a font metrics object for \a font using the given \a
+    script.
+*/
+TQFontMetrics::TQFontMetrics( const TQFont &font, TQFont::Script script )
+    : d( font.d ), painter( 0 ), fscript( script )
+{
+    d->ref();
+}
+
+/*! \internal
+
+  Constructs a font metrics object for the painter's font \a p.
+*/
+TQFontMetrics::TQFontMetrics( const TQPainter *p )
+    : painter ( (TQPainter *) p ), fscript( TQFont::NoScript )
+{
+#if defined(CHECK_STATE)
+    if ( !painter->isActive() )
+	qWarning( "TQFontMetrics: Get font metrics between TQPainter::begin() "
+		  "and TQPainter::end()" );
+#endif
+
+    if ( painter->testf(TQPainter::DirtyFont) )
+	painter->updateFont();
+
+    d = painter->pfont ? painter->pfont->d : painter->cfont.d;
+
+#if defined(TQ_WS_X11)
+    if ( d->screen != p->scrn ) {
+	TQFontPrivate *new_d = new TQFontPrivate( *d );
+	TQ_CHECK_PTR( new_d );
+	d = new_d;
+	d->screen = p->scrn;
+	d->count = 1;
+    } else
+#endif // TQ_WS_X11
+	d->ref();
+}
+
+/*!
+    Constructs a copy of \a fm.
+*/
+TQFontMetrics::TQFontMetrics( const TQFontMetrics &fm )
+    : d( fm.d ), painter( 0 ),  fscript( fm.fscript )
+{
+    d->ref();
+}
+
+/*!
+    Destroys the font metrics object and frees all allocated
+    resources.
+*/
+TQFontMetrics::~TQFontMetrics()
+{
+    if ( d->deref() )
+	delete d;
+}
+
+/*!
+    Assigns the font metrics \a fm.
+*/
+TQFontMetrics &TQFontMetrics::operator=( const TQFontMetrics &fm )
+{
+    if ( d != fm.d ) {
+	if ( d->deref() )
+	    delete d;
+	d = fm.d;
+	d->ref();
+    }
+    painter = fm.painter;
+    return *this;
+}
+
+/*!
+    Returns the ascent of the font.
+
+    The ascent of a font is the distance from the baseline to the
+    highest position characters extend to. In practice, some font
+    designers break this rule, e.g. when they put more than one accent
+    on top of a character, or to accommodate an unusual character in
+    an exotic language, so it is possible (though rare) that this
+    value will be too small.
+
+    \sa descent()
+*/
+int TQFontMetrics::ascent() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+    TQFontEngine *latin_engine = d->engineForScript( TQFont::Latin );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+    TQ_ASSERT( latin_engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return TQMAX(engine->ascent(), latin_engine->ascent());
+}
+
+
+/*!
+    Returns the descent of the font.
+
+    The descent is the distance from the base line to the lowest point
+    characters extend to. (Note that this is different from X, which
+    adds 1 pixel.) In practice, some font designers break this rule,
+    e.g. to accommodate an unusual character in an exotic language, so
+    it is possible (though rare) that this value will be too small.
+
+    \sa ascent()
+*/
+int TQFontMetrics::descent() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+    TQFontEngine *latin_engine = d->engineForScript( TQFont::Latin );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+    TQ_ASSERT( latin_engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return TQMAX(engine->descent(), latin_engine->descent());
+}
+
+/*!
+    Returns the height of the font.
+
+    This is always equal to ascent()+descent()+1 (the 1 is for the
+    base line).
+
+    \sa leading(), lineSpacing()
+*/
+int TQFontMetrics::height() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+    TQFontEngine *latin_engine = d->engineForScript( TQFont::Latin );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+    TQ_ASSERT( latin_engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return (TQMAX(engine->ascent(), latin_engine->ascent()) +
+	    TQMAX(engine->descent(), latin_engine->descent()) + 1);
+}
+
+/*!
+    Returns the leading of the font.
+
+    This is the natural inter-line spacing.
+
+    \sa height(), lineSpacing()
+*/
+int TQFontMetrics::leading() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+    TQFontEngine *latin_engine = d->engineForScript( TQFont::Latin );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+    TQ_ASSERT( latin_engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return TQMAX(engine->leading(), latin_engine->leading());
+}
+
+/*!
+    Returns the distance from one base line to the next.
+
+    This value is always equal to leading()+height().
+
+    \sa height(), leading()
+*/
+int TQFontMetrics::lineSpacing() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+    TQFontEngine *latin_engine = d->engineForScript( TQFont::Latin );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+    TQ_ASSERT( latin_engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return (TQMAX(engine->leading(), latin_engine->leading()) +
+	    TQMAX(engine->ascent(), latin_engine->ascent()) +
+	    TQMAX(engine->descent(), latin_engine->descent()) + 1);
+}
+
+/*!
+    Returns the minimum left bearing of the font.
+
+    This is the smallest leftBearing(char) of all characters in the
+    font.
+
+    Note that this function can be very slow if the font is large.
+
+    \sa minRightBearing(), leftBearing()
+*/
+int TQFontMetrics::minLeftBearing() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+    TQFontEngine *latin_engine = d->engineForScript( TQFont::Latin );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+    TQ_ASSERT( latin_engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return TQMIN(engine->minLeftBearing(), latin_engine->minLeftBearing());
+}
+
+/*!
+    Returns the minimum right bearing of the font.
+
+    This is the smallest rightBearing(char) of all characters in the
+    font.
+
+    Note that this function can be very slow if the font is large.
+
+    \sa minLeftBearing(), rightBearing()
+*/
+int TQFontMetrics::minRightBearing() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+    TQFontEngine *latin_engine = d->engineForScript( TQFont::Latin );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+    TQ_ASSERT( latin_engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return TQMIN(engine->minRightBearing(), latin_engine->minRightBearing());
+}
+
+/*!
+    Returns the width of the widest character in the font.
+*/
+int TQFontMetrics::maxWidth() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+    TQFontEngine *lengine = d->engineForScript( TQFont::Latin );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+    TQ_ASSERT( lengine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return TQMAX(engine->maxCharWidth(), lengine->maxCharWidth());
+}
+
+/*!
+    Returns TRUE if character \a ch is a valid character in the font;
+    otherwise returns FALSE.
+*/
+bool TQFontMetrics::inFont(TQChar ch) const
+{
+    TQFont::Script script;
+    SCRIPT_FOR_CHAR( script, ch );
+
+    TQFontEngine *engine = d->engineForScript( script );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    if ( engine->type() == TQFontEngine::Box ) return FALSE;
+    return engine->canRender( &ch, 1 );
+}
+
+/*! \fn int TQFontMetrics::leftBearing( TQChar ch ) const
+    Returns the left bearing of character \a ch in the font.
+
+    The left bearing is the right-ward distance of the left-most pixel
+    of the character from the logical origin of the character. This
+    value is negative if the pixels of the character extend to the
+    left of the logical origin.
+
+    See width(TQChar) for a graphical description of this metric.
+
+    \sa rightBearing(), minLeftBearing(), width()
+*/
+#if !defined(TQ_WS_WIN) && !defined(TQ_WS_TQWS)
+int TQFontMetrics::leftBearing(TQChar ch) const
+{
+    TQFont::Script script;
+    SCRIPT_FOR_CHAR( script, ch );
+
+    TQFontEngine *engine = d->engineForScript( script );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    if ( engine->type() == TQFontEngine::Box ) return 0;
+
+    glyph_t glyphs[10];
+    int nglyphs = 9;
+    engine->stringToCMap( &ch, 1, glyphs, 0, &nglyphs, FALSE );
+    // ### can nglyphs != 1 happen at all? Not currently I think
+    glyph_metrics_t gi = engine->boundingBox( glyphs[0] );
+    return gi.x;
+}
+#endif // !TQ_WS_WIN
+
+/*! \fn int TQFontMetrics::rightBearing(TQChar ch) const
+    Returns the right bearing of character \a ch in the font.
+
+    The right bearing is the left-ward distance of the right-most
+    pixel of the character from the logical origin of a subsequent
+    character. This value is negative if the pixels of the character
+    extend to the right of the width() of the character.
+
+    See width() for a graphical description of this metric.
+
+    \sa leftBearing(), minRightBearing(), width()
+*/
+#if !defined(TQ_WS_WIN) && !defined(TQ_WS_TQWS)
+int TQFontMetrics::rightBearing(TQChar ch) const
+{
+    TQFont::Script script;
+    SCRIPT_FOR_CHAR( script, ch );
+
+    TQFontEngine *engine = d->engineForScript( script );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    if ( engine->type() == TQFontEngine::Box ) return 0;
+
+    glyph_t glyphs[10];
+    int nglyphs = 9;
+    engine->stringToCMap( &ch, 1, glyphs, 0, &nglyphs, FALSE );
+    // ### can nglyphs != 1 happen at all? Not currently I think
+    glyph_metrics_t gi = engine->boundingBox( glyphs[0] );
+    return gi.xoff - gi.x - gi.width;
+}
+#endif // !TQ_WS_WIN
+
+
+#ifndef TQ_WS_TQWS
+/*!
+    Returns the width in pixels of the first \a len characters of \a
+    str. If \a len is negative (the default), the entire string is
+    used.
+
+    Note that this value is \e not equal to boundingRect().width();
+    boundingRect() returns a rectangle describing the pixels this
+    string will cover whereas width() returns the distance to where
+    the next string should be drawn.
+
+    \sa boundingRect()
+*/
+int TQFontMetrics::width( const TQString &str, int len ) const
+{
+    if (len < 0)
+	len = str.length();
+    if (len == 0)
+	return 0;
+
+    int pos = 0;
+    int width = 0;
+#ifndef TQ_WS_MAC
+    const TQChar *ch = str.tqunicode();
+
+    while (pos < len) {
+	unsigned short uc = ch->tqunicode();
+	if (uc < TQFontEngineData::widthCacheSize && d->engineData && d->engineData->widthCache[uc])
+	    width += d->engineData->widthCache[uc];
+	else {
+	    TQFont::Script script;
+	    SCRIPT_FOR_CHAR( script, *ch );
+
+	    if (script >= TQFont::Arabic && script <= TQFont::Khmer)
+		break;
+            if ( ::category( *ch ) != TQChar::Mark_NonSpacing && !qIsZeroWidthChar(ch->tqunicode())) {
+                TQFontEngine *engine = d->engineForScript( script );
+#ifdef TQT_CHECK_STATE
+                TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+
+                glyph_t glyphs[8];
+                advance_t advances[8];
+                int nglyphs = 7;
+                engine->stringToCMap( ch, 1, glyphs, advances, &nglyphs, FALSE );
+
+                // ### can nglyphs != 1 happen at all? Not currently I think
+                if ( uc < TQFontEngineData::widthCacheSize && advances[0] > 0 && advances[0] < 0x100 )
+                    d->engineData->widthCache[ uc ] = advances[0];
+                width += advances[0];
+            }
+	}
+	++pos;
+	++ch;
+    }
+    if ( pos < len ) {
+#endif
+	TQTextEngine tqlayout( str, d );
+	tqlayout.itemize( TQTextEngine::WidthOnly );
+	width += tqlayout.width( pos, len-pos );
+#ifndef TQ_WS_MAC
+    }
+#endif
+    return width;
+}
+#endif
+
+/*! \fn int TQFontMetrics::width( TQChar ch ) const
+
+    <img src="bearings.png" align=right>
+
+    Returns the logical width of character \a ch in pixels. This is a
+    distance appropriate for drawing a subsequent character after \a
+    ch.
+
+    Some of the metrics are described in the image to the right. The
+    central dark rectangles cover the logical width() of each
+    character. The outer pale rectangles cover the leftBearing() and
+    rightBearing() of each character. Notice that the bearings of "f"
+    in this particular font are both negative, while the bearings of
+    "o" are both positive.
+
+    \warning This function will produce incorrect results for Arabic
+    characters or non spacing marks in the middle of a string, as the
+    glyph shaping and positioning of marks that happens when
+    processing strings cannot be taken into account. Use charWidth()
+    instead if you aren't looking for the width of isolated
+    characters.
+
+    \sa boundingRect(), charWidth()
+*/
+
+/*! \fn int TQFontMetrics::width( char c ) const
+
+  \overload
+  \obsolete
+
+  Provided to aid porting from TQt 1.x.
+*/
+
+/*! \fn int TQFontMetrics::charWidth( const TQString &str, int pos ) const
+    Returns the width of the character at position \a pos in the
+    string \a str.
+
+    The whole string is needed, as the glyph drawn may change
+    depending on the context (the letter before and after the current
+    one) for some languages (e.g. Arabic).
+
+    This function also takes non spacing marks and ligatures into
+    account.
+*/
+
+#ifndef TQ_WS_TQWS
+/*!
+    Returns the bounding rectangle of the first \a len characters of
+    \a str, which is the set of pixels the text would cover if drawn
+    at (0, 0).
+
+    If \a len is negative (the default), the entire string is used.
+
+    Note that the bounding rectangle may extend to the left of (0, 0),
+    e.g. for italicized fonts, and that the text output may cover \e
+    all pixels in the bounding rectangle.
+
+    Newline characters are processed as normal characters, \e not as
+    linebreaks.
+
+    Due to the different actual character heights, the height of the
+    bounding rectangle of e.g. "Yes" and "yes" may be different.
+
+    \sa width(), TQPainter::boundingRect()
+*/
+TQRect TQFontMetrics::boundingRect( const TQString &str, int len ) const
+{
+    if (len < 0)
+	len = str.length();
+    if (len == 0)
+	return TQRect();
+
+    TQTextEngine tqlayout( str, d );
+    tqlayout.itemize( TQTextEngine::NoBidi|TQTextEngine::SingleLine );
+    glyph_metrics_t gm = tqlayout.boundingBox( 0, len );
+    return TQRect( gm.x, gm.y, gm.width, gm.height );
+}
+#endif
+
+/*!
+    Returns the rectangle that is covered by ink if the character
+    specified by \a ch were to be drawn at the origin of the coordinate
+    system.
+
+    Note that the bounding rectangle may extend to the left of (0, 0),
+    e.g. for italicized fonts, and that the text output may cover \e
+    all pixels in the bounding rectangle. For a space character the rectangle
+    will usually be empty.
+
+    Note that the rectangle usually extends both above and below the
+    base line.
+
+    \warning The width of the returned rectangle is not the advance width
+    of the character. Use boundingRect(const TQString &) or width() instead.
+
+    \sa width()
+*/
+TQRect TQFontMetrics::boundingRect( TQChar ch ) const
+{
+    TQFont::Script script;
+    SCRIPT_FOR_CHAR( script, ch );
+
+    TQFontEngine *engine = d->engineForScript( script );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    glyph_t glyphs[10];
+    int nglyphs = 9;
+    engine->stringToCMap( &ch, 1, glyphs, 0, &nglyphs, FALSE );
+    glyph_metrics_t gi = engine->boundingBox( glyphs[0] );
+    return TQRect( gi.x, gi.y, gi.width, gi.height );
+}
+
+/*!
+    \overload
+
+    Returns the bounding rectangle of the first \a len characters of
+    \a str, which is the set of pixels the text would cover if drawn
+    at (0, 0). The drawing, and hence the bounding rectangle, is
+    constrained to the rectangle (\a x, \a y, \a w, \a h).
+
+    If \a len is negative (which is the default), the entire string is
+    used.
+
+    The \a flgs argument is the bitwise OR of the following flags:
+    \list
+    \i \c AlignAuto aligns to the left border for all languages except
+	  Arabic and Hebrew where it aligns to the right.
+    \i \c AlignLeft aligns to the left border.
+    \i \c AlignRight aligns to the right border.
+    \i \c AlignJustify produces justified text.
+    \i \c AlignHCenter aligns horizontally centered.
+    \i \c AlignTop aligns to the top border.
+    \i \c AlignBottom aligns to the bottom border.
+    \i \c AlignVCenter aligns vertically centered
+    \i \c AlignCenter (== \c{AlignHCenter | AlignVCenter})
+    \i \c SingleLine ignores newline characters in the text.
+    \i \c ExpandTabs expands tabs (see below)
+    \i \c ShowPrefix interprets "&amp;x" as "<u>x</u>", i.e. underlined.
+    \i \c WordBreak breaks the text to fit the rectangle.
+    \endlist
+
+    Horizontal tqalignment defaults to \c AlignAuto and vertical
+    tqalignment defaults to \c AlignTop.
+
+    If several of the horizontal or several of the vertical tqalignment
+    flags are set, the resulting tqalignment is undefined.
+
+    These flags are defined in \c tqnamespace.h.
+
+    If \c ExpandTabs is set in \a flgs, then: if \a tabarray is
+    non-null, it specifies a 0-terminated sequence of pixel-positions
+    for tabs; otherwise if \a tabstops is non-zero, it is used as the
+    tab spacing (in pixels).
+
+    Note that the bounding rectangle may extend to the left of (0, 0),
+    e.g. for italicized fonts, and that the text output may cover \e
+    all pixels in the bounding rectangle.
+
+    Newline characters are processed as linebreaks.
+
+    Despite the different actual character heights, the heights of the
+    bounding rectangles of "Yes" and "yes" are the same.
+
+    The bounding rectangle given by this function is somewhat larger
+    than that calculated by the simpler boundingRect() function. This
+    function uses the \link minLeftBearing() maximum left \endlink and
+    \link minRightBearing() right \endlink font bearings as is
+    necessary for multi-line text to align correctly. Also,
+    fontHeight() and lineSpacing() are used to calculate the height,
+    rather than individual character heights.
+
+    The \a intern argument should not be used.
+
+    \sa width(), TQPainter::boundingRect(), TQt::AlignmentFlags
+*/
+TQRect TQFontMetrics::boundingRect( int x, int y, int w, int h, int flgs,
+				  const TQString& str, int len, int tabstops,
+				  int *tabarray, TQTextParag **intern ) const
+{
+    if ( len < 0 )
+	len = str.length();
+
+    int tabarraylen=0;
+    if (tabarray)
+	while (tabarray[tabarraylen])
+	    tabarraylen++;
+
+    TQRect rb;
+    TQRect r(x, y, w, h);
+    qt_format_text( TQFont( d, d->painttqdevice ), r, flgs|TQt::DontPrint, str, len, &rb,
+		    tabstops, tabarray, tabarraylen, intern, 0 );
+
+    return rb;
+}
+
+/*!
+    Returns the size in pixels of the first \a len characters of \a
+    str.
+
+    If \a len is negative (the default), the entire string is used.
+
+    The \a flgs argument is the bitwise OR of the following flags:
+    \list
+    \i \c SingleLine ignores newline characters.
+    \i \c ExpandTabs expands tabs (see below)
+    \i \c ShowPrefix interprets "&amp;x" as "<u>x</u>", i.e. underlined.
+    \i \c WordBreak breaks the text to fit the rectangle.
+    \endlist
+
+    These flags are defined in \c tqnamespace.h.
+
+    If \c ExpandTabs is set in \a flgs, then: if \a tabarray is
+    non-null, it specifies a 0-terminated sequence of pixel-positions
+    for tabs; otherwise if \a tabstops is non-zero, it is used as the
+    tab spacing (in pixels).
+
+    Newline characters are processed as linebreaks.
+
+    Despite the different actual character heights, the heights of the
+    bounding rectangles of "Yes" and "yes" are the same.
+
+    The \a intern argument should not be used.
+
+    \sa boundingRect()
+*/
+TQSize TQFontMetrics::size( int flgs, const TQString &str, int len, int tabstops,
+			  int *tabarray, TQTextParag **intern ) const
+{
+    return boundingRect(0,0,0,0,flgs,str,len,tabstops,tabarray,intern).size();
+}
+
+/*!
+    Returns the distance from the base line to where an underscore
+    should be drawn.
+
+    \sa overlinePos(), strikeOutPos(), lineWidth()
+*/
+int TQFontMetrics::underlinePos() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return engine->underlinePosition();
+}
+
+/*!
+    Returns the distance from the base line to where an overline
+    should be drawn.
+
+    \sa underlinePos(), strikeOutPos(), lineWidth()
+*/
+int TQFontMetrics::overlinePos() const
+{
+    int pos = ascent() + 1;
+    return pos > 0 ? pos : 1;
+}
+
+/*!
+    Returns the distance from the base line to where the strikeout
+    line should be drawn.
+
+    \sa underlinePos(), overlinePos(), lineWidth()
+*/
+int TQFontMetrics::strikeOutPos() const
+{
+    int pos = ascent() / 3;
+    return pos > 0 ? pos : 1;
+}
+
+/*!
+    Returns the width of the underline and strikeout lines, adjusted
+    for the point size of the font.
+
+    \sa underlinePos(), overlinePos(), strikeOutPos()
+*/
+int TQFontMetrics::lineWidth() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return engine->lineThickness();
+}
+
+
+
+
+/*****************************************************************************
+  TQFontInfo member functions
+ *****************************************************************************/
+
+/*!
+    \class TQFontInfo tqfontinfo.h
+
+    \brief The TQFontInfo class provides general information about fonts.
+
+    \ingroup graphics
+    \ingroup shared
+
+    The TQFontInfo class provides the same access functions as TQFont,
+    e.g. family(), pointSize(), italic(), weight(), fixedPitch(),
+    tqstyleHint() etc. But whilst the TQFont access functions return the
+    values that were set, a TQFontInfo object returns the values that
+    apply to the font that will actually be used to draw the text.
+
+    For example, when the program asks for a 25pt Courier font on a
+    machine that has a non-scalable 24pt Courier font, TQFont will
+    (normally) use the 24pt Courier for rendering. In this case,
+    TQFont::pointSize() returns 25 and TQFontInfo::pointSize() returns
+    24.
+
+    There are three ways to create a TQFontInfo object.
+    \list 1
+    \i Calling the TQFontInfo constructor with a TQFont creates a font
+    info object for a screen-compatible font, i.e. the font cannot be
+    a printer font<sup>*</sup>. If the font is changed later, the font
+    info object is \e not updated.
+
+    \i TQWidget::fontInfo() returns the font info for a widget's font.
+    This is equivalent to calling TQFontInfo(widget->font()). If the
+    widget's font is changed later, the font info object is \e not
+    updated.
+
+    \i TQPainter::fontInfo() returns the font info for a painter's
+    current font. If the painter's font is changed later, the font
+    info object is \e not updated.
+    \endlist
+
+    <sup>*</sup> If you use a printer font the values returned may be
+    inaccurate. Printer fonts are not always accessible so the nearest
+    screen font is used if a printer font is supplied.
+
+    \sa TQFont TQFontMetrics TQFontDatabase
+*/
+
+/*!
+    Constructs a font info object for \a font.
+
+    The font must be screen-compatible, i.e. a font you use when
+    drawing text in \link TQWidget widgets\endlink or \link TQPixmap
+    pixmaps\endlink, not TQPicture or TQPrinter.
+
+    The font info object holds the information for the font that is
+    passed in the constructor at the time it is created, and is not
+    updated if the font's attributes are changed later.
+
+    Use TQPainter::fontInfo() to get the font info when painting.
+    This will give correct results also when painting on paint tqdevice
+    that is not screen-compatible.
+*/
+TQFontInfo::TQFontInfo( const TQFont &font )
+    : d( font.d ), painter( 0 ), fscript( TQFont::NoScript )
+{
+    d->ref();
+}
+
+/*!
+    Constructs a font info object for \a font using the specified \a
+    script.
+*/
+TQFontInfo::TQFontInfo( const TQFont &font, TQFont::Script script )
+    : d( font.d ), painter( 0 ), fscript( script )
+{
+    d->ref();
+}
+
+/*! \internal
+
+  Constructs a font info object from the painter's font \a p.
+*/
+TQFontInfo::TQFontInfo( const TQPainter *p )
+    : painter( 0 ), fscript( TQFont::NoScript )
+{
+    TQPainter *painter = (TQPainter *) p;
+
+#if defined(CHECK_STATE)
+    if ( !painter->isActive() )
+	qWarning( "TQFontInfo: Get font info between TQPainter::begin() "
+		  "and TQPainter::end()" );
+#endif
+
+    painter->setf( TQPainter::FontInf );
+    if ( painter->testf(TQPainter::DirtyFont) )
+	painter->updateFont();
+    if ( painter->pfont )
+	d = painter->pfont->d;
+    else
+	d = painter->cfont.d;
+    d->ref();
+}
+
+/*!
+    Constructs a copy of \a fi.
+*/
+TQFontInfo::TQFontInfo( const TQFontInfo &fi )
+    : d(fi.d), painter(0), fscript( fi.fscript )
+{
+    d->ref();
+}
+
+/*!
+    Destroys the font info object.
+*/
+TQFontInfo::~TQFontInfo()
+{
+    if ( d->deref() )
+	delete d;
+}
+
+/*!
+    Assigns the font info in \a fi.
+*/
+TQFontInfo &TQFontInfo::operator=( const TQFontInfo &fi )
+{
+    if ( d != fi.d ) {
+	if ( d->deref() )
+	    delete d;
+	d = fi.d;
+	d->ref();
+    }
+    painter = 0;
+    fscript = fi.fscript;
+    return *this;
+}
+
+/*!
+    Returns the family name of the matched window system font.
+
+    \sa TQFont::family()
+*/
+TQString TQFontInfo::family() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+    return engine->fontDef.family;
+}
+
+/*!
+    Returns the point size of the matched window system font.
+
+    \sa TQFont::pointSize()
+*/
+int TQFontInfo::pointSize() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+    return ( engine->fontDef.pointSize + 5 ) / 10;
+}
+
+/*!
+    Returns the pixel size of the matched window system font.
+
+    \sa TQFont::pointSize()
+*/
+int TQFontInfo::pixelSize() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+    return engine->fontDef.pixelSize;
+}
+
+/*!
+    Returns the italic value of the matched window system font.
+
+    \sa TQFont::italic()
+*/
+bool TQFontInfo::italic() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+    return engine->fontDef.italic;
+}
+
+/*!
+    Returns the weight of the matched window system font.
+
+    \sa TQFont::weight(), bold()
+*/
+int TQFontInfo::weight() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+    return engine->fontDef.weight;
+
+}
+
+/*!
+    \fn bool TQFontInfo::bold() const
+
+    Returns TRUE if weight() would return a value greater than \c
+    TQFont::Normal; otherwise returns FALSE.
+
+    \sa weight(), TQFont::bold()
+*/
+
+/*!
+    Returns the underline value of the matched window system font.
+
+  \sa TQFont::underline()
+
+  \internal
+
+  Here we read the underline flag directly from the TQFont.
+  This is OK for X11 and for Windows because we always get what we want.
+*/
+bool TQFontInfo::underline() const
+{
+    return d->underline;
+}
+
+/*!
+    Returns the overline value of the matched window system font.
+
+    \sa TQFont::overline()
+
+    \internal
+
+    Here we read the overline flag directly from the TQFont.
+    This is OK for X11 and for Windows because we always get what we want.
+*/
+bool TQFontInfo::overline() const
+{
+    return d->overline;
+}
+
+/*!
+    Returns the strikeout value of the matched window system font.
+
+  \sa TQFont::strikeOut()
+
+  \internal Here we read the strikeOut flag directly from the TQFont.
+  This is OK for X11 and for Windows because we always get what we want.
+*/
+bool TQFontInfo::strikeOut() const
+{
+    return d->strikeOut;
+}
+
+/*!
+    Returns the fixed pitch value of the matched window system font.
+
+    \sa TQFont::fixedPitch()
+*/
+bool TQFontInfo::fixedPitch() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+#ifdef TQ_OS_MAC
+    if (!engine->fontDef.fixedPitchComputed) {
+	TQChar ch[2] = { TQChar('i'), TQChar('m') };
+	glyph_t g[2];
+	int l = 2;
+	advance_t a[2];
+	engine->stringToCMap(ch, 2, g, a, &l, FALSE);
+	engine->fontDef.fixedPitch = a[0] == a[1];
+	engine->fontDef.fixedPitchComputed = TRUE;
+    }
+#endif
+    return engine->fontDef.fixedPitch;
+}
+
+/*!
+    Returns the style of the matched window system font.
+
+    Currently only returns the style hint set in TQFont.
+
+    \sa TQFont::tqstyleHint() TQFont::StyleHint
+*/
+TQFont::StyleHint TQFontInfo::tqstyleHint() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+    return (TQFont::StyleHint) engine->fontDef.tqstyleHint;
+}
+
+/*!
+    Returns TRUE if the font is a raw mode font; otherwise returns
+    FALSE.
+
+    If it is a raw mode font, all other functions in TQFontInfo will
+    return the same values set in the TQFont, regardless of the font
+    actually used.
+
+    \sa TQFont::rawMode()
+*/
+bool TQFontInfo::rawMode() const
+{
+    return d->rawMode;
+}
+
+/*!
+    Returns TRUE if the matched window system font is exactly the same
+    as the one specified by the font; otherwise returns FALSE.
+
+    \sa TQFont::exactMatch()
+*/
+bool TQFontInfo::exactMatch() const
+{
+    TQFontEngine *engine = d->engineForScript( (TQFont::Script) fscript );
+#ifdef TQT_CHECK_STATE
+    TQ_ASSERT( engine != 0 );
+#endif // TQT_CHECK_STATE
+
+    return d->rawMode ? engine->type() != TQFontEngine::Box
+			     : d->request == engine->fontDef;
+}
+
+
+
+
+// **********************************************************************
+// TQFontCache
+// **********************************************************************
+
+#ifdef TQFONTCACHE_DEBUG
+// fast timeouts for debugging
+static const int fast_timeout =   1000;  // 1s
+static const int slow_timeout =   5000;  // 5s
+#else
+static const int fast_timeout =  10000; // 10s
+static const int slow_timeout = 300000; //  5m
+#endif // TQFONTCACHE_DEBUG
+
+TQFontCache *TQFontCache::instance = 0;
+const uint TQFontCache::min_cost = 4*1024; // 4mb
+
+static TQSingleCleanupHandler<TQFontCache> cleanup_fontcache;
+
+
+TQFontCache::TQFontCache()
+    : TQObject( tqApp, "global font cache" ), total_cost( 0 ), max_cost( min_cost ),
+      current_timestamp( 0 ), fast( FALSE ), timer_id( -1 )
+{
+    TQ_ASSERT( instance == 0 );
+    instance = this;
+    cleanup_fontcache.set( &instance );
+}
+
+TQFontCache::~TQFontCache()
+{
+    {
+	EngineDataCache::Iterator it = engineDataCache.begin(),
+				 end = engineDataCache.end();
+	while ( it != end ) {
+	    if ( it.data()->count == 0 )
+		delete it.data();
+	    else
+		FC_DEBUG("TQFontCache::~TQFontCache: engineData %p still has refcount %d",
+			 it.data(), it.data()->count);
+	    ++it;
+	}
+    }
+    EngineCache::Iterator it = engineCache.begin(),
+			 end = engineCache.end();
+    while ( it != end ) {
+	if ( it.data().data->count == 0 ) {
+	    if ( --it.data().data->cache_count == 0 ) {
+		FC_DEBUG("TQFontCache::~TQFontCache: deleting engine %p key=(%d / %d %d %d %d %d)",
+			 it.data().data, it.key().script, it.key().def.pointSize,
+			 it.key().def.pixelSize, it.key().def.weight, it.key().def.italic,
+			 it.key().def.fixedPitch);
+
+		delete it.data().data;
+	    }
+	} else {
+	    FC_DEBUG("TQFontCache::~TQFontCache: engine = %p still has refcount %d",
+		     it.data().data, it.data().data->count);
+	}
+	++it;
+    }
+    instance = 0;
+}
+
+#ifdef TQ_WS_TQWS
+void TQFontCache::clear()
+{
+    {
+	EngineDataCache::Iterator it = engineDataCache.begin(),
+				 end = engineDataCache.end();
+	while ( it != end ) {
+	    TQFontEngineData *data = it.data();
+	    if ( data->engine )
+		data->engine->deref();
+	    data->engine = 0;
+	    ++it;
+	}
+    }
+
+    EngineCache::Iterator it = engineCache.begin(),
+			 end = engineCache.end();
+    while ( it != end ) {
+	if ( it.data().data->count == 0 ) {
+	    if ( --it.data().data->cache_count == 0 ) {
+		FC_DEBUG("TQFontCache::~TQFontCache: deleting engine %p key=(%d / %d %d %d %d %d)",
+			 it.data().data, it.key().script, it.key().def.pointSize,
+			 it.key().def.pixelSize, it.key().def.weight, it.key().def.italic,
+			 it.key().def.fixedPitch);
+		delete it.data().data;
+	    }
+	} else {
+	    FC_DEBUG("TQFontCache::~TQFontCache: engine = %p still has refcount %d",
+		     it.data().data, it.data().data->count);
+	}
+	++it;
+    }
+}
+#endif
+
+TQFontEngineData *TQFontCache::tqfindEngineData( const Key &key ) const
+{
+    EngineDataCache::ConstIterator it = engineDataCache.tqfind( key ),
+				  end = engineDataCache.end();
+    if ( it == end ) return 0;
+
+    // found
+    return it.data();
+}
+
+void TQFontCache::insertEngineData( const Key &key, TQFontEngineData *engineData )
+{
+    FC_DEBUG( "TQFontCache: inserting new engine data %p", engineData );
+
+    engineDataCache.insert( key, engineData );
+    increaseCost( sizeof( TQFontEngineData ) );
+}
+
+TQFontEngine *TQFontCache::tqfindEngine( const Key &key )
+{
+    EngineCache::Iterator it = engineCache.tqfind( key ),
+			 end = engineCache.end();
+    if ( it == end ) return 0;
+
+    // found... update the hitcount and timestamp
+    it.data().hits++;
+    it.data().timestamp = ++current_timestamp;
+
+    FC_DEBUG( "TQFontCache: found font engine\n"
+	    "  %p: timestamp %4u hits %3u ref %2d/%2d, type '%s'",
+	    it.data().data, it.data().timestamp, it.data().hits,
+	    it.data().data->count, it.data().data->cache_count,
+	    it.data().data->name() );
+
+    return it.data().data;
+}
+
+void TQFontCache::insertEngine( const Key &key, TQFontEngine *engine )
+{
+    FC_DEBUG( "TQFontCache: inserting new engine %p", engine );
+
+    Engine data( engine );
+    data.timestamp = ++current_timestamp;
+
+    engineCache.insert( key, data );
+
+    // only increase the cost if this is the first time we insert the engine
+    if ( engine->cache_count == 0 )
+	increaseCost( engine->cache_cost );
+
+    ++engine->cache_count;
+}
+
+void TQFontCache::increaseCost( uint cost )
+{
+    cost = ( cost + 512 ) / 1024; // store cost in kb
+    cost = cost > 0 ? cost : 1;
+    total_cost += cost;
+
+    FC_DEBUG( "  COST: increased %u kb, total_cost %u kb, max_cost %u kb",
+	    cost, total_cost, max_cost );
+
+    if ( total_cost > max_cost) {
+	max_cost = total_cost;
+
+	if ( timer_id == -1 || ! fast ) {
+	    FC_DEBUG( "  TIMER: starting fast timer (%d ms)", fast_timeout );
+
+	    if (timer_id != -1) killTimer( timer_id );
+	    timer_id = startTimer( fast_timeout );
+	    fast = TRUE;
+	}
+    }
+}
+
+void TQFontCache::decreaseCost( uint cost )
+{
+    cost = ( cost + 512 ) / 1024; // cost is stored in kb
+    cost = cost > 0 ? cost : 1;
+    TQ_ASSERT( cost <= total_cost );
+    total_cost -= cost;
+
+    FC_DEBUG( "  COST: decreased %u kb, total_cost %u kb, max_cost %u kb",
+	    cost, total_cost, max_cost );
+}
+
+#if defined(TQ_WS_WIN ) || defined (TQ_WS_TQWS)
+void TQFontCache::cleanupPrinterFonts()
+{
+    FC_DEBUG( "TQFontCache::cleanupPrinterFonts" );
+
+    {
+	FC_DEBUG( "  CLEAN engine data:" );
+
+	// clean out all unused engine datas
+	EngineDataCache::Iterator it = engineDataCache.begin(),
+				 end = engineDataCache.end();
+	while ( it != end ) {
+	    if ( it.key().screen == 0 ) {
+		++it;
+		continue;
+	    }
+
+	    if( it.data()->count > 0 ) {
+#ifdef TQ_WS_WIN
+		for(int i = 0; i < TQFont::LastPrivateScript; ++i) {
+		    if( it.data()->engines[i] ) {
+			it.data()->engines[i]->deref();
+			it.data()->engines[i] = 0;
+		    }
+		}
+#else
+		if ( it.data()->engine ) {
+		    it.data()->engine->deref();
+		    it.data()->engine = 0;
+		}
+#endif
+		++it;
+	    } else {
+
+		EngineDataCache::Iterator rem = it++;
+
+		decreaseCost( sizeof( TQFontEngineData ) );
+
+		FC_DEBUG( "    %p", rem.data() );
+
+		delete rem.data();
+		engineDataCache.remove( rem );
+	    }
+	}
+    }
+
+    EngineCache::Iterator it = engineCache.begin(),
+			 end = engineCache.end();
+    while( it != end ) {
+	if ( it.data().data->count > 0 || it.key().screen == 0) {
+	    ++it;
+	    continue;
+	}
+
+	FC_DEBUG( "    %p: timestamp %4u hits %2u ref %2d/%2d, type '%s'",
+		  it.data().data, it.data().timestamp, it.data().hits,
+		  it.data().data->count, it.data().data->cache_count,
+		  it.data().data->name() );
+
+	if ( --it.data().data->cache_count == 0 ) {
+	    FC_DEBUG( "    DELETE: last occurence in cache" );
+
+	    decreaseCost( it.data().data->cache_cost );
+	    delete it.data().data;
+	}
+
+	engineCache.remove( it++ );
+    }
+}
+#endif
+
+void TQFontCache::timerEvent( TQTimerEvent * )
+{
+    FC_DEBUG( "TQFontCache::timerEvent: performing cache maintenance (timestamp %u)",
+	      current_timestamp );
+
+    if ( total_cost <= max_cost && max_cost <= min_cost ) {
+	FC_DEBUG( "  cache redused sufficiently, stopping timer" );
+
+	killTimer( timer_id );
+	timer_id = -1;
+	fast = FALSE;
+
+	return;
+    }
+
+    // go through the cache and count up everything in use
+    uint in_use_cost = 0;
+
+    {
+	FC_DEBUG( "  SWEEP engine data:" );
+
+	// make sure the cost of each engine data is at least 1kb
+        const uint engine_data_cost =
+	    sizeof( TQFontEngineData ) > 1024 ? sizeof( TQFontEngineData ) : 1024;
+
+	EngineDataCache::ConstIterator it = engineDataCache.begin(),
+	                              end = engineDataCache.end();
+	for ( ; it != end; ++it ) {
+#ifdef TQFONTCACHE_DEBUG
+	    FC_DEBUG( "    %p: ref %2d", it.data(), it.data()->count );
+
+#  if defined(TQ_WS_X11) || defined(TQ_WS_WIN)
+	    // print out all engines
+	    for ( int i = 0; i < TQFont::LastPrivateScript; ++i ) {
+		if ( ! it.data()->engines[i] ) continue;
+		FC_DEBUG( "      tqcontains %p", it.data()->engines[i] );
+	    }
+#  endif // TQ_WS_X11 || TQ_WS_WIN
+#endif // TQFONTCACHE_DEBUG
+
+	    if ( it.data()->count > 0 )
+		in_use_cost += engine_data_cost;
+	}
+    }
+
+    {
+	FC_DEBUG( "  SWEEP engine:" );
+
+	EngineCache::ConstIterator it = engineCache.begin(),
+				  end = engineCache.end();
+	for ( ; it != end; ++it ) {
+	    FC_DEBUG( "    %p: timestamp %4u hits %2u ref %2d/%2d, cost %u bytes",
+		      it.data().data, it.data().timestamp, it.data().hits,
+		      it.data().data->count, it.data().data->cache_count,
+		      it.data().data->cache_cost );
+
+	    if ( it.data().data->count > 0 )
+		in_use_cost += it.data().data->cache_cost / it.data().data->cache_count;
+	}
+
+	// attempt to make up for rounding errors
+	in_use_cost += (uint)engineCache.count();
+    }
+
+    in_use_cost = ( in_use_cost + 512 ) / 1024; // cost is stored in kb
+
+    /*
+      calculate the new maximum cost for the cache
+
+      NOTE: in_use_cost is *not* correct due to rounding errors in the
+      above algorithm.  instead of worrying about getting the
+      calculation correct, we are more interested in speed, and use
+      in_use_cost as a floor for new_max_cost
+    */
+    uint new_max_cost = TQMAX( TQMAX( max_cost / 2, in_use_cost ), min_cost );
+
+    FC_DEBUG( "  after sweep, in use %u kb, total %u kb, max %u kb, new max %u kb",
+	      in_use_cost, total_cost, max_cost, new_max_cost );
+
+    if ( new_max_cost == max_cost ) {
+	if ( fast ) {
+	    FC_DEBUG( "  cannot shrink cache, slowing timer" );
+
+	    killTimer( timer_id );
+	    timer_id = startTimer( slow_timeout );
+	    fast = FALSE;
+	}
+
+	return;
+    } else if ( ! fast ) {
+	FC_DEBUG( "  dropping into passing gear" );
+
+	killTimer( timer_id );
+	timer_id = startTimer( fast_timeout );
+	fast = TRUE;
+    }
+
+    max_cost = new_max_cost;
+
+    {
+	FC_DEBUG( "  CLEAN engine data:" );
+
+	// clean out all unused engine datas
+	EngineDataCache::Iterator it = engineDataCache.begin(),
+				 end = engineDataCache.end();
+	while ( it != end ) {
+	    if ( it.data()->count > 0 ) {
+		++it;
+		continue;
+	    }
+
+	    EngineDataCache::Iterator rem = it++;
+
+	    decreaseCost( sizeof( TQFontEngineData ) );
+
+	    FC_DEBUG( "    %p", rem.data() );
+
+	    delete rem.data();
+	    engineDataCache.remove( rem );
+	}
+    }
+
+    // clean out the engine cache just enough to get below our new max cost
+    uint current_cost;
+    do {
+	current_cost = total_cost;
+
+	EngineCache::Iterator it = engineCache.begin(),
+			     end = engineCache.end();
+	// determine the oldest and least popular of the unused engines
+	uint oldest = ~0;
+	uint least_popular = ~0;
+
+	for ( ; it != end; ++it ) {
+	    if ( it.data().data->count > 0 ) continue;
+
+	    if ( it.data().timestamp < oldest &&
+		 it.data().hits <= least_popular ) {
+		oldest = it.data().timestamp;
+		least_popular = it.data().hits;
+	    }
+	}
+
+	FC_DEBUG( "    oldest %u least popular %u", oldest, least_popular );
+
+	for ( it = engineCache.begin(); it != end; ++it ) {
+	    if ( it.data().data->count == 0 &&
+		 it.data().timestamp == oldest &&
+		 it.data().hits == least_popular)
+		break;
+	}
+
+	if ( it != end ) {
+	    FC_DEBUG( "    %p: timestamp %4u hits %2u ref %2d/%2d, type '%s'",
+		      it.data().data, it.data().timestamp, it.data().hits,
+		      it.data().data->count, it.data().data->cache_count,
+		      it.data().data->name() );
+
+	    if ( --it.data().data->cache_count == 0 ) {
+		FC_DEBUG( "    DELETE: last occurence in cache" );
+
+		decreaseCost( it.data().data->cache_cost );
+		delete it.data().data;
+	    } else {
+		/*
+		  this particular font engine is in the cache multiple
+		  times...  set current_cost to zero, so that we can
+		  keep looping to get rid of all occurences
+		*/
+		current_cost = 0;
+	    }
+
+	    engineCache.remove( it );
+	}
+    } while ( current_cost != total_cost && total_cost > max_cost );
+}
+
+#endif // USE_QT4
\ No newline at end of file