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tqt3/src/kernel/qrichtext.cpp

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226 KiB

/****************************************************************************
**
** Implementation of the internal TQt classes dealing with rich text
**
** Created : 990101
**
** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
**
** 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 "qrichtext_p.h"
#ifndef TQT_NO_RICHTEXT
#include "ntqstringlist.h"
#include "ntqfont.h"
#include "ntqtextstream.h"
#include "ntqfile.h"
#include "ntqapplication.h"
#include "ntqmap.h"
#include "ntqfileinfo.h"
#include "ntqstylesheet.h"
#include "ntqmime.h"
#include "ntqimage.h"
#include "ntqdragobject.h"
#include "ntqpaintdevicemetrics.h"
#include "ntqpainter.h"
#include "ntqdrawutil.h"
#include "ntqcursor.h"
#include "ntqptrstack.h"
#include "ntqptrdict.h"
#include "ntqstyle.h"
#include "ntqcleanuphandler.h"
#include "qtextengine_p.h"
#include <private/qunicodetables_p.h>
#include <stdlib.h>
static TQTextCursor* richTextExportStart = 0;
static TQTextCursor* richTextExportEnd = 0;
class TQTextFormatCollection;
const int border_tolerance = 2;
#ifdef Q_WS_WIN
#include "qt_windows.h"
#endif
#define TQChar_linesep TQChar(0x2028U)
static inline bool is_printer( TQPainter *p )
{
if ( !p || !p->device() )
return FALSE;
return p->device()->devType() == TQInternal::Printer;
}
static inline int scale( int value, TQPainter *painter )
{
if ( is_printer( painter ) ) {
TQPaintDeviceMetrics metrics( painter->device() );
#if defined(Q_WS_X11)
value = value * metrics.logicalDpiY() /
TQPaintDevice::x11AppDpiY( painter->device()->x11Screen() );
#elif defined (Q_WS_WIN)
HDC hdc = GetDC( 0 );
int gdc = GetDeviceCaps( hdc, LOGPIXELSY );
if ( gdc )
value = value * metrics.logicalDpiY() / gdc;
ReleaseDC( 0, hdc );
#elif defined (Q_WS_MAC)
value = value * metrics.logicalDpiY() / 75; // ##### FIXME
#elif defined (Q_WS_QWS)
value = value * metrics.logicalDpiY() / 75;
#endif
}
return value;
}
inline bool isBreakable( TQTextString *string, int pos )
{
if (string->at(pos).nobreak)
return FALSE;
return (pos < string->length()-1 && string->at(pos+1).softBreak);
}
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
void TQTextCommandHistory::addCommand( TQTextCommand *cmd )
{
if ( current < (int)history.count() - 1 ) {
TQPtrList<TQTextCommand> commands;
commands.setAutoDelete( FALSE );
for( int i = 0; i <= current; ++i ) {
commands.insert( i, history.at( 0 ) );
history.take( 0 );
}
commands.append( cmd );
history.clear();
history = commands;
history.setAutoDelete( TRUE );
} else {
history.append( cmd );
}
if ( (int)history.count() > steps )
history.removeFirst();
else
++current;
}
TQTextCursor *TQTextCommandHistory::undo( TQTextCursor *c )
{
if ( current > -1 ) {
TQTextCursor *c2 = history.at( current )->unexecute( c );
--current;
return c2;
}
return 0;
}
TQTextCursor *TQTextCommandHistory::redo( TQTextCursor *c )
{
if ( current > -1 ) {
if ( current < (int)history.count() - 1 ) {
++current;
return history.at( current )->execute( c );
}
} else {
if ( history.count() > 0 ) {
++current;
return history.at( current )->execute( c );
}
}
return 0;
}
bool TQTextCommandHistory::isUndoAvailable()
{
return current > -1;
}
bool TQTextCommandHistory::isRedoAvailable()
{
return ( current > -1 && current < (int)history.count() - 1 ) || ( current == -1 && history.count() > 0 );
}
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextDeleteCommand::TQTextDeleteCommand( TQTextDocument *d, int i, int idx, const TQMemArray<TQTextStringChar> &str,
const TQByteArray& oldStyleInfo )
: TQTextCommand( d ), id( i ), index( idx ), parag( 0 ), text( str ), styleInformation( oldStyleInfo )
{
for ( int j = 0; j < (int)text.size(); ++j ) {
if ( text[ j ].format() )
text[ j ].format()->addRef();
}
}
TQTextDeleteCommand::TQTextDeleteCommand( TQTextParagraph *p, int idx, const TQMemArray<TQTextStringChar> &str )
: TQTextCommand( 0 ), id( -1 ), index( idx ), parag( p ), text( str )
{
for ( int i = 0; i < (int)text.size(); ++i ) {
if ( text[ i ].format() )
text[ i ].format()->addRef();
}
}
TQTextDeleteCommand::~TQTextDeleteCommand()
{
for ( int i = 0; i < (int)text.size(); ++i ) {
if ( text[ i ].format() )
text[ i ].format()->removeRef();
}
text.resize( 0 );
}
TQTextCursor *TQTextDeleteCommand::execute( TQTextCursor *c )
{
TQTextParagraph *s = doc ? doc->paragAt( id ) : parag;
if ( !s ) {
tqWarning( "can't locate parag at %d, last parag: %d", id, doc->lastParagraph()->paragId() );
return 0;
}
cursor.setParagraph( s );
cursor.setIndex( index );
int len = text.size();
if ( c )
*c = cursor;
if ( doc ) {
doc->setSelectionStart( TQTextDocument::Temp, cursor );
for ( int i = 0; i < len; ++i )
cursor.gotoNextLetter();
doc->setSelectionEnd( TQTextDocument::Temp, cursor );
doc->removeSelectedText( TQTextDocument::Temp, &cursor );
if ( c )
*c = cursor;
} else {
s->remove( index, len );
}
return c;
}
TQTextCursor *TQTextDeleteCommand::unexecute( TQTextCursor *c )
{
TQTextParagraph *s = doc ? doc->paragAt( id ) : parag;
if ( !s ) {
tqWarning( "can't locate parag at %d, last parag: %d", id, doc->lastParagraph()->paragId() );
return 0;
}
cursor.setParagraph( s );
cursor.setIndex( index );
TQString str = TQTextString::toString( text );
cursor.insert( str, TRUE, &text );
if ( c )
*c = cursor;
cursor.setParagraph( s );
cursor.setIndex( index );
#ifndef TQT_NO_DATASTREAM
if ( !styleInformation.isEmpty() ) {
TQDataStream styleStream( styleInformation, IO_ReadOnly );
int num;
styleStream >> num;
TQTextParagraph *p = s;
while ( num-- && p ) {
p->readStyleInformation( styleStream );
p = p->next();
}
}
#endif
s = cursor.paragraph();
while ( s ) {
s->format();
s->setChanged( TRUE );
if ( s == c->paragraph() )
break;
s = s->next();
}
return &cursor;
}
TQTextFormatCommand::TQTextFormatCommand( TQTextDocument *d, int sid, int sidx, int eid, int eidx,
const TQMemArray<TQTextStringChar> &old, TQTextFormat *f, int fl )
: TQTextCommand( d ), startId( sid ), startIndex( sidx ), endId( eid ), endIndex( eidx ), format( f ), oldFormats( old ), flags( fl )
{
format = d->formatCollection()->format( f );
for ( int j = 0; j < (int)oldFormats.size(); ++j ) {
if ( oldFormats[ j ].format() )
oldFormats[ j ].format()->addRef();
}
}
TQTextFormatCommand::~TQTextFormatCommand()
{
format->removeRef();
for ( int j = 0; j < (int)oldFormats.size(); ++j ) {
if ( oldFormats[ j ].format() )
oldFormats[ j ].format()->removeRef();
}
}
TQTextCursor *TQTextFormatCommand::execute( TQTextCursor *c )
{
TQTextParagraph *sp = doc->paragAt( startId );
TQTextParagraph *ep = doc->paragAt( endId );
if ( !sp || !ep )
return c;
TQTextCursor start( doc );
start.setParagraph( sp );
start.setIndex( startIndex );
TQTextCursor end( doc );
end.setParagraph( ep );
end.setIndex( endIndex );
doc->setSelectionStart( TQTextDocument::Temp, start );
doc->setSelectionEnd( TQTextDocument::Temp, end );
doc->setFormat( TQTextDocument::Temp, format, flags );
doc->removeSelection( TQTextDocument::Temp );
if ( endIndex == ep->length() )
end.gotoLeft();
*c = end;
return c;
}
TQTextCursor *TQTextFormatCommand::unexecute( TQTextCursor *c )
{
TQTextParagraph *sp = doc->paragAt( startId );
TQTextParagraph *ep = doc->paragAt( endId );
if ( !sp || !ep )
return 0;
int idx = startIndex;
int fIndex = 0;
while ( fIndex < int(oldFormats.size()) ) {
if ( oldFormats.at( fIndex ).c == '\n' ) {
if ( idx > 0 ) {
if ( idx < sp->length() && fIndex > 0 )
sp->setFormat( idx, 1, oldFormats.at( fIndex - 1 ).format() );
if ( sp == ep )
break;
sp = sp->next();
idx = 0;
}
fIndex++;
}
if ( oldFormats.at( fIndex ).format() )
sp->setFormat( idx, 1, oldFormats.at( fIndex ).format() );
idx++;
fIndex++;
if ( fIndex >= (int)oldFormats.size() )
break;
if ( idx >= sp->length() ) {
if ( sp == ep )
break;
sp = sp->next();
idx = 0;
}
}
TQTextCursor end( doc );
end.setParagraph( ep );
end.setIndex( endIndex );
if ( endIndex == ep->length() )
end.gotoLeft();
*c = end;
return c;
}
TQTextStyleCommand::TQTextStyleCommand( TQTextDocument *d, int fParag, int lParag, const TQByteArray& beforeChange )
: TQTextCommand( d ), firstParag( fParag ), lastParag( lParag ), before( beforeChange )
{
after = readStyleInformation( d, fParag, lParag );
}
TQByteArray TQTextStyleCommand::readStyleInformation( TQTextDocument* doc, int fParag, int lParag )
{
TQByteArray style;
#ifndef TQT_NO_DATASTREAM
TQTextParagraph *p = doc->paragAt( fParag );
if ( !p )
return style;
TQDataStream styleStream( style, IO_WriteOnly );
int num = lParag - fParag + 1;
styleStream << num;
while ( num -- && p ) {
p->writeStyleInformation( styleStream );
p = p->next();
}
#endif
return style;
}
void TQTextStyleCommand::writeStyleInformation( TQTextDocument* doc, int fParag, const TQByteArray& style )
{
#ifndef TQT_NO_DATASTREAM
TQTextParagraph *p = doc->paragAt( fParag );
if ( !p )
return;
TQDataStream styleStream( style, IO_ReadOnly );
int num;
styleStream >> num;
while ( num-- && p ) {
p->readStyleInformation( styleStream );
p = p->next();
}
#endif
}
TQTextCursor *TQTextStyleCommand::execute( TQTextCursor *c )
{
writeStyleInformation( doc, firstParag, after );
return c;
}
TQTextCursor *TQTextStyleCommand::unexecute( TQTextCursor *c )
{
writeStyleInformation( doc, firstParag, before );
return c;
}
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextCursor::TQTextCursor( TQTextDocument *d )
: idx( 0 ), tmpX( -1 ), ox( 0 ), oy( 0 ),
valid( TRUE )
{
para = d ? d->firstParagraph() : 0;
}
TQTextCursor::TQTextCursor( const TQTextCursor &c )
{
ox = c.ox;
oy = c.oy;
idx = c.idx;
para = c.para;
tmpX = c.tmpX;
indices = c.indices;
paras = c.paras;
xOffsets = c.xOffsets;
yOffsets = c.yOffsets;
valid = c.valid;
}
TQTextCursor &TQTextCursor::operator=( const TQTextCursor &c )
{
ox = c.ox;
oy = c.oy;
idx = c.idx;
para = c.para;
tmpX = c.tmpX;
indices = c.indices;
paras = c.paras;
xOffsets = c.xOffsets;
yOffsets = c.yOffsets;
valid = c.valid;
return *this;
}
bool TQTextCursor::operator==( const TQTextCursor &c ) const
{
return para == c.para && idx == c.idx;
}
int TQTextCursor::totalOffsetX() const
{
int xoff = ox;
for ( TQValueStack<int>::ConstIterator xit = xOffsets.begin(); xit != xOffsets.end(); ++xit )
xoff += *xit;
return xoff;
}
int TQTextCursor::totalOffsetY() const
{
int yoff = oy;
for ( TQValueStack<int>::ConstIterator yit = yOffsets.begin(); yit != yOffsets.end(); ++yit )
yoff += *yit;
return yoff;
}
#ifndef TQT_NO_TEXTCUSTOMITEM
void TQTextCursor::gotoIntoNested( const TQPoint &globalPos )
{
if ( !para )
return;
Q_ASSERT( para->at( idx )->isCustom() );
push();
ox = 0;
int bl, y;
para->lineHeightOfChar( idx, &bl, &y );
oy = y + para->rect().y();
ox = para->at( idx )->x;
TQTextDocument* doc = document();
para->at( idx )->customItem()->enterAt( this, doc, para, idx, ox, oy, globalPos-TQPoint(ox,oy) );
}
#endif
void TQTextCursor::invalidateNested()
{
if ( nestedDepth() ) {
TQValueStack<TQTextParagraph*>::Iterator it = paras.begin();
TQValueStack<int>::Iterator it2 = indices.begin();
for ( ; it != paras.end(); ++it, ++it2 ) {
if ( *it == para )
continue;
(*it)->invalidate( 0 );
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( (*it)->at( *it2 )->isCustom() )
(*it)->at( *it2 )->customItem()->invalidate();
#endif
}
}
}
void TQTextCursor::insert( const TQString &str, bool checkNewLine, TQMemArray<TQTextStringChar> *formatting )
{
tmpX = -1;
bool justInsert = TRUE;
TQString s( str );
#if defined(Q_WS_WIN)
if ( checkNewLine ) {
int i = 0;
while ( ( i = s.find( '\r', i ) ) != -1 )
s.remove( i ,1 );
}
#endif
if ( checkNewLine )
justInsert = s.find( '\n' ) == -1;
if ( justInsert ) { // we ignore new lines and insert all in the current para at the current index
para->insert( idx, s.unicode(), s.length() );
if ( formatting ) {
for ( int i = 0; i < (int)s.length(); ++i ) {
if ( formatting->at( i ).format() ) {
formatting->at( i ).format()->addRef();
para->string()->setFormat( idx + i, formatting->at( i ).format(), TRUE );
}
}
}
idx += s.length();
} else { // we split at new lines
int start = -1;
int end;
int y = para->rect().y() + para->rect().height();
int lastIndex = 0;
do {
end = s.find( '\n', start + 1 ); // find line break
if ( end == -1 ) // didn't find one, so end of line is end of string
end = s.length();
int len = (start == -1 ? end : end - start - 1);
if ( len > 0 ) // insert the line
para->insert( idx, s.unicode() + start + 1, len );
else
para->invalidate( 0 );
if ( formatting ) { // set formats to the chars of the line
for ( int i = 0; i < len; ++i ) {
if ( formatting->at( i + lastIndex ).format() ) {
formatting->at( i + lastIndex ).format()->addRef();
para->string()->setFormat( i + idx, formatting->at( i + lastIndex ).format(), TRUE );
}
}
lastIndex += len;
}
start = end; // next start is at the end of this line
idx += len; // increase the index of the cursor to the end of the inserted text
if ( s[end] == '\n' ) { // if at the end was a line break, break the line
splitAndInsertEmptyParagraph( FALSE, TRUE );
para->setEndState( -1 );
para->prev()->format( -1, FALSE );
lastIndex++;
}
} while ( end < (int)s.length() );
para->format( -1, FALSE );
int dy = para->rect().y() + para->rect().height() - y;
TQTextParagraph *p = para;
p->setParagId( p->prev() ? p->prev()->paragId() + 1 : 0 );
p = p->next();
while ( p ) {
p->setParagId( p->prev()->paragId() + 1 );
p->move( dy );
p->invalidate( 0 );
p->setEndState( -1 );
p = p->next();
}
}
int h = para->rect().height();
para->format( -1, TRUE );
if ( h != para->rect().height() )
invalidateNested();
else if ( para->document() && para->document()->parent() )
para->document()->nextDoubleBuffered = TRUE;
fixCursorPosition();
}
void TQTextCursor::gotoLeft()
{
if ( para->string()->isRightToLeft() )
gotoNextLetter();
else
gotoPreviousLetter();
}
void TQTextCursor::gotoPreviousLetter()
{
tmpX = -1;
if ( idx > 0 ) {
idx = para->string()->previousCursorPosition( idx );
#ifndef TQT_NO_TEXTCUSTOMITEM
const TQTextStringChar *tsc = para->at( idx );
if ( tsc && tsc->isCustom() && tsc->customItem()->isNested() )
processNesting( EnterEnd );
#endif
} else if ( para->prev() ) {
para = para->prev();
while ( !para->isVisible() && para->prev() )
para = para->prev();
idx = para->length() - 1;
} else if ( nestedDepth() ) {
pop();
processNesting( Prev );
if ( idx == -1 ) {
pop();
if ( idx > 0 ) {
idx = para->string()->previousCursorPosition( idx );
#ifndef TQT_NO_TEXTCUSTOMITEM
const TQTextStringChar *tsc = para->at( idx );
if ( tsc && tsc->isCustom() && tsc->customItem()->isNested() )
processNesting( EnterEnd );
#endif
} else if ( para->prev() ) {
para = para->prev();
idx = para->length() - 1;
}
}
}
}
void TQTextCursor::push()
{
indices.push( idx );
paras.push( para );
xOffsets.push( ox );
yOffsets.push( oy );
}
void TQTextCursor::pop()
{
if ( indices.isEmpty() )
return;
idx = indices.pop();
para = paras.pop();
ox = xOffsets.pop();
oy = yOffsets.pop();
}
void TQTextCursor::restoreState()
{
while ( !indices.isEmpty() )
pop();
}
bool TQTextCursor::place( const TQPoint &p, TQTextParagraph *s, bool link, bool loosePlacing, bool matchBetweenCharacters )
{
TQPoint pos( p );
TQRect r;
TQTextParagraph *str = s;
if ( pos.y() < s->rect().y() ) {
pos.setY( s->rect().y() );
#ifdef Q_WS_MACX
pos.setX( s->rect().x() );
#endif
}
while ( s ) {
r = s->rect();
r.setWidth( document() ? document()->width() : TQWIDGETSIZE_MAX );
if ( s->isVisible() )
str = s;
if ( pos.y() >= r.y() && pos.y() <= r.y() + r.height() )
break;
if ( loosePlacing == TRUE && !s->next() ) {
#ifdef Q_WS_MACX
pos.setX( s->rect().x() + s->rect().width() );
#endif
break;
}
s = s->next();
}
if ( !s || !str )
return FALSE;
s = str;
setParagraph( s );
int y = s->rect().y();
int lines = s->lines();
TQTextStringChar *chr = 0;
int index = 0;
int i = 0;
int cy = 0;
int ch = 0;
for ( ; i < lines; ++i ) {
chr = s->lineStartOfLine( i, &index );
cy = s->lineY( i );
ch = s->lineHeight( i );
if ( !chr )
return FALSE;
if ( pos.y() <= y + cy + ch )
break;
}
int nextLine;
if ( i < lines - 1 )
s->lineStartOfLine( i+1, &nextLine );
else
nextLine = s->length();
i = index;
int x = s->rect().x();
if ( pos.x() < x )
pos.setX( x + 1 );
int cw;
int curpos = -1;
int dist = 10000000;
bool inCustom = FALSE;
while ( i < nextLine ) {
chr = s->at(i);
int cpos = x + chr->x;
cw = s->string()->width( i );
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( chr->isCustom() && chr->customItem()->isNested() ) {
if ( pos.x() >= cpos && pos.x() <= cpos + cw &&
pos.y() >= y + cy && pos.y() <= y + cy + chr->height() ) {
inCustom = TRUE;
curpos = i;
break;
}
} else
#endif
{
if( chr->rightToLeft )
cpos += cw;
int d = cpos - pos.x();
bool dm = d < 0 ? !chr->rightToLeft : chr->rightToLeft;
if ( ( matchBetweenCharacters == TRUE && (TQABS( d ) < dist || (dist == d && dm == TRUE )) && para->string()->validCursorPosition( i ) ) ||
( matchBetweenCharacters == FALSE && ( d == 0 || dm == TRUE ) ) ) {
dist = TQABS( d );
if ( !link || ( pos.x() >= x + chr->x && ( loosePlacing == TRUE || pos.x() < cpos ) ) )
curpos = i;
}
}
i++;
}
if ( curpos == -1 ) {
if ( loosePlacing == TRUE )
curpos = s->length()-1;
else
return FALSE;
}
setIndex( curpos );
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( inCustom && para->document() && para->at( curpos )->isCustom() && para->at( curpos )->customItem()->isNested() ) {
TQTextDocument *oldDoc = para->document();
gotoIntoNested( pos );
if ( oldDoc == para->document() )
return TRUE;
TQPoint p( pos.x() - offsetX(), pos.y() - offsetY() );
if ( !place( p, document()->firstParagraph(), link ) )
pop();
}
#endif
return TRUE;
}
bool TQTextCursor::processNesting( Operation op )
{
if ( !para->document() )
return FALSE;
TQTextDocument* doc = para->document();
push();
ox = para->at( idx )->x;
int bl, y;
para->lineHeightOfChar( idx, &bl, &y );
oy = y + para->rect().y();
bool ok = FALSE;
#ifndef TQT_NO_TEXTCUSTOMITEM
switch ( op ) {
case EnterBegin:
ok = para->at( idx )->customItem()->enter( this, doc, para, idx, ox, oy );
break;
case EnterEnd:
ok = para->at( idx )->customItem()->enter( this, doc, para, idx, ox, oy, TRUE );
break;
case Next:
ok = para->at( idx )->customItem()->next( this, doc, para, idx, ox, oy );
break;
case Prev:
ok = para->at( idx )->customItem()->prev( this, doc, para, idx, ox, oy );
break;
case Down:
ok = para->at( idx )->customItem()->down( this, doc, para, idx, ox, oy );
break;
case Up:
ok = para->at( idx )->customItem()->up( this, doc, para, idx, ox, oy );
break;
}
if ( !ok )
#endif
pop();
return ok;
}
void TQTextCursor::gotoRight()
{
if ( para->string()->isRightToLeft() )
gotoPreviousLetter();
else
gotoNextLetter();
}
void TQTextCursor::gotoNextLetter()
{
tmpX = -1;
#ifndef TQT_NO_TEXTCUSTOMITEM
const TQTextStringChar *tsc = para->at( idx );
if ( tsc && tsc->isCustom() && tsc->customItem()->isNested() ) {
if ( processNesting( EnterBegin ) )
return;
}
#endif
if ( idx < para->length() - 1 ) {
idx = para->string()->nextCursorPosition( idx );
} else if ( para->next() ) {
para = para->next();
while ( !para->isVisible() && para->next() )
para = para->next();
idx = 0;
} else if ( nestedDepth() ) {
pop();
processNesting( Next );
if ( idx == -1 ) {
pop();
if ( idx < para->length() - 1 ) {
idx = para->string()->nextCursorPosition( idx );
} else if ( para->next() ) {
para = para->next();
idx = 0;
}
}
}
}
void TQTextCursor::gotoUp()
{
int indexOfLineStart;
int line;
TQTextStringChar *c = para->lineStartOfChar( idx, &indexOfLineStart, &line );
if ( !c )
return;
if (tmpX < 0)
tmpX = x();
if ( indexOfLineStart == 0 ) {
if ( !para->prev() ) {
if ( !nestedDepth() )
return;
pop();
processNesting( Up );
if ( idx == -1 ) {
pop();
if ( !para->prev() )
return;
idx = tmpX = 0;
} else {
tmpX = -1;
return;
}
}
TQTextParagraph *p = para->prev();
while ( p && !p->isVisible() )
p = p->prev();
if ( p )
para = p;
int lastLine = para->lines() - 1;
if ( !para->lineStartOfLine( lastLine, &indexOfLineStart ) )
return;
idx = indexOfLineStart;
while (idx < para->length()-1 && para->at(idx)->x < tmpX)
++idx;
if (idx > indexOfLineStart &&
para->at(idx)->x - tmpX > tmpX - para->at(idx-1)->x)
--idx;
} else {
--line;
int oldIndexOfLineStart = indexOfLineStart;
if ( !para->lineStartOfLine( line, &indexOfLineStart ) )
return;
idx = indexOfLineStart;
while (idx < oldIndexOfLineStart-1 && para->at(idx)->x < tmpX)
++idx;
if (idx > indexOfLineStart &&
para->at(idx)->x - tmpX > tmpX - para->at(idx-1)->x)
--idx;
}
fixCursorPosition();
}
void TQTextCursor::gotoDown()
{
int indexOfLineStart;
int line;
TQTextStringChar *c = para->lineStartOfChar( idx, &indexOfLineStart, &line );
if ( !c )
return;
if (tmpX < 0)
tmpX = x();
if ( line == para->lines() - 1 ) {
if ( !para->next() ) {
if ( !nestedDepth() )
return;
pop();
processNesting( Down );
if ( idx == -1 ) {
pop();
if ( !para->next() )
return;
idx = tmpX = 0;
} else {
tmpX = -1;
return;
}
}
TQTextParagraph *s = para->next();
while ( s && !s->isVisible() )
s = s->next();
if ( s )
para = s;
if ( !para->lineStartOfLine( 0, &indexOfLineStart ) )
return;
int end;
if ( para->lines() == 1 )
end = para->length();
else
para->lineStartOfLine( 1, &end );
idx = indexOfLineStart;
while (idx < end-1 && para->at(idx)->x < tmpX)
++idx;
if (idx > indexOfLineStart &&
para->at(idx)->x - tmpX > tmpX - para->at(idx-1)->x)
--idx;
} else {
++line;
int end;
if ( line == para->lines() - 1 )
end = para->length();
else
para->lineStartOfLine( line + 1, &end );
if ( !para->lineStartOfLine( line, &indexOfLineStart ) )
return;
idx = indexOfLineStart;
while (idx < end-1 && para->at(idx)->x < tmpX)
++idx;
if (idx > indexOfLineStart &&
para->at(idx)->x - tmpX > tmpX - para->at(idx-1)->x)
--idx;
}
fixCursorPosition();
}
void TQTextCursor::gotoLineEnd()
{
tmpX = -1;
int indexOfLineStart;
int line;
TQTextStringChar *c = para->lineStartOfChar( idx, &indexOfLineStart, &line );
if ( !c )
return;
if ( line == para->lines() - 1 ) {
idx = para->length() - 1;
} else {
c = para->lineStartOfLine( ++line, &indexOfLineStart );
indexOfLineStart--;
idx = indexOfLineStart;
}
}
void TQTextCursor::gotoLineStart()
{
tmpX = -1;
int indexOfLineStart;
int line;
TQTextStringChar *c = para->lineStartOfChar( idx, &indexOfLineStart, &line );
if ( !c )
return;
idx = indexOfLineStart;
}
void TQTextCursor::gotoHome()
{
if ( topParagraph()->document() )
gotoPosition( topParagraph()->document()->firstParagraph() );
else
gotoLineStart();
}
void TQTextCursor::gotoEnd()
{
if ( topParagraph()->document() && topParagraph()->document()->lastParagraph()->isValid() )
gotoPosition( topParagraph()->document()->lastParagraph(),
topParagraph()->document()->lastParagraph()->length() - 1);
else
gotoLineEnd();
}
void TQTextCursor::gotoPageUp( int visibleHeight )
{
int targetY = globalY() - visibleHeight;
TQTextParagraph* old; int index;
do {
old = para; index = idx;
gotoUp();
} while ( (old != para || index != idx) && globalY() > targetY );
}
void TQTextCursor::gotoPageDown( int visibleHeight )
{
int targetY = globalY() + visibleHeight;
TQTextParagraph* old; int index;
do {
old = para; index = idx;
gotoDown();
} while ( (old != para || index != idx) && globalY() < targetY );
}
void TQTextCursor::gotoWordRight()
{
if ( para->string()->isRightToLeft() )
gotoPreviousWord();
else
gotoNextWord();
}
void TQTextCursor::gotoWordLeft()
{
if ( para->string()->isRightToLeft() )
gotoNextWord();
else
gotoPreviousWord();
}
static bool is_seperator( const TQChar &c, bool onlySpace )
{
if ( onlySpace )
return c.isSpace();
return c.isSpace() ||
c == '\t' ||
c == '.' ||
c == ',' ||
c == ':' ||
c == ';' ||
c == '-' ||
c == '<' ||
c == '>' ||
c == '[' ||
c == ']' ||
c == '(' ||
c == ')' ||
c == '{' ||
c == '}';
}
void TQTextCursor::gotoPreviousWord( bool onlySpace )
{
gotoPreviousLetter();
tmpX = -1;
TQTextString *s = para->string();
bool allowSame = FALSE;
if ( idx == ((int)s->length()-1) )
return;
for ( int i = idx; i >= 0; --i ) {
if ( is_seperator( s->at( i ).c, onlySpace ) ) {
if ( !allowSame )
continue;
idx = i + 1;
return;
}
if ( !allowSame && !is_seperator( s->at( i ).c, onlySpace ) )
allowSame = TRUE;
}
idx = 0;
}
void TQTextCursor::gotoNextWord( bool onlySpace )
{
tmpX = -1;
TQTextString *s = para->string();
bool allowSame = FALSE;
for ( int i = idx; i < (int)s->length(); ++i ) {
if ( !is_seperator( s->at( i ).c, onlySpace ) ) {
if ( !allowSame )
continue;
idx = i;
return;
}
if ( !allowSame && is_seperator( s->at( i ).c, onlySpace ) )
allowSame = TRUE;
}
if ( idx < ((int)s->length()-1) ) {
gotoLineEnd();
} else if ( para->next() ) {
TQTextParagraph *p = para->next();
while ( p && !p->isVisible() )
p = p->next();
if ( s ) {
para = p;
idx = 0;
}
} else {
gotoLineEnd();
}
}
bool TQTextCursor::atParagStart()
{
return idx == 0;
}
bool TQTextCursor::atParagEnd()
{
return idx == para->length() - 1;
}
void TQTextCursor::splitAndInsertEmptyParagraph( bool ind, bool updateIds )
{
if ( !para->document() )
return;
tmpX = -1;
TQTextFormat *f = 0;
if ( para->document()->useFormatCollection() ) {
f = para->at( idx )->format();
if ( idx == para->length() - 1 && idx > 0 )
f = para->at( idx - 1 )->format();
if ( f->isMisspelled() ) {
f->removeRef();
f = para->document()->formatCollection()->format( f->font(), f->color() );
}
}
if ( atParagEnd() ) {
TQTextParagraph *n = para->next();
TQTextParagraph *s = para->document()->createParagraph( para->document(), para, n, updateIds );
if ( f )
s->setFormat( 0, 1, f, TRUE );
s->copyParagData( para );
if ( ind ) {
int oi, ni;
s->indent( &oi, &ni );
para = s;
idx = ni;
} else {
para = s;
idx = 0;
}
} else if ( atParagStart() ) {
TQTextParagraph *p = para->prev();
TQTextParagraph *s = para->document()->createParagraph( para->document(), p, para, updateIds );
if ( f )
s->setFormat( 0, 1, f, TRUE );
s->copyParagData( para );
if ( ind ) {
s->indent();
s->format();
indent();
para->format();
}
} else {
TQString str = para->string()->toString().mid( idx, 0xFFFFFF );
TQTextParagraph *n = para->next();
TQTextParagraph *s = para->document()->createParagraph( para->document(), para, n, updateIds );
s->copyParagData( para );
s->remove( 0, 1 );
s->append( str, TRUE );
for ( uint i = 0; i < str.length(); ++i ) {
TQTextStringChar* tsc = para->at( idx + i );
s->setFormat( i, 1, tsc->format(), TRUE );
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( tsc->isCustom() ) {
TQTextCustomItem * item = tsc->customItem();
s->at( i )->setCustomItem( item );
tsc->loseCustomItem();
}
#endif
if ( tsc->isAnchor() )
s->at( i )->setAnchor( tsc->anchorName(),
tsc->anchorHref() );
}
para->truncate( idx );
if ( ind ) {
int oi, ni;
s->indent( &oi, &ni );
para = s;
idx = ni;
} else {
para = s;
idx = 0;
}
}
invalidateNested();
}
bool TQTextCursor::remove()
{
tmpX = -1;
if ( !atParagEnd() ) {
int next = para->string()->nextCursorPosition( idx );
para->remove( idx, next-idx );
int h = para->rect().height();
para->format( -1, TRUE );
if ( h != para->rect().height() )
invalidateNested();
else if ( para->document() && para->document()->parent() )
para->document()->nextDoubleBuffered = TRUE;
return FALSE;
} else if ( para->next() ) {
para->join( para->next() );
invalidateNested();
return TRUE;
}
return FALSE;
}
/* needed to implement backspace the correct way */
bool TQTextCursor::removePreviousChar()
{
tmpX = -1;
if ( !atParagStart() ) {
para->remove( idx-1, 1 );
int h = para->rect().height();
idx--;
// shouldn't be needed, just to make sure.
fixCursorPosition();
para->format( -1, TRUE );
if ( h != para->rect().height() )
invalidateNested();
else if ( para->document() && para->document()->parent() )
para->document()->nextDoubleBuffered = TRUE;
return FALSE;
} else if ( para->prev() ) {
para = para->prev();
para->join( para->next() );
invalidateNested();
return TRUE;
}
return FALSE;
}
void TQTextCursor::indent()
{
int oi = 0, ni = 0;
para->indent( &oi, &ni );
if ( oi == ni )
return;
if ( idx >= oi )
idx += ni - oi;
else
idx = ni;
}
void TQTextCursor::fixCursorPosition()
{
// searches for the closest valid cursor position
if ( para->string()->validCursorPosition( idx ) )
return;
int lineIdx;
TQTextStringChar *start = para->lineStartOfChar( idx, &lineIdx, 0 );
int x = para->string()->at( idx ).x;
int diff = TQABS(start->x - x);
int best = lineIdx;
TQTextStringChar *c = start;
++c;
TQTextStringChar *end = &para->string()->at( para->length()-1 );
while ( c <= end && !c->lineStart ) {
int xp = c->x;
if ( c->rightToLeft )
xp += para->string()->width( lineIdx + (c-start) );
int ndiff = TQABS(xp - x);
if ( ndiff < diff && para->string()->validCursorPosition(lineIdx + (c-start)) ) {
diff = ndiff;
best = lineIdx + (c-start);
}
++c;
}
idx = best;
}
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextDocument::TQTextDocument( TQTextDocument *p )
: par( p ), parentPar( 0 )
#ifndef TQT_NO_TEXTCUSTOMITEM
, tc( 0 )
#endif
, tArray( 0 ), tStopWidth( 0 )
{
fCollection = par ? par->fCollection : new TQTextFormatCollection;
init();
}
void TQTextDocument::init()
{
oTextValid = TRUE;
mightHaveCustomItems = FALSE;
if ( par )
par->insertChild( this );
pProcessor = 0;
useFC = TRUE;
pFormatter = 0;
indenter = 0;
fParag = 0;
txtFormat = TQt::AutoText;
preferRichText = FALSE;
pages = FALSE;
focusIndicator.parag = 0;
minw = 0;
wused = 0;
minwParag = curParag = 0;
align = AlignAuto;
nSelections = 1;
setStyleSheet( TQStyleSheet::defaultSheet() );
#ifndef TQT_NO_MIME
factory_ = TQMimeSourceFactory::defaultFactory();
#endif
contxt = TQString::null;
underlLinks = par ? par->underlLinks : TRUE;
backBrush = 0;
buf_pixmap = 0;
nextDoubleBuffered = FALSE;
if ( par )
withoutDoubleBuffer = par->withoutDoubleBuffer;
else
withoutDoubleBuffer = FALSE;
lParag = fParag = createParagraph( this, 0, 0 );
cx = 0;
cy = 2;
if ( par )
cx = cy = 0;
cw = 600;
vw = 0;
flow_ = new TQTextFlow;
flow_->setWidth( cw );
leftmargin = rightmargin = 4;
scaleFontsFactor = 1;
selectionColors[ Standard ] = TQApplication::palette().color( TQPalette::Active, TQColorGroup::Highlight );
selectionText[ Standard ] = TRUE;
selectionText[ IMSelectionText ] = TRUE;
selectionText[ IMCompositionText ] = FALSE;
commandHistory = new TQTextCommandHistory( 100 );
tStopWidth = formatCollection()->defaultFormat()->width( 'x' ) * 8;
}
TQTextDocument::~TQTextDocument()
{
delete commandHistory;
if ( par )
par->removeChild( this );
clear();
delete flow_;
if ( !par ) {
delete pFormatter;
delete fCollection;
}
delete pProcessor;
delete buf_pixmap;
delete indenter;
delete backBrush;
delete [] tArray;
}
void TQTextDocument::clear( bool createEmptyParag )
{
while ( fParag ) {
TQTextParagraph *p = fParag->next();
delete fParag;
fParag = p;
}
if ( flow_ )
flow_->clear();
fParag = lParag = 0;
if ( createEmptyParag )
fParag = lParag = createParagraph( this );
focusIndicator.parag = 0;
selections.clear();
oText = TQString::null;
oTextValid = FALSE;
}
int TQTextDocument::widthUsed() const
{
return wused + 2*border_tolerance;
}
int TQTextDocument::height() const
{
int h = 0;
if ( lParag )
h = lParag->rect().top() + lParag->rect().height() + 1;
int fh = flow_->boundingRect().bottom();
return TQMAX( h, fh );
}
TQTextParagraph *TQTextDocument::createParagraph( TQTextDocument *d, TQTextParagraph *pr, TQTextParagraph *nx, bool updateIds )
{
return new TQTextParagraph( d, pr, nx, updateIds );
}
bool TQTextDocument::setMinimumWidth( int needed, int used, TQTextParagraph *p )
{
if ( needed == -1 ) {
minw = 0;
wused = 0;
p = 0;
}
if ( p == minwParag ) {
if (minw > needed) {
TQTextParagraph *tp = fParag;
while (tp) {
if (tp != p && tp->minwidth > needed) {
needed = tp->minwidth;
minwParag = tp;
}
tp = tp->n;
}
}
minw = needed;
emit minimumWidthChanged( minw );
} else if ( needed > minw ) {
minw = needed;
minwParag = p;
emit minimumWidthChanged( minw );
}
wused = TQMAX( wused, used );
wused = TQMAX( wused, minw );
cw = TQMAX( minw, cw );
return TRUE;
}
void TQTextDocument::setPlainText( const TQString &text )
{
preferRichText = FALSE;
clear();
oTextValid = TRUE;
oText = text;
int lastNl = 0;
int nl = text.find( '\n' );
if ( nl == -1 ) {
lParag = createParagraph( this, lParag, 0 );
if ( !fParag )
fParag = lParag;
TQString s = text;
if ( !s.isEmpty() ) {
if ( s[ (int)s.length() - 1 ] == '\r' )
s.remove( s.length() - 1, 1 );
lParag->append( s );
}
} else {
for (;;) {
lParag = createParagraph( this, lParag, 0 );
if ( !fParag )
fParag = lParag;
int l = nl - lastNl;
if ( l > 0 ) {
if (text.unicode()[nl-1] == '\r')
l--;
TQConstString cs(text.unicode()+lastNl, l);
lParag->append( cs.string() );
}
if ( nl == (int)text.length() )
break;
lastNl = nl + 1;
nl = text.find( '\n', nl + 1 );
if ( nl == -1 )
nl = text.length();
}
}
if ( !lParag )
lParag = fParag = createParagraph( this, 0, 0 );
}
struct Q_EXPORT TQTextDocumentTag {
TQTextDocumentTag(){}
TQTextDocumentTag( const TQString&n, const TQStyleSheetItem* s, const TQTextFormat& f )
:name(n),style(s), format(f), alignment(TQt::AlignAuto), direction(TQChar::DirON),liststyle(TQStyleSheetItem::ListDisc) {
wsm = TQStyleSheetItem::WhiteSpaceNormal;
}
TQString name;
const TQStyleSheetItem* style;
TQString anchorHref;
TQStyleSheetItem::WhiteSpaceMode wsm;
TQTextFormat format;
int alignment : 16;
int direction : 5;
TQStyleSheetItem::ListStyle liststyle;
TQTextDocumentTag( const TQTextDocumentTag& t ) {
name = t.name;
style = t.style;
anchorHref = t.anchorHref;
wsm = t.wsm;
format = t.format;
alignment = t.alignment;
direction = t.direction;
liststyle = t.liststyle;
}
TQTextDocumentTag& operator=(const TQTextDocumentTag& t) {
name = t.name;
style = t.style;
anchorHref = t.anchorHref;
wsm = t.wsm;
format = t.format;
alignment = t.alignment;
direction = t.direction;
liststyle = t.liststyle;
return *this;
}
Q_DUMMY_COMPARISON_OPERATOR(TQTextDocumentTag)
};
#define NEWPAR do{ if ( !hasNewPar) { \
if ( !textEditMode && curpar && curpar->length()>1 && curpar->at( curpar->length()-2)->c == TQChar_linesep ) \
curpar->remove( curpar->length()-2, 1 ); \
curpar = createParagraph( this, curpar, curpar->next() ); styles.append( vec ); vec = 0;} \
hasNewPar = TRUE; \
curpar->rtext = TRUE; \
curpar->align = curtag.alignment; \
curpar->lstyle = curtag.liststyle; \
curpar->litem = ( curtag.style->displayMode() == TQStyleSheetItem::DisplayListItem ); \
curpar->str->setDirection( (TQChar::Direction)curtag.direction ); \
space = TRUE; \
tabExpansionColumn = 0; \
delete vec; vec = new TQPtrVector<TQStyleSheetItem>( (uint)tags.count() + 1); \
int i = 0; \
for ( TQValueStack<TQTextDocumentTag>::Iterator it = tags.begin(); it != tags.end(); ++it ) \
vec->insert( i++, (*it).style ); \
vec->insert( i, curtag.style ); \
}while(FALSE);
void TQTextDocument::setRichText( const TQString &text, const TQString &context, const TQTextFormat *initialFormat )
{
preferRichText = TRUE;
if ( !context.isEmpty() )
setContext( context );
clear();
fParag = lParag = createParagraph( this );
oTextValid = TRUE;
oText = text;
setRichTextInternal( text, 0, initialFormat );
fParag->rtext = TRUE;
}
void TQTextDocument::setRichTextInternal( const TQString &text, TQTextCursor* cursor, const TQTextFormat *initialFormat )
{
TQTextParagraph* curpar = lParag;
int pos = 0;
TQValueStack<TQTextDocumentTag> tags;
if ( !initialFormat )
initialFormat = formatCollection()->defaultFormat();
TQTextDocumentTag initag( "", sheet_->item(""), *initialFormat );
if ( bodyText.isValid() )
initag.format.setColor( bodyText );
TQTextDocumentTag curtag = initag;
bool space = TRUE;
bool canMergeLi = FALSE;
bool textEditMode = FALSE;
int tabExpansionColumn = 0;
const TQChar* doc = text.unicode();
int length = text.length();
bool hasNewPar = curpar->length() <= 1;
TQString anchorName;
// style sheet handling for margin and line spacing calculation below
TQTextParagraph* stylesPar = curpar;
TQPtrVector<TQStyleSheetItem>* vec = 0;
TQPtrList< TQPtrVector<TQStyleSheetItem> > styles;
styles.setAutoDelete( TRUE );
if ( cursor ) {
cursor->splitAndInsertEmptyParagraph();
TQTextCursor tmp = *cursor;
tmp.gotoPreviousLetter();
stylesPar = curpar = tmp.paragraph();
hasNewPar = TRUE;
textEditMode = TRUE;
} else {
NEWPAR;
}
// set rtext spacing to FALSE for the initial paragraph.
curpar->rtext = FALSE;
TQString wellKnownTags = "br hr wsp table qt body meta title";
while ( pos < length ) {
if ( hasPrefix(doc, length, pos, '<' ) ){
if ( !hasPrefix( doc, length, pos+1, TQChar('/') ) ) {
// open tag
TQMap<TQString, TQString> attr;
bool emptyTag = FALSE;
TQString tagname = parseOpenTag(doc, length, pos, attr, emptyTag);
if ( tagname.isEmpty() )
continue; // nothing we could do with this, probably parse error
const TQStyleSheetItem* nstyle = sheet_->item(tagname);
if ( nstyle ) {
// we might have to close some 'forgotten' tags
while ( !nstyle->allowedInContext( curtag.style ) ) {
TQString msg;
msg.sprintf( "TQText Warning: Document not valid ( '%s' not allowed in '%s' #%d)",
tagname.ascii(), curtag.style->name().ascii(), pos);
sheet_->error( msg );
if ( tags.isEmpty() )
break;
curtag = tags.pop();
}
/* special handling for p and li for HTML
compatibility. We do not want to embed blocks in
p, and we do not want new blocks inside non-empty
lis. Plus we want to merge empty lis sometimes. */
if( nstyle->displayMode() == TQStyleSheetItem::DisplayListItem ) {
canMergeLi = TRUE;
} else if ( nstyle->displayMode() == TQStyleSheetItem::DisplayBlock ) {
while ( curtag.style->name() == "p" ) {
if ( tags.isEmpty() )
break;
curtag = tags.pop();
}
if ( curtag.style->displayMode() == TQStyleSheetItem::DisplayListItem ) {
// we are in a li and a new block comes along
if ( nstyle->name() == "ul" || nstyle->name() == "ol" )
hasNewPar = FALSE; // we want an empty li (like most browsers)
if ( !hasNewPar ) {
/* do not add new blocks inside
non-empty lis */
while ( curtag.style->displayMode() == TQStyleSheetItem::DisplayListItem ) {
if ( tags.isEmpty() )
break;
curtag = tags.pop();
}
} else if ( canMergeLi ) {
/* we have an empty li and a block
comes along, merge them */
nstyle = curtag.style;
}
canMergeLi = FALSE;
}
}
}
#ifndef TQT_NO_TEXTCUSTOMITEM
TQTextCustomItem* custom = 0;
#else
bool custom = FALSE;
#endif
// some well-known tags, some have a nstyle, some not
if ( wellKnownTags.find( tagname ) != -1 ) {
if ( tagname == "br" ) {
emptyTag = space = TRUE;
int index = TQMAX( curpar->length(),1) - 1;
TQTextFormat format = curtag.format.makeTextFormat( nstyle, attr, scaleFontsFactor );
curpar->append( TQChar_linesep );
curpar->setFormat( index, 1, &format );
hasNewPar = false;
} else if ( tagname == "hr" ) {
emptyTag = space = TRUE;
#ifndef TQT_NO_TEXTCUSTOMITEM
custom = sheet_->tag( tagname, attr, contxt, *factory_ , emptyTag, this );
#endif
} else if ( tagname == "table" ) {
emptyTag = space = TRUE;
#ifndef TQT_NO_TEXTCUSTOMITEM
TQTextFormat format = curtag.format.makeTextFormat( nstyle, attr, scaleFontsFactor );
curpar->setAlignment( curtag.alignment );
custom = parseTable( attr, format, doc, length, pos, curpar );
#endif
} else if ( tagname == "qt" || tagname == "body" ) {
if ( attr.contains( "bgcolor" ) ) {
TQBrush *b = new TQBrush( TQColor( attr["bgcolor"] ) );
setPaper( b );
}
if ( attr.contains( "background" ) ) {
#ifndef TQT_NO_MIME
TQImage img;
TQString bg = attr["background"];
const TQMimeSource* m = factory_->data( bg, contxt );
if ( !m ) {
tqWarning("TQRichText: no mimesource for %s", bg.latin1() );
} else {
if ( !TQImageDrag::decode( m, img ) ) {
tqWarning("TQTextImage: cannot decode %s", bg.latin1() );
}
}
if ( !img.isNull() ) {
TQBrush *b = new TQBrush( TQColor(), TQPixmap( img ) );
setPaper( b );
}
#endif
}
if ( attr.contains( "text" ) ) {
TQColor c( attr["text"] );
initag.format.setColor( c );
curtag.format.setColor( c );
bodyText = c;
}
if ( attr.contains( "link" ) )
linkColor = TQColor( attr["link"] );
if ( attr.contains( "title" ) )
attribs.replace( "title", attr["title"] );
if ( textEditMode ) {
if ( attr.contains("style" ) ) {
TQString a = attr["style"];
for ( int s = 0; s < a.contains(';')+1; s++ ) {
TQString style = a.section( ';', s, s );
if ( style.startsWith("font-size:" ) && style.endsWith("pt") ) {
scaleFontsFactor = double( formatCollection()->defaultFormat()->fn.pointSize() ) /
style.mid( 10, style.length() - 12 ).toInt();
}
}
}
nstyle = 0; // ignore body in textEditMode
}
// end qt- and body-tag handling
} else if ( tagname == "meta" ) {
if ( attr["name"] == "qrichtext" && attr["content"] == "1" )
textEditMode = TRUE;
} else if ( tagname == "title" ) {
TQString title;
while ( pos < length ) {
if ( hasPrefix( doc, length, pos, TQChar('<') ) && hasPrefix( doc, length, pos+1, TQChar('/') ) &&
parseCloseTag( doc, length, pos ) == "title" )
break;
title += doc[ pos ];
++pos;
}
attribs.replace( "title", title );
}
} // end of well-known tag handling
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( !custom ) // try generic custom item
custom = sheet_->tag( tagname, attr, contxt, *factory_ , emptyTag, this );
#endif
if ( !nstyle && !custom ) // we have no clue what this tag could be, ignore it
continue;
if ( custom ) {
#ifndef TQT_NO_TEXTCUSTOMITEM
int index = TQMAX( curpar->length(),1) - 1;
TQTextFormat format = curtag.format.makeTextFormat( nstyle, attr, scaleFontsFactor );
curpar->append( TQChar('*') );
TQTextFormat* f = formatCollection()->format( &format );
curpar->setFormat( index, 1, f );
curpar->at( index )->setCustomItem( custom );
if ( !curtag.anchorHref.isEmpty() )
curpar->at(index)->setAnchor( TQString::null, curtag.anchorHref );
if ( !anchorName.isEmpty() ) {
curpar->at(index)->setAnchor( anchorName, curpar->at(index)->anchorHref() );
anchorName = TQString::null;
}
registerCustomItem( custom, curpar );
hasNewPar = FALSE;
#endif
} else if ( !emptyTag ) {
/* if we do nesting, push curtag on the stack,
otherwise reinint curag. */
if ( curtag.style->name() != tagname || nstyle->selfNesting() ) {
tags.push( curtag );
} else {
if ( !tags.isEmpty() )
curtag = tags.top();
else
curtag = initag;
}
curtag.name = tagname;
curtag.style = nstyle;
curtag.name = tagname;
curtag.style = nstyle;
if ( nstyle->whiteSpaceMode() != TQStyleSheetItem::WhiteSpaceModeUndefined )
curtag.wsm = nstyle->whiteSpaceMode();
/* netscape compatibility: eat a newline and only a newline if a pre block starts */
if ( curtag.wsm == TQStyleSheetItem::WhiteSpacePre &&
nstyle->displayMode() == TQStyleSheetItem::DisplayBlock )
eat( doc, length, pos, '\n' );
/* ignore whitespace for inline elements if there
was already one*/
if ( !textEditMode &&
(curtag.wsm == TQStyleSheetItem::WhiteSpaceNormal
|| curtag.wsm == TQStyleSheetItem::WhiteSpaceNoWrap)
&& ( space || nstyle->displayMode() != TQStyleSheetItem::DisplayInline ) )
eatSpace( doc, length, pos );
curtag.format = curtag.format.makeTextFormat( nstyle, attr, scaleFontsFactor );
if ( nstyle->isAnchor() ) {
if ( !anchorName.isEmpty() )
anchorName += "#" + attr["name"];
else
anchorName = attr["name"];
curtag.anchorHref = attr["href"];
}
if ( nstyle->alignment() != TQStyleSheetItem::Undefined )
curtag.alignment = nstyle->alignment();
if ( nstyle->listStyle() != TQStyleSheetItem::ListStyleUndefined )
curtag.liststyle = nstyle->listStyle();
if ( nstyle->displayMode() == TQStyleSheetItem::DisplayBlock
|| nstyle->displayMode() == TQStyleSheetItem::DisplayListItem ) {
if ( nstyle->name() == "ol" || nstyle->name() == "ul" || nstyle->name() == "li") {
TQString type = attr["type"];
if ( !type.isEmpty() ) {
if ( type == "1" ) {
curtag.liststyle = TQStyleSheetItem::ListDecimal;
} else if ( type == "a" ) {
curtag.liststyle = TQStyleSheetItem::ListLowerAlpha;
} else if ( type == "A" ) {
curtag.liststyle = TQStyleSheetItem::ListUpperAlpha;
} else {
type = type.lower();
if ( type == "square" )
curtag.liststyle = TQStyleSheetItem::ListSquare;
else if ( type == "disc" )
curtag.liststyle = TQStyleSheetItem::ListDisc;
else if ( type == "circle" )
curtag.liststyle = TQStyleSheetItem::ListCircle;
}
}
}
/* Internally we treat ordered and bullet
lists the same for margin calculations. In
order to have fast pointer compares in the
xMargin() functions we restrict ourselves to
<ol>. Once we calculate the margins in the
parser rathern than later, the unelegance of
this approach goes awy
*/
if ( nstyle->name() == "ul" )
curtag.style = sheet_->item( "ol" );
if ( attr.contains( "align" ) ) {
TQString align = attr["align"].lower();
if ( align == "center" )
curtag.alignment = TQt::AlignCenter;
else if ( align == "right" )
curtag.alignment = TQt::AlignRight;
else if ( align == "justify" )
curtag.alignment = TQt::AlignJustify;
}
if ( attr.contains( "dir" ) ) {
TQString dir = attr["dir"];
if ( dir == "rtl" )
curtag.direction = TQChar::DirR;
else if ( dir == "ltr" )
curtag.direction = TQChar::DirL;
}
NEWPAR;
if ( curtag.style->displayMode() == TQStyleSheetItem::DisplayListItem ) {
if ( attr.contains( "value " ) )
curpar->setListValue( attr["value"].toInt() );
}
if ( attr.contains( "style" ) ) {
TQString a = attr["style"];
bool ok = TRUE;
for ( int s = 0; ok && s < a.contains(';')+1; s++ ) {
TQString style = a.section( ';', s, s );
if ( style.startsWith("margin-top:" ) && style.endsWith("px") )
curpar->utm = 1+style.mid(11, style.length() - 13).toInt(&ok);
else if ( style.startsWith("margin-bottom:" ) && style.endsWith("px") )
curpar->ubm = 1+style.mid(14, style.length() - 16).toInt(&ok);
else if ( style.startsWith("margin-left:" ) && style.endsWith("px") )
curpar->ulm = 1+style.mid(12, style.length() - 14).toInt(&ok);
else if ( style.startsWith("margin-right:" ) && style.endsWith("px") )
curpar->urm = 1+style.mid(13, style.length() - 15).toInt(&ok);
else if ( style.startsWith("text-indent:" ) && style.endsWith("px") )
curpar->uflm = 1+style.mid(12, style.length() - 14).toInt(&ok);
}
if ( !ok ) // be pressmistic
curpar->utm = curpar->ubm = curpar->urm = curpar->ulm = 0;
}
}
}
} else {
TQString tagname = parseCloseTag( doc, length, pos );
if ( tagname.isEmpty() )
continue; // nothing we could do with this, probably parse error
if ( !sheet_->item( tagname ) ) // ignore unknown tags
continue;
if ( tagname == "li" )
continue;
// we close a block item. Since the text may continue, we need to have a new paragraph
bool needNewPar = curtag.style->displayMode() == TQStyleSheetItem::DisplayBlock
|| curtag.style->displayMode() == TQStyleSheetItem::DisplayListItem;
// html slopiness: handle unbalanched tag closing
while ( curtag.name != tagname ) {
TQString msg;
msg.sprintf( "TQText Warning: Document not valid ( '%s' not closed before '%s' #%d)",
curtag.name.ascii(), tagname.ascii(), pos);
sheet_->error( msg );
if ( tags.isEmpty() )
break;
curtag = tags.pop();
}
// close the tag
if ( !tags.isEmpty() )
curtag = tags.pop();
else
curtag = initag;
if ( needNewPar ) {
if ( textEditMode && (tagname == "p" || tagname == "div" ) ) // preserve empty paragraphs
hasNewPar = FALSE;
NEWPAR;
}
}
} else {
// normal contents
TQString s;
TQChar c;
while ( pos < length && !hasPrefix(doc, length, pos, TQChar('<') ) ){
if ( textEditMode ) {
// text edit mode: we handle all white space but ignore newlines
c = parseChar( doc, length, pos, TQStyleSheetItem::WhiteSpacePre );
if ( c == TQChar_linesep )
break;
} else {
int l = pos;
c = parseChar( doc, length, pos, curtag.wsm );
// in white space pre mode: treat any space as non breakable
// and expand tabs to eight character wide columns.
if ( curtag.wsm == TQStyleSheetItem::WhiteSpacePre ) {
if ( c == '\t' ) {
c = ' ';
while( (++tabExpansionColumn)%8 )
s += c;
}
if ( c == TQChar_linesep )
tabExpansionColumn = 0;
else
tabExpansionColumn++;
}
if ( c == ' ' || c == TQChar_linesep ) {
/* avoid overlong paragraphs by forcing a new
paragraph after 4096 characters. This case can
occur when loading undiscovered plain text
documents in rich text mode. Instead of hanging
forever, we do the trick.
*/
if ( curtag.wsm == TQStyleSheetItem::WhiteSpaceNormal && s.length() > 4096 ) do {
if ( doc[l] == '\n' ) {
hasNewPar = FALSE; // for a new paragraph ...
NEWPAR;
hasNewPar = FALSE; // ... and make it non-reusable
c = '\n'; // make sure we break below
break;
}
} while ( ++l < pos );
}
}
if ( c == '\n' )
break; // break on newlines, pre delievers a TQChar_linesep
bool c_isSpace = c.isSpace() && c.unicode() != 0x00a0U && !textEditMode;
if ( curtag.wsm == TQStyleSheetItem::WhiteSpaceNormal && c_isSpace && space )
continue;
if ( c == '\r' )
continue;
space = c_isSpace;
s += c;
}
if ( !s.isEmpty() && curtag.style->displayMode() != TQStyleSheetItem::DisplayNone ) {
hasNewPar = FALSE;
int index = TQMAX( curpar->length(),1) - 1;
curpar->append( s );
if (curtag.wsm != TQStyleSheetItem::WhiteSpaceNormal) {
TQTextString *str = curpar->string();
for (uint i = index; i < index + s.length(); ++i)
str->at(i).nobreak = TRUE;
}
TQTextFormat* f = formatCollection()->format( &curtag.format );
curpar->setFormat( index, s.length(), f, FALSE ); // do not use collection because we have done that already
f->ref += s.length() -1; // that what friends are for...
if ( !curtag.anchorHref.isEmpty() ) {
for ( int i = 0; i < int(s.length()); i++ )
curpar->at(index + i)->setAnchor( TQString::null, curtag.anchorHref );
}
if ( !anchorName.isEmpty() ) {
for ( int i = 0; i < int(s.length()); i++ )
curpar->at(index + i)->setAnchor( anchorName, curpar->at(index + i)->anchorHref() );
anchorName = TQString::null;
}
}
}
}
if ( hasNewPar && curpar != fParag && !cursor && stylesPar != curpar ) {
// cleanup unused last paragraphs
curpar = curpar->p;
delete curpar->n;
}
if ( !anchorName.isEmpty() ) {
curpar->at(curpar->length() - 1)->setAnchor( anchorName, curpar->at( curpar->length() - 1 )->anchorHref() );
anchorName = TQString::null;
}
setRichTextMarginsInternal( styles, stylesPar );
if ( cursor ) {
cursor->gotoPreviousLetter();
cursor->remove();
}
delete vec;
}
void TQTextDocument::setRichTextMarginsInternal( TQPtrList< TQPtrVector<TQStyleSheetItem> >& styles, TQTextParagraph* stylesPar )
{
// margin and line spacing calculation
TQPtrVector<TQStyleSheetItem>* prevStyle = 0;
TQPtrVector<TQStyleSheetItem>* curStyle = styles.first();
TQPtrVector<TQStyleSheetItem>* nextStyle = styles.next();
while ( stylesPar ) {
if ( !curStyle ) {
stylesPar = stylesPar->next();
prevStyle = curStyle;
curStyle = nextStyle;
nextStyle = styles.next();
continue;
}
int i, mar;
TQStyleSheetItem* mainStyle = curStyle->size() ? (*curStyle)[curStyle->size()-1] : 0;
if ( mainStyle && mainStyle->displayMode() == TQStyleSheetItem::DisplayListItem )
stylesPar->setListItem( TRUE );
int numLists = 0;
for ( i = 0; i < (int)curStyle->size(); ++i ) {
if ( (*curStyle)[ i ]->displayMode() == TQStyleSheetItem::DisplayBlock
&& (*curStyle)[ i ]->listStyle() != TQStyleSheetItem::ListStyleUndefined )
numLists++;
}
stylesPar->ldepth = numLists;
if ( stylesPar->next() && nextStyle ) {
// also set the depth of the next paragraph, required for the margin calculation
numLists = 0;
for ( i = 0; i < (int)nextStyle->size(); ++i ) {
if ( (*nextStyle)[ i ]->displayMode() == TQStyleSheetItem::DisplayBlock
&& (*nextStyle)[ i ]->listStyle() != TQStyleSheetItem::ListStyleUndefined )
numLists++;
}
stylesPar->next()->ldepth = numLists;
}
// do the top margin
TQStyleSheetItem* item = mainStyle;
int m;
if (stylesPar->utm > 0 ) {
m = stylesPar->utm-1;
stylesPar->utm = 0;
} else {
m = TQMAX(0, item->margin( TQStyleSheetItem::MarginTop ) );
if ( stylesPar->ldepth ) {
if ( item->displayMode() == TQStyleSheetItem::DisplayListItem )
m /= stylesPar->ldepth * stylesPar->ldepth;
else
m = 0;
}
}
for ( i = (int)curStyle->size() - 2 ; i >= 0; --i ) {
item = (*curStyle)[ i ];
if ( prevStyle && i < (int) prevStyle->size() &&
( item->displayMode() == TQStyleSheetItem::DisplayBlock &&
(*prevStyle)[ i ] == item ) )
break;
// emulate CSS2' standard 0 vertical margin for multiple ul or ol tags
if ( item->listStyle() != TQStyleSheetItem::ListStyleUndefined &&
( ( i> 0 && (*curStyle)[ i-1 ] == item ) || (*curStyle)[i+1] == item ) )
continue;
mar = TQMAX( 0, item->margin( TQStyleSheetItem::MarginTop ) );
m = TQMAX( m, mar );
}
stylesPar->utm = m - stylesPar->topMargin();
// do the bottom margin
item = mainStyle;
if (stylesPar->ubm > 0 ) {
m = stylesPar->ubm-1;
stylesPar->ubm = 0;
} else {
m = TQMAX(0, item->margin( TQStyleSheetItem::MarginBottom ) );
if ( stylesPar->ldepth ) {
if ( item->displayMode() == TQStyleSheetItem::DisplayListItem )
m /= stylesPar->ldepth * stylesPar->ldepth;
else
m = 0;
}
}
for ( i = (int)curStyle->size() - 2 ; i >= 0; --i ) {
item = (*curStyle)[ i ];
if ( nextStyle && i < (int) nextStyle->size() &&
( item->displayMode() == TQStyleSheetItem::DisplayBlock &&
(*nextStyle)[ i ] == item ) )
break;
// emulate CSS2' standard 0 vertical margin for multiple ul or ol tags
if ( item->listStyle() != TQStyleSheetItem::ListStyleUndefined &&
( ( i> 0 && (*curStyle)[ i-1 ] == item ) || (*curStyle)[i+1] == item ) )
continue;
mar = TQMAX(0, item->margin( TQStyleSheetItem::MarginBottom ) );
m = TQMAX( m, mar );
}
stylesPar->ubm = m - stylesPar->bottomMargin();
// do the left margin, simplyfied
item = mainStyle;
if (stylesPar->ulm > 0 ) {
m = stylesPar->ulm-1;
stylesPar->ulm = 0;
} else {
m = TQMAX( 0, item->margin( TQStyleSheetItem::MarginLeft ) );
}
for ( i = (int)curStyle->size() - 2 ; i >= 0; --i ) {
item = (*curStyle)[ i ];
m += TQMAX( 0, item->margin( TQStyleSheetItem::MarginLeft ) );
}
stylesPar->ulm = m - stylesPar->leftMargin();
// do the right margin, simplyfied
item = mainStyle;
if (stylesPar->urm > 0 ) {
m = stylesPar->urm-1;
stylesPar->urm = 0;
} else {
m = TQMAX( 0, item->margin( TQStyleSheetItem::MarginRight ) );
}
for ( i = (int)curStyle->size() - 2 ; i >= 0; --i ) {
item = (*curStyle)[ i ];
m += TQMAX( 0, item->margin( TQStyleSheetItem::MarginRight ) );
}
stylesPar->urm = m - stylesPar->rightMargin();
// do the first line margin, which really should be called text-indent
item = mainStyle;
if (stylesPar->uflm > 0 ) {
m = stylesPar->uflm-1;
stylesPar->uflm = 0;
} else {
m = TQMAX( 0, item->margin( TQStyleSheetItem::MarginFirstLine ) );
}
for ( i = (int)curStyle->size() - 2 ; i >= 0; --i ) {
item = (*curStyle)[ i ];
mar = TQMAX( 0, item->margin( TQStyleSheetItem::MarginFirstLine ) );
m = TQMAX( m, mar );
}
stylesPar->uflm =m - stylesPar->firstLineMargin();
// do the bogus line "spacing", which really is just an extra margin
item = mainStyle;
for ( i = (int)curStyle->size() - 1 ; i >= 0; --i ) {
item = (*curStyle)[ i ];
if ( item->lineSpacing() != TQStyleSheetItem::Undefined ) {
stylesPar->ulinespacing = item->lineSpacing();
if ( formatCollection() &&
stylesPar->ulinespacing < formatCollection()->defaultFormat()->height() )
stylesPar->ulinespacing += formatCollection()->defaultFormat()->height();
break;
}
}
stylesPar = stylesPar->next();
prevStyle = curStyle;
curStyle = nextStyle;
nextStyle = styles.next();
}
}
void TQTextDocument::setText( const TQString &text, const TQString &context )
{
focusIndicator.parag = 0;
selections.clear();
if ( ( txtFormat == TQt::AutoText && TQStyleSheet::mightBeRichText( text ) ) ||
txtFormat == TQt::RichText )
setRichText( text, context );
else
setPlainText( text );
}
TQString TQTextDocument::plainText() const
{
TQString buffer;
TQString s;
TQTextParagraph *p = fParag;
while ( p ) {
if ( !p->mightHaveCustomItems ) {
const TQTextString *ts = p->string(); // workaround VC++ and Borland
s = ts->toString(); // with FALSE we don't fix spaces (nbsp)
} else {
for ( int i = 0; i < p->length() - 1; ++i ) {
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( p->at( i )->isCustom() ) {
if ( p->at( i )->customItem()->isNested() ) {
s += "\n";
TQTextTable *t = (TQTextTable*)p->at( i )->customItem();
TQPtrList<TQTextTableCell> cells = t->tableCells();
for ( TQTextTableCell *c = cells.first(); c; c = cells.next() )
s += c->richText()->plainText() + "\n";
s += "\n";
}
} else
#endif
{
s += p->at( i )->c;
}
}
}
s.remove( s.length() - 1, 1 );
if ( p->next() )
s += "\n";
buffer += s;
p = p->next();
}
return buffer;
}
static TQString align_to_string( int a )
{
if ( a & TQt::AlignRight )
return " align=\"right\"";
if ( a & TQt::AlignHCenter )
return " align=\"center\"";
if ( a & TQt::AlignJustify )
return " align=\"justify\"";
return TQString::null;
}
static TQString direction_to_string( int d )
{
if ( d != TQChar::DirON )
return ( d == TQChar::DirL? " dir=\"ltr\"" : " dir=\"rtl\"" );
return TQString::null;
}
static TQString list_value_to_string( int v )
{
if ( v != -1 )
return " listvalue=\"" + TQString::number( v ) + "\"";
return TQString::null;
}
static TQString list_style_to_string( int v )
{
switch( v ) {
case TQStyleSheetItem::ListDecimal: return "\"1\"";
case TQStyleSheetItem::ListLowerAlpha: return "\"a\"";
case TQStyleSheetItem::ListUpperAlpha: return "\"A\"";
case TQStyleSheetItem::ListDisc: return "\"disc\"";
case TQStyleSheetItem::ListSquare: return "\"square\"";
case TQStyleSheetItem::ListCircle: return "\"circle\"";
default:
return TQString::null;
}
}
static inline bool list_is_ordered( int v )
{
return v == TQStyleSheetItem::ListDecimal ||
v == TQStyleSheetItem::ListLowerAlpha ||
v == TQStyleSheetItem::ListUpperAlpha;
}
static TQString margin_to_string( TQStyleSheetItem* style, int t, int b, int l, int r, int fl )
{
TQString s;
if ( l > 0 )
s += TQString(!!s?";":"") + "margin-left:" + TQString::number(l+TQMAX(0,style->margin(TQStyleSheetItem::MarginLeft))) + "px";
if ( r > 0 )
s += TQString(!!s?";":"") + "margin-right:" + TQString::number(r+TQMAX(0,style->margin(TQStyleSheetItem::MarginRight))) + "px";
if ( t > 0 )
s += TQString(!!s?";":"") + "margin-top:" + TQString::number(t+TQMAX(0,style->margin(TQStyleSheetItem::MarginTop))) + "px";
if ( b > 0 )
s += TQString(!!s?";":"") + "margin-bottom:" + TQString::number(b+TQMAX(0,style->margin(TQStyleSheetItem::MarginBottom))) + "px";
if ( fl > 0 )
s += TQString(!!s?";":"") + "text-indent:" + TQString::number(fl+TQMAX(0,style->margin(TQStyleSheetItem::MarginFirstLine))) + "px";
if ( !!s )
return " style=\"" + s + "\"";
return TQString::null;
}
TQString TQTextDocument::richText() const
{
TQString s = "";
if ( !par ) {
s += "<html><head><meta name=\"qrichtext\" content=\"1\" /></head><body style=\"font-size:" ;
s += TQString::number( formatCollection()->defaultFormat()->font().pointSize() );
s += "pt;font-family:";
s += formatCollection()->defaultFormat()->font().family();
s +="\">";
}
TQTextParagraph* p = fParag;
TQStyleSheetItem* item_p = styleSheet()->item("p");
TQStyleSheetItem* item_div = styleSheet()->item("div");
TQStyleSheetItem* item_ul = styleSheet()->item("ul");
TQStyleSheetItem* item_ol = styleSheet()->item("ol");
TQStyleSheetItem* item_li = styleSheet()->item("li");
if ( !item_p || !item_div || !item_ul || !item_ol || !item_li ) {
tqWarning( "TQTextEdit: cannot export HTML due to insufficient stylesheet (lack of p, div, ul, ol, or li)" );
return TQString::null;
}
int pastListDepth = 0;
int listDepth = 0;
#if 0
int futureListDepth = 0;
#endif
TQMemArray<int> listStyles(10);
while ( p ) {
listDepth = p->listDepth();
if ( listDepth < pastListDepth ) {
for ( int i = pastListDepth; i > listDepth; i-- )
s += list_is_ordered( listStyles[i] ) ? "</ol>" : "</ul>";
s += '\n';
} else if ( listDepth > pastListDepth ) {
s += '\n';
listStyles.resize( TQMAX( (int)listStyles.size(), listDepth+1 ) );
TQString list_type;
listStyles[listDepth] = p->listStyle();
if ( !list_is_ordered( p->listStyle() ) || item_ol->listStyle() != p->listStyle() )
list_type = " type=" + list_style_to_string( p->listStyle() );
for ( int i = pastListDepth; i < listDepth; i++ ) {
s += list_is_ordered( p->listStyle() ) ? "<ol" : "<ul" ;
s += list_type + ">";
}
} else {
s += '\n';
}
TQString ps = p->richText();
#if 0
// for the bottom margin we need to know whether we are at the end of a list
futureListDepth = 0;
if ( listDepth > 0 && p->next() )
futureListDepth = p->next()->listDepth();
#endif
if ( richTextExportStart && richTextExportStart->paragraph() ==p &&
richTextExportStart->index() == 0 )
s += "<!--StartFragment-->";
if ( p->isListItem() ) {
s += "<li";
if ( p->listStyle() != listStyles[listDepth] )
s += " type=" + list_style_to_string( p->listStyle() );
s +=align_to_string( p->alignment() );
s += margin_to_string( item_li, p->utm, p->ubm, p->ulm, p->urm, p->uflm );
s += list_value_to_string( p->listValue() );
s += direction_to_string( p->direction() );
s +=">";
s += ps;
s += "</li>";
} else if ( p->listDepth() ) {
s += "<div";
s += align_to_string( p->alignment() );
s += margin_to_string( item_div, p->utm, p->ubm, p->ulm, p->urm, p->uflm );
s +=direction_to_string( p->direction() );
s += ">";
s += ps;
s += "</div>";
} else {
// normal paragraph item
s += "<p";
s += align_to_string( p->alignment() );
s += margin_to_string( item_p, p->utm, p->ubm, p->ulm, p->urm, p->uflm );
s +=direction_to_string( p->direction() );
s += ">";
s += ps;
s += "</p>";
}
pastListDepth = listDepth;
p = p->next();
}
while ( listDepth > 0 ) {
s += list_is_ordered( listStyles[listDepth] ) ? "</ol>" : "</ul>";
listDepth--;
}
if ( !par )
s += "\n</body></html>\n";
return s;
}
TQString TQTextDocument::text() const
{
if ( ( txtFormat == TQt::AutoText && preferRichText ) || txtFormat == TQt::RichText )
return richText();
return plainText();
}
TQString TQTextDocument::text( int parag ) const
{
TQTextParagraph *p = paragAt( parag );
if ( !p )
return TQString::null;
if ( ( txtFormat == TQt::AutoText && preferRichText ) || txtFormat == TQt::RichText )
return p->richText();
else
return p->string()->toString();
}
void TQTextDocument::invalidate()
{
TQTextParagraph *s = fParag;
while ( s ) {
s->invalidate( 0 );
s = s->next();
}
}
void TQTextDocument::selectionStart( int id, int &paragId, int &index )
{
TQMap<int, TQTextDocumentSelection>::Iterator it = selections.find( id );
if ( it == selections.end() )
return;
TQTextDocumentSelection &sel = *it;
paragId = !sel.swapped ? sel.startCursor.paragraph()->paragId() : sel.endCursor.paragraph()->paragId();
index = !sel.swapped ? sel.startCursor.index() : sel.endCursor.index();
}
TQTextCursor TQTextDocument::selectionStartCursor( int id)
{
TQMap<int, TQTextDocumentSelection>::Iterator it = selections.find( id );
if ( it == selections.end() )
return TQTextCursor( this );
TQTextDocumentSelection &sel = *it;
if ( sel.swapped )
return sel.endCursor;
return sel.startCursor;
}
TQTextCursor TQTextDocument::selectionEndCursor( int id)
{
TQMap<int, TQTextDocumentSelection>::Iterator it = selections.find( id );
if ( it == selections.end() )
return TQTextCursor( this );
TQTextDocumentSelection &sel = *it;
if ( !sel.swapped )
return sel.endCursor;
return sel.startCursor;
}
void TQTextDocument::selectionEnd( int id, int &paragId, int &index )
{
TQMap<int, TQTextDocumentSelection>::Iterator it = selections.find( id );
if ( it == selections.end() )
return;
TQTextDocumentSelection &sel = *it;
paragId = sel.swapped ? sel.startCursor.paragraph()->paragId() : sel.endCursor.paragraph()->paragId();
index = sel.swapped ? sel.startCursor.index() : sel.endCursor.index();
}
void TQTextDocument::addSelection( int id )
{
nSelections = TQMAX( nSelections, id + 1 );
}
static void setSelectionEndHelper( int id, TQTextDocumentSelection &sel, TQTextCursor &start, TQTextCursor &end )
{
TQTextCursor c1 = start;
TQTextCursor c2 = end;
if ( sel.swapped ) {
c1 = end;
c2 = start;
}
c1.paragraph()->removeSelection( id );
c2.paragraph()->removeSelection( id );
if ( c1.paragraph() != c2.paragraph() ) {
c1.paragraph()->setSelection( id, c1.index(), c1.paragraph()->length() - 1 );
c2.paragraph()->setSelection( id, 0, c2.index() );
} else {
c1.paragraph()->setSelection( id, TQMIN( c1.index(), c2.index() ), TQMAX( c1.index(), c2.index() ) );
}
sel.startCursor = start;
sel.endCursor = end;
if ( sel.startCursor.paragraph() == sel.endCursor.paragraph() )
sel.swapped = sel.startCursor.index() > sel.endCursor.index();
}
bool TQTextDocument::setSelectionEnd( int id, const TQTextCursor &cursor )
{
TQMap<int, TQTextDocumentSelection>::Iterator it = selections.find( id );
if ( it == selections.end() )
return FALSE;
TQTextDocumentSelection &sel = *it;
TQTextCursor start = sel.startCursor;
TQTextCursor end = cursor;
if ( start == end ) {
removeSelection( id );
setSelectionStart( id, cursor );
return TRUE;
}
if ( sel.endCursor.paragraph() == end.paragraph() ) {
setSelectionEndHelper( id, sel, start, end );
return TRUE;
}
bool inSelection = FALSE;
TQTextCursor c( this );
TQTextCursor tmp = sel.startCursor;
if ( sel.swapped )
tmp = sel.endCursor;
tmp.restoreState();
TQTextCursor tmp2 = cursor;
tmp2.restoreState();
c.setParagraph( tmp.paragraph()->paragId() < tmp2.paragraph()->paragId() ? tmp.paragraph() : tmp2.paragraph() );
bool hadStart = FALSE;
bool hadEnd = FALSE;
bool hadStartParag = FALSE;
bool hadEndParag = FALSE;
bool hadOldStart = FALSE;
bool hadOldEnd = FALSE;
bool leftSelection = FALSE;
sel.swapped = FALSE;
for ( ;; ) {
if ( c == start )
hadStart = TRUE;
if ( c == end )
hadEnd = TRUE;
if ( c.paragraph() == start.paragraph() )
hadStartParag = TRUE;
if ( c.paragraph() == end.paragraph() )
hadEndParag = TRUE;
if ( c == sel.startCursor )
hadOldStart = TRUE;
if ( c == sel.endCursor )
hadOldEnd = TRUE;
if ( !sel.swapped &&
( ( hadEnd && !hadStart ) ||
( hadEnd && hadStart && start.paragraph() == end.paragraph() && start.index() > end.index() ) ) )
sel.swapped = TRUE;
if ( ( c == end && hadStartParag ) ||
( c == start && hadEndParag ) ) {
TQTextCursor tmp = c;
tmp.restoreState();
if ( tmp.paragraph() != c.paragraph() ) {
int sstart = tmp.paragraph()->selectionStart( id );
tmp.paragraph()->removeSelection( id );
tmp.paragraph()->setSelection( id, sstart, tmp.index() );
}
}
if ( inSelection &&
( ( c == end && hadStart ) || ( c == start && hadEnd ) ) )
leftSelection = TRUE;
else if ( !leftSelection && !inSelection && ( hadStart || hadEnd ) )
inSelection = TRUE;
bool noSelectionAnymore = hadOldStart && hadOldEnd && leftSelection && !inSelection && !c.paragraph()->hasSelection( id ) && c.atParagEnd();
c.paragraph()->removeSelection( id );
if ( inSelection ) {
if ( c.paragraph() == start.paragraph() && start.paragraph() == end.paragraph() ) {
c.paragraph()->setSelection( id, TQMIN( start.index(), end.index() ), TQMAX( start.index(), end.index() ) );
} else if ( c.paragraph() == start.paragraph() && !hadEndParag ) {
c.paragraph()->setSelection( id, start.index(), c.paragraph()->length() - 1 );
} else if ( c.paragraph() == end.paragraph() && !hadStartParag ) {
c.paragraph()->setSelection( id, end.index(), c.paragraph()->length() - 1 );
} else if ( c.paragraph() == end.paragraph() && hadEndParag ) {
c.paragraph()->setSelection( id, 0, end.index() );
} else if ( c.paragraph() == start.paragraph() && hadStartParag ) {
c.paragraph()->setSelection( id, 0, start.index() );
} else {
c.paragraph()->setSelection( id, 0, c.paragraph()->length() - 1 );
}
}
if ( leftSelection )
inSelection = FALSE;
if ( noSelectionAnymore )
break;
// *ugle*hack optimization
TQTextParagraph *p = c.paragraph();
if ( p->mightHaveCustomItems || p == start.paragraph() || p == end.paragraph() || p == lastParagraph() ) {
c.gotoNextLetter();
if ( p == lastParagraph() && c.atParagEnd() )
break;
} else {
if ( p->document()->parent() )
do {
c.gotoNextLetter();
} while ( c.paragraph() == p );
else
c.setParagraph( p->next() );
}
}
if ( !sel.swapped )
sel.startCursor.paragraph()->setSelection( id, sel.startCursor.index(), sel.startCursor.paragraph()->length() - 1 );
sel.startCursor = start;
sel.endCursor = end;
if ( sel.startCursor.paragraph() == sel.endCursor.paragraph() )
sel.swapped = sel.startCursor.index() > sel.endCursor.index();
setSelectionEndHelper( id, sel, start, end );
return TRUE;
}
void TQTextDocument::selectAll( int id )
{
removeSelection( id );
TQTextDocumentSelection sel;
sel.swapped = FALSE;
TQTextCursor c( this );
c.setParagraph( fParag );
c.setIndex( 0 );
sel.startCursor = c;
c.setParagraph( lParag );
c.setIndex( lParag->length() - 1 );
sel.endCursor = c;
selections.insert( id, sel );
TQTextParagraph *p = fParag;
while ( p ) {
p->setSelection( id, 0, p->length() - 1 );
p = p->next();
}
for ( TQTextDocument *d = childList.first(); d; d = childList.next() )
d->selectAll( id );
}
bool TQTextDocument::removeSelection( int id )
{
if ( !selections.contains( id ) )
return FALSE;
TQTextDocumentSelection &sel = selections[ id ];
TQTextCursor start = sel.swapped ? sel.endCursor : sel.startCursor;
TQTextCursor end = sel.swapped ? sel.startCursor : sel.endCursor;
TQTextParagraph* p = 0;
while ( start != end ) {
if ( p != start.paragraph() ) {
p = start.paragraph();
p->removeSelection( id );
//### avoid endless loop by all means necessary, did somebody mention refactoring?
if ( !parent() && p == lParag )
break;
}
start.gotoNextLetter();
}
p = start.paragraph();
p->removeSelection( id );
selections.remove( id );
return TRUE;
}
TQString TQTextDocument::selectedText( int id, bool asRichText ) const
{
TQMap<int, TQTextDocumentSelection>::ConstIterator it = selections.find( id );
if ( it == selections.end() )
return TQString::null;
TQTextDocumentSelection sel = *it;
TQTextCursor c1 = sel.startCursor;
TQTextCursor c2 = sel.endCursor;
if ( sel.swapped ) {
c2 = sel.startCursor;
c1 = sel.endCursor;
}
/* 3.0.3 improvement: Make it possible to get a reasonable
selection inside a table. This approach is very conservative:
make sure that both cursors have the same depth level and point
to paragraphs within the same text document.
Meaning if you select text in two table cells, you will get the
entire table. This is still far better than the 3.0.2, where
you always got the entire table.
### Fix this properly when refactoring
*/
while ( c2.nestedDepth() > c1.nestedDepth() )
c2.oneUp();
while ( c1.nestedDepth() > c2.nestedDepth() )
c1.oneUp();
while ( c1.nestedDepth() && c2.nestedDepth() &&
c1.paragraph()->document() != c2.paragraph()->document() ) {
c1.oneUp();
c2.oneUp();
}
// do not trust sel_swapped with tables. Fix this properly when refactoring as well
if ( c1.paragraph()->paragId() > c2.paragraph()->paragId() ||
(c1.paragraph() == c2.paragraph() && c1.index() > c2.index() ) ) {
TQTextCursor tmp = c1;
c2 = c1;
c1 = tmp;
}
// end selection 3.0.3 improvement
if ( asRichText && !parent() ) {
richTextExportStart = &c1;
richTextExportEnd = &c2;
TQString sel = richText();
int from = sel.find( "<!--StartFragment-->" );
if ( from >= 0 ) {
from += 20;
// find the previous span and move it into the start fragment before we clip it
TQString prevspan;
int pspan = sel.findRev( "<span", from-21 );
if ( pspan > sel.findRev( "</span", from-21 ) ) {
int spanend = sel.find( '>', pspan );
prevspan = sel.mid( pspan, spanend - pspan + 1 );
}
int to = sel.findRev( "<!--EndFragment-->" );
if ( from <= to )
sel = "<!--StartFragment-->" + prevspan + sel.mid( from, to - from );
}
richTextExportStart = richTextExportEnd = 0;
return sel;
}
TQString s;
if ( c1.paragraph() == c2.paragraph() ) {
TQTextParagraph *p = c1.paragraph();
int end = c2.index();
if ( p->at( TQMAX( 0, end - 1 ) )->isCustom() )
++end;
if ( !p->mightHaveCustomItems ) {
s += p->string()->toString().mid( c1.index(), end - c1.index() );
} else {
for ( int i = c1.index(); i < end; ++i ) {
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( p->at( i )->isCustom() ) {
if ( p->at( i )->customItem()->isNested() ) {
s += "\n";
TQTextTable *t = (TQTextTable*)p->at( i )->customItem();
TQPtrList<TQTextTableCell> cells = t->tableCells();
for ( TQTextTableCell *c = cells.first(); c; c = cells.next() )
s += c->richText()->plainText() + "\n";
s += "\n";
}
} else
#endif
{
s += p->at( i )->c;
}
}
}
} else {
TQTextParagraph *p = c1.paragraph();
int start = c1.index();
while ( p ) {
int end = p == c2.paragraph() ? c2.index() : p->length() - 1;
if ( p == c2.paragraph() && p->at( TQMAX( 0, end - 1 ) )->isCustom() )
++end;
if ( !p->mightHaveCustomItems ) {
s += p->string()->toString().mid( start, end - start );
if ( p != c2.paragraph() )
s += "\n";
} else {
for ( int i = start; i < end; ++i ) {
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( p->at( i )->isCustom() ) {
if ( p->at( i )->customItem()->isNested() ) {
s += "\n";
TQTextTable *t = (TQTextTable*)p->at( i )->customItem();
TQPtrList<TQTextTableCell> cells = t->tableCells();
for ( TQTextTableCell *c = cells.first(); c; c = cells.next() )
s += c->richText()->plainText() + "\n";
s += "\n";
}
} else
#endif
{
s += p->at( i )->c;
}
}
}
start = 0;
if ( p == c2.paragraph() )
break;
p = p->next();
}
}
// ### workaround for plain text export until we get proper
// mime types: turn unicode line seperators into the more
// widely understood \n. Makes copy and pasting code snipplets
// from within Assistent possible
TQChar* uc = (TQChar*) s.unicode();
for ( uint ii = 0; ii < s.length(); ii++ ) {
if ( uc[(int)ii] == TQChar_linesep )
uc[(int)ii] = TQChar('\n');
else if ( uc[(int)ii] == TQChar::nbsp )
uc[(int)ii] = TQChar(' ');
}
return s;
}
void TQTextDocument::setFormat( int id, TQTextFormat *f, int flags )
{
TQMap<int, TQTextDocumentSelection>::ConstIterator it = selections.find( id );
if ( it == selections.end() )
return;
TQTextDocumentSelection sel = *it;
TQTextCursor c1 = sel.startCursor;
TQTextCursor c2 = sel.endCursor;
if ( sel.swapped ) {
c2 = sel.startCursor;
c1 = sel.endCursor;
}
c2.restoreState();
c1.restoreState();
if ( c1.paragraph() == c2.paragraph() ) {
c1.paragraph()->setFormat( c1.index(), c2.index() - c1.index(), f, TRUE, flags );
return;
}
c1.paragraph()->setFormat( c1.index(), c1.paragraph()->length() - c1.index(), f, TRUE, flags );
TQTextParagraph *p = c1.paragraph()->next();
while ( p && p != c2.paragraph() ) {
p->setFormat( 0, p->length(), f, TRUE, flags );
p = p->next();
}
c2.paragraph()->setFormat( 0, c2.index(), f, TRUE, flags );
}
void TQTextDocument::removeSelectedText( int id, TQTextCursor *cursor )
{
TQMap<int, TQTextDocumentSelection>::Iterator it = selections.find( id );
if ( it == selections.end() )
return;
TQTextDocumentSelection sel = *it;
TQTextCursor c1 = sel.startCursor;
TQTextCursor c2 = sel.endCursor;
if ( sel.swapped ) {
c2 = sel.startCursor;
c1 = sel.endCursor;
}
// ### no support for editing tables yet
if ( c1.nestedDepth() || c2.nestedDepth() )
return;
c2.restoreState();
c1.restoreState();
*cursor = c1;
removeSelection( id );
if ( c1.paragraph() == c2.paragraph() ) {
c1.paragraph()->remove( c1.index(), c2.index() - c1.index() );
return;
}
if ( c1.paragraph() == fParag && c1.index() == 0 &&
c2.paragraph() == lParag && c2.index() == lParag->length() - 1 )
cursor->setValid( FALSE );
bool didGoLeft = FALSE;
if ( c1.index() == 0 && c1.paragraph() != fParag ) {
cursor->gotoPreviousLetter();
didGoLeft = cursor->isValid();
}
c1.paragraph()->remove( c1.index(), c1.paragraph()->length() - 1 - c1.index() );
TQTextParagraph *p = c1.paragraph()->next();
int dy = 0;
TQTextParagraph *tmp;
while ( p && p != c2.paragraph() ) {
tmp = p->next();
dy -= p->rect().height();
delete p;
p = tmp;
}
c2.paragraph()->remove( 0, c2.index() );
while ( p ) {
p->move( dy );
p->invalidate( 0 );
p->setEndState( -1 );
p = p->next();
}
c1.paragraph()->join( c2.paragraph() );
if ( didGoLeft )
cursor->gotoNextLetter();
}
void TQTextDocument::indentSelection( int id )
{
TQMap<int, TQTextDocumentSelection>::Iterator it = selections.find( id );
if ( it == selections.end() )
return;
TQTextDocumentSelection sel = *it;
TQTextParagraph *startParag = sel.startCursor.paragraph();
TQTextParagraph *endParag = sel.endCursor.paragraph();
if ( sel.endCursor.paragraph()->paragId() < sel.startCursor.paragraph()->paragId() ) {
endParag = sel.startCursor.paragraph();
startParag = sel.endCursor.paragraph();
}
TQTextParagraph *p = startParag;
while ( p && p != endParag ) {
p->indent();
p = p->next();
}
}
void TQTextDocument::addCommand( TQTextCommand *cmd )
{
commandHistory->addCommand( cmd );
}
TQTextCursor *TQTextDocument::undo( TQTextCursor *c )
{
return commandHistory->undo( c );
}
TQTextCursor *TQTextDocument::redo( TQTextCursor *c )
{
return commandHistory->redo( c );
}
bool TQTextDocument::find( TQTextCursor& cursor, const TQString &expr, bool cs, bool wo, bool forward )
{
removeSelection( Standard );
TQTextParagraph *p = 0;
if ( expr.isEmpty() )
return FALSE;
for (;;) {
if ( p != cursor.paragraph() ) {
p = cursor.paragraph();
TQString s = cursor.paragraph()->string()->toString();
int start = cursor.index();
for ( ;; ) {
int res = forward ? s.find( expr, start, cs ) : s.findRev( expr, start, cs );
int end = res + expr.length();
if ( res == -1 || ( !forward && start <= res ) )
break;
if ( !wo || ( ( res == 0 || s[ res - 1 ].isSpace() || s[ res - 1 ].isPunct() ) &&
( end == (int)s.length() || s[ end ].isSpace() || s[ end ].isPunct() ) ) ) {
removeSelection( Standard );
cursor.setIndex( forward ? end : res );
setSelectionStart( Standard, cursor );
cursor.setIndex( forward ? res : end );
setSelectionEnd( Standard, cursor );
if ( !forward )
cursor.setIndex( res );
return TRUE;
}
start = res + (forward ? 1 : -1);
}
}
if ( forward ) {
if ( cursor.paragraph() == lastParagraph() && cursor.atParagEnd() )
break;
cursor.gotoNextLetter();
} else {
if ( cursor.paragraph() == firstParagraph() && cursor.atParagStart() )
break;
cursor.gotoPreviousLetter();
}
}
return FALSE;
}
void TQTextDocument::setTextFormat( TQt::TextFormat f )
{
txtFormat = f;
if ( fParag == lParag && fParag->length() <= 1 )
fParag->rtext = ( f == TQt::RichText );
}
TQt::TextFormat TQTextDocument::textFormat() const
{
return txtFormat;
}
bool TQTextDocument::inSelection( int selId, const TQPoint &pos ) const
{
TQMap<int, TQTextDocumentSelection>::ConstIterator it = selections.find( selId );
if ( it == selections.end() )
return FALSE;
TQTextDocumentSelection sel = *it;
TQTextParagraph *startParag = sel.startCursor.paragraph();
TQTextParagraph *endParag = sel.endCursor.paragraph();
if ( sel.startCursor.paragraph() == sel.endCursor.paragraph() &&
sel.startCursor.paragraph()->selectionStart( selId ) == sel.endCursor.paragraph()->selectionEnd( selId ) )
return FALSE;
if ( sel.endCursor.paragraph()->paragId() < sel.startCursor.paragraph()->paragId() ) {
endParag = sel.startCursor.paragraph();
startParag = sel.endCursor.paragraph();
}
TQTextParagraph *p = startParag;
while ( p ) {
if ( p->rect().contains( pos ) ) {
bool inSel = FALSE;
int selStart = p->selectionStart( selId );
int selEnd = p->selectionEnd( selId );
int y = 0;
int h = 0;
for ( int i = 0; i < p->length(); ++i ) {
if ( i == selStart )
inSel = TRUE;
if ( i == selEnd )
break;
if ( p->at( i )->lineStart ) {
y = (*p->lineStarts.find( i ))->y;
h = (*p->lineStarts.find( i ))->h;
}
if ( pos.y() - p->rect().y() >= y && pos.y() - p->rect().y() <= y + h ) {
if ( inSel && pos.x() >= p->at( i )->x &&
pos.x() <= p->at( i )->x + p->at( i )->format()->width( p->at( i )->c ) )
return TRUE;
}
}
}
if ( pos.y() < p->rect().y() )
break;
if ( p == endParag )
break;
p = p->next();
}
return FALSE;
}
void TQTextDocument::doLayout( TQPainter *p, int w )
{
minw = wused = 0;
if ( !is_printer( p ) )
p = 0;
withoutDoubleBuffer = ( p != 0 );
TQPainter * oldPainter = TQTextFormat::painter();
TQTextFormat::setPainter( p );
tStopWidth = formatCollection()->defaultFormat()->width( 'x' ) * 8;
flow_->setWidth( w );
cw = w;
vw = w;
TQTextParagraph *parag = fParag;
while ( parag ) {
parag->invalidate( 0 );
if ( p )
parag->adjustToPainter( p );
parag->format();
parag = parag->next();
}
TQTextFormat::setPainter( oldPainter );
}
TQPixmap *TQTextDocument::bufferPixmap( const TQSize &s )
{
if ( !buf_pixmap )
buf_pixmap = new TQPixmap( s.expandedTo( TQSize(1,1) ) );
else if ( buf_pixmap->size() != s )
buf_pixmap->resize( s.expandedTo( buf_pixmap->size() ) );
return buf_pixmap;
}
void TQTextDocument::draw( TQPainter *p, const TQRect &rect, const TQColorGroup &cg, const TQBrush *paper )
{
if ( !firstParagraph() )
return;
if ( paper ) {
p->setBrushOrigin( -int( p->translationX() ),
-int( p->translationY() ) );
p->fillRect( rect, *paper );
}
TQPainter * oldPainter = TQTextFormat::painter();
TQTextFormat::setPainter( p );
if ( formatCollection()->defaultFormat()->color() != cg.text() )
setDefaultFormat( formatCollection()->defaultFormat()->font(), cg.text() );
TQTextParagraph *parag = firstParagraph();
while ( parag ) {
if ( !parag->isValid() )
parag->format();
int y = parag->rect().y();
TQRect pr( parag->rect() );
pr.setX( 0 );
pr.setWidth( TQWIDGETSIZE_MAX );
if ( !rect.isNull() && !rect.intersects( pr ) ) {
parag = parag->next();
continue;
}
p->translate( 0, y );
if ( rect.isValid() )
parag->paint( *p, cg, 0, FALSE, rect.x(), rect.y(), rect.width(), rect.height() );
else
parag->paint( *p, cg, 0, FALSE );
p->translate( 0, -y );
parag = parag->next();
if ( !flow()->isEmpty() )
flow()->drawFloatingItems( p, rect.x(), rect.y(), rect.width(), rect.height(), cg, FALSE );
}
TQTextFormat::setPainter(oldPainter);
}
void TQTextDocument::drawParagraph( TQPainter *p, TQTextParagraph *parag, int cx, int cy, int cw, int ch,
TQPixmap *&doubleBuffer, const TQColorGroup &cg,
bool drawCursor, TQTextCursor *cursor, bool resetChanged )
{
TQPainter *painter = 0;
if ( resetChanged )
parag->setChanged( FALSE );
TQRect ir( parag->rect() );
#ifndef TQT_NO_TEXTCUSTOMITEM
if (!parag->tableCell())
#endif
ir.setWidth(width());
bool uDoubleBuffer = useDoubleBuffer( parag, p );
if ( uDoubleBuffer ) {
painter = new TQPainter;
if ( cx >= 0 && cy >= 0 )
ir = ir.intersect( TQRect( cx, cy, cw, ch ) );
if ( !doubleBuffer ||
ir.width() > doubleBuffer->width() ||
ir.height() > doubleBuffer->height() ) {
doubleBuffer = bufferPixmap( ir.size() );
painter->begin( doubleBuffer );
} else {
painter->begin( doubleBuffer );
}
} else {
painter = p;
painter->translate( ir.x(), ir.y() );
}
painter->setBrushOrigin( -ir.x(), -ir.y() );
if ( uDoubleBuffer || is_printer( painter ) )
painter->fillRect( TQRect( 0, 0, ir.width(), ir.height() ), parag->backgroundBrush( cg ) );
else if ( cursor && cursor->paragraph() == parag )
painter->fillRect( TQRect( parag->at( cursor->index() )->x, 0, 2, ir.height() ),
parag->backgroundBrush( cg ) );
painter->translate( -( ir.x() - parag->rect().x() ),
-( ir.y() - parag->rect().y() ) );
parag->paint( *painter, cg, drawCursor ? cursor : 0, TRUE, cx, cy, cw, ch );
if ( uDoubleBuffer ) {
delete painter;
painter = 0;
p->drawPixmap( ir.topLeft(), *doubleBuffer, TQRect( TQPoint( 0, 0 ), ir.size() ) );
} else {
painter->translate( -ir.x(), -ir.y() );
}
parag->document()->nextDoubleBuffered = FALSE;
}
TQTextParagraph *TQTextDocument::draw( TQPainter *p, int cx, int cy, int cw, int ch, const TQColorGroup &cg,
bool onlyChanged, bool drawCursor, TQTextCursor *cursor, bool resetChanged )
{
if ( withoutDoubleBuffer || ( par && par->withoutDoubleBuffer ) ) {
withoutDoubleBuffer = TRUE;
TQRect r;
draw( p, r, cg );
return 0;
}
withoutDoubleBuffer = FALSE;
if ( !firstParagraph() )
return 0;
TQPainter * oldPainter = TQTextFormat::painter();
TQTextFormat::setPainter( p );
if ( formatCollection()->defaultFormat()->color() != cg.text() )
setDefaultFormat( formatCollection()->defaultFormat()->font(), cg.text() );
if ( cx < 0 && cy < 0 ) {
cx = 0;
cy = 0;
cw = width();
ch = height();
}
TQTextParagraph *lastFormatted = 0;
TQTextParagraph *parag = firstParagraph();
TQPixmap *doubleBuffer = 0;
while ( parag ) {
lastFormatted = parag;
if ( !parag->isValid() )
parag->format();
TQRect pr = parag->rect();
pr.setWidth( parag->document()->width() );
if ( pr.y() > cy + ch )
goto floating;
TQRect clipr( cx, cy, cw, ch );
if ( !pr.intersects( clipr ) || ( onlyChanged && !parag->hasChanged() ) ) {
pr.setWidth( parag->document()->width() );
parag = parag->next();
continue;
}
drawParagraph( p, parag, cx, cy, cw, ch, doubleBuffer, cg, drawCursor, cursor, resetChanged );
parag = parag->next();
}
parag = lastParagraph();
floating:
if ( parag->rect().y() + parag->rect().height() < parag->document()->height() ) {
if ( !parag->document()->parent() ) {
TQRect fillRect = TQRect( 0, parag->rect().y() + parag->rect().height(), parag->document()->width(),
parag->document()->height() - ( parag->rect().y() + parag->rect().height() ) );
if ( TQRect( cx, cy, cw, ch ).intersects( fillRect ) )
p->fillRect( fillRect, cg.brush( TQColorGroup::Base ) );
}
if ( !flow()->isEmpty() ) {
TQRect cr( cx, cy, cw, ch );
flow()->drawFloatingItems( p, cr.x(), cr.y(), cr.width(), cr.height(), cg, FALSE );
}
}
if ( buf_pixmap && buf_pixmap->height() > 300 ) {
delete buf_pixmap;
buf_pixmap = 0;
}
TQTextFormat::setPainter(oldPainter);
return lastFormatted;
}
/*
#### this function only sets the default font size in the format collection
*/
void TQTextDocument::setDefaultFormat( const TQFont &font, const TQColor &color )
{
bool reformat = font != fCollection->defaultFormat()->font();
for ( TQTextDocument *d = childList.first(); d; d = childList.next() )
d->setDefaultFormat( font, color );
fCollection->updateDefaultFormat( font, color, sheet_ );
if ( !reformat )
return;
tStopWidth = formatCollection()->defaultFormat()->width( 'x' ) * 8;
// invalidate paragraphs and custom items
TQTextParagraph *p = fParag;
while ( p ) {
p->invalidate( 0 );
#ifndef TQT_NO_TEXTCUSTOMITEM
for ( int i = 0; i < p->length() - 1; ++i )
if ( p->at( i )->isCustom() )
p->at( i )->customItem()->invalidate();
#endif
p = p->next();
}
}
#ifndef TQT_NO_TEXTCUSTOMITEM
void TQTextDocument::registerCustomItem( TQTextCustomItem *i, TQTextParagraph *p )
{
if ( i && i->placement() != TQTextCustomItem::PlaceInline ) {
flow_->registerFloatingItem( i );
p->registerFloatingItem( i );
}
if (i) i->setParagraph( p );
p->mightHaveCustomItems = mightHaveCustomItems = TRUE;
}
void TQTextDocument::unregisterCustomItem( TQTextCustomItem *i, TQTextParagraph *p )
{
p->unregisterFloatingItem( i );
i->setParagraph( 0 );
flow_->unregisterFloatingItem( i );
}
#endif
bool TQTextDocument::hasFocusParagraph() const
{
return !!focusIndicator.parag;
}
TQString TQTextDocument::focusHref() const
{
return focusIndicator.href;
}
TQString TQTextDocument::focusName() const
{
return focusIndicator.name;
}
bool TQTextDocument::focusNextPrevChild( bool next )
{
if ( !focusIndicator.parag ) {
if ( next ) {
focusIndicator.parag = fParag;
focusIndicator.start = 0;
focusIndicator.len = 0;
} else {
focusIndicator.parag = lParag;
focusIndicator.start = lParag->length();
focusIndicator.len = 0;
}
} else {
focusIndicator.parag->setChanged( TRUE );
}
focusIndicator.href = TQString::null;
focusIndicator.name = TQString::null;
if ( next ) {
TQTextParagraph *p = focusIndicator.parag;
int index = focusIndicator.start + focusIndicator.len;
while ( p ) {
for ( int i = index; i < p->length(); ++i ) {
if ( p->at( i )->isAnchor() ) {
p->setChanged( TRUE );
focusIndicator.parag = p;
focusIndicator.start = i;
focusIndicator.len = 0;
focusIndicator.href = p->at( i )->anchorHref();
focusIndicator.name = p->at( i )->anchorName();
while ( i < p->length() ) {
if ( !p->at( i )->isAnchor() )
return TRUE;
focusIndicator.len++;
i++;
}
#ifndef TQT_NO_TEXTCUSTOMITEM
} else if ( p->at( i )->isCustom() ) {
if ( p->at( i )->customItem()->isNested() ) {
TQTextTable *t = (TQTextTable*)p->at( i )->customItem();
TQPtrList<TQTextTableCell> cells = t->tableCells();
// first try to continue
TQTextTableCell *c;
bool resetCells = TRUE;
for ( c = cells.first(); c; c = cells.next() ) {
if ( c->richText()->hasFocusParagraph() ) {
if ( c->richText()->focusNextPrevChild( next ) ) {
p->setChanged( TRUE );
focusIndicator.parag = p;
focusIndicator.start = i;
focusIndicator.len = 0;
focusIndicator.href = c->richText()->focusHref();
focusIndicator.name = c->richText()->focusName();
return TRUE;
} else {
resetCells = FALSE;
c = cells.next();
break;
}
}
}
// now really try
if ( resetCells )
c = cells.first();
for ( ; c; c = cells.next() ) {
if ( c->richText()->focusNextPrevChild( next ) ) {
p->setChanged( TRUE );
focusIndicator.parag = p;
focusIndicator.start = i;
focusIndicator.len = 0;
focusIndicator.href = c->richText()->focusHref();
focusIndicator.name = c->richText()->focusName();
return TRUE;
}
}
}
#endif
}
}
index = 0;
p = p->next();
}
} else {
TQTextParagraph *p = focusIndicator.parag;
int index = focusIndicator.start - 1;
if ( focusIndicator.len == 0 && index < focusIndicator.parag->length() - 1 )
index++;
while ( p ) {
for ( int i = index; i >= 0; --i ) {
if ( p->at( i )->isAnchor() ) {
p->setChanged( TRUE );
focusIndicator.parag = p;
focusIndicator.start = i;
focusIndicator.len = 0;
focusIndicator.href = p->at( i )->anchorHref();
focusIndicator.name = p->at( i )->anchorName();
while ( i >= -1 ) {
if ( i < 0 || !p->at( i )->isAnchor() ) {
focusIndicator.start++;
return TRUE;
}
if ( i < 0 )
break;
focusIndicator.len++;
focusIndicator.start--;
i--;
}
#ifndef TQT_NO_TEXTCUSTOMITEM
} else if ( p->at( i )->isCustom() ) {
if ( p->at( i )->customItem()->isNested() ) {
TQTextTable *t = (TQTextTable*)p->at( i )->customItem();
TQPtrList<TQTextTableCell> cells = t->tableCells();
// first try to continue
TQTextTableCell *c;
bool resetCells = TRUE;
for ( c = cells.last(); c; c = cells.prev() ) {
if ( c->richText()->hasFocusParagraph() ) {
if ( c->richText()->focusNextPrevChild( next ) ) {
p->setChanged( TRUE );
focusIndicator.parag = p;
focusIndicator.start = i;
focusIndicator.len = 0;
focusIndicator.href = c->richText()->focusHref();
focusIndicator.name = c->richText()->focusName();
return TRUE;
} else {
resetCells = FALSE;
c = cells.prev();
break;
}
}
if ( cells.at() == 0 )
break;
}
// now really try
if ( resetCells )
c = cells.last();
for ( ; c; c = cells.prev() ) {
if ( c->richText()->focusNextPrevChild( next ) ) {
p->setChanged( TRUE );
focusIndicator.parag = p;
focusIndicator.start = i;
focusIndicator.len = 0;
focusIndicator.href = c->richText()->focusHref();
focusIndicator.name = c->richText()->focusName();
return TRUE;
}
if ( cells.at() == 0 )
break;
}
}
#endif
}
}
p = p->prev();
if ( p )
index = p->length() - 1;
}
}
focusIndicator.parag = 0;
return FALSE;
}
int TQTextDocument::length() const
{
int l = -1;
TQTextParagraph *p = fParag;
while ( p ) {
l += p->length();
p = p->next();
}
return TQMAX(0,l);
}
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
int TQTextFormat::width( const TQChar &c ) const
{
if ( c.unicode() == 0xad ) // soft hyphen
return 0;
if ( !pntr || !pntr->isActive() ) {
if ( c == '\t' )
return fm.width( ' ' );
if ( ha == AlignNormal ) {
int w;
if ( c.row() )
w = fm.width( c );
else
w = widths[ c.unicode() ];
if ( w == 0 && !c.row() ) {
w = fm.width( c );
( (TQTextFormat*)this )->widths[ c.unicode() ] = w;
}
return w;
} else {
TQFont f( fn );
if ( usePixelSizes )
f.setPixelSize( ( f.pixelSize() * 2 ) / 3 );
else
f.setPointSize( ( f.pointSize() * 2 ) / 3 );
TQFontMetrics fm_( f );
return fm_.width( c );
}
}
TQFont f( fn );
if ( ha != AlignNormal ) {
if ( usePixelSizes )
f.setPixelSize( ( f.pixelSize() * 2 ) / 3 );
else
f.setPointSize( ( f.pointSize() * 2 ) / 3 );
}
applyFont( f );
return pntr_fm->width( c );
}
int TQTextFormat::width( const TQString &str, int pos ) const
{
int w = 0;
if ( str.unicode()[ pos ].unicode() == 0xad )
return w;
if ( !pntr || !pntr->isActive() ) {
if ( ha == AlignNormal ) {
w = fm.charWidth( str, pos );
} else {
TQFont f( fn );
if ( usePixelSizes )
f.setPixelSize( ( f.pixelSize() * 2 ) / 3 );
else
f.setPointSize( ( f.pointSize() * 2 ) / 3 );
TQFontMetrics fm_( f );
w = fm_.charWidth( str, pos );
}
} else {
TQFont f( fn );
if ( ha != AlignNormal ) {
if ( usePixelSizes )
f.setPixelSize( ( f.pixelSize() * 2 ) / 3 );
else
f.setPointSize( ( f.pointSize() * 2 ) / 3 );
}
applyFont( f );
w = pntr_fm->charWidth( str, pos );
}
return w;
}
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextString::TQTextString()
{
bidiDirty = TRUE;
bidi = FALSE;
rightToLeft = FALSE;
dir = TQChar::DirON;
}
TQTextString::TQTextString( const TQTextString &s )
{
bidiDirty = TRUE;
bidi = s.bidi;
rightToLeft = s.rightToLeft;
dir = s.dir;
data = s.data;
data.detach();
for ( int i = 0; i < (int)data.size(); ++i ) {
TQTextFormat *f = data[i].format();
if ( f )
f->addRef();
}
}
void TQTextString::insert( int index, const TQString &s, TQTextFormat *f )
{
insert( index, s.unicode(), s.length(), f );
}
void TQTextString::insert( int index, const TQChar *unicode, int len, TQTextFormat *f )
{
int os = data.size();
data.resize( data.size() + len, TQGArray::SpeedOptim );
if ( index < os ) {
memmove( data.data() + index + len, data.data() + index,
sizeof( TQTextStringChar ) * ( os - index ) );
}
TQTextStringChar *ch = data.data() + index;
for ( int i = 0; i < len; ++i ) {
ch->x = 0;
ch->lineStart = 0;
ch->d.format = 0;
ch->nobreak = FALSE;
ch->type = TQTextStringChar::Regular;
ch->d.format = f;
ch->rightToLeft = 0;
ch->c = unicode[i];
++ch;
}
bidiDirty = TRUE;
}
TQTextString::~TQTextString()
{
clear();
}
void TQTextString::insert( int index, TQTextStringChar *c, bool doAddRefFormat )
{
int os = data.size();
data.resize( data.size() + 1, TQGArray::SpeedOptim );
if ( index < os ) {
memmove( data.data() + index + 1, data.data() + index,
sizeof( TQTextStringChar ) * ( os - index ) );
}
TQTextStringChar &ch = data[ (int)index ];
ch.c = c->c;
ch.x = 0;
ch.lineStart = 0;
ch.rightToLeft = 0;
ch.d.format = 0;
ch.type = TQTextStringChar::Regular;
ch.nobreak = FALSE;
if ( doAddRefFormat && c->format() )
c->format()->addRef();
ch.setFormat( c->format() );
bidiDirty = TRUE;
}
int TQTextString::appendParagraphs( TQTextParagraph *start, TQTextParagraph *end )
{
int paragCount = 0;
int newLength = data.size();
TQTextParagraph *p = start;
for (; p != end; p = p->next()) {
newLength += p->length();
++paragCount;
}
const int oldLength = data.size();
data.resize(newLength, TQGArray::SpeedOptim);
TQTextStringChar *d = &data[oldLength];
for (p = start; p != end; p = p->next()) {
const TQTextStringChar * const src = p->at(0);
int i = 0;
for (; i < p->length() - 1; ++i) {
d[i].c = src[i].c;
d[i].x = 0;
d[i].lineStart = 0;
d[i].rightToLeft = 0;
d[i].type = TQTextStringChar::Regular;
d[i].nobreak = FALSE;
d[i].d.format = src[i].format();
if (d[i].d.format)
d[i].d.format->addRef();
}
d[i].x = 0;
d[i].lineStart = 0;
d[i].nobreak = FALSE;
d[i].type = TQTextStringChar::Regular;
d[i].d.format = 0;
d[i].rightToLeft = 0;
d[i].c = '\n';
d += p->length();
}
bidiDirty = TRUE;
return paragCount;
}
void TQTextString::truncate( int index )
{
index = TQMAX( index, 0 );
index = TQMIN( index, (int)data.size() - 1 );
if ( index < (int)data.size() ) {
for ( int i = index + 1; i < (int)data.size(); ++i ) {
TQTextStringChar &ch = data[ i ];
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( !(ch.type == TQTextStringChar::Regular) ) {
delete ch.customItem();
if ( ch.d.custom->format )
ch.d.custom->format->removeRef();
delete ch.d.custom;
ch.d.custom = 0;
} else
#endif
if ( ch.format() ) {
ch.format()->removeRef();
}
}
}
data.truncate( index );
bidiDirty = TRUE;
}
void TQTextString::remove( int index, int len )
{
for ( int i = index; i < (int)data.size() && i - index < len; ++i ) {
TQTextStringChar &ch = data[ i ];
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( !(ch.type == TQTextStringChar::Regular) ) {
delete ch.customItem();
if ( ch.d.custom->format )
ch.d.custom->format->removeRef();
delete ch.d.custom;
ch.d.custom = 0;
} else
#endif
if ( ch.format() ) {
ch.format()->removeRef();
}
}
memmove( data.data() + index, data.data() + index + len,
sizeof( TQTextStringChar ) * ( data.size() - index - len ) );
data.resize( data.size() - len, TQGArray::SpeedOptim );
bidiDirty = TRUE;
}
void TQTextString::clear()
{
for ( int i = 0; i < (int)data.count(); ++i ) {
TQTextStringChar &ch = data[ i ];
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( !(ch.type == TQTextStringChar::Regular) ) {
if ( ch.customItem() && ch.customItem()->placement() == TQTextCustomItem::PlaceInline )
delete ch.customItem();
if ( ch.d.custom->format )
ch.d.custom->format->removeRef();
delete ch.d.custom;
ch.d.custom = 0;
} else
#endif
if ( ch.format() ) {
ch.format()->removeRef();
}
}
data.resize( 0 );
bidiDirty = TRUE;
}
void TQTextString::setFormat( int index, TQTextFormat *f, bool useCollection )
{
TQTextStringChar &ch = data[ index ];
if ( useCollection && ch.format() )
ch.format()->removeRef();
ch.setFormat( f );
}
void TQTextString::checkBidi() const
{
TQTextString *that = (TQTextString *)this;
that->bidiDirty = FALSE;
int length = data.size();
if ( !length ) {
that->bidi = FALSE;
that->rightToLeft = dir == TQChar::DirR;
return;
}
const TQTextStringChar *start = data.data();
const TQTextStringChar *end = start + length;
((TQTextString *)this)->stringCache = toString(data);
// determines the properties we need for layouting
TQTextEngine textEngine( toString(), 0 );
textEngine.direction = (TQChar::Direction) dir;
textEngine.itemize(TQTextEngine::SingleLine);
const TQCharAttributes *ca = textEngine.attributes() + length-1;
TQTextStringChar *ch = (TQTextStringChar *)end - 1;
TQScriptItem *item = &textEngine.items[textEngine.items.size()-1];
unsigned char bidiLevel = item->analysis.bidiLevel;
if ( bidiLevel )
that->bidi = TRUE;
int pos = length-1;
while ( ch >= start ) {
if ( item->position > pos ) {
--item;
Q_ASSERT( item >= &textEngine.items[0] );
Q_ASSERT( item < &textEngine.items[textEngine.items.size()] );
bidiLevel = item->analysis.bidiLevel;
if ( bidiLevel )
that->bidi = TRUE;
}
ch->softBreak = ca->softBreak;
ch->whiteSpace = ca->whiteSpace;
ch->charStop = ca->charStop;
ch->wordStop = ca->wordStop;
ch->bidiLevel = bidiLevel;
ch->rightToLeft = (bidiLevel%2);
--ch;
--ca;
--pos;
}
if ( dir == TQChar::DirR ) {
that->bidi = TRUE;
that->rightToLeft = TRUE;
} else if ( dir == TQChar::DirL ) {
that->rightToLeft = FALSE;
} else {
that->rightToLeft = (textEngine.direction == TQChar::DirR);
}
}
void TQTextDocument::setStyleSheet( TQStyleSheet *s )
{
if ( !s )
return;
sheet_ = s;
list_tm = list_bm = par_tm = par_bm = 12;
list_lm = 40;
li_tm = li_bm = 0;
TQStyleSheetItem* item = s->item( "ol" );
if ( item ) {
list_tm = TQMAX(0,item->margin( TQStyleSheetItem::MarginTop ));
list_bm = TQMAX(0,item->margin( TQStyleSheetItem::MarginBottom ));
list_lm = TQMAX(0,item->margin( TQStyleSheetItem::MarginLeft ));
}
if ( (item = s->item( "li" ) ) ) {
li_tm = TQMAX(0,item->margin( TQStyleSheetItem::MarginTop ));
li_bm = TQMAX(0,item->margin( TQStyleSheetItem::MarginBottom ));
}
if ( (item = s->item( "p" ) ) ) {
par_tm = TQMAX(0,item->margin( TQStyleSheetItem::MarginTop ));
par_bm = TQMAX(0,item->margin( TQStyleSheetItem::MarginBottom ));
}
}
void TQTextDocument::setUnderlineLinks( bool b ) {
underlLinks = b;
for ( TQTextDocument *d = childList.first(); d; d = childList.next() )
d->setUnderlineLinks( b );
}
void TQTextStringChar::setFormat( TQTextFormat *f )
{
if ( type == Regular ) {
d.format = f;
} else {
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( !d.custom ) {
d.custom = new CustomData;
d.custom->custom = 0;
}
d.custom->format = f;
#endif
}
}
#ifndef TQT_NO_TEXTCUSTOMITEM
void TQTextStringChar::setCustomItem( TQTextCustomItem *i )
{
if ( type == Regular ) {
TQTextFormat *f = format();
d.custom = new CustomData;
d.custom->format = f;
} else {
delete d.custom->custom;
}
d.custom->custom = i;
type = (type == Anchor ? CustomAnchor : Custom);
}
void TQTextStringChar::loseCustomItem()
{
if ( type == Custom ) {
TQTextFormat *f = d.custom->format;
d.custom->custom = 0;
delete d.custom;
type = Regular;
d.format = f;
} else if ( type == CustomAnchor ) {
d.custom->custom = 0;
type = Anchor;
}
}
#endif
TQString TQTextStringChar::anchorName() const
{
if ( type == Regular )
return TQString::null;
else
return d.custom->anchorName;
}
TQString TQTextStringChar::anchorHref() const
{
if ( type == Regular )
return TQString::null;
else
return d.custom->anchorHref;
}
void TQTextStringChar::setAnchor( const TQString& name, const TQString& href )
{
if ( type == Regular ) {
TQTextFormat *f = format();
d.custom = new CustomData;
#ifndef TQT_NO_TEXTCUSTOMITEM
d.custom->custom = 0;
#endif
d.custom->format = f;
type = Anchor;
} else if ( type == Custom ) {
type = CustomAnchor;
}
d.custom->anchorName = name;
d.custom->anchorHref = href;
}
int TQTextString::width( int idx ) const
{
int w = 0;
TQTextStringChar *c = &at( idx );
if ( !c->charStop || c->c.unicode() == 0xad || c->c.unicode() == 0x2028 )
return 0;
#ifndef TQT_NO_TEXTCUSTOMITEM
if( c->isCustom() ) {
if( c->customItem()->placement() == TQTextCustomItem::PlaceInline )
w = c->customItem()->width;
} else
#endif
{
int r = c->c.row();
if(r < 0x06
#ifndef Q_WS_WIN
// Uniscribe's handling of Asian makes the condition below fail.
|| (r > 0x1f && !(r > 0xd7 && r < 0xe0))
#endif
) {
w = c->format()->width( c->c );
} else {
w = c->format()->width(toString(), idx);
}
}
return w;
}
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextParagraph::TQTextParagraph( TQTextDocument *d, TQTextParagraph *pr, TQTextParagraph *nx, bool updateIds )
: p( pr ), n( nx ), docOrPseudo( d ),
changed(FALSE), firstFormat(TRUE), firstPProcess(TRUE), needPreProcess(FALSE), fullWidth(TRUE),
lastInFrame(FALSE), visible(TRUE), breakable(TRUE), movedDown(FALSE),
mightHaveCustomItems(FALSE), hasdoc( d != 0 ), litem(FALSE), rtext(FALSE),
align( 0 ), lstyle( TQStyleSheetItem::ListDisc ), invalid( 0 ), mSelections( 0 ),
#ifndef TQT_NO_TEXTCUSTOMITEM
mFloatingItems( 0 ),
#endif
utm( 0 ), ubm( 0 ), ulm( 0 ), urm( 0 ), uflm( 0 ), ulinespacing( 0 ),
tabStopWidth(0), minwidth(0), tArray(0), eData( 0 ), ldepth( 0 )
{
lstyle = TQStyleSheetItem::ListDisc;
if ( !hasdoc )
docOrPseudo = new TQTextParagraphPseudoDocument;
bgcol = 0;
list_val = -1;
paintdevice = 0;
TQTextFormat* defFormat = formatCollection()->defaultFormat();
if ( !hasdoc ) {
tabStopWidth = defFormat->width( 'x' ) * 8;
pseudoDocument()->commandHistory = new TQTextCommandHistory( 100 );
}
if ( p )
p->n = this;
if ( n )
n->p = this;
if ( !p && hasdoc )
document()->setFirstParagraph( this );
if ( !n && hasdoc )
document()->setLastParagraph( this );
state = -1;
if ( p )
id = p->id + 1;
else
id = 0;
if ( n && updateIds ) {
TQTextParagraph *s = n;
while ( s ) {
s->id = s->p->id + 1;
s->invalidateStyleCache();
s = s->n;
}
}
str = new TQTextString();
TQChar ch(' ');
str->insert( 0, &ch, 1, formatCollection()->defaultFormat() );
}
TQTextParagraph::~TQTextParagraph()
{
delete str;
if ( hasdoc ) {
register TQTextDocument *doc = document();
if ( this == doc->minwParag ) {
doc->minwParag = 0;
doc->minw = 0;
}
if ( this == doc->curParag )
doc->curParag = 0;
} else {
delete pseudoDocument();
}
delete [] tArray;
delete eData;
TQMap<int, TQTextLineStart*>::Iterator it = lineStarts.begin();
for ( ; it != lineStarts.end(); ++it )
delete *it;
if ( mSelections )
delete mSelections;
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( mFloatingItems )
delete mFloatingItems;
#endif
if ( p )
p->setNext( n );
if ( n )
n->setPrev( p );
delete bgcol;
}
void TQTextParagraph::setNext( TQTextParagraph *s )
{
n = s;
if ( !n && hasdoc )
document()->setLastParagraph( this );
}
void TQTextParagraph::setPrev( TQTextParagraph *s )
{
p = s;
if ( !p && hasdoc )
document()->setFirstParagraph( this );
}
void TQTextParagraph::invalidate( int chr )
{
if ( invalid < 0 )
invalid = chr;
else
invalid = TQMIN( invalid, chr );
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( mFloatingItems ) {
for ( TQTextCustomItem *i = mFloatingItems->first(); i; i = mFloatingItems->next() )
i->ypos = -1;
}
#endif
invalidateStyleCache();
}
void TQTextParagraph::invalidateStyleCache()
{
if ( list_val < 0 )
list_val = -1;
}
void TQTextParagraph::insert( int index, const TQString &s )
{
insert( index, s.unicode(), s.length() );
}
void TQTextParagraph::insert( int index, const TQChar *unicode, int len )
{
if ( hasdoc && !document()->useFormatCollection() && document()->preProcessor() )
str->insert( index, unicode, len,
document()->preProcessor()->format( TQTextPreProcessor::Standard ) );
else
str->insert( index, unicode, len, formatCollection()->defaultFormat() );
invalidate( index );
needPreProcess = TRUE;
}
void TQTextParagraph::truncate( int index )
{
str->truncate( index );
insert( length(), " " );
needPreProcess = TRUE;
}
void TQTextParagraph::remove( int index, int len )
{
if ( index + len - str->length() > 0 )
return;
#ifndef TQT_NO_TEXTCUSTOMITEM
for ( int i = index; i < index + len; ++i ) {
TQTextStringChar *c = at( i );
if ( hasdoc && c->isCustom() ) {
document()->unregisterCustomItem( c->customItem(), this );
}
}
#endif
str->remove( index, len );
invalidate( 0 );
needPreProcess = TRUE;
}
void TQTextParagraph::join( TQTextParagraph *s )
{
int oh = r.height() + s->r.height();
n = s->n;
if ( n )
n->p = this;
else if ( hasdoc )
document()->setLastParagraph( this );
int start = str->length();
if ( length() > 0 && at( length() - 1 )->c == ' ' ) {
remove( length() - 1, 1 );
--start;
}
append( s->str->toString(), TRUE );
for ( int i = 0; i < s->length(); ++i ) {
if ( !hasdoc || document()->useFormatCollection() ) {
s->str->at( i ).format()->addRef();
str->setFormat( i + start, s->str->at( i ).format(), TRUE );
}
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( s->str->at( i ).isCustom() ) {
TQTextCustomItem * item = s->str->at( i ).customItem();
str->at( i + start ).setCustomItem( item );
s->str->at( i ).loseCustomItem();
if ( hasdoc ) {
document()->unregisterCustomItem( item, s );
document()->registerCustomItem( item, this );
}
}
if ( s->str->at( i ).isAnchor() ) {
str->at( i + start ).setAnchor( s->str->at( i ).anchorName(),
s->str->at( i ).anchorHref() );
}
#endif
}
if ( !extraData() && s->extraData() ) {
setExtraData( s->extraData() );
s->setExtraData( 0 );
} else if ( extraData() && s->extraData() ) {
extraData()->join( s->extraData() );
}
delete s;
invalidate( 0 );
r.setHeight( oh );
needPreProcess = TRUE;
if ( n ) {
TQTextParagraph *s = n;
s->invalidate( 0 );
while ( s ) {
s->id = s->p->id + 1;
s->state = -1;
s->needPreProcess = TRUE;
s->changed = TRUE;
s->invalidateStyleCache();
s = s->n;
}
}
format();
state = -1;
}
void TQTextParagraph::move( int &dy )
{
if ( dy == 0 )
return;
changed = TRUE;
r.moveBy( 0, dy );
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( mFloatingItems ) {
for ( TQTextCustomItem *i = mFloatingItems->first(); i; i = mFloatingItems->next() )
i->ypos += dy;
}
#endif
if ( p )
p->lastInFrame = TRUE;
// do page breaks if required
if ( hasdoc && document()->isPageBreakEnabled() ) {
int shift;
if ( ( shift = document()->formatter()->formatVertically( document(), this ) ) ) {
if ( p )
p->setChanged( TRUE );
dy += shift;
}
}
}
void TQTextParagraph::format( int start, bool doMove )
{
if ( !str || str->length() == 0 || !formatter() )
return;
if ( hasdoc &&
document()->preProcessor() &&
( needPreProcess || state == -1 ) )
document()->preProcessor()->process( document(), this, invalid <= 0 ? 0 : invalid );
needPreProcess = FALSE;
if ( invalid == -1 )
return;
r.moveTopLeft( TQPoint( documentX(), p ? p->r.y() + p->r.height() : documentY() ) );
if ( p )
p->lastInFrame = FALSE;
movedDown = FALSE;
bool formattedAgain = FALSE;
formatAgain:
r.setWidth( documentWidth() );
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( hasdoc && mFloatingItems ) {
for ( TQTextCustomItem *i = mFloatingItems->first(); i; i = mFloatingItems->next() ) {
i->ypos = r.y();
if ( i->placement() == TQTextCustomItem::PlaceRight ) {
i->xpos = r.x() + r.width() - i->width;
}
}
}
#endif
TQMap<int, TQTextLineStart*> oldLineStarts = lineStarts;
lineStarts.clear();
int y = formatter()->format( document(), this, start, oldLineStarts );
r.setWidth( TQMAX( r.width(), formatter()->minimumWidth() ) );
TQMap<int, TQTextLineStart*>::Iterator it = oldLineStarts.begin();
for ( ; it != oldLineStarts.end(); ++it )
delete *it;
if ( !hasdoc ) { // qt_format_text bounding rect handling
it = lineStarts.begin();
int usedw = 0;
for ( ; it != lineStarts.end(); ++it )
usedw = TQMAX( usedw, (*it)->w );
if ( r.width() <= 0 ) {
// if the user specifies an invalid rect, this means that the
// bounding box should grow to the width that the text actually
// needs
r.setWidth( usedw );
} else {
r.setWidth( TQMIN( usedw, r.width() ) );
}
}
if ( y != r.height() )
r.setHeight( y );
if ( !visible ) {
r.setHeight( 0 );
} else {
int minw = minwidth = formatter()->minimumWidth();
int wused = formatter()->widthUsed();
wused = TQMAX( minw, wused );
if ( hasdoc ) {
document()->setMinimumWidth( minw, wused, this );
} else {
pseudoDocument()->minw = TQMAX( pseudoDocument()->minw, minw );
pseudoDocument()->wused = TQMAX( pseudoDocument()->wused, wused );
}
}
// do page breaks if required
if ( hasdoc && document()->isPageBreakEnabled() ) {
int shift = document()->formatter()->formatVertically( document(), this );
if ( shift && !formattedAgain ) {
formattedAgain = TRUE;
goto formatAgain;
}
}
if ( n && doMove && n->invalid == -1 && r.y() + r.height() != n->r.y() ) {
int dy = ( r.y() + r.height() ) - n->r.y();
TQTextParagraph *s = n;
bool makeInvalid = p && p->lastInFrame;
while ( s && dy ) {
if ( !s->isFullWidth() )
makeInvalid = TRUE;
if ( makeInvalid )
s->invalidate( 0 );
s->move( dy );
if ( s->lastInFrame )
makeInvalid = TRUE;
s = s->n;
}
}
firstFormat = FALSE;
changed = TRUE;
invalid = -1;
//##### string()->setTextChanged( FALSE );
}
int TQTextParagraph::lineHeightOfChar( int i, int *bl, int *y ) const
{
if ( !isValid() )
( (TQTextParagraph*)this )->format();
TQMap<int, TQTextLineStart*>::ConstIterator it = lineStarts.end();
--it;
for ( ;; ) {
if ( i >= it.key() ) {
if ( bl )
*bl = ( *it )->baseLine;
if ( y )
*y = ( *it )->y;
return ( *it )->h;
}
if ( it == lineStarts.begin() )
break;
--it;
}
tqWarning( "TQTextParagraph::lineHeightOfChar: couldn't find lh for %d", i );
return 15;
}
TQTextStringChar *TQTextParagraph::lineStartOfChar( int i, int *index, int *line ) const
{
if ( !isValid() )
( (TQTextParagraph*)this )->format();
int l = (int)lineStarts.count() - 1;
TQMap<int, TQTextLineStart*>::ConstIterator it = lineStarts.end();
--it;
for ( ;; ) {
if ( i >= it.key() ) {
if ( index )
*index = it.key();
if ( line )
*line = l;
return &str->at( it.key() );
}
if ( it == lineStarts.begin() )
break;
--it;
--l;
}
tqWarning( "TQTextParagraph::lineStartOfChar: couldn't find %d", i );
return 0;
}
int TQTextParagraph::lines() const
{
if ( !isValid() )
( (TQTextParagraph*)this )->format();
return (int)lineStarts.count();
}
TQTextStringChar *TQTextParagraph::lineStartOfLine( int line, int *index ) const
{
if ( !isValid() )
( (TQTextParagraph*)this )->format();
if ( line >= 0 && line < (int)lineStarts.count() ) {
TQMap<int, TQTextLineStart*>::ConstIterator it = lineStarts.begin();
while ( line-- > 0 )
++it;
int i = it.key();
if ( index )
*index = i;
return &str->at( i );
}
tqWarning( "TQTextParagraph::lineStartOfLine: couldn't find %d", line );
return 0;
}
int TQTextParagraph::leftGap() const
{
if ( !isValid() )
( (TQTextParagraph*)this )->format();
if ( str->length() == 0)
return 0;
int line = 0;
int x = str->length() ? str->at(0).x : 0; /* set x to x of first char */
if ( str->isBidi() ) {
for ( int i = 1; i < str->length()-1; ++i )
x = TQMIN(x, str->at(i).x);
return x;
}
TQMap<int, TQTextLineStart*>::ConstIterator it = lineStarts.begin();
while (line < (int)lineStarts.count()) {
int i = it.key(); /* char index */
x = TQMIN(x, str->at(i).x);
++it;
++line;
}
return x;
}
void TQTextParagraph::setFormat( int index, int len, TQTextFormat *f, bool useCollection, int flags )
{
if ( !f )
return;
if ( index < 0 )
index = 0;
if ( index > str->length() - 1 )
index = str->length() - 1;
if ( index + len >= str->length() )
len = str->length() - index;
TQTextFormatCollection *fc = 0;
if ( useCollection )
fc = formatCollection();
TQTextFormat *of;
for ( int i = 0; i < len; ++i ) {
of = str->at( i + index ).format();
if ( !changed && ( !of || f->key() != of->key() ) )
changed = TRUE;
if ( invalid == -1 &&
( f->font().family() != of->font().family() ||
f->font().pointSize() != of->font().pointSize() ||
f->font().weight() != of->font().weight() ||
f->font().italic() != of->font().italic() ||
f->vAlign() != of->vAlign() ) ) {
invalidate( 0 );
}
if ( flags == -1 || flags == TQTextFormat::Format || !fc ) {
if ( fc )
f = fc->format( f );
str->setFormat( i + index, f, useCollection );
} else {
TQTextFormat *fm = fc->format( of, f, flags );
str->setFormat( i + index, fm, useCollection );
}
}
}
void TQTextParagraph::indent( int *oldIndent, int *newIndent )
{
if ( !hasdoc || !document()->indent() || isListItem() ) {
if ( oldIndent )
*oldIndent = 0;
if ( newIndent )
*newIndent = 0;
if ( oldIndent && newIndent )
*newIndent = *oldIndent;
return;
}
document()->indent()->indent( document(), this, oldIndent, newIndent );
}
void TQTextParagraph::paint( TQPainter &painter, const TQColorGroup &cg, TQTextCursor *cursor, bool drawSelections,
int clipx, int clipy, int clipw, int cliph )
{
if ( !visible )
return;
int i, y, h, baseLine, xstart, xend = 0;
i = y =h = baseLine = 0;
TQRect cursorRect;
drawSelections &= ( mSelections != 0 );
// macintosh full-width selection style
bool fullWidthStyle = TQApplication::style().styleHint(TQStyle::SH_RichText_FullWidthSelection);
int fullSelectionWidth = 0;
if ( drawSelections && fullWidthStyle )
fullSelectionWidth = (hasdoc ? document()->width() : r.width());
TQString qstr = str->toString();
// detach string
qstr.setLength(qstr.length());
// ### workaround so that \n are not drawn, actually this should
// be fixed in TQFont somewhere (under Windows you get ugly boxes
// otherwise)
TQChar* uc = (TQChar*) qstr.unicode();
for ( uint ii = 0; ii < qstr.length(); ii++ )
if ( uc[(int)ii]== '\n' || uc[(int)ii] == '\t' )
uc[(int)ii] = 0x20;
int line = -1;
int paintStart = 0;
TQTextStringChar *chr = 0;
TQTextStringChar *nextchr = at( 0 );
for ( i = 0; i < length(); i++ ) {
chr = nextchr;
if ( i < length()-1 )
nextchr = at( i+1 );
// we flush at end of document
bool flush = (i == length()-1);
bool ignoreSoftHyphen = FALSE;
if ( !flush ) {
// we flush at end of line
flush |= nextchr->lineStart;
// we flush on format changes
flush |= ( nextchr->format() != chr->format() );
// we flush on link changes
flush |= ( nextchr->isLink() != chr->isLink() );
// we flush on start of run
flush |= ( nextchr->bidiLevel != chr->bidiLevel );
// we flush on bidi changes
flush |= ( nextchr->rightToLeft != chr->rightToLeft );
// we flush before and after tabs
flush |= ( chr->c == '\t' || nextchr->c == '\t' );
// we flush on soft hypens
if (chr->c.unicode() == 0xad) {
flush = TRUE;
if (!nextchr->lineStart)
ignoreSoftHyphen = TRUE;
}
// we flush on custom items
flush |= chr->isCustom();
// we flush before custom items
flush |= nextchr->isCustom();
// when painting justified, we flush on spaces
if ((alignment() & TQt::AlignJustify) == TQt::AlignJustify )
flush |= chr->whiteSpace;
}
// init a new line
if ( chr->lineStart ) {
++line;
paintStart = i;
lineInfo( line, y, h, baseLine );
if ( clipy != -1 && cliph != 0 && y + r.y() - h > clipy + cliph ) { // outside clip area, leave
break;
}
// if this is the first line and we are a list item, draw the the bullet label
if ( line == 0 && isListItem() ) {
int x = chr->x;
if (str->isBidi()) {
if (str->isRightToLeft()) {
x = chr->x + str->width(0);
for (int k = 1; k < length(); ++k) {
if (str->at(k).lineStart)
break;
x = TQMAX(x, str->at(k).x + str->width(k));
}
} else {
x = chr->x;
for (int k = 1; k < length(); ++k) {
if (str->at(k).lineStart)
break;
x = TQMIN(x, str->at(k).x);
}
}
}
drawLabel( &painter, x, y, 0, 0, baseLine, cg );
}
}
// check for cursor mark
if ( cursor && this == cursor->paragraph() && i == cursor->index() ) {
TQTextStringChar *c = i == 0 ? chr : chr - 1;
cursorRect.setRect( cursor->x() , y + baseLine - c->format()->ascent(),
1, c->format()->height() );
}
if ( flush ) { // something changed, draw what we have so far
if ( chr->rightToLeft ) {
xstart = chr->x;
xend = at( paintStart )->x + str->width( paintStart );
} else {
xstart = at( paintStart )->x;
xend = chr->x;
if ( i < length() - 1 ) {
if ( !str->at( i + 1 ).lineStart &&
str->at( i + 1 ).rightToLeft == chr->rightToLeft )
xend = str->at( i + 1 ).x;
else
xend += str->width( i );
}
}
if ( (clipx == -1 || clipw <= 0 || (xend >= clipx && xstart <= clipx + clipw)) &&
( clipy == -1 || clipy < y+r.y()+h ) ) {
if ( !chr->isCustom() )
drawString( painter, qstr, paintStart, i - paintStart + (ignoreSoftHyphen ? 0 : 1), xstart, y,
baseLine, xend-xstart, h, drawSelections, fullSelectionWidth,
chr, cg, chr->rightToLeft );
#ifndef TQT_NO_TEXTCUSTOMITEM
else if ( chr->customItem()->placement() == TQTextCustomItem::PlaceInline ) {
bool inSelection = FALSE;
if (drawSelections) {
TQMap<int, TQTextParagraphSelection>::ConstIterator it = mSelections->find( TQTextDocument::Standard );
inSelection = (it != mSelections->end() && (*it).start <= i && (*it).end > i);
}
chr->customItem()->draw( &painter, chr->x, y,
clipx == -1 ? clipx : (clipx - r.x()),
clipy == -1 ? clipy : (clipy - r.y()),
clipw, cliph, cg, inSelection );
}
#endif
}
paintStart = i+1;
}
}
// time to draw the cursor
const int cursor_extent = 4;
if ( !cursorRect.isNull() && cursor &&
((clipx == -1 || clipw == -1) || (cursorRect.right()+cursor_extent >= clipx && cursorRect.left()-cursor_extent <= clipx + clipw)) ) {
painter.fillRect( cursorRect, cg.color( TQColorGroup::Text ) );
painter.save();
if ( string()->isBidi() ) {
if ( at( cursor->index() )->rightToLeft ) {
painter.setPen( TQt::black );
painter.drawLine( cursorRect.x(), cursorRect.y(), cursorRect.x() - cursor_extent / 2, cursorRect.y() + cursor_extent / 2 );
painter.drawLine( cursorRect.x(), cursorRect.y() + cursor_extent, cursorRect.x() - cursor_extent / 2, cursorRect.y() + cursor_extent / 2 );
} else {
painter.setPen( TQt::black );
painter.drawLine( cursorRect.x(), cursorRect.y(), cursorRect.x() + cursor_extent / 2, cursorRect.y() + cursor_extent / 2 );
painter.drawLine( cursorRect.x(), cursorRect.y() + cursor_extent, cursorRect.x() + cursor_extent / 2, cursorRect.y() + cursor_extent / 2 );
}
}
painter.restore();
}
}
//#define BIDI_DEBUG
void TQTextParagraph::setColorForSelection( TQColor &color, TQPainter &painter,
const TQColorGroup& cg, int selection )
{
if (selection < 0)
return;
color = ( hasdoc && selection != TQTextDocument::Standard ) ?
document()->selectionColor( selection ) :
cg.color( TQColorGroup::Highlight );
if ( selection == TQTextDocument::IMCompositionText ) {
#ifndef Q_WS_MACX
int h1, s1, v1, h2, s2, v2;
cg.color( TQColorGroup::Base ).hsv( &h1, &s1, &v1 );
cg.color( TQColorGroup::Background ).hsv( &h2, &s2, &v2 );
color.setHsv( h1, s1, ( v1 + v2 ) / 2 );
#else
color = TQt::lightGray;
#endif
painter.setPen( cg.color( TQColorGroup::Text ) );
} else if ( selection == TQTextDocument::IMSelectionText ) {
color = cg.color( TQColorGroup::Dark );
painter.setPen( cg.color( TQColorGroup::BrightText ) );
} else if ( !hasdoc || document()->invertSelectionText( selection ) ) {
painter.setPen( cg.color( TQColorGroup::HighlightedText ) );
}
}
void TQTextParagraph::drawString( TQPainter &painter, const TQString &str, int start, int len, int xstart,
int y, int baseLine, int w, int h, bool drawSelections, int fullSelectionWidth,
TQTextStringChar *formatChar, const TQColorGroup& cg,
bool rightToLeft )
{
bool plainText = hasdoc ? document()->textFormat() == TQt::PlainText : FALSE;
TQTextFormat* format = formatChar->format();
if ( !plainText || ( hasdoc && format->color() != document()->formatCollection()->defaultFormat()->color() ) )
painter.setPen( TQPen( format->color() ) );
else
painter.setPen( cg.text() );
painter.setFont( format->font() );
if ( hasdoc && formatChar->isAnchor() && !formatChar->anchorHref().isEmpty() ) {
if ( format->useLinkColor() )
painter.setPen(document()->linkColor.isValid() ? document()->linkColor : cg.link());
if ( document()->underlineLinks() ) {
TQFont fn = format->font();
fn.setUnderline( TRUE );
painter.setFont( fn );
}
}
TQPainter::TextDirection dir = rightToLeft ? TQPainter::RTL : TQPainter::LTR;
int real_length = len;
if (len && dir != TQPainter::RTL && start + len == length() ) // don't draw the last character (trailing space)
len--;
if (len && str.unicode()[start+len-1] == TQChar_linesep)
len--;
TQTextFormat::VerticalAlignment vAlign = format->vAlign();
if ( vAlign != TQTextFormat::AlignNormal ) {
// sub or superscript
TQFont f( painter.font() );
if ( format->fontSizesInPixels() )
f.setPixelSize( ( f.pixelSize() * 2 ) / 3 );
else
f.setPointSize( ( f.pointSize() * 2 ) / 3 );
painter.setFont( f );
int h = painter.fontMetrics().height();
baseLine += (vAlign == TQTextFormat::AlignSubScript) ? h/6 : -h/2;
}
bool allSelected = FALSE;
if (drawSelections) {
TQMap<int, TQTextParagraphSelection>::ConstIterator it = mSelections->find( TQTextDocument::Standard );
allSelected = (it != mSelections->end() && (*it).start <= start && (*it).end >= start+len);
}
if (!allSelected)
painter.drawText(xstart, y + baseLine, str, start, len, dir);
#ifdef BIDI_DEBUG
painter.save();
painter.setPen ( TQt::red );
painter.drawLine( xstart, y, xstart, y + baseLine );
painter.drawLine( xstart, y + baseLine/2, xstart + 10, y + baseLine/2 );
int w = 0;
int i = 0;
while( i < len )
w += painter.fontMetrics().charWidth( str, start + i++ );
painter.setPen ( TQt::blue );
painter.drawLine( xstart + w - 1, y, xstart + w - 1, y + baseLine );
painter.drawLine( xstart + w - 1, y + baseLine/2, xstart + w - 1 - 10, y + baseLine/2 );
painter.restore();
#endif
// check if we are in a selection and draw it
if (drawSelections) {
TQMap<int, TQTextParagraphSelection>::ConstIterator it = mSelections->end();
while ( it != mSelections->begin() ) {
--it;
int selStart = (*it).start;
int selEnd = (*it).end;
int tmpw = w;
selStart = TQMAX(selStart, start);
int real_selEnd = TQMIN(selEnd, start+real_length);
selEnd = TQMIN(selEnd, start+len);
bool extendRight = FALSE;
bool extendLeft = FALSE;
bool selWrap = (real_selEnd == length()-1 && n && n->hasSelection(it.key()));
if (selWrap || this->str->at(real_selEnd).lineStart) {
extendRight = (fullSelectionWidth != 0);
if (!extendRight && !rightToLeft)
tmpw += painter.fontMetrics().width(' ');
}
if (fullSelectionWidth && (selStart == 0 || this->str->at(selStart).lineStart)) {
extendLeft = TRUE;
}
if (this->str->isRightToLeft() != rightToLeft)
extendLeft = extendRight = FALSE;
if (this->str->isRightToLeft()) {
bool tmp = extendLeft;
extendLeft = extendRight;
extendRight = tmp;
}
if (selStart < real_selEnd ||
(selWrap && fullSelectionWidth && extendRight &&
// don't draw the standard selection on a printer=
(it.key() != TQTextDocument::Standard || !is_printer( &painter)))) {
int selection = it.key();
TQColor color;
setColorForSelection( color, painter, cg, selection );
if (selStart != start || selEnd != start + len || selWrap) {
// have to clip
painter.save();
int cs, ce;
if (rightToLeft) {
cs = (selEnd != start + len) ?
this->str->at(this->str->previousCursorPosition(selEnd)).x : xstart;
ce = (selStart != start) ?
this->str->at(this->str->previousCursorPosition(selStart)).x : xstart+tmpw;
} else {
cs = (selStart != start) ? this->str->at(selStart).x : xstart;
ce = (selEnd != start + len) ? this->str->at(selEnd).x : xstart+tmpw;
}
TQRect r(cs, y, ce-cs, h);
if (extendLeft)
r.setLeft(0);
if (extendRight)
r.setRight(fullSelectionWidth);
TQRegion reg(r);
if ( painter.hasClipping() )
reg &= painter.clipRegion(TQPainter::CoordPainter);
painter.setClipRegion(reg, TQPainter::CoordPainter);
}
int xleft = xstart;
if ( extendLeft ) {
tmpw += xstart;
xleft = 0;
}
if ( extendRight )
tmpw = fullSelectionWidth - xleft;
painter.fillRect( xleft, y, tmpw, h, color );
painter.drawText( xstart, y + baseLine, str, start, len, dir );
// draw preedit's underline
if (selection == TQTextDocument::IMCompositionText)
painter.drawLine(xstart, y + baseLine + 1, xstart + w, y + baseLine + 1);
if (selStart != start || selEnd != start + len || selWrap)
painter.restore();
}
}
}
if ( format->isMisspelled() ) {
painter.save();
painter.setPen( TQPen( TQt::red, 1, TQt::DotLine ) );
painter.drawLine( xstart, y + baseLine + 1, xstart + w, y + baseLine + 1 );
painter.restore();
}
if ( hasdoc && formatChar->isAnchor() && !formatChar->anchorHref().isEmpty() &&
document()->focusIndicator.parag == this &&
( ( document()->focusIndicator.start >= start &&
document()->focusIndicator.start + document()->focusIndicator.len <= start + len ) ||
( document()->focusIndicator.start <= start &&
document()->focusIndicator.start + document()->focusIndicator.len >= start + len ) ) )
painter.drawWinFocusRect( TQRect( xstart, y, w, h ) );
}
void TQTextParagraph::drawLabel( TQPainter* p, int x, int y, int w, int h, int base, const TQColorGroup& cg )
{
TQRect r ( x, y, w, h );
TQStyleSheetItem::ListStyle s = listStyle();
p->save();
TQTextFormat *format = at( 0 )->format();
if ( format ) {
p->setPen( format->color() );
p->setFont( format->font() );
}
TQFontMetrics fm( p->fontMetrics() );
int size = fm.lineSpacing() / 3;
bool rtl = str->isRightToLeft();
switch ( s ) {
case TQStyleSheetItem::ListDecimal:
case TQStyleSheetItem::ListLowerAlpha:
case TQStyleSheetItem::ListUpperAlpha:
{
if ( list_val == -1 ) { // uninitialised list value, calcluate the right one
int depth = listDepth();
list_val--;
// ### evil, square and expensive. This needs to be done when formatting, not when painting
TQTextParagraph* s = prev();
int depth_s;
while ( s && (depth_s = s->listDepth()) >= depth ) {
if ( depth_s == depth && s->isListItem() )
list_val--;
s = s->prev();
}
}
int n = list_val;
if ( n < -1 )
n = -n - 1;
TQString l;
switch ( s ) {
case TQStyleSheetItem::ListLowerAlpha:
if ( n < 27 ) {
l = TQChar( ('a' + (char) (n-1)));
break;
}
case TQStyleSheetItem::ListUpperAlpha:
if ( n < 27 ) {
l = TQChar( ('A' + (char) (n-1)));
break;
}
break;
default: //TQStyleSheetItem::ListDecimal:
l.setNum( n );
break;
}
if (rtl)
l.prepend(" .");
else
l += TQString::fromLatin1(". ");
int x = ( rtl ? r.left() : r.right() - fm.width(l));
p->drawText( x, r.top() + base, l );
}
break;
case TQStyleSheetItem::ListSquare:
{
int x = rtl ? r.left() + size : r.right() - size*2;
TQRect er( x, r.top() + fm.height() / 2 - size / 2, size, size );
p->fillRect( er , cg.brush( TQColorGroup::Text ) );
}
break;
case TQStyleSheetItem::ListCircle:
{
int x = rtl ? r.left() + size : r.right() - size*2;
TQRect er( x, r.top() + fm.height() / 2 - size / 2, size, size);
p->drawEllipse( er );
}
break;
case TQStyleSheetItem::ListDisc:
default:
{
p->setBrush( cg.brush( TQColorGroup::Text ));
int x = rtl ? r.left() + size : r.right() - size*2;
TQRect er( x, r.top() + fm.height() / 2 - size / 2, size, size);
p->drawEllipse( er );
p->setBrush( TQt::NoBrush );
}
break;
}
p->restore();
}
#ifndef TQT_NO_DATASTREAM
void TQTextParagraph::readStyleInformation( TQDataStream& stream )
{
int int_align, int_lstyle;
uchar uchar_litem, uchar_rtext, uchar_dir;
stream >> int_align >> int_lstyle >> utm >> ubm >> ulm >> urm >> uflm
>> ulinespacing >> ldepth >> uchar_litem >> uchar_rtext >> uchar_dir;
align = int_align; lstyle = (TQStyleSheetItem::ListStyle) int_lstyle;
litem = uchar_litem; rtext = uchar_rtext; str->setDirection( (TQChar::Direction)uchar_dir );
TQTextParagraph* s = prev() ? prev() : this;
while ( s ) {
s->invalidate( 0 );
s = s->next();
}
}
void TQTextParagraph::writeStyleInformation( TQDataStream& stream ) const
{
stream << (int) align << (int) lstyle << utm << ubm << ulm << urm << uflm << ulinespacing << ldepth << (uchar)litem << (uchar)rtext << (uchar)str->direction();
}
#endif
void TQTextParagraph::setListItem( bool li )
{
if ( (bool)litem == li )
return;
litem = li;
changed = TRUE;
TQTextParagraph* s = prev() ? prev() : this;
while ( s ) {
s->invalidate( 0 );
s = s->next();
}
}
void TQTextParagraph::setListDepth( int depth ) {
if ( !hasdoc || depth == ldepth )
return;
ldepth = depth;
TQTextParagraph* s = prev() ? prev() : this;
while ( s ) {
s->invalidate( 0 );
s = s->next();
}
}
int *TQTextParagraph::tabArray() const
{
int *ta = tArray;
if ( !ta && hasdoc )
ta = document()->tabArray();
return ta;
}
int TQTextParagraph::nextTab( int, int x )
{
int *ta = tArray;
if ( hasdoc ) {
if ( !ta )
ta = document()->tabArray();
tabStopWidth = document()->tabStopWidth();
}
if ( ta ) {
int i = 0;
while ( ta[ i ] ) {
if ( ta[ i ] >= x )
return tArray[ i ];
++i;
}
return tArray[ 0 ];
} else {
int d;
if ( tabStopWidth != 0 )
d = x / tabStopWidth;
else
return x;
return tabStopWidth * ( d + 1 );
}
}
void TQTextParagraph::adjustToPainter( TQPainter *p )
{
#ifndef TQT_NO_TEXTCUSTOMITEM
for ( int i = 0; i < length(); ++i ) {
if ( at( i )->isCustom() )
at( i )->customItem()->adjustToPainter( p );
}
#endif
}
TQTextFormatCollection *TQTextParagraph::formatCollection() const
{
if ( hasdoc )
return document()->formatCollection();
TQTextFormatCollection* fc = &pseudoDocument()->collection;
if ( paintdevice != fc->paintDevice() )
fc->setPaintDevice( paintdevice );
return fc;
}
TQString TQTextParagraph::richText() const
{
TQString s;
TQTextStringChar *formatChar = 0;
TQString spaces;
bool doStart = richTextExportStart && richTextExportStart->paragraph() == this;
bool doEnd = richTextExportEnd && richTextExportEnd->paragraph() == this;
int i;
TQString lastAnchorName;
for ( i = 0; i < length()-1; ++i ) {
if ( doStart && i && richTextExportStart->index() == i )
s += "<!--StartFragment-->";
if ( doEnd && richTextExportEnd->index() == i )
s += "<!--EndFragment-->";
TQTextStringChar *c = &str->at( i );
if ( c->isAnchor() && !c->anchorName().isEmpty() && c->anchorName() != lastAnchorName ) {
lastAnchorName = c->anchorName();
if ( c->anchorName().contains( '#' ) ) {
TQStringList l = TQStringList::split( '#', c->anchorName() );
for ( TQStringList::ConstIterator it = l.begin(); it != l.end(); ++it )
s += "<a name=\"" + *it + "\"></a>";
} else {
s += "<a name=\"" + c->anchorName() + "\"></a>";
}
}
if ( !formatChar ) {
s += c->format()->makeFormatChangeTags( formatCollection()->defaultFormat(),
0, TQString::null, c->anchorHref() );
formatChar = c;
} else if ( ( formatChar->format()->key() != c->format()->key() ) ||
(c->anchorHref() != formatChar->anchorHref() ) ) {
s += c->format()->makeFormatChangeTags( formatCollection()->defaultFormat(),
formatChar->format() , formatChar->anchorHref(), c->anchorHref() );
formatChar = c;
}
if ( c->c == '<' )
s += "&lt;";
else if ( c->c == '>' )
s += "&gt;";
else if ( c->c =='&' )
s += "&amp;";
else if ( c->c =='\"' )
s += "&quot;";
#ifndef TQT_NO_TEXTCUSTOMITEM
else if ( c->isCustom() )
s += c->customItem()->richText();
#endif
else if ( c->c == '\n' || c->c == TQChar_linesep )
s += "<br />"; // space on purpose for compatibility with Netscape, Lynx & Co.
else
s += c->c;
}
if ( doEnd && richTextExportEnd->index() == i )
s += "<!--EndFragment-->";
if ( formatChar )
s += formatChar->format()->makeFormatEndTags( formatCollection()->defaultFormat(), formatChar->anchorHref() );
return s;
}
void TQTextParagraph::addCommand( TQTextCommand *cmd )
{
if ( !hasdoc )
pseudoDocument()->commandHistory->addCommand( cmd );
else
document()->commands()->addCommand( cmd );
}
TQTextCursor *TQTextParagraph::undo( TQTextCursor *c )
{
if ( !hasdoc )
return pseudoDocument()->commandHistory->undo( c );
return document()->commands()->undo( c );
}
TQTextCursor *TQTextParagraph::redo( TQTextCursor *c )
{
if ( !hasdoc )
return pseudoDocument()->commandHistory->redo( c );
return document()->commands()->redo( c );
}
int TQTextParagraph::topMargin() const
{
int m = 0;
if ( rtext ) {
m = isListItem() ? (document()->li_tm/TQMAX(1,listDepth()*listDepth())) :
( listDepth() ? 0 : document()->par_tm );
if ( listDepth() == 1 &&( !prev() || prev()->listDepth() < listDepth() ) )
m = TQMAX( m, document()->list_tm );
}
m += utm;
return scale( m, TQTextFormat::painter() );
}
int TQTextParagraph::bottomMargin() const
{
int m = 0;
if ( rtext ) {
m = isListItem() ? (document()->li_bm/TQMAX(1,listDepth()*listDepth())) :
( listDepth() ? 0 : document()->par_bm );
if ( listDepth() == 1 &&( !next() || next()->listDepth() < listDepth() ) )
m = TQMAX( m, document()->list_bm );
}
m += ubm;
return scale( m, TQTextFormat::painter() );
}
int TQTextParagraph::leftMargin() const
{
int m = ulm;
if ( listDepth() && !string()->isRightToLeft() )
m += listDepth() * document()->list_lm;
return scale( m, TQTextFormat::painter() );
}
int TQTextParagraph::firstLineMargin() const
{
int m = uflm;
return scale( m, TQTextFormat::painter() );
}
int TQTextParagraph::rightMargin() const
{
int m = urm;
if ( listDepth() && string()->isRightToLeft() )
m += listDepth() * document()->list_lm;
return scale( m, TQTextFormat::painter() );
}
int TQTextParagraph::lineSpacing() const
{
int l = ulinespacing;
l = scale( l, TQTextFormat::painter() );
return l;
}
void TQTextParagraph::copyParagData( TQTextParagraph *parag )
{
rtext = parag->rtext;
lstyle = parag->lstyle;
ldepth = parag->ldepth;
litem = parag->litem;
align = parag->align;
utm = parag->utm;
ubm = parag->ubm;
urm = parag->urm;
ulm = parag->ulm;
uflm = parag->uflm;
ulinespacing = parag->ulinespacing;
TQColor *c = parag->backgroundColor();
if ( c )
setBackgroundColor( *c );
str->setDirection( parag->str->direction() );
}
void TQTextParagraph::show()
{
if ( visible || !hasdoc )
return;
visible = TRUE;
}
void TQTextParagraph::hide()
{
if ( !visible || !hasdoc )
return;
visible = FALSE;
}
void TQTextParagraph::setDirection( TQChar::Direction d )
{
if ( str && str->direction() != d ) {
str->setDirection( d );
invalidate( 0 );
}
}
TQChar::Direction TQTextParagraph::direction() const
{
return (str ? str->direction() : TQChar::DirON );
}
void TQTextParagraph::setChanged( bool b, bool recursive )
{
changed = b;
if ( recursive ) {
if ( document() && document()->parentParagraph() )
document()->parentParagraph()->setChanged( b, recursive );
}
}
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextPreProcessor::TQTextPreProcessor()
{
}
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextFormatter::TQTextFormatter()
: thisminw(0), thiswused(0), wrapEnabled( TRUE ), wrapColumn( -1 ), biw( FALSE )
{
}
TQTextLineStart *TQTextFormatter::formatLine( TQTextParagraph *parag, TQTextString *string, TQTextLineStart *line,
TQTextStringChar *startChar, TQTextStringChar *lastChar, int align, int space )
{
if ( lastChar < startChar )
return new TQTextLineStart;
#ifndef TQT_NO_COMPLEXTEXT
if( string->isBidi() )
return bidiReorderLine( parag, string, line, startChar, lastChar, align, space );
#endif
int start = (startChar - &string->at(0));
int last = (lastChar - &string->at(0) );
// ignore white space at the end of the line.
TQTextStringChar *ch = lastChar;
while ( ch > startChar && ch->whiteSpace ) {
space += ch->format()->width( ' ' );
--ch;
}
if (space < 0)
space = 0;
// do alignment Auto == Left in this case
if ( align & TQt::AlignHCenter || align & TQt::AlignRight ) {
if ( align & TQt::AlignHCenter )
space /= 2;
for ( int j = start; j <= last; ++j )
string->at( j ).x += space;
} else if ( align & TQt::AlignJustify ) {
int numSpaces = 0;
// End at "last-1", the last space ends up with a width of 0
for ( int j = last-1; j >= start; --j ) {
// Start at last tab, if any.
TQTextStringChar &ch = string->at( j );
if ( ch.c == '\t' ) {
start = j+1;
break;
}
if(ch.whiteSpace)
numSpaces++;
}
int toAdd = 0;
for ( int k = start + 1; k <= last; ++k ) {
TQTextStringChar &ch = string->at( k );
if( numSpaces && ch.whiteSpace ) {
int s = space / numSpaces;
toAdd += s;
space -= s;
numSpaces--;
}
string->at( k ).x += toAdd;
}
}
if ( last >= 0 && last < string->length() )
line->w = string->at( last ).x + string->width( last );
else
line->w = 0;
return new TQTextLineStart;
}
#ifndef TQT_NO_COMPLEXTEXT
#ifdef BIDI_DEBUG
#include <iostream>
#endif
// collects one line of the paragraph and transforms it to visual order
TQTextLineStart *TQTextFormatter::bidiReorderLine( TQTextParagraph * /*parag*/, TQTextString *text, TQTextLineStart *line,
TQTextStringChar *startChar, TQTextStringChar *lastChar, int align, int space )
{
// ignore white space at the end of the line.
int endSpaces = 0;
while ( lastChar > startChar && lastChar->whiteSpace ) {
space += lastChar->format()->width( ' ' );
--lastChar;
++endSpaces;
}
int start = (startChar - &text->at(0));
int last = (lastChar - &text->at(0) );
int length = lastChar - startChar + 1;
int x = startChar->x;
unsigned char _levels[256];
int _visual[256];
unsigned char *levels = _levels;
int *visual = _visual;
if ( length > 255 ) {
levels = (unsigned char *)malloc( length*sizeof( unsigned char ) );
visual = (int *)malloc( length*sizeof( int ) );
}
//tqDebug("bidiReorderLine: length=%d (%d-%d)", length, start, last );
TQTextStringChar *ch = startChar;
unsigned char *l = levels;
while ( ch <= lastChar ) {
//tqDebug( " level: %d", ch->bidiLevel );
*(l++) = (ch++)->bidiLevel;
}
TQTextEngine::bidiReorder( length, levels, visual );
// now construct the reordered string out of the runs...
int numSpaces = 0;
// set the correct alignment. This is a bit messy....
if( align == TQt::AlignAuto ) {
// align according to directionality of the paragraph...
if ( text->isRightToLeft() )
align = TQt::AlignRight;
}
// This is not really correct, but as we can't make the scrollbar move to the left of the origin,
// this ensures all text can be scrolled to and read.
if (space < 0)
space = 0;
if ( align & TQt::AlignHCenter )
x += space/2;
else if ( align & TQt::AlignRight )
x += space;
else if ( align & TQt::AlignJustify ) {
// End at "last-1", the last space ends up with a width of 0
for ( int j = last-1; j >= start; --j ) {
// Start at last tab, if any.
TQTextStringChar &ch = text->at( j );
if ( ch.c == '\t' ) {
start = j+1;
break;
}
if(ch.whiteSpace)
numSpaces++;
}
}
int toAdd = 0;
int xorig = x;
TQTextStringChar *lc = startChar + visual[0];
for ( int i = 0; i < length; i++ ) {
TQTextStringChar *ch = startChar + visual[i];
if (numSpaces && ch->whiteSpace) {
int s = space / numSpaces;
toAdd += s;
space -= s;
numSpaces--;
}
if (lc->format() != ch->format() && !ch->c.isSpace()
&& lc->format()->font().italic() && !ch->format()->font().italic()) {
int rb = lc->format()->fontMetrics().rightBearing(lc->c);
if (rb < 0)
x -= rb;
}
ch->x = x + toAdd;
ch->rightToLeft = ch->bidiLevel % 2;
//tqDebug("visual: %d (%x) placed at %d rightToLeft=%d", visual[i], ch->c.unicode(), x +toAdd, ch->rightToLeft );
int ww = 0;
if ( ch->c.unicode() >= 32 || ch->c == '\t' || ch->c == '\n' || ch->isCustom() ) {
ww = text->width( start+visual[i] );
} else {
ww = ch->format()->width( ' ' );
}
x += ww;
lc = ch;
}
x += toAdd;
while ( endSpaces-- ) {
++lastChar;
int sw = lastChar->format()->width( ' ' );
if ( text->isRightToLeft() ) {
xorig -= sw;
lastChar->x = xorig;
ch->rightToLeft = TRUE;
} else {
lastChar->x = x;
x += sw;
ch->rightToLeft = FALSE;
}
}
line->w = x;
if ( length > 255 ) {
free( levels );
free( visual );
}
return new TQTextLineStart;
}
#endif
void TQTextFormatter::insertLineStart( TQTextParagraph *parag, int index, TQTextLineStart *ls )
{
TQMap<int, TQTextLineStart*>::Iterator it;
if ( ( it = parag->lineStartList().find( index ) ) == parag->lineStartList().end() ) {
parag->lineStartList().insert( index, ls );
} else {
delete *it;
parag->lineStartList().remove( it );
parag->lineStartList().insert( index, ls );
}
}
/* Standard pagebreak algorithm using TQTextFlow::adjustFlow. Returns
the shift of the paragraphs bottom line.
*/
int TQTextFormatter::formatVertically( TQTextDocument* doc, TQTextParagraph* parag )
{
int oldHeight = parag->rect().height();
TQMap<int, TQTextLineStart*>& lineStarts = parag->lineStartList();
TQMap<int, TQTextLineStart*>::Iterator it = lineStarts.begin();
int h = parag->prev() ? TQMAX(parag->prev()->bottomMargin(),parag->topMargin() ) / 2: 0;
for ( ; it != lineStarts.end() ; ++it ) {
TQTextLineStart * ls = it.data();
ls->y = h;
TQTextStringChar *c = &parag->string()->at(it.key());
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( c && c->customItem() && c->customItem()->ownLine() ) {
int h = c->customItem()->height;
c->customItem()->pageBreak( parag->rect().y() + ls->y + ls->baseLine - h, doc->flow() );
int delta = c->customItem()->height - h;
ls->h += delta;
if ( delta )
parag->setMovedDown( TRUE );
} else
#endif
{
int shift = doc->flow()->adjustFlow( parag->rect().y() + ls->y, ls->w, ls->h );
ls->y += shift;
if ( shift )
parag->setMovedDown( TRUE );
}
h = ls->y + ls->h;
}
int m = parag->bottomMargin();
if ( !parag->next() )
m = 0;
else
m = TQMAX(m, parag->next()->topMargin() ) / 2;
h += m;
parag->setHeight( h );
return h - oldHeight;
}
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextFormatterBreakInWords::TQTextFormatterBreakInWords()
{
}
#define SPACE(s) s
int TQTextFormatterBreakInWords::format( TQTextDocument *doc,TQTextParagraph *parag,
int start, const TQMap<int, TQTextLineStart*> & )
{
// make sure bidi information is correct.
(void )parag->string()->isBidi();
TQTextStringChar *c = 0;
TQTextStringChar *firstChar = 0;
int left = doc ? parag->leftMargin() + doc->leftMargin() : 0;
int x = left + ( doc ? parag->firstLineMargin() : 0 );
int dw = parag->documentVisibleWidth() - ( doc ? doc->rightMargin() : 0 );
int y = parag->prev() ? TQMAX(parag->prev()->bottomMargin(),parag->topMargin()) / 2: 0;
int h = y;
int len = parag->length();
if ( doc )
x = doc->flow()->adjustLMargin( y + parag->rect().y(), parag->rect().height(), x, 4 );
int rm = parag->rightMargin();
int w = dw - ( doc ? doc->flow()->adjustRMargin( y + parag->rect().y(), parag->rect().height(), rm, 4 ) : 0 );
bool fullWidth = TRUE;
int minw = 0;
int wused = 0;
bool wrapEnabled = isWrapEnabled( parag );
start = 0; //######### what is the point with start?! (Matthias)
if ( start == 0 )
c = &parag->string()->at( 0 );
int i = start;
TQTextLineStart *lineStart = new TQTextLineStart( y, y, 0 );
insertLineStart( parag, 0, lineStart );
TQPainter *painter = TQTextFormat::painter();
int col = 0;
int ww = 0;
TQChar lastChr;
for ( ; i < len; ++i, ++col ) {
if ( c )
lastChr = c->c;
c = &parag->string()->at( i );
// ### the lines below should not be needed
if ( painter )
c->format()->setPainter( painter );
if ( i > 0 ) {
c->lineStart = 0;
} else {
c->lineStart = 1;
firstChar = c;
}
if ( c->c.unicode() >= 32 || c->isCustom() ) {
ww = parag->string()->width( i );
} else if ( c->c == '\t' ) {
int nx = parag->nextTab( i, x - left ) + left;
if ( nx < x )
ww = w - x;
else
ww = nx - x;
} else {
ww = c->format()->width( ' ' );
}
#ifndef TQT_NO_TEXTCUSTOMITEM
if ( c->isCustom() && c->customItem()->ownLine() ) {
x = doc ? doc->flow()->adjustLMargin( y + parag->rect().y(), parag->rect().height(), left, 4 ) : left;
w = dw - ( doc ? doc->flow()->adjustRMargin( y + parag->rect().y(), parag->rect().height(), rm, 4 ) : 0 );
c->customItem()->resize( w - x );
w = dw;
y += h;
h = c->height();
lineStart = new TQTextLineStart( y, h, h );
insertLineStart( parag, i, lineStart );
c->lineStart = 1;
firstChar = c;
x = 0xffffff;
continue;
}
#endif
if ( wrapEnabled &&
( ( wrapAtColumn() == -1 && x + ww > w ) ||
( wrapAtColumn() != -1 && col >= wrapAtColumn() ) ) ) {
x = doc ? parag->document()->flow()->adjustLMargin( y + parag->rect().y(), parag->rect().height(), left, 4 ) : left;
w = dw;
y += h;
h = c->height();
lineStart = formatLine( parag, parag->string(), lineStart, firstChar, c-1 );
lineStart->y = y;
insertLineStart( parag, i, lineStart );
lineStart->baseLine = c->ascent();
lineStart->h = c->height();
c->lineStart = 1;
firstChar = c;
col = 0;
if ( wrapAtColumn() != -1 )
minw = TQMAX( minw, w );
} else if ( lineStart ) {
lineStart->baseLine = TQMAX( lineStart->baseLine, c->ascent() );
h = TQMAX( h, c->height() );
lineStart->h = h;
}
c->x = x;
x += ww;
wused = TQMAX( wused, x );
}
int m = parag->bottomMargin();
if ( !parag->next() )
m = 0;
else
m = TQMAX(m, parag->next()->topMargin() ) / 2;
parag->setFullWidth( fullWidth );
y += h + m;
if ( doc )
minw += doc->rightMargin();
if ( !wrapEnabled )
minw = TQMAX(minw, wused);
thisminw = minw;
thiswused = wused;
return y;
}
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextFormatterBreakWords::TQTextFormatterBreakWords()
{
}
#define DO_FLOW( lineStart ) do{ if ( doc && doc->isPageBreakEnabled() ) { \
int yflow = lineStart->y + parag->rect().y();\
int shift = doc->flow()->adjustFlow( yflow, dw, lineStart->h ); \
lineStart->y += shift;\
y += shift;\
}}while(FALSE)
int TQTextFormatterBreakWords::format( TQTextDocument *doc, TQTextParagraph *parag,
int start, const TQMap<int, TQTextLineStart*> & )
{
// make sure bidi information is correct.
(void )parag->string()->isBidi();
TQTextStringChar *c = 0;
TQTextStringChar *firstChar = 0;
TQTextString *string = parag->string();
int left = doc ? parag->leftMargin() + doc->leftMargin() : 0;
int x = left + ( doc ? parag->firstLineMargin() : 0 );
int y = parag->prev() ? TQMAX(parag->prev()->bottomMargin(),parag->topMargin()) / 2: 0;
int h = y;
int len = parag->length();
if ( doc )
x = doc->flow()->adjustLMargin( y + parag->rect().y(), parag->rect().height(), x, 0 );
int dw = parag->documentVisibleWidth() - ( doc ? ( left != x ? 0 : doc->rightMargin() ) : 0 );
int curLeft = x;
int rm = parag->rightMargin();
int rdiff = doc ? doc->flow()->adjustRMargin( y + parag->rect().y(), parag->rect().height(), rm, 0 ) : 0;
int w = dw - rdiff;
bool fullWidth = TRUE;
int marg = left + rdiff;
int minw = 0;
int wused = 0;
int tminw = marg;
int linespacing = doc ? parag->lineSpacing() : 0;
bool wrapEnabled = isWrapEnabled( parag );
start = 0;
int i = start;
TQTextLineStart *lineStart = new TQTextLineStart( y, y, 0 );
insertLineStart( parag, 0, lineStart );
int lastBreak = -1;
int tmpBaseLine = 0, tmph = 0;
bool lastWasNonInlineCustom = FALSE;
int align = parag->alignment();
if ( align == TQt::AlignAuto && doc && doc->alignment() != TQt::AlignAuto )
align = doc->alignment();
align &= TQt::AlignHorizontal_Mask;
// ### hack. The last char in the paragraph is always invisible,
// ### and somehow sometimes has a wrong format. It changes
// ### between // layouting and printing. This corrects some
// ### layouting errors in BiDi mode due to this.
if ( len > 1 ) {
c = &parag->string()->at(len - 1);
if (!c->isAnchor()) {
if (c->format())
c->format()->removeRef();
c->setFormat( string->at( len - 2 ).format() );
if (c->format())
c->format()->addRef();
}
}
c = &parag->string()->at( 0 );
TQPainter *painter = TQTextFormat::painter();
int col = 0;
int ww = 0;
TQChar lastChr = c->c;
TQTextFormat *lastFormat = c->format();
for ( ; i < len; ++i, ++col ) {
if ( i ) {
c = &parag->string()->at(i-1);
lastChr = c->c;
lastFormat = c->format();
}
bool lastWasOwnLineCustomItem = lastBreak == -2;
bool hadBreakableChar = lastBreak != -1;
bool lastWasHardBreak = lastChr == TQChar_linesep;
// ### next line should not be needed
if ( painter )
c->format()->setPainter( painter );
c = &string->at( i );
if (lastFormat != c->format() && !c->c.isSpace()
&& lastFormat->font().italic() && !c->format()->font().italic()) {
int rb = lastFormat->fontMetrics().rightBearing(lastChr);
if (rb < 0)
x -= rb;
}
if ( ( i > 0 && (x > curLeft || ww == 0) ) || lastWasNonInlineCustom ) {
c->lineStart = 0;
} else {
c->lineStart = 1;
firstChar = c;
}
// ignore non spacing marks for column count.
if (col != 0 && ::category(c->c) == TQChar::Mark_NonSpacing)
--col;
#ifndef TQT_NO_TEXTCUSTOMITEM
lastWasNonInlineCustom = ( c->isCustom() && c->customItem()->placement() != TQTextCustomItem::PlaceInline );
#endif
if ( c->c.unicode() >= 32 || c->isCustom() ) {
ww = string->width( i );
} else if ( c->c == '\t' ) {
if ( align == TQt::AlignRight || align == TQt::AlignCenter ) {
// we can not (yet) do tabs
ww = c->format()->width(' ' );
} else {
int tabx = lastWasHardBreak ? (left + ( doc ? parag->firstLineMargin() : 0 )) : x;
int nx = parag->nextTab( i, tabx - left ) + left;
if ( nx < tabx ) // strrrange...
ww = 0;
else
ww = nx - tabx;
}
} else {
ww = c->format()->width( ' ' );
}
#ifndef TQT_NO_TEXTCUSTOMITEM
TQTextCustomItem* ci = c->customItem();
if ( c->isCustom() && ci->ownLine() ) {
TQTextLineStart *lineStart2 = formatLine( parag, string, lineStart, firstChar, c-1, align, SPACE(w - x - ww) );
x = doc ? doc->flow()->adjustLMargin( y + parag->rect().y(), parag->rect().height(), left, 4 ) : left;
w = dw - ( doc ? doc->flow()->adjustRMargin( y + parag->rect().y(), parag->rect().height(), rm, 4 ) : 0 );
ci->resize(w - x);
if ( ci->width < w - x ) {
if ( align & TQt::AlignHCenter )
x = ( w - ci->width ) / 2;
else if ( align & TQt::AlignRight ) {
x = w - ci->width;
}
}
c->x = x;
curLeft = x;
if ( i == 0 || !isBreakable(string, i-1) ||
string->at( i - 1 ).lineStart == 0 ) {
y += TQMAX( h, TQMAX( tmph, linespacing ) );
tmph = c->height();
h = tmph;
lineStart = lineStart2;
lineStart->y = y;
insertLineStart( parag, i, lineStart );
c->lineStart = 1;
firstChar = c;
} else {
tmph = c->height();
h = tmph;
delete lineStart2;
}
lineStart->h = h;
lineStart->baseLine = h;
tmpBaseLine = lineStart->baseLine;
lastBreak = -2;
x = w;
minw = TQMAX( minw, tminw );
int tw = ci->minimumWidth() + ( doc ? doc->leftMargin() : 0 );
if ( tw < TQWIDGETSIZE_MAX )
tminw = tw;
else
tminw = marg;
wused = TQMAX( wused, ci->width );
continue;
} else if ( c->isCustom() && ci->placement() != TQTextCustomItem::PlaceInline ) {
int tw = ci->minimumWidth();
if ( tw < TQWIDGETSIZE_MAX )
minw = TQMAX( minw, tw );
}
#endif
// we break if
// 1. the last character was a hard break (TQChar_linesep) or
// 2. the last charater was a own-line custom item (eg. table or ruler) or
// 3. wrapping was enabled, it was not a space and following
// condition is true: We either had a breakable character
// previously or we ar allowed to break in words and - either
// we break at w pixels and the current char would exceed that
// or - we break at a column and the current character would
// exceed that.
if ( lastWasHardBreak || lastWasOwnLineCustomItem ||
( wrapEnabled &&
( (!c->c.isSpace() && (hadBreakableChar || allowBreakInWords()) &&
( (wrapAtColumn() == -1 && x + ww > w) ||
(wrapAtColumn() != -1 && col >= wrapAtColumn()) ) ) )
)
) {
if ( wrapAtColumn() != -1 )
minw = TQMAX( minw, x + ww );
// if a break was forced (no breakable char, hard break or own line custom item), break immediately....
if ( !hadBreakableChar || lastWasHardBreak || lastWasOwnLineCustomItem ) {
if ( lineStart ) {
lineStart->baseLine = TQMAX( lineStart->baseLine, tmpBaseLine );
h = TQMAX( h, tmph );
lineStart->h = h;
DO_FLOW( lineStart );
}
lineStart = formatLine( parag, string, lineStart, firstChar, c-1, align, SPACE(w - x) );
x = doc ? doc->flow()->adjustLMargin( y + parag->rect().y(), parag->rect().height(), left, 4 ) : left;
w = dw - ( doc ? doc->flow()->adjustRMargin( y + parag->rect().y(), parag->rect().height(), rm, 4 ) : 0 );
if ( !doc && c->c == '\t' ) { // qt_format_text tab handling
int nx = parag->nextTab( i, x - left ) + left;
if ( nx < x )
ww = w - x;
else
ww = nx - x;
}
curLeft = x;
y += TQMAX( h, linespacing );
tmph = c->height();
h = 0;
lineStart->y = y;
insertLineStart( parag, i, lineStart );
lineStart->baseLine = c->ascent();
lineStart->h = c->height();
c->lineStart = 1;
firstChar = c;
tmpBaseLine = lineStart->baseLine;
lastBreak = -1;
col = 0;
if ( allowBreakInWords() || lastWasHardBreak ) {
minw = TQMAX(minw, tminw);
tminw = marg + ww;
}
} else { // ... otherwise if we had a breakable char, break there
DO_FLOW( lineStart );
c->x = x;
i = lastBreak;
lineStart = formatLine( parag, string, lineStart, firstChar, parag->at( lastBreak ),align, SPACE(w - string->at( i+1 ).x) );
x = doc ? doc->flow()->adjustLMargin( y + parag->rect().y(), parag->rect().height(), left, 4 ) : left;
w = dw - ( doc ? doc->flow()->adjustRMargin( y + parag->rect().y(), parag->rect().height(), rm, 4 ) : 0 );
if ( !doc && c->c == '\t' ) { // qt_format_text tab handling
int nx = parag->nextTab( i, x - left ) + left;
if ( nx < x )
ww = w - x;
else
ww = nx - x;
}
curLeft = x;
y += TQMAX( h, linespacing );
tmph = c->height();
h = tmph;
lineStart->y = y;
insertLineStart( parag, i + 1, lineStart );
lineStart->baseLine = c->ascent();
lineStart->h = c->height();
c->lineStart = 1;
firstChar = c;
tmpBaseLine = lineStart->baseLine;
lastBreak = -1;
col = 0;
minw = TQMAX(minw, tminw);
tminw = marg;
continue;
}
} else if (lineStart && isBreakable(string, i)) {
if ( len <= 2 || i < len - 1 ) {
tmpBaseLine = TQMAX( tmpBaseLine, c->ascent() );
tmph = TQMAX( tmph, c->height() );
}
minw = TQMAX( minw, tminw );
tminw = marg + ww;
lineStart->baseLine = TQMAX( lineStart->baseLine, tmpBaseLine );
h = TQMAX( h, tmph );
lineStart->h = h;
if ( i < len - 2 || c->c != ' ' )
lastBreak = i;
} else {
tminw += ww;
int cascent = c->ascent();
int cheight = c->height();
int belowBaseLine = TQMAX( tmph - tmpBaseLine, cheight-cascent );
tmpBaseLine = TQMAX( tmpBaseLine, cascent );
tmph = tmpBaseLine + belowBaseLine;
}
c->x = x;
x += ww;
wused = TQMAX( wused, x );
}
if ( lineStart ) {
lineStart->baseLine = TQMAX( lineStart->baseLine, tmpBaseLine );
h = TQMAX( h, tmph );
lineStart->h = h;
// last line in a paragraph is not justified
if ( align == TQt::AlignJustify )
align = TQt::AlignAuto;
DO_FLOW( lineStart );
lineStart = formatLine( parag, string, lineStart, firstChar, c, align, SPACE(w - x) );
delete lineStart;
}
minw = TQMAX( minw, tminw );
if ( doc )
minw += doc->rightMargin();
int m = parag->bottomMargin();
if ( !parag->next() )
m = 0;
else
m = TQMAX(m, parag->next()->topMargin() ) / 2;
parag->setFullWidth( fullWidth );
y += TQMAX( h, linespacing ) + m;
wused += rm;
if ( !wrapEnabled || wrapAtColumn() != -1 )
minw = TQMAX(minw, wused);
// This is the case where we are breaking wherever we darn well please
// in cases like that, the minw should not be the length of the entire
// word, because we necessarily want to show the word on the whole line.
// example: word wrap in iconview
if ( allowBreakInWords() && minw > wused )
minw = wused;
thisminw = minw;
thiswused = wused;
return y;
}
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextIndent::TQTextIndent()
{
}
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TQTextFormatCollection::TQTextFormatCollection()
: cKey( 307 ), paintdevice( 0 )
{
defFormat = new TQTextFormat( TQApplication::font(),
TQApplication::palette().color( TQPalette::Active, TQColorGroup::Text ) );
lastFormat = cres = 0;
cflags = -1;
cKey.setAutoDelete( TRUE );
cachedFormat = 0;
}
TQTextFormatCollection::~TQTextFormatCollection()
{
delete defFormat;
}
void TQTextFormatCollection::setPaintDevice( TQPaintDevice *pd )
{
paintdevice = pd;
#if defined(Q_WS_X11)
int scr = ( paintdevice ) ? paintdevice->x11Screen() : TQPaintDevice::x11AppScreen();
defFormat->fn.x11SetScreen( scr );
defFormat->update();
TQDictIterator<TQTextFormat> it( cKey );
TQTextFormat *format;
while ( ( format = it.current() ) != 0 ) {
++it;
format->fn.x11SetScreen( scr );
format->update();
}
#endif // Q_WS_X11
}
TQTextFormat *TQTextFormatCollection::format( TQTextFormat *f )
{
if ( f->parent() == this || f == defFormat ) {
lastFormat = f;
lastFormat->addRef();
return lastFormat;
}
if ( f == lastFormat || ( lastFormat && f->key() == lastFormat->key() ) ) {
lastFormat->addRef();
return lastFormat;
}
TQTextFormat *fm = cKey.find( f->key() );
if ( fm ) {
lastFormat = fm;
lastFormat->addRef();
return lastFormat;
}
if ( f->key() == defFormat->key() )
return defFormat;
lastFormat = createFormat( *f );
lastFormat->collection = this;
cKey.insert( lastFormat->key(), lastFormat );
return lastFormat;
}
TQTextFormat *TQTextFormatCollection::format( TQTextFormat *of, TQTextFormat *nf, int flags )
{
if ( cres && kof == of->key() && knf == nf->key() && cflags == flags ) {
cres->addRef();
return cres;
}
cres = createFormat( *of );
kof = of->key();
knf = nf->key();
cflags = flags;
if ( flags & TQTextFormat::Bold )
cres->fn.setBold( nf->fn.bold() );
if ( flags & TQTextFormat::Italic )
cres->fn.setItalic( nf->fn.italic() );
if ( flags & TQTextFormat::Underline )
cres->fn.setUnderline( nf->fn.underline() );
if ( flags & TQTextFormat::StrikeOut )
cres->fn.setStrikeOut( nf->fn.strikeOut() );
if ( flags & TQTextFormat::Family )
cres->fn.setFamily( nf->fn.family() );
if ( flags & TQTextFormat::Size ) {
if ( of->usePixelSizes )
cres->fn.setPixelSize( nf->fn.pixelSize() );
else
cres->fn.setPointSize( nf->fn.pointSize() );
}
if ( flags & TQTextFormat::Color )
cres->col = nf->col;
if ( flags & TQTextFormat::Misspelled )
cres->missp = nf->missp;
if ( flags & TQTextFormat::VAlign )
cres->ha = nf->ha;
cres->update();
TQTextFormat *fm = cKey.find( cres->key() );
if ( !fm ) {
cres->collection = this;
cKey.insert( cres->key(), cres );
} else {
delete cres;
cres = fm;
cres->addRef();
}
return cres;
}
TQTextFormat *TQTextFormatCollection::format( const TQFont &f, const TQColor &c )
{
if ( cachedFormat && cfont == f && ccol == c ) {
cachedFormat->addRef();
return cachedFormat;
}
TQString key = TQTextFormat::getKey( f, c, FALSE, TQTextFormat::AlignNormal );
cachedFormat = cKey.find( key );
cfont = f;
ccol = c;
if ( cachedFormat ) {
cachedFormat->addRef();
return cachedFormat;
}
if ( key == defFormat->key() )
return defFormat;
cachedFormat = createFormat( f, c );
cachedFormat->collection = this;
cKey.insert( cachedFormat->key(), cachedFormat );
if ( cachedFormat->key() != key )
tqWarning("ASSERT: keys for format not identical: '%s '%s'", cachedFormat->key().latin1(), key.latin1() );
return cachedFormat;
}
void TQTextFormatCollection::remove( TQTextFormat *f )
{
if ( lastFormat == f )
lastFormat = 0;
if ( cres == f )
cres = 0;
if ( cachedFormat == f )
cachedFormat = 0;
if (cKey.find(f->key()) == f)
cKey.remove( f->key() );
}
#define UPDATE( up, lo, rest ) \
if ( font.lo##rest() != defFormat->fn.lo##rest() && fm->fn.lo##rest() == defFormat->fn.lo##rest() ) \
fm->fn.set##up##rest( font.lo##rest() )
void TQTextFormatCollection::updateDefaultFormat( const TQFont &font, const TQColor &color, TQStyleSheet *sheet )
{
TQDictIterator<TQTextFormat> it( cKey );
TQTextFormat *fm;
bool usePixels = font.pointSize() == -1;
bool changeSize = usePixels ? font.pixelSize() != defFormat->fn.pixelSize() :
font.pointSize() != defFormat->fn.pointSize();
int base = usePixels ? font.pixelSize() : font.pointSize();
while ( ( fm = it.current() ) ) {
++it;
UPDATE( F, f, amily );
UPDATE( W, w, eight );
UPDATE( B, b, old );
UPDATE( I, i, talic );
UPDATE( U, u, nderline );
if ( changeSize ) {
fm->stdSize = base;
fm->usePixelSizes = usePixels;
if ( usePixels )
fm->fn.setPixelSize( fm->stdSize );
else
fm->fn.setPointSize( fm->stdSize );
sheet->scaleFont( fm->fn, fm->logicalFontSize );
}
if ( color.isValid() && color != defFormat->col && fm->col == defFormat->col )
fm->col = color;
fm->update();
}
defFormat->fn = font;
defFormat->col = color;
defFormat->update();
defFormat->stdSize = base;
defFormat->usePixelSizes = usePixels;
updateKeys();
}
// the keys in cKey have changed, rebuild the hashtable
void TQTextFormatCollection::updateKeys()
{
if ( cKey.isEmpty() )
return;
cKey.setAutoDelete( FALSE );
TQTextFormat** formats = new TQTextFormat*[ cKey.count() + 1 ];
TQTextFormat **f = formats;
TQDictIterator<TQTextFormat> it( cKey );
while ( ( *f = it.current() ) ) {
++it;
++f;
}
cKey.clear();
for ( f = formats; *f; f++ )
cKey.insert( (*f)->key(), *f );
cKey.setAutoDelete( TRUE );
delete [] formats;
}
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
void TQTextFormat::setBold( bool b )
{
if ( b == fn.bold() )
return;
fn.setBold( b );
update();
}
void TQTextFormat::setMisspelled( bool b )
{
if ( b == (bool)missp )
return;
missp = b;
update();
}
void TQTextFormat::setVAlign( VerticalAlignment a )
{
if ( a == ha )
return;
ha = a;
update();
}
void TQTextFormat::setItalic( bool b )
{
if ( b == fn.italic() )
return;
fn.setItalic( b );
update();
}
void TQTextFormat::setUnderline( bool b )
{
if ( b == fn.underline() )
return;
fn.setUnderline( b );
update();
}
void TQTextFormat::setStrikeOut( bool b )
{
if ( b == fn.strikeOut() )
return;
fn.setStrikeOut( b );
update();
}
void TQTextFormat::setFamily( const TQString &f )
{
if ( f == fn.family() )
return;
fn.setFamily( f );
update();
}
void TQTextFormat::setPointSize( int s )
{
if ( s == fn.pointSize() )
return;
fn.setPointSize( s );
usePixelSizes = FALSE;
update();
}
void TQTextFormat::setFont( const TQFont &f )
{
if ( f == fn && !k.isEmpty() )
return;
fn = f;
update();
}
void TQTextFormat::setColor( const TQColor &c )
{
if ( c == col )
return;
col = c;
update();
}
TQString TQTextFormat::makeFormatChangeTags( TQTextFormat* defaultFormat, TQTextFormat *f,
const TQString& oldAnchorHref, const TQString& anchorHref ) const
{
TQString tag;
if ( f )
tag += f->makeFormatEndTags( defaultFormat, oldAnchorHref );
if ( !anchorHref.isEmpty() )
tag += "<a href=\"" + anchorHref + "\">";
if ( font() != defaultFormat->font()
|| vAlign() != defaultFormat->vAlign()
|| color().rgb() != defaultFormat->color().rgb() ) {
TQString s;
if ( font().family() != defaultFormat->font().family() )
s += TQString(!!s?";":"") + "font-family:" + fn.family();
if ( font().italic() && font().italic() != defaultFormat->font().italic() )
s += TQString(!!s?";":"") + "font-style:" + (font().italic() ? "italic" : "normal");
if ( font().pointSize() != defaultFormat->font().pointSize() )
s += TQString(!!s?";":"") + "font-size:" + TQString::number( fn.pointSize() ) + "pt";
if ( font().weight() != defaultFormat->font().weight() )
s += TQString(!!s?";":"") + "font-weight:" + TQString::number( fn.weight() * 8 );
TQString textDecoration;
bool none = FALSE;
if ( font().underline() != defaultFormat->font().underline() ) {
if (font().underline())
textDecoration = "underline";
else
none = TRUE;
}
if ( font().overline() != defaultFormat->font().overline() ) {
if (font().overline())
textDecoration += " overline";
else
none = TRUE;
}
if ( font().strikeOut() != defaultFormat->font().strikeOut() ) {
if (font().strikeOut())
textDecoration += " line-through";
else
none = TRUE;
}
if (none && textDecoration.isEmpty())
textDecoration = "none";
if (!textDecoration.isEmpty())
s += TQString(!!s?";":"") + "text-decoration:" + textDecoration;
if ( vAlign() != defaultFormat->vAlign() ) {
s += TQString(!!s?";":"") + "vertical-align:";
if ( vAlign() == TQTextFormat::AlignSuperScript )
s += "super";
else if ( vAlign() == TQTextFormat::AlignSubScript )
s += "sub";
else
s += "normal";
}
if ( color().rgb() != defaultFormat->color().rgb() )
s += TQString(!!s?";":"") + "color:" + col.name();
if ( !s.isEmpty() )
tag += "<span style=\"" + s + "\">";
}
return tag;
}
TQString TQTextFormat::makeFormatEndTags( TQTextFormat* defaultFormat, const TQString& anchorHref ) const
{
TQString tag;
if ( font().family() != defaultFormat->font().family()
|| font().pointSize() != defaultFormat->font().pointSize()
|| font().weight() != defaultFormat->font().weight()
|| font().italic() != defaultFormat->font().italic()
|| font().underline() != defaultFormat->font().underline()
|| font().strikeOut() != defaultFormat->font().strikeOut()
|| vAlign() != defaultFormat->vAlign()
|| color().rgb() != defaultFormat->color().rgb() )
tag += "</span>";
if ( !anchorHref.isEmpty() )
tag += "</a>";
return tag;
}
TQTextFormat TQTextFormat::makeTextFormat( const TQStyleSheetItem *style, const TQMap<TQString,TQString>& attr, double scaleFontsFactor ) const
{
TQTextFormat format(*this);
if (!style )
return format;
if ( !style->isAnchor() && style->color().isValid() ) {
// the style is not an anchor and defines a color.
// It might be used inside an anchor and it should
// override the link color.
format.linkColor = FALSE;
}
switch ( style->verticalAlignment() ) {
case TQStyleSheetItem::VAlignBaseline:
format.setVAlign( TQTextFormat::AlignNormal );
break;
case TQStyleSheetItem::VAlignSuper:
format.setVAlign( TQTextFormat::AlignSuperScript );
break;
case TQStyleSheetItem::VAlignSub:
format.setVAlign( TQTextFormat::AlignSubScript );
break;
}
if ( style->fontWeight() != TQStyleSheetItem::Undefined )
format.fn.setWeight( style->fontWeight() );
if ( style->fontSize() != TQStyleSheetItem::Undefined ) {
format.fn.setPointSize( style->fontSize() );
} else if ( style->logicalFontSize() != TQStyleSheetItem::Undefined ) {
format.logicalFontSize = style->logicalFontSize();
if ( format.usePixelSizes )
format.fn.setPixelSize( format.stdSize );
else
format.fn.setPointSize( format.stdSize );
style->styleSheet()->scaleFont( format.fn, format.logicalFontSize );
} else if ( style->logicalFontSizeStep() ) {
format.logicalFontSize += style->logicalFontSizeStep();
if ( format.usePixelSizes )
format.fn.setPixelSize( format.stdSize );
else
format.fn.setPointSize( format.stdSize );
style->styleSheet()->scaleFont( format.fn, format.logicalFontSize );
}
if ( !style->fontFamily().isEmpty() )
format.fn.setFamily( style->fontFamily() );
if ( style->color().isValid() )
format.col = style->color();
if ( style->definesFontItalic() )
format.fn.setItalic( style->fontItalic() );
if ( style->definesFontUnderline() )
format.fn.setUnderline( style->fontUnderline() );
if ( style->definesFontStrikeOut() )
format.fn.setStrikeOut( style->fontStrikeOut() );
if ( style->name() == "font") {
if ( attr.contains("color") ) {
TQString s = attr["color"];
if ( !s.isEmpty() ) {
format.col.setNamedColor( s );
format.linkColor = FALSE;
}
}
if ( attr.contains("face") ) {
TQString a = attr["face"];
TQString family = a.section( ',', 0, 0 );
if ( !!family )
format.fn.setFamily( family );
}
if ( attr.contains("size") ) {
TQString a = attr["size"];
int n = a.toInt();
if ( a[0] == '+' || a[0] == '-' )
n += 3;
format.logicalFontSize = n;
if ( format.usePixelSizes )
format.fn.setPixelSize( format.stdSize );
else
format.fn.setPointSize( format.stdSize );
style->styleSheet()->scaleFont( format.fn, format.logicalFontSize );
}
}
if ( attr.contains("style" ) ) {
TQString a = attr["style"];
for ( int s = 0; s < a.contains(';')+1; s++ ) {
TQString style = a.section( ';', s, s );
if ( style.startsWith("font-size:" ) && style.endsWith("pt") ) {
format.logicalFontSize = 0;
int size = int( scaleFontsFactor * style.mid( 10, style.length() - 12 ).toDouble() );
format.setPointSize( size );
} else if ( style.startsWith("font-style:" ) ) {
TQString s = style.mid( 11 ).stripWhiteSpace();
if ( s == "normal" )
format.fn.setItalic( FALSE );
else if ( s == "italic" || s == "oblique" )
format.fn.setItalic( TRUE );
} else if ( style.startsWith("font-weight:" ) ) {
TQString s = style.mid( 12 );
bool ok = TRUE;
int n = s.toInt( &ok );
if ( ok )
format.fn.setWeight( n/8 );
} else if ( style.startsWith("font-family:" ) ) {
TQString family = style.mid(12).section(',',0,0);
family.replace( '\"', ' ' );
family.replace( '\'', ' ' );
family = family.stripWhiteSpace();
format.fn.setFamily( family );
} else if ( style.startsWith("text-decoration:" ) ) {
TQString s = style.mid( 16 );
format.fn.setOverline( s.find("overline") != -1 );
format.fn.setStrikeOut( s.find("line-through") != -1 );
format.fn.setUnderline( s.find("underline") != -1 );
} else if ( style.startsWith("vertical-align:" ) ) {
TQString s = style.mid( 15 ).stripWhiteSpace();
if ( s == "sub" )
format.setVAlign( TQTextFormat::AlignSubScript );
else if ( s == "super" )
format.setVAlign( TQTextFormat::AlignSuperScript );
else
format.setVAlign( TQTextFormat::AlignNormal );
} else if ( style.startsWith("color:" ) ) {
format.col.setNamedColor( style.mid(6) );
format.linkColor = FALSE;
}
}
}
format.update();
return format;
}
#ifndef TQT_NO_TEXTCUSTOMITEM
struct TQPixmapInt
{
TQPixmapInt() : ref( 0 ) {}
TQPixmap pm;
int ref;
Q_DUMMY_COMPARISON_OPERATOR(TQPixmapInt)
};
static TQMap<TQString, TQPixmapInt> *pixmap_map = 0;
TQTextImage::TQTextImage( TQTextDocument *p, const TQMap<TQString, TQString> &attr, const TQString& context,
TQMimeSourceFactory &factory )
: TQTextCustomItem( p )
{
width = height = 0;
if ( attr.contains("width") )
width = attr["width"].toInt();
if ( attr.contains("height") )
height = attr["height"].toInt();
reg = 0;
TQString imageName = attr["src"];
if (!imageName)
imageName = attr["source"];
if ( !imageName.isEmpty() ) {
imgId = TQString( "%1,%2,%3,%4" ).arg( imageName ).arg( width ).arg( height ).arg( (ulong)&factory );
if ( !pixmap_map )
pixmap_map = new TQMap<TQString, TQPixmapInt>;
if ( pixmap_map->contains( imgId ) ) {
TQPixmapInt& pmi = pixmap_map->operator[](imgId);
pm = pmi.pm;
pmi.ref++;
width = pm.width();
height = pm.height();
} else {
TQImage img;
const TQMimeSource* m =
factory.data( imageName, context );
if ( !m ) {
tqWarning("TQTextImage: no mimesource for %s", imageName.latin1() );
}
else {
if ( !TQImageDrag::decode( m, img ) ) {
tqWarning("TQTextImage: cannot decode %s", imageName.latin1() );
}
}
if ( !img.isNull() ) {
if ( width == 0 ) {
width = img.width();
if ( height != 0 ) {
width = img.width() * height / img.height();
}
}
if ( height == 0 ) {
height = img.height();
if ( width != img.width() ) {
height = img.height() * width / img.width();
}
}
if ( img.width() != width || img.height() != height ){
#ifndef TQT_NO_IMAGE_SMOOTHSCALE
img = img.smoothScale(width, height);
#endif
width = img.width();
height = img.height();
}
pm.convertFromImage( img );
}
if ( !pm.isNull() ) {
TQPixmapInt& pmi = pixmap_map->operator[](imgId);
pmi.pm = pm;
pmi.ref++;
}
}
if ( pm.mask() ) {
TQRegion mask( *pm.mask() );
TQRegion all( 0, 0, pm.width(), pm.height() );
reg = new TQRegion( all.subtract( mask ) );
}
}
if ( pm.isNull() && (width*height)==0 )
width = height = 50;
place = PlaceInline;
if ( attr["align"] == "left" )
place = PlaceLeft;
else if ( attr["align"] == "right" )
place = PlaceRight;
tmpwidth = width;
tmpheight = height;
attributes = attr;
}
TQTextImage::~TQTextImage()
{
if ( pixmap_map && pixmap_map->contains( imgId ) ) {
TQPixmapInt& pmi = pixmap_map->operator[](imgId);
pmi.ref--;
if ( !pmi.ref ) {
pixmap_map->remove( imgId );
if ( pixmap_map->isEmpty() ) {
delete pixmap_map;
pixmap_map = 0;
}
}
}
delete reg;
}
TQString TQTextImage::richText() const
{
TQString s;
s += "<img ";
TQMap<TQString, TQString>::ConstIterator it = attributes.begin();
for ( ; it != attributes.end(); ++it ) {
s += it.key() + "=";
if ( (*it).find( ' ' ) != -1 )
s += "\"" + *it + "\"" + " ";
else
s += *it + " ";
}
s += ">";
return s;
}
void TQTextImage::adjustToPainter( TQPainter* p )
{
width = scale( tmpwidth, p );
height = scale( tmpheight, p );
}
#if !defined(Q_WS_X11)
#include <ntqbitmap.h>
#include <ntqcleanuphandler.h>
static TQPixmap *qrt_selection = 0;
static TQSingleCleanupHandler<TQPixmap> qrt_cleanup_pixmap;
static void qrt_createSelectionPixmap( const TQColorGroup &cg )
{
qrt_selection = new TQPixmap( 2, 2 );
qrt_cleanup_pixmap.set( &qrt_selection );
qrt_selection->fill( TQt::color0 );
TQBitmap m( 2, 2 );
m.fill( TQt::color1 );
TQPainter p( &m );
p.setPen( TQt::color0 );
for ( int j = 0; j < 2; ++j ) {
p.drawPoint( j % 2, j );
}
p.end();
qrt_selection->setMask( m );
qrt_selection->fill( cg.highlight() );
}
#endif
void TQTextImage::draw( TQPainter* p, int x, int y, int cx, int cy, int cw, int ch, const TQColorGroup& cg, bool selected )
{
if ( placement() != PlaceInline ) {
x = xpos;
y = ypos;
}
if ( pm.isNull() ) {
p->fillRect( x , y, width, height, cg.dark() );
return;
}
if ( is_printer( p ) ) {
p->drawPixmap( TQRect( x, y, width, height ), pm );
return;
}
if ( placement() != PlaceInline && !TQRect( xpos, ypos, width, height ).intersects( TQRect( cx, cy, cw, ch ) ) )
return;
if ( placement() == PlaceInline )
p->drawPixmap( x , y, pm );
else
p->drawPixmap( cx , cy, pm, cx - x, cy - y, cw, ch );
if ( selected && placement() == PlaceInline && is_printer( p ) ) {
#if defined(Q_WS_X11)
p->fillRect( TQRect( TQPoint( x, y ), pm.size() ), TQBrush( cg.highlight(), TQBrush::Dense4Pattern) );
#else // in WIN32 Dense4Pattern doesn't work correctly (transparency problem), so work around it
if ( !qrt_selection )
qrt_createSelectionPixmap( cg );
p->drawTiledPixmap( x, y, pm.width(), pm.height(), *qrt_selection );
#endif
}
}
void TQTextHorizontalLine::adjustToPainter( TQPainter* p )
{
height = scale( tmpheight, p );
}
TQTextHorizontalLine::TQTextHorizontalLine( TQTextDocument *p, const TQMap<TQString, TQString> &attr,
const TQString &,
TQMimeSourceFactory & )
: TQTextCustomItem( p )
{
height = tmpheight = 8;
if ( attr.find( "color" ) != attr.end() )
color = TQColor( *attr.find( "color" ) );
shade = attr.find( "noshade" ) == attr.end();
}
TQTextHorizontalLine::~TQTextHorizontalLine()
{
}
TQString TQTextHorizontalLine::richText() const
{
return "<hr>";
}
void TQTextHorizontalLine::draw( TQPainter* p, int x, int y, int , int , int , int , const TQColorGroup& cg, bool selected )
{
TQRect r( x, y, width, height);
if ( is_printer( p ) || !shade ) {
TQPen oldPen = p->pen();
if ( !color.isValid() )
p->setPen( TQPen( cg.text(), is_printer( p ) ? height/8 : TQMAX( 2, height/4 ) ) );
else
p->setPen( TQPen( color, is_printer( p ) ? height/8 : TQMAX( 2, height/4 ) ) );
p->drawLine( r.left()-1, y + height / 2, r.right() + 1, y + height / 2 );
p->setPen( oldPen );
} else {
TQColorGroup g( cg );
if ( color.isValid() )
g.setColor( TQColorGroup::Dark, color );
if ( selected )
p->fillRect( r, g.highlight() );
qDrawShadeLine( p, r.left() - 1, y + height / 2, r.right() + 1, y + height / 2, g, TRUE, height / 8 );
}
}
#endif //TQT_NO_TEXTCUSTOMITEM
/*****************************************************************/
// Small set of utility functions to make the parser a bit simpler
//
bool TQTextDocument::hasPrefix(const TQChar* doc, int length, int pos, TQChar c)
{
if ( pos + 1 > length )
return FALSE;
return doc[ pos ].lower() == c.lower();
}
bool TQTextDocument::hasPrefix( const TQChar* doc, int length, int pos, const TQString& s )
{
if ( pos + (int) s.length() > length )
return FALSE;
for ( int i = 0; i < (int)s.length(); i++ ) {
if ( doc[ pos + i ].lower() != s[ i ].lower() )
return FALSE;
}
return TRUE;
}
#ifndef TQT_NO_TEXTCUSTOMITEM
static bool qt_is_cell_in_use( TQPtrList<TQTextTableCell>& cells, int row, int col )
{
for ( TQTextTableCell* c = cells.first(); c; c = cells.next() ) {
if ( row >= c->row() && row < c->row() + c->rowspan()
&& col >= c->column() && col < c->column() + c->colspan() )
return TRUE;
}
return FALSE;
}
TQTextCustomItem* TQTextDocument::parseTable( const TQMap<TQString, TQString> &attr, const TQTextFormat &fmt,
const TQChar* doc, int length, int& pos, TQTextParagraph *curpar )
{
TQTextTable* table = new TQTextTable( this, attr );
int row = -1;
int col = -1;
TQString rowbgcolor;
TQString rowalign;
TQString tablebgcolor = attr["bgcolor"];
TQPtrList<TQTextTableCell> multicells;
TQString tagname;
(void) eatSpace(doc, length, pos);
while ( pos < length) {
if (hasPrefix(doc, length, pos, TQChar('<')) ){
if (hasPrefix(doc, length, pos+1, TQChar('/'))) {
tagname = parseCloseTag( doc, length, pos );
if ( tagname == "table" ) {
return table;
}
} else {
TQMap<TQString, TQString> attr2;
bool emptyTag = FALSE;
tagname = parseOpenTag( doc, length, pos, attr2, emptyTag );
if ( tagname == "tr" ) {
rowbgcolor = attr2["bgcolor"];
rowalign = attr2["align"];
row++;
col = -1;
}
else if ( tagname == "td" || tagname == "th" ) {
col++;
while ( qt_is_cell_in_use( multicells, row, col ) ) {
col++;
}
if ( row >= 0 && col >= 0 ) {
const TQStyleSheetItem* s = sheet_->item(tagname);
if ( !attr2.contains("bgcolor") ) {
if (!rowbgcolor.isEmpty() )
attr2["bgcolor"] = rowbgcolor;
else if (!tablebgcolor.isEmpty() )
attr2["bgcolor"] = tablebgcolor;
}
if ( !attr2.contains("align") ) {
if (!rowalign.isEmpty() )
attr2["align"] = rowalign;
}
// extract the cell contents
int end = pos;
while ( end < length
&& !hasPrefix( doc, length, end, "</td")
&& !hasPrefix( doc, length, end, "<td")
&& !hasPrefix( doc, length, end, "</th")
&& !hasPrefix( doc, length, end, "<th")
&& !hasPrefix( doc, length, end, "<td")
&& !hasPrefix( doc, length, end, "</tr")
&& !hasPrefix( doc, length, end, "<tr")
&& !hasPrefix( doc, length, end, "</table") ) {
if ( hasPrefix( doc, length, end, "<table" ) ) { // nested table
int nested = 1;
++end;
while ( end < length && nested != 0 ) {
if ( hasPrefix( doc, length, end, "</table" ) )
nested--;
if ( hasPrefix( doc, length, end, "<table" ) )
nested++;
end++;
}
}
end++;
}
TQTextTableCell* cell = new TQTextTableCell( table, row, col,
attr2, s, fmt.makeTextFormat( s, attr2, scaleFontsFactor ),
contxt, *factory_, sheet_,
TQConstString( doc + pos, end - pos ).string() );
cell->richText()->parentPar = curpar;
if ( cell->colspan() > 1 || cell->rowspan() > 1 )
multicells.append( cell );
col += cell->colspan()-1;
pos = end;
}
}
}
} else {
++pos;
}
}
return table;
}
#endif // TQT_NO_TEXTCUSTOMITEM
bool TQTextDocument::eatSpace(const TQChar* doc, int length, int& pos, bool includeNbsp )
{
int old_pos = pos;
while (pos < length && doc[pos].isSpace() && ( includeNbsp || (doc[pos] != TQChar::nbsp ) ) )
pos++;
return old_pos < pos;
}
bool TQTextDocument::eat(const TQChar* doc, int length, int& pos, TQChar c)
{
bool ok = pos < length && doc[pos] == c;
if ( ok )
pos++;
return ok;
}
/*****************************************************************/
struct Entity {
const char * name;
TQ_UINT16 code;
};
static const Entity entitylist [] = {
{ "AElig", 0x00c6 },
{ "Aacute", 0x00c1 },
{ "Acirc", 0x00c2 },
{ "Agrave", 0x00c0 },
{ "Alpha", 0x0391 },
{ "AMP", 38 },
{ "Aring", 0x00c5 },
{ "Atilde", 0x00c3 },
{ "Auml", 0x00c4 },
{ "Beta", 0x0392 },
{ "Ccedil", 0x00c7 },
{ "Chi", 0x03a7 },
{ "Dagger", 0x2021 },
{ "Delta", 0x0394 },
{ "ETH", 0x00d0 },
{ "Eacute", 0x00c9 },
{ "Ecirc", 0x00ca },
{ "Egrave", 0x00c8 },
{ "Epsilon", 0x0395 },
{ "Eta", 0x0397 },
{ "Euml", 0x00cb },
{ "Gamma", 0x0393 },
{ "GT", 62 },
{ "Iacute", 0x00cd },
{ "Icirc", 0x00ce },
{ "Igrave", 0x00cc },
{ "Iota", 0x0399 },
{ "Iuml", 0x00cf },
{ "Kappa", 0x039a },
{ "Lambda", 0x039b },
{ "LT", 60 },
{ "Mu", 0x039c },
{ "Ntilde", 0x00d1 },
{ "Nu", 0x039d },
{ "OElig", 0x0152 },
{ "Oacute", 0x00d3 },
{ "Ocirc", 0x00d4 },
{ "Ograve", 0x00d2 },
{ "Omega", 0x03a9 },
{ "Omicron", 0x039f },
{ "Oslash", 0x00d8 },
{ "Otilde", 0x00d5 },
{ "Ouml", 0x00d6 },
{ "Phi", 0x03a6 },
{ "Pi", 0x03a0 },
{ "Prime", 0x2033 },
{ "Psi", 0x03a8 },
{ "TQUOT", 34 },
{ "Rho", 0x03a1 },
{ "Scaron", 0x0160 },
{ "Sigma", 0x03a3 },
{ "THORN", 0x00de },
{ "Tau", 0x03a4 },
{ "Theta", 0x0398 },
{ "Uacute", 0x00da },
{ "Ucirc", 0x00db },
{ "Ugrave", 0x00d9 },
{ "Upsilon", 0x03a5 },
{ "Uuml", 0x00dc },
{ "Xi", 0x039e },
{ "Yacute", 0x00dd },
{ "Yuml", 0x0178 },
{ "Zeta", 0x0396 },
{ "aacute", 0x00e1 },
{ "acirc", 0x00e2 },
{ "acute", 0x00b4 },
{ "aelig", 0x00e6 },
{ "agrave", 0x00e0 },
{ "alefsym", 0x2135 },
{ "alpha", 0x03b1 },
{ "amp", 38 },
{ "and", 0x22a5 },
{ "ang", 0x2220 },
{ "apos", 0x0027 },
{ "aring", 0x00e5 },
{ "asymp", 0x2248 },
{ "atilde", 0x00e3 },
{ "auml", 0x00e4 },
{ "bdquo", 0x201e },
{ "beta", 0x03b2 },
{ "brvbar", 0x00a6 },
{ "bull", 0x2022 },
{ "cap", 0x2229 },
{ "ccedil", 0x00e7 },
{ "cedil", 0x00b8 },
{ "cent", 0x00a2 },
{ "chi", 0x03c7 },
{ "circ", 0x02c6 },
{ "clubs", 0x2663 },
{ "cong", 0x2245 },
{ "copy", 0x00a9 },
{ "crarr", 0x21b5 },
{ "cup", 0x222a },
{ "curren", 0x00a4 },
{ "dArr", 0x21d3 },
{ "dagger", 0x2020 },
{ "darr", 0x2193 },
{ "deg", 0x00b0 },
{ "delta", 0x03b4 },
{ "diams", 0x2666 },
{ "divide", 0x00f7 },
{ "eacute", 0x00e9 },
{ "ecirc", 0x00ea },
{ "egrave", 0x00e8 },
{ "empty", 0x2205 },
{ "emsp", 0x2003 },
{ "ensp", 0x2002 },
{ "epsilon", 0x03b5 },
{ "equiv", 0x2261 },
{ "eta", 0x03b7 },
{ "eth", 0x00f0 },
{ "euml", 0x00eb },
{ "euro", 0x20ac },
{ "exist", 0x2203 },
{ "fnof", 0x0192 },
{ "forall", 0x2200 },
{ "frac12", 0x00bd },
{ "frac14", 0x00bc },
{ "frac34", 0x00be },
{ "frasl", 0x2044 },
{ "gamma", 0x03b3 },
{ "ge", 0x2265 },
{ "gt", 62 },
{ "hArr", 0x21d4 },
{ "harr", 0x2194 },
{ "hearts", 0x2665 },
{ "hellip", 0x2026 },
{ "iacute", 0x00ed },
{ "icirc", 0x00ee },
{ "iexcl", 0x00a1 },
{ "igrave", 0x00ec },
{ "image", 0x2111 },
{ "infin", 0x221e },
{ "int", 0x222b },
{ "iota", 0x03b9 },
{ "iquest", 0x00bf },
{ "isin", 0x2208 },
{ "iuml", 0x00ef },
{ "kappa", 0x03ba },
{ "lArr", 0x21d0 },
{ "lambda", 0x03bb },
{ "lang", 0x2329 },
{ "laquo", 0x00ab },
{ "larr", 0x2190 },
{ "lceil", 0x2308 },
{ "ldquo", 0x201c },
{ "le", 0x2264 },
{ "lfloor", 0x230a },
{ "lowast", 0x2217 },
{ "loz", 0x25ca },
{ "lrm", 0x200e },
{ "lsaquo", 0x2039 },
{ "lsquo", 0x2018 },
{ "lt", 60 },
{ "macr", 0x00af },
{ "mdash", 0x2014 },
{ "micro", 0x00b5 },
{ "middot", 0x00b7 },
{ "minus", 0x2212 },
{ "mu", 0x03bc },
{ "nabla", 0x2207 },
{ "nbsp", 0x00a0 },
{ "ndash", 0x2013 },
{ "ne", 0x2260 },
{ "ni", 0x220b },
{ "not", 0x00ac },
{ "notin", 0x2209 },
{ "nsub", 0x2284 },
{ "ntilde", 0x00f1 },
{ "nu", 0x03bd },
{ "oacute", 0x00f3 },
{ "ocirc", 0x00f4 },
{ "oelig", 0x0153 },
{ "ograve", 0x00f2 },
{ "oline", 0x203e },
{ "omega", 0x03c9 },
{ "omicron", 0x03bf },
{ "oplus", 0x2295 },
{ "or", 0x22a6 },
{ "ordf", 0x00aa },
{ "ordm", 0x00ba },
{ "oslash", 0x00f8 },
{ "otilde", 0x00f5 },
{ "otimes", 0x2297 },
{ "ouml", 0x00f6 },
{ "para", 0x00b6 },
{ "part", 0x2202 },
{ "percnt", 0x0025 },
{ "permil", 0x2030 },
{ "perp", 0x22a5 },
{ "phi", 0x03c6 },
{ "pi", 0x03c0 },
{ "piv", 0x03d6 },
{ "plusmn", 0x00b1 },
{ "pound", 0x00a3 },
{ "prime", 0x2032 },
{ "prod", 0x220f },
{ "prop", 0x221d },
{ "psi", 0x03c8 },
{ "quot", 34 },
{ "rArr", 0x21d2 },
{ "radic", 0x221a },
{ "rang", 0x232a },
{ "raquo", 0x00bb },
{ "rarr", 0x2192 },
{ "rceil", 0x2309 },
{ "rdquo", 0x201d },
{ "real", 0x211c },
{ "reg", 0x00ae },
{ "rfloor", 0x230b },
{ "rho", 0x03c1 },
{ "rlm", 0x200f },
{ "rsaquo", 0x203a },
{ "rsquo", 0x2019 },
{ "sbquo", 0x201a },
{ "scaron", 0x0161 },
{ "sdot", 0x22c5 },
{ "sect", 0x00a7 },
{ "shy", 0x00ad },
{ "sigma", 0x03c3 },
{ "sigmaf", 0x03c2 },
{ "sim", 0x223c },
{ "spades", 0x2660 },
{ "sub", 0x2282 },
{ "sube", 0x2286 },
{ "sum", 0x2211 },
{ "sup1", 0x00b9 },
{ "sup2", 0x00b2 },
{ "sup3", 0x00b3 },
{ "sup", 0x2283 },
{ "supe", 0x2287 },
{ "szlig", 0x00df },
{ "tau", 0x03c4 },
{ "there4", 0x2234 },
{ "theta", 0x03b8 },
{ "thetasym", 0x03d1 },
{ "thinsp", 0x2009 },
{ "thorn", 0x00fe },
{ "tilde", 0x02dc },
{ "times", 0x00d7 },
{ "trade", 0x2122 },
{ "uArr", 0x21d1 },
{ "uacute", 0x00fa },
{ "uarr", 0x2191 },
{ "ucirc", 0x00fb },
{ "ugrave", 0x00f9 },
{ "uml", 0x00a8 },
{ "upsih", 0x03d2 },
{ "upsilon", 0x03c5 },
{ "uuml", 0x00fc },
{ "weierp", 0x2118 },
{ "xi", 0x03be },
{ "yacute", 0x00fd },
{ "yen", 0x00a5 },
{ "yuml", 0x00ff },
{ "zeta", 0x03b6 },
{ "zwj", 0x200d },
{ "zwnj", 0x200c },
{ "", 0x0000 }
};
static TQMap<TQString, TQChar> *html_map = 0;
static void tqt_cleanup_html_map()
{
delete html_map;
html_map = 0;
}
static TQMap<TQString, TQChar> *htmlMap()
{
if ( !html_map ) {
html_map = new TQMap<TQString, TQChar>;
tqAddPostRoutine( tqt_cleanup_html_map );
const Entity *ent = entitylist;
while( ent->code ) {
html_map->insert( ent->name, TQChar(ent->code) );
ent++;
}
}
return html_map;
}
TQChar TQTextDocument::parseHTMLSpecialChar(const TQChar* doc, int length, int& pos)
{
TQString s;
pos++;
int recoverpos = pos;
while ( pos < length && doc[pos] != ';' && !doc[pos].isSpace() && pos < recoverpos + 8 ) {
s += doc[pos];
pos++;
}
if (doc[pos] != ';' && !doc[pos].isSpace() ) {
pos = recoverpos;
return '&';
}
pos++;
if ( s.length() > 1 && s[0] == '#') {
int off = 1;
int base = 10;
if (s[1] == 'x') {
off = 2;
base = 16;
}
bool ok;
int num = s.mid(off).toInt(&ok, base);
if ( num == 151 ) // ### hack for designer manual
return '-';
if (ok)
return num;
} else {
TQMap<TQString, TQChar>::Iterator it = htmlMap()->find(s);
if ( it != htmlMap()->end() ) {
return *it;
}
}
pos = recoverpos;
return '&';
}
TQString TQTextDocument::parseWord(const TQChar* doc, int length, int& pos, bool lower)
{
TQString s;
if (doc[pos] == '"') {
pos++;
while ( pos < length && doc[pos] != '"' ) {
if ( doc[pos] == '&' ) {
s += parseHTMLSpecialChar( doc, length, pos );
} else {
s += doc[pos];
pos++;
}
}
eat(doc, length, pos, '"');
} else if (doc[pos] == '\'') {
pos++;
while ( pos < length && doc[pos] != '\'' ) {
s += doc[pos];
pos++;
}
eat(doc, length, pos, '\'');
} else {
static TQString term = TQString::fromLatin1("/>");
while ( pos < length
&& doc[pos] != '>'
&& !hasPrefix(doc, length, pos, term)
&& doc[pos] != '<'
&& doc[pos] != '='
&& !doc[pos].isSpace() )
{
if ( doc[pos] == '&' ) {
s += parseHTMLSpecialChar( doc, length, pos );
} else {
s += doc[pos];
pos++;
}
}
if (lower)
s = s.lower();
}
return s;
}
TQChar TQTextDocument::parseChar(const TQChar* doc, int length, int& pos, TQStyleSheetItem::WhiteSpaceMode wsm )
{
if ( pos >= length )
return TQChar::null;
TQChar c = doc[pos++];
if (c == '<' )
return TQChar::null;
if ( c.isSpace() && c != TQChar::nbsp ) {
if ( wsm == TQStyleSheetItem::WhiteSpacePre ) {
if ( c == '\n' )
return TQChar_linesep;
else
return c;
} else { // non-pre mode: collapse whitespace except nbsp
while ( pos< length &&
doc[pos].isSpace() && doc[pos] != TQChar::nbsp )
pos++;
return ' ';
}
}
else if ( c == '&' )
return parseHTMLSpecialChar( doc, length, --pos );
else
return c;
}
TQString TQTextDocument::parseOpenTag(const TQChar* doc, int length, int& pos,
TQMap<TQString, TQString> &attr, bool& emptyTag)
{
emptyTag = FALSE;
pos++;
if ( hasPrefix(doc, length, pos, '!') ) {
if ( hasPrefix( doc, length, pos+1, "--")) {
pos += 3;
// eat comments
TQString pref = TQString::fromLatin1("-->");
while ( !hasPrefix(doc, length, pos, pref ) && pos < length )
pos++;
if ( hasPrefix(doc, length, pos, pref ) ) {
pos += 3;
eatSpace(doc, length, pos, TRUE);
}
emptyTag = TRUE;
return TQString::null;
}
else {
// eat strange internal tags
while ( !hasPrefix(doc, length, pos, '>') && pos < length )
pos++;
if ( hasPrefix(doc, length, pos, '>') ) {
pos++;
eatSpace(doc, length, pos, TRUE);
}
return TQString::null;
}
}
TQString tag = parseWord(doc, length, pos );
eatSpace(doc, length, pos, TRUE);
static TQString term = TQString::fromLatin1("/>");
static TQString s_TRUE = TQString::fromLatin1("TRUE");
while (doc[pos] != '>' && ! (emptyTag = hasPrefix(doc, length, pos, term) )) {
TQString key = parseWord(doc, length, pos );
eatSpace(doc, length, pos, TRUE);
if ( key.isEmpty()) {
// error recovery
while ( pos < length && doc[pos] != '>' )
pos++;
break;
}
TQString value;
if (hasPrefix(doc, length, pos, '=') ){
pos++;
eatSpace(doc, length, pos);
value = parseWord(doc, length, pos, FALSE);
}
else
value = s_TRUE;
attr.insert(key.lower(), value );
eatSpace(doc, length, pos, TRUE);
}
if (emptyTag) {
eat(doc, length, pos, '/');
eat(doc, length, pos, '>');
}
else
eat(doc, length, pos, '>');
return tag;
}
TQString TQTextDocument::parseCloseTag( const TQChar* doc, int length, int& pos )
{
pos++;
pos++;
TQString tag = parseWord(doc, length, pos );
eatSpace(doc, length, pos, TRUE);
eat(doc, length, pos, '>');
return tag;
}
TQTextFlow::TQTextFlow()
{
w = pagesize = 0;
}
TQTextFlow::~TQTextFlow()
{
clear();
}
void TQTextFlow::clear()
{
#ifndef TQT_NO_TEXTCUSTOMITEM
leftItems.setAutoDelete( TRUE );
rightItems.setAutoDelete( TRUE );
leftItems.clear();
rightItems.clear();
leftItems.setAutoDelete( FALSE );
rightItems.setAutoDelete( FALSE );
#endif
}
void TQTextFlow::setWidth( int width )
{
w = width;
}
int TQTextFlow::adjustLMargin( int yp, int, int margin, int space )
{
#ifndef TQT_NO_TEXTCUSTOMITEM
for ( TQTextCustomItem* item = leftItems.first(); item; item = leftItems.next() ) {
if ( item->ypos == -1 )
continue;
if ( yp >= item->ypos && yp < item->ypos + item->height )
margin = TQMAX( margin, item->xpos + item->width + space );
}
#endif
return margin;
}
int TQTextFlow::adjustRMargin( int yp, int, int margin, int space )
{
#ifndef TQT_NO_TEXTCUSTOMITEM
for ( TQTextCustomItem* item = rightItems.first(); item; item = rightItems.next() ) {
if ( item->ypos == -1 )
continue;
if ( yp >= item->ypos && yp < item->ypos + item->height )
margin = TQMAX( margin, w - item->xpos - space );
}
#endif
return margin;
}
int TQTextFlow::adjustFlow( int y, int /*w*/, int h )
{
if ( pagesize > 0 ) { // check pages
int yinpage = y % pagesize;
if ( yinpage <= border_tolerance )
return border_tolerance - yinpage;
else
if ( yinpage + h > pagesize - border_tolerance )
return ( pagesize - yinpage ) + border_tolerance;
}
return 0;
}
#ifndef TQT_NO_TEXTCUSTOMITEM
void TQTextFlow::unregisterFloatingItem( TQTextCustomItem* item )
{
leftItems.removeRef( item );
rightItems.removeRef( item );
}
void TQTextFlow::registerFloatingItem( TQTextCustomItem* item )
{
if ( item->placement() == TQTextCustomItem::PlaceRight ) {
if ( !rightItems.contains( item ) )
rightItems.append( item );
} else if ( item->placement() == TQTextCustomItem::PlaceLeft &&
!leftItems.contains( item ) ) {
leftItems.append( item );
}
}
#endif // TQT_NO_TEXTCUSTOMITEM
TQRect TQTextFlow::boundingRect() const
{
TQRect br;
#ifndef TQT_NO_TEXTCUSTOMITEM
TQPtrListIterator<TQTextCustomItem> l( leftItems );
while( l.current() ) {
br = br.unite( l.current()->geometry() );
++l;
}
TQPtrListIterator<TQTextCustomItem> r( rightItems );
while( r.current() ) {
br = br.unite( r.current()->geometry() );
++r;
}
#endif
return br;
}
void TQTextFlow::drawFloatingItems( TQPainter* p, int cx, int cy, int cw, int ch, const TQColorGroup& cg, bool selected )
{
#ifndef TQT_NO_TEXTCUSTOMITEM
TQTextCustomItem *item;
for ( item = leftItems.first(); item; item = leftItems.next() ) {
if ( item->xpos == -1 || item->ypos == -1 )
continue;
item->draw( p, item->xpos, item->ypos, cx, cy, cw, ch, cg, selected );
}
for ( item = rightItems.first(); item; item = rightItems.next() ) {
if ( item->xpos == -1 || item->ypos == -1 )
continue;
item->draw( p, item->xpos, item->ypos, cx, cy, cw, ch, cg, selected );
}
#endif
}
// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
#ifndef TQT_NO_TEXTCUSTOMITEM
void TQTextCustomItem::pageBreak( int /*y*/ , TQTextFlow* /*flow*/ )
{
}
#endif
#ifndef TQT_NO_TEXTCUSTOMITEM
TQTextTable::TQTextTable( TQTextDocument *p, const TQMap<TQString, TQString> & attr )
: TQTextCustomItem( p )
{
cells.setAutoDelete( FALSE );
cellspacing = 2;
if ( attr.contains("cellspacing") )
cellspacing = attr["cellspacing"].toInt();
cellpadding = 1;
if ( attr.contains("cellpadding") )
cellpadding = attr["cellpadding"].toInt();
border = innerborder = 0;
if ( attr.contains("border" ) ) {
TQString s( attr["border"] );
if ( s == "TRUE" )
border = 1;
else
border = attr["border"].toInt();
}
us_b = border;
innerborder = us_ib = border ? 1 : 0;
if ( border )
cellspacing += 2;
us_ib = innerborder;
us_cs = cellspacing;
us_cp = cellpadding;
outerborder = cellspacing + border;
us_ob = outerborder;
layout = new TQGridLayout( 1, 1, cellspacing );
fixwidth = 0;
stretch = 0;
if ( attr.contains("width") ) {
bool b;
TQString s( attr["width"] );
int w = s.toInt( &b );
if ( b ) {
fixwidth = w;
} else {
s = s.stripWhiteSpace();
if ( s.length() > 1 && s[ (int)s.length()-1 ] == '%' )
stretch = s.left( s.length()-1).toInt();
}
}
us_fixwidth = fixwidth;
place = PlaceInline;
if ( attr["align"] == "left" )
place = PlaceLeft;
else if ( attr["align"] == "right" )
place = PlaceRight;
cachewidth = 0;
attributes = attr;
pageBreakFor = -1;
}
TQTextTable::~TQTextTable()
{
delete layout;
}
TQString TQTextTable::richText() const
{
TQString s;
s = "<table ";
TQMap<TQString, TQString>::ConstIterator it = attributes.begin();
for ( ; it != attributes.end(); ++it )
s += it.key() + "=" + *it + " ";
s += ">\n";
int lastRow = -1;
bool needEnd = FALSE;
TQPtrListIterator<TQTextTableCell> it2( cells );
while ( it2.current() ) {
TQTextTableCell *cell = it2.current();
++it2;
if ( lastRow != cell->row() ) {
if ( lastRow != -1 )
s += "</tr>\n";
s += "<tr>";
lastRow = cell->row();
needEnd = TRUE;
}
s += "<td";
it = cell->attributes.begin();
for ( ; it != cell->attributes.end(); ++it )
s += " " + it.key() + "=" + *it;
s += ">";
s += cell->richText()->richText();
s += "</td>";
}
if ( needEnd )
s += "</tr>\n";
s += "</table>\n";
return s;
}
void TQTextTable::setParagraph(TQTextParagraph *p)
{
for ( TQTextTableCell* cell = cells.first(); cell; cell = cells.next() )
cell->richText()->parentPar = p;
TQTextCustomItem::setParagraph(p);
}
void TQTextTable::adjustToPainter( TQPainter* p )
{
cellspacing = scale( us_cs, p );
cellpadding = scale( us_cp, p );
border = scale( us_b , p );
innerborder = scale( us_ib, p );
outerborder = scale( us_ob ,p );
fixwidth = scale( us_fixwidth, p);
width = 0;
cachewidth = 0;
for ( TQTextTableCell* cell = cells.first(); cell; cell = cells.next() )
cell->adjustToPainter( p );
}
void TQTextTable::adjustCells( int y , int shift )
{
TQPtrListIterator<TQTextTableCell> it( cells );
TQTextTableCell* cell;
bool enlarge = FALSE;
while ( ( cell = it.current() ) ) {
++it;
TQRect r = cell->geometry();
if ( y <= r.top() ) {
r.moveBy(0, shift );
cell->setGeometry( r );
enlarge = TRUE;
} else if ( y <= r.bottom() ) {
r.rBottom() += shift;
cell->setGeometry( r );
enlarge = TRUE;
}
}
if ( enlarge )
height += shift;
}
void TQTextTable::pageBreak( int yt, TQTextFlow* flow )
{
if ( flow->pageSize() <= 0 )
return;
if ( layout && pageBreakFor > 0 && pageBreakFor != yt ) {
layout->invalidate();
int h = layout->heightForWidth( width-2*outerborder );
layout->setGeometry( TQRect(0, 0, width-2*outerborder, h) );
height = layout->geometry().height()+2*outerborder;
}
pageBreakFor = yt;
TQPtrListIterator<TQTextTableCell> it( cells );
TQTextTableCell* cell;
while ( ( cell = it.current() ) ) {
++it;
int y = yt + outerborder + cell->geometry().y();
int shift = flow->adjustFlow( y - cellspacing, width, cell->richText()->height() + 2*cellspacing );
adjustCells( y - outerborder - yt, shift );
}
}
void TQTextTable::draw(TQPainter* p, int x, int y, int cx, int cy, int cw, int ch, const TQColorGroup& cg, bool selected )
{
if ( placement() != PlaceInline ) {
x = xpos;
y = ypos;
}
for (TQTextTableCell* cell = cells.first(); cell; cell = cells.next() ) {
if ( ( cx < 0 && cy < 0 ) ||
TQRect( cx, cy, cw, ch ).intersects( TQRect( x + outerborder + cell->geometry().x(),
y + outerborder + cell->geometry().y(),
cell->geometry().width(), cell->geometry().height() ) ) ) {
cell->draw( p, x+outerborder, y+outerborder, cx, cy, cw, ch, cg, selected );
if ( border ) {
TQRect r( x+outerborder+cell->geometry().x() - innerborder,
y+outerborder+cell->geometry().y() - innerborder,
cell->geometry().width() + 2 * innerborder,
cell->geometry().height() + 2 * innerborder );
if ( is_printer( p ) ) {
TQPen oldPen = p->pen();
TQRect r2 = r;
r2.addCoords( innerborder/2, innerborder/2, -innerborder/2, -innerborder/2 );
p->setPen( TQPen( cg.text(), innerborder ) );
p->drawRect( r2 );
p->setPen( oldPen );
} else {
int s = TQMAX( cellspacing-2*innerborder, 0);
if ( s ) {
p->fillRect( r.left()-s, r.top(), s+1, r.height(), cg.button() );
p->fillRect( r.right(), r.top(), s+1, r.height(), cg.button() );
p->fillRect( r.left()-s, r.top()-s, r.width()+2*s, s, cg.button() );
p->fillRect( r.left()-s, r.bottom(), r.width()+2*s, s, cg.button() );
}
qDrawShadePanel( p, r, cg, TRUE, innerborder );
}
}
}
}
if ( border ) {
TQRect r ( x, y, width, height );
if ( is_printer( p ) ) {
TQRect r2 = r;
r2.addCoords( border/2, border/2, -border/2, -border/2 );
TQPen oldPen = p->pen();
p->setPen( TQPen( cg.text(), border ) );
p->drawRect( r2 );
p->setPen( oldPen );
} else {
int s = border+TQMAX( cellspacing-2*innerborder, 0);
if ( s ) {
p->fillRect( r.left(), r.top(), s, r.height(), cg.button() );
p->fillRect( r.right()-s, r.top(), s, r.height(), cg.button() );
p->fillRect( r.left(), r.top(), r.width(), s, cg.button() );
p->fillRect( r.left(), r.bottom()-s, r.width(), s, cg.button() );
}
qDrawShadePanel( p, r, cg, FALSE, border );
}
}
}
int TQTextTable::minimumWidth() const
{
return fixwidth ? fixwidth : ((layout ? layout->minimumSize().width() : 0) + 2 * outerborder);
}
void TQTextTable::resize( int nwidth )
{
if ( fixwidth && cachewidth != 0 )
return;
if ( nwidth == cachewidth )
return;
cachewidth = nwidth;
int w = nwidth;
format( w );
if ( stretch )
nwidth = nwidth * stretch / 100;
width = nwidth;
layout->invalidate();
int shw = layout->sizeHint().width() + 2*outerborder;
int mw = layout->minimumSize().width() + 2*outerborder;
if ( stretch )
width = TQMAX( mw, nwidth );
else
width = TQMAX( mw, TQMIN( nwidth, shw ) );
if ( fixwidth )
width = fixwidth;
layout->invalidate();
mw = layout->minimumSize().width() + 2*outerborder;
width = TQMAX( width, mw );
int h = layout->heightForWidth( width-2*outerborder );
layout->setGeometry( TQRect(0, 0, width-2*outerborder, h) );
height = layout->geometry().height()+2*outerborder;
}
void TQTextTable::format( int w )
{
for ( int i = 0; i < (int)cells.count(); ++i ) {
TQTextTableCell *cell = cells.at( i );
TQRect r = cell->geometry();
r.setWidth( w - 2*outerborder );
cell->setGeometry( r );
}
}
void TQTextTable::addCell( TQTextTableCell* cell )
{
cells.append( cell );
layout->addMultiCell( cell, cell->row(), cell->row() + cell->rowspan()-1,
cell->column(), cell->column() + cell->colspan()-1 );
}
bool TQTextTable::enter( TQTextCursor *c, TQTextDocument *&doc, TQTextParagraph *&parag, int &idx, int &ox, int &oy, bool atEnd )
{
currCell.remove( c );
if ( !atEnd )
return next( c, doc, parag, idx, ox, oy );
currCell.insert( c, cells.count() );
return prev( c, doc, parag, idx, ox, oy );
}
bool TQTextTable::enterAt( TQTextCursor *c, TQTextDocument *&doc, TQTextParagraph *&parag, int &idx, int &ox, int &oy, const TQPoint &pos )
{
currCell.remove( c );
int lastCell = -1;
int lastY = -1;
int i;
for ( i = 0; i < (int)cells.count(); ++i ) {
TQTextTableCell *cell = cells.at( i );
if ( !cell )
continue;
TQRect r( cell->geometry().x(),
cell->geometry().y(),
cell->geometry().width() + 2 * innerborder + 2 * outerborder,
cell->geometry().height() + 2 * innerborder + 2 * outerborder );
if ( r.left() <= pos.x() && r.right() >= pos.x() ) {
if ( cell->geometry().y() > lastY ) {
lastCell = i;
lastY = cell->geometry().y();
}
if ( r.top() <= pos.y() && r.bottom() >= pos.y() ) {
currCell.insert( c, i );
break;
}
}
}
if ( i == (int) cells.count() )
return FALSE; // no cell found
if ( currCell.find( c ) == currCell.end() ) {
if ( lastY != -1 )
currCell.insert( c, lastCell );
else
return FALSE;
}
TQTextTableCell *cell = cells.at( *currCell.find( c ) );
if ( !cell )
return FALSE;
doc = cell->richText();
parag = doc->firstParagraph();
idx = 0;
ox += cell->geometry().x() + cell->horizontalAlignmentOffset() + outerborder + parent->x();
oy += cell->geometry().y() + cell->verticalAlignmentOffset() + outerborder;
return TRUE;
}
bool TQTextTable::next( TQTextCursor *c, TQTextDocument *&doc, TQTextParagraph *&parag, int &idx, int &ox, int &oy )
{
int cc = -1;
if ( currCell.find( c ) != currCell.end() )
cc = *currCell.find( c );
if ( cc > (int)cells.count() - 1 || cc < 0 )
cc = -1;
currCell.remove( c );
currCell.insert( c, ++cc );
if ( cc >= (int)cells.count() ) {
currCell.insert( c, 0 );
TQTextCustomItem::next( c, doc, parag, idx, ox, oy );
TQTextTableCell *cell = cells.first();
if ( !cell )
return FALSE;
doc = cell->richText();
idx = -1;
return TRUE;
}
if ( currCell.find( c ) == currCell.end() )
return FALSE;
TQTextTableCell *cell = cells.at( *currCell.find( c ) );
if ( !cell )
return FALSE;
doc = cell->richText();
parag = doc->firstParagraph();
idx = 0;
ox += cell->geometry().x() + cell->horizontalAlignmentOffset() + outerborder + parent->x();
oy += cell->geometry().y() + cell->verticalAlignmentOffset() + outerborder;
return TRUE;
}
bool TQTextTable::prev( TQTextCursor *c, TQTextDocument *&doc, TQTextParagraph *&parag, int &idx, int &ox, int &oy )
{
int cc = -1;
if ( currCell.find( c ) != currCell.end() )
cc = *currCell.find( c );
if ( cc > (int)cells.count() - 1 || cc < 0 )
cc = cells.count();
currCell.remove( c );
currCell.insert( c, --cc );
if ( cc < 0 ) {
currCell.insert( c, 0 );
TQTextCustomItem::prev( c, doc, parag, idx, ox, oy );
TQTextTableCell *cell = cells.first();
if ( !cell )
return FALSE;
doc = cell->richText();
idx = -1;
return TRUE;
}
if ( currCell.find( c ) == currCell.end() )
return FALSE;
TQTextTableCell *cell = cells.at( *currCell.find( c ) );
if ( !cell )
return FALSE;
doc = cell->richText();
parag = doc->lastParagraph();
idx = parag->length() - 1;
ox += cell->geometry().x() + cell->horizontalAlignmentOffset() + outerborder + parent->x();
oy += cell->geometry().y() + cell->verticalAlignmentOffset() + outerborder;
return TRUE;
}
bool TQTextTable::down( TQTextCursor *c, TQTextDocument *&doc, TQTextParagraph *&parag, int &idx, int &ox, int &oy )
{
if ( currCell.find( c ) == currCell.end() )
return FALSE;
TQTextTableCell *cell = cells.at( *currCell.find( c ) );
if ( cell->row_ == layout->numRows() - 1 ) {
currCell.insert( c, 0 );
TQTextCustomItem::down( c, doc, parag, idx, ox, oy );
TQTextTableCell *cell = cells.first();
if ( !cell )
return FALSE;
doc = cell->richText();
idx = -1;
return TRUE;
}
int oldRow = cell->row_;
int oldCol = cell->col_;
if ( currCell.find( c ) == currCell.end() )
return FALSE;
int cc = *currCell.find( c );
for ( int i = cc; i < (int)cells.count(); ++i ) {
cell = cells.at( i );
if ( cell->row_ > oldRow && cell->col_ == oldCol ) {
currCell.insert( c, i );
break;
}
}
doc = cell->richText();
if ( !cell )
return FALSE;
parag = doc->firstParagraph();
idx = 0;
ox += cell->geometry().x() + cell->horizontalAlignmentOffset() + outerborder + parent->x();
oy += cell->geometry().y() + cell->verticalAlignmentOffset() + outerborder;
return TRUE;
}
bool TQTextTable::up( TQTextCursor *c, TQTextDocument *&doc, TQTextParagraph *&parag, int &idx, int &ox, int &oy )
{
if ( currCell.find( c ) == currCell.end() )
return FALSE;
TQTextTableCell *cell = cells.at( *currCell.find( c ) );
if ( cell->row_ == 0 ) {
currCell.insert( c, 0 );
TQTextCustomItem::up( c, doc, parag, idx, ox, oy );
TQTextTableCell *cell = cells.first();
if ( !cell )
return FALSE;
doc = cell->richText();
idx = -1;
return TRUE;
}
int oldRow = cell->row_;
int oldCol = cell->col_;
if ( currCell.find( c ) == currCell.end() )
return FALSE;
int cc = *currCell.find( c );
for ( int i = cc; i >= 0; --i ) {
cell = cells.at( i );
if ( cell->row_ < oldRow && cell->col_ == oldCol ) {
currCell.insert( c, i );
break;
}
}
doc = cell->richText();
if ( !cell )
return FALSE;
parag = doc->lastParagraph();
idx = parag->length() - 1;
ox += cell->geometry().x() + cell->horizontalAlignmentOffset() + outerborder + parent->x();
oy += cell->geometry().y() + cell->verticalAlignmentOffset() + outerborder;
return TRUE;
}
TQTextTableCell::TQTextTableCell( TQTextTable* table,
int row, int column,
const TQMap<TQString, TQString> &attr,
const TQStyleSheetItem* /*style*/, // ### use them
const TQTextFormat& fmt, const TQString& context,
TQMimeSourceFactory &factory, TQStyleSheet *sheet,
const TQString& doc)
{
cached_width = -1;
cached_sizehint = -1;
maxw = TQWIDGETSIZE_MAX;
minw = 0;
parent = table;
row_ = row;
col_ = column;
stretch_ = 0;
richtext = new TQTextDocument( table->parent );
richtext->formatCollection()->setPaintDevice( table->parent->formatCollection()->paintDevice() );
richtext->bodyText = fmt.color();
richtext->setTableCell( this );
TQString a = *attr.find( "align" );
if ( !a.isEmpty() ) {
a = a.lower();
if ( a == "left" )
richtext->setAlignment( TQt::AlignLeft );
else if ( a == "center" )
richtext->setAlignment( TQt::AlignHCenter );
else if ( a == "right" )
richtext->setAlignment( TQt::AlignRight );
}
align = 0;
TQString va = *attr.find( "valign" );
if ( !va.isEmpty() ) {
va = va.lower();
if ( va == "top" )
align |= TQt::AlignTop;
else if ( va == "center" || va == "middle" )
align |= TQt::AlignVCenter;
else if ( va == "bottom" )
align |= TQt::AlignBottom;
}
richtext->setFormatter( table->parent->formatter() );
richtext->setUseFormatCollection( table->parent->useFormatCollection() );
richtext->setMimeSourceFactory( &factory );
richtext->setStyleSheet( sheet );
richtext->setRichText( doc, context, &fmt );
rowspan_ = 1;
colspan_ = 1;
if ( attr.contains("colspan") )
colspan_ = attr["colspan"].toInt();
if ( attr.contains("rowspan") )
rowspan_ = attr["rowspan"].toInt();
background = 0;
if ( attr.contains("bgcolor") ) {
background = new TQBrush(TQColor( attr["bgcolor"] ));
}
hasFixedWidth = FALSE;
if ( attr.contains("width") ) {
bool b;
TQString s( attr["width"] );
int w = s.toInt( &b );
if ( b ) {
maxw = w;
minw = maxw;
hasFixedWidth = TRUE;
} else {
s = s.stripWhiteSpace();
if ( s.length() > 1 && s[ (int)s.length()-1 ] == '%' )
stretch_ = s.left( s.length()-1).toInt();
}
}
attributes = attr;
parent->addCell( this );
}
TQTextTableCell::~TQTextTableCell()
{
delete background;
background = 0;
delete richtext;
richtext = 0;
}
TQSize TQTextTableCell::sizeHint() const
{
int extra = 2 * ( parent->innerborder + parent->cellpadding + border_tolerance);
int used = richtext->widthUsed() + extra;
if (stretch_ ) {
int w = parent->width * stretch_ / 100 - 2*parent->cellspacing - 2*parent->cellpadding;
return TQSize( TQMIN( w, maxw ), 0 ).expandedTo( minimumSize() );
}
return TQSize( used, 0 ).expandedTo( minimumSize() );
}
TQSize TQTextTableCell::minimumSize() const
{
int extra = 2 * ( parent->innerborder + parent->cellpadding + border_tolerance);
return TQSize( TQMAX( richtext->minimumWidth() + extra, minw), 0 );
}
TQSize TQTextTableCell::maximumSize() const
{
return TQSize( maxw, TQWIDGETSIZE_MAX );
}
TQSizePolicy::ExpandData TQTextTableCell::expanding() const
{
return TQSizePolicy::BothDirections;
}
bool TQTextTableCell::isEmpty() const
{
return FALSE;
}
void TQTextTableCell::setGeometry( const TQRect& r )
{
int extra = 2 * ( parent->innerborder + parent->cellpadding );
if ( r.width() != cached_width )
richtext->doLayout( TQTextFormat::painter(), r.width() - extra );
cached_width = r.width();
geom = r;
}
TQRect TQTextTableCell::geometry() const
{
return geom;
}
bool TQTextTableCell::hasHeightForWidth() const
{
return TRUE;
}
int TQTextTableCell::heightForWidth( int w ) const
{
int extra = 2 * ( parent->innerborder + parent->cellpadding );
w = TQMAX( minw, w );
if ( cached_width != w ) {
TQTextTableCell* that = (TQTextTableCell*) this;
that->richtext->doLayout( TQTextFormat::painter(), w - extra );
that->cached_width = w;
}
return richtext->height() + extra;
}
void TQTextTableCell::adjustToPainter( TQPainter* p )
{
TQTextParagraph *parag = richtext->firstParagraph();
while ( parag ) {
parag->adjustToPainter( p );
parag = parag->next();
}
}
int TQTextTableCell::horizontalAlignmentOffset() const
{
return parent->cellpadding;
}
int TQTextTableCell::verticalAlignmentOffset() const
{
if ( (align & TQt::AlignVCenter ) == TQt::AlignVCenter )
return ( geom.height() - richtext->height() ) / 2;
else if ( ( align & TQt::AlignBottom ) == TQt::AlignBottom )
return geom.height() - parent->cellpadding - richtext->height() ;
return parent->cellpadding;
}
void TQTextTableCell::draw( TQPainter* p, int x, int y, int cx, int cy, int cw, int ch, const TQColorGroup& cg, bool )
{
if ( cached_width != geom.width() ) {
int extra = 2 * ( parent->innerborder + parent->cellpadding );
richtext->doLayout( p, geom.width() - extra );
cached_width = geom.width();
}
TQColorGroup g( cg );
if ( background )
g.setBrush( TQColorGroup::Base, *background );
else if ( richtext->paper() )
g.setBrush( TQColorGroup::Base, *richtext->paper() );
p->save();
p->translate( x + geom.x(), y + geom.y() );
if ( background )
p->fillRect( 0, 0, geom.width(), geom.height(), *background );
else if ( richtext->paper() )
p->fillRect( 0, 0, geom.width(), geom.height(), *richtext->paper() );
p->translate( horizontalAlignmentOffset(), verticalAlignmentOffset() );
TQRegion r;
if ( cx >= 0 && cy >= 0 )
richtext->draw( p, cx - ( x + horizontalAlignmentOffset() + geom.x() ),
cy - ( y + geom.y() + verticalAlignmentOffset() ),
cw, ch, g, FALSE, FALSE, 0 );
else
richtext->draw( p, -1, -1, -1, -1, g, FALSE, FALSE, 0 );
p->restore();
}
#endif
#endif //TQT_NO_RICHTEXT