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503 lines
15 KiB
503 lines
15 KiB
/**
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* This file is part of the html renderer for KDE.
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*
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* Copyright (C) 1999-2003 Lars Knoll (knoll@kde.org)
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* (C) 1999 Antti Koivisto (koivisto@kde.org)
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* (C) 2000 Dirk Mueller (mueller@kde.org)
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Library General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Library General Public License for more details.
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*
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* You should have received a copy of the GNU Library General Public License
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* along with this library; see the file COPYING.LIB. If not, write to
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* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*
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*/
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#include "config.h"
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#ifdef HAVE_ALLOCA_H
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#include <alloca.h>
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#endif
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#include "font.h"
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#include "khtml_factory.h"
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#include "khtml_settings.h"
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#include <kdebug.h>
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#include <kglobal.h>
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#include <tqpainter.h>
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#include <tqfontdatabase.h>
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#include <tqpaintdevicemetrics.h>
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using namespace khtml;
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/** closes the current word and returns its width in pixels
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* @param fm metrics of font to be used
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* @param str string
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* @param pos zero-indexed position within @p str upon which all other
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* indices are based
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* @param wordStart relative index pointing to the position where the word started
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* @param wordEnd relative index pointing one position after the word ended
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* @return the width in pixels. May be 0 if @p wordStart and @p wordEnd were
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* equal.
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*/
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inline int closeWordAndGetWidth(const TQFontMetrics &fm, const TQChar *str, int pos,
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int wordStart, int wordEnd)
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{
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if (wordEnd <= wordStart) return 0;
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TQConstString s(str + pos + wordStart, wordEnd - wordStart);
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return fm.width(s.string());
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}
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/** closes the current word and draws it
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* @param p painter
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* @param d text direction
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* @param x current x position, will be inc-/decremented correctly according
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* to text direction
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* @param y baseline of text
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* @param widths list of widths; width of word is expected at position
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* wordStart
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* @param str string
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* @param pos zero-indexed position within @p str upon which all other
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* indices are based
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* @param wordStart relative index pointing to the position where the word started,
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* will be set to wordEnd after function
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* @param wordEnd relative index pointing one position after the word ended
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*/
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inline void closeAndDrawWord(TQPainter *p, TQPainter::TextDirection d,
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int &x, int y, const short widths[], const TQChar *str, int pos,
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int &wordStart, int wordEnd)
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{
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if (wordEnd <= wordStart) return;
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int width = widths[wordStart];
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if (d == TQPainter::RTL)
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x -= width;
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TQConstString s(str + pos + wordStart, wordEnd - wordStart);
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p->drawText(x, y, s.string(), -1, d);
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if (d != TQPainter::RTL)
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x += width;
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wordStart = wordEnd;
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}
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void Font::drawText( TQPainter *p, int x, int y, TQChar *str, int slen, int pos, int len,
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int toAdd, TQPainter::TextDirection d, int from, int to, TQColor bg, int uy, int h, int deco ) const
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{
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if (!str) return;
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TQConstString cstr = TQConstString(str, slen);
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TQString qstr = cstr.string();
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// ### fixme for RTL
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if ( !scFont && !letterSpacing && !wordSpacing && !toAdd && from==-1 ) {
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// simply draw it
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// Due to some unfounded cause TQPainter::drawText traverses the
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// *whole* string when painting, not only the specified
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// [pos, pos + len) segment. This makes painting *extremely* slow for
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// long render texts (in the order of several megabytes).
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// Hence, only hand over the piece of text of the actual inline text box
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TQConstString cstr = TQConstString(str + pos, len);
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p->drawText( x, y, cstr.string(), 0, len, d );
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} else {
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if (from < 0) from = 0;
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if (to < 0) to = len;
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int numSpaces = 0;
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if ( toAdd ) {
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for( int i = 0; i < len; ++i )
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if ( str[i+pos].category() == TQChar::Separator_Space )
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++numSpaces;
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}
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const int totWidth = width( str, slen, pos, len );
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if ( d == TQPainter::RTL ) {
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x += totWidth + toAdd;
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}
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TQString upper = qstr;
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TQFontMetrics sc_fm = fm;
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if ( scFont ) {
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// draw in small caps
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upper = qstr.upper();
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sc_fm = TQFontMetrics( *scFont );
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}
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// ### sc could be optimized by only painting uppercase letters extra,
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// and treat the rest WordWise, but I think it's not worth it.
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// Somebody else may volunteer, and implement this ;-) (LS)
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// The mode determines whether the text is displayed character by
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// character, word by word, or as a whole
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enum { CharacterWise, WordWise, Whole }
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mode = Whole;
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if (!letterSpacing && !scFont && (wordSpacing || toAdd > 0))
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mode = WordWise;
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else if (letterSpacing || scFont)
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mode = CharacterWise;
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if (mode == Whole) { // most likely variant is treated extra
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if (to < 0) to = len;
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const TQConstString cstr(str + pos, len);
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const TQConstString segStr(str + pos + from, to - from);
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const int preSegmentWidth = fm.width(cstr.string(), from);
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const int segmentWidth = fm.width(segStr.string());
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const int eff_x = d == TQPainter::RTL ? x - preSegmentWidth - segmentWidth
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: x + preSegmentWidth;
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// draw whole string segment, with optional background
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if ( bg.isValid() )
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p->fillRect( eff_x, uy, segmentWidth, h, bg );
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p->drawText(eff_x, y, segStr.string(), -1, d);
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if (deco)
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drawDecoration(p, eff_x, uy, y - uy, segmentWidth - 1, h, deco);
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return;
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}
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// We are using two passes. In the first pass, the widths are collected,
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// and stored. In the second, the actual characters are drawn.
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// For each letter in the text box, save the width of the character.
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// When word-wise, only the first letter contains the width, but of the
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// whole word.
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short* const widthList = (short *)alloca(to*sizeof(short));
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// First pass: gather widths
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int preSegmentWidth = 0;
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int segmentWidth = 0;
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int lastWordBegin = 0;
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bool onSegment = from == 0;
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for( int i = 0; i < to; ++i ) {
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if (i == from) {
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// Also close words on visibility boundary
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if (mode == WordWise) {
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const int width = closeWordAndGetWidth(fm, str, pos, lastWordBegin, i);
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if (lastWordBegin < i) {
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widthList[lastWordBegin] = (short)width;
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lastWordBegin = i;
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preSegmentWidth += width;
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}
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}
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onSegment = true;
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}
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const TQChar ch = str[pos+i];
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bool lowercase = (ch.category() == TQChar::Letter_Lowercase);
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bool is_space = (ch.category() == TQChar::Separator_Space);
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int chw = 0;
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if ( letterSpacing )
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chw += letterSpacing;
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if ( (wordSpacing || toAdd) && is_space ) {
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if (mode == WordWise) {
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const int width = closeWordAndGetWidth(fm, str, pos, lastWordBegin, i);
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if (lastWordBegin < i) {
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widthList[lastWordBegin] = (short)width;
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lastWordBegin = i;
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(onSegment ? segmentWidth : preSegmentWidth) += width;
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}
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++lastWordBegin; // ignore this space
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}
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chw += wordSpacing;
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if ( numSpaces ) {
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const int a = toAdd/numSpaces;
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chw += a;
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toAdd -= a;
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--numSpaces;
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}
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}
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if (is_space || mode == CharacterWise) {
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chw += lowercase ? sc_fm.charWidth( upper, pos+i ) : fm.charWidth( qstr, pos+i );
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widthList[i] = (short)chw;
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(onSegment ? segmentWidth : preSegmentWidth) += chw;
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}
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}
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// close last word
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Q_ASSERT(onSegment);
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if (mode == WordWise) {
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const int width = closeWordAndGetWidth(fm, str, pos, lastWordBegin, to);
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segmentWidth += width;
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widthList[lastWordBegin] = (short)width;
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}
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if (d == TQPainter::RTL) x -= preSegmentWidth;
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else x += preSegmentWidth;
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const int startx = d == TQPainter::RTL ? x-segmentWidth : x;
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// optionally draw background
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if ( bg.isValid() )
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p->fillRect( startx, uy, segmentWidth, h, bg );
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// second pass: do the actual drawing
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lastWordBegin = from;
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for( int i = from; i < to; ++i ) {
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const TQChar ch = str[pos+i];
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bool lowercase = (ch.category() == TQChar::Letter_Lowercase);
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bool is_space = ch.category() == TQChar::Separator_Space;
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if ( is_space ) {
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if (mode == WordWise) {
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closeAndDrawWord(p, d, x, y, widthList, str, pos, lastWordBegin, i);
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++lastWordBegin; // jump over space
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}
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}
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if (is_space || mode == CharacterWise) {
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const int chw = widthList[i];
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if (d == TQPainter::RTL)
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x -= chw;
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if ( scFont )
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p->setFont( lowercase ? *scFont : f );
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p->drawText( x, y, (lowercase ? upper : qstr), pos+i, 1, d );
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if (d != TQPainter::RTL)
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x += chw;
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}
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}
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// don't forget to draw last word
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if (mode == WordWise) {
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closeAndDrawWord(p, d, x, y, widthList, str, pos, lastWordBegin, to);
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}
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if (deco)
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drawDecoration(p, startx, uy, y - uy, segmentWidth - 1, h, deco);
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if ( scFont )
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p->setFont( f );
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}
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}
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int Font::width( TQChar *chs, int, int pos, int len, int start, int end, int toAdd ) const
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{
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const TQConstString cstr(chs+pos, len);
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int w = 0;
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const TQString qstr = cstr.string();
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if ( scFont ) {
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const TQString upper = qstr.upper();
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const TQChar *uc = qstr.unicode();
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const TQFontMetrics sc_fm( *scFont );
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for ( int i = 0; i < len; ++i ) {
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if ( (uc+i)->category() == TQChar::Letter_Lowercase )
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w += sc_fm.charWidth( upper, i );
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else
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w += fm.charWidth( qstr, i );
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}
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} else {
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// ### might be a little inaccurate
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w = fm.width( qstr );
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}
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if ( letterSpacing )
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w += len*letterSpacing;
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if ( wordSpacing )
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// add amount
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for( int i = 0; i < len; ++i ) {
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if( chs[i+pos].category() == TQChar::Separator_Space )
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w += wordSpacing;
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}
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if ( toAdd ) {
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// first gather count of spaces
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int numSpaces = 0;
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for( int i = start; i != end; ++i )
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if ( chs[i].category() == TQChar::Separator_Space )
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++numSpaces;
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// distribute pixels evenly among spaces, but count only those within
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// [pos, pos+len)
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for ( int i = start; numSpaces && i != pos + len; i++ )
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if ( chs[i].category() == TQChar::Separator_Space ) {
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const int a = toAdd/numSpaces;
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if ( i >= pos ) w += a;
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toAdd -= a;
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--numSpaces;
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}
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}
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return w;
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}
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int Font::width( TQChar *chs, int slen, int pos ) const
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{
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int w;
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if ( scFont && chs[pos].category() == TQChar::Letter_Lowercase ) {
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TQString str( chs, slen );
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str[pos] = chs[pos].upper();
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w = TQFontMetrics( *scFont ).charWidth( str, pos );
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} else {
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const TQConstString cstr( chs, slen );
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w = fm.charWidth( cstr.string(), pos );
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}
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if ( letterSpacing )
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w += letterSpacing;
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if ( wordSpacing && (chs+pos)->category() == TQChar::Separator_Space )
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w += wordSpacing;
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return w;
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}
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/** Querying QFontDB whether something is scalable is expensive, so we cache. */
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struct Font::ScalKey
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{
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TQString family;
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int weight;
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int italic;
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ScalKey(const TQFont& font) :
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family(font.family()), weight(font.weight()), italic(font.italic())
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{}
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ScalKey() {}
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bool operator<(const ScalKey& other) const {
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if (weight < other.weight)
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return true;
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if (weight > other.weight)
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return false;
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if (italic < other.italic)
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return true;
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if (italic > other.italic)
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return false;
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return family < other.family;
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}
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bool operator==(const ScalKey& other) const {
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return (weight == other.weight &&
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italic == other.italic &&
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family == other.family);
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}
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};
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TQMap<Font::ScalKey, Font::ScalInfo>* Font::scalCache;
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TQMap<Font::ScalKey, TQValueList<int> >* Font::scalSizesCache;
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bool Font::isFontScalable(TQFontDatabase& db, const TQFont& font)
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{
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if (!scalCache)
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scalCache = new TQMap<ScalKey, ScalInfo>;
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ScalKey key(font);
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ScalInfo &s = (*scalCache)[key];
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if (s == Unknown) {
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s = db.isSmoothlyScalable(font.family(), db.styleString(font)) ? Yes : No;
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if (s == No) {
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/* Cache size info */
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if (!scalSizesCache)
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scalSizesCache = new TQMap<ScalKey, TQValueList<int> >;
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(*scalSizesCache)[key] = db.smoothSizes(font.family(), db.styleString(font));
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}
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}
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return (s == Yes);
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}
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void Font::update( TQPaintDeviceMetrics* devMetrics ) const
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{
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f.setFamily( fontDef.family.isEmpty() ? KHTMLFactory::defaultHTMLSettings()->stdFontName() : fontDef.family );
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f.setItalic( fontDef.italic );
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f.setWeight( fontDef.weight );
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TQFontDatabase db;
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int size = fontDef.size;
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const int lDpiY = kMax(devMetrics->logicalDpiY(), 96);
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// ok, now some magic to get a nice unscaled font
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// all other font properties should be set before this one!!!!
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if( !isFontScalable(db, f) )
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{
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const TQValueList<int>& pointSizes = (*scalSizesCache)[ScalKey(f)];
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// lets see if we find a nice looking font, which is not too far away
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// from the requested one.
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// kdDebug(6080) << "khtml::setFontSize family = " << f.family() << " size requested=" << size << endl;
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float diff = 1; // ### 100% deviation
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float bestSize = 0;
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TQValueList<int>::ConstIterator it = pointSizes.begin();
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const TQValueList<int>::ConstIterator itEnd = pointSizes.end();
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for( ; it != itEnd; ++it )
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{
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float newDiff = ((*it)*(lDpiY/72.) - float(size))/float(size);
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//kdDebug( 6080 ) << "smooth font size: " << *it << " diff=" << newDiff << endl;
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if(newDiff < 0) newDiff = -newDiff;
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if(newDiff < diff)
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{
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diff = newDiff;
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bestSize = *it;
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}
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}
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//kdDebug( 6080 ) << "best smooth font size: " << bestSize << " diff=" << diff << endl;
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if ( bestSize != 0 && diff < 0.2 ) // 20% deviation, otherwise we use a scaled font...
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size = (int)((bestSize*lDpiY) / 72);
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}
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// make sure we don't bust up X11
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// Also, Qt does not support sizing a TQFont to zero.
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size = kMax(1, kMin(255, size));
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// tqDebug("setting font to %s, italic=%d, weight=%d, size=%d", fontDef.family.latin1(), fontDef.italic,
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// fontDef.weight, size );
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f.setPixelSize( size );
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fm = TQFontMetrics( f );
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// small caps
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delete scFont;
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scFont = 0;
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if ( fontDef.smallCaps ) {
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scFont = new TQFont( f );
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scFont->setPixelSize( kMax(1, f.pixelSize()*7/10) );
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}
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}
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void Font::drawDecoration(TQPainter *pt, int _tx, int _ty, int baseline, int width, int height, int deco) const
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{
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Q_UNUSED(height);
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// thick lines on small fonts look ugly
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const int thickness = fm.height() > 20 ? fm.lineWidth() : 1;
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const TQBrush brush = pt->pen().color();
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if (deco & UNDERLINE) {
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int underlineOffset = ( fm.height() + baseline ) / 2;
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if (underlineOffset <= baseline) underlineOffset = baseline+1;
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pt->fillRect(_tx, _ty + underlineOffset, width + 1, thickness, brush );
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}
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if (deco & OVERLINE) {
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pt->fillRect(_tx, _ty, width + 1, thickness, brush );
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}
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if (deco & LINE_THROUGH) {
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pt->fillRect(_tx, _ty + 2*baseline/3, width + 1, thickness, brush );
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}
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}
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|
|