/* Copyright (C) 2008 Nokia Corporation and/or its subsidiary(-ies) Copyright (C) 2008 Holger Hans Peter Freyther This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #include "Font.h" #include "FontDescription.h" #include "FontFallbackList.h" #include "FontSelector.h" #include "GraphicsContext.h" #include #include #include #include #include #include #include #if QT_VERSION < 0x040400 namespace WebCore { struct TextRunComponent { TextRunComponent() : font(0) {} TextRunComponent(const UChar *start, int length, bool rtl, const QFont *font, int offset, bool sc = false); TextRunComponent(int spaces, bool rtl, const QFont *font, int offset); inline bool isSpace() const { return spaces != 0; } QString string; const QFont *font; int width; int offset; int spaces; }; TextRunComponent::TextRunComponent(const UChar *start, int length, bool rtl, const QFont *f, int o, bool sc) : string(reinterpret_cast(start), length) , font(f) , offset(o) , spaces(0) { if (sc) string = string.toUpper(); string.prepend(rtl ? QChar(0x202e) : QChar(0x202d)); width = QFontMetrics(*font).width(string); } TextRunComponent::TextRunComponent(int s, bool rtl, const QFont *f, int o) : string(s, QLatin1Char(' ')) , font(f) , offset(o) , spaces(s) { string.prepend(rtl ? QChar(0x202e) : QChar(0x202d)); width = spaces * QFontMetrics(*font).width(QLatin1Char(' ')); } static int generateComponents(Vector* components, const Font &font, const TextRun &run) { // qDebug() << "generateComponents" << QString((const QChar *)run.characters(), run.length()); int letterSpacing = font.letterSpacing(); int wordSpacing = font.wordSpacing(); bool smallCaps = font.fontDescription().smallCaps(); int padding = run.padding(); int numSpaces = 0; if (padding) { for (int i = 0; i < run.length(); i++) if (Font::treatAsSpace(run[i])) ++numSpaces; } int offset = 0; const QFont *f = &font.font(); if (letterSpacing || smallCaps) { // need to draw every letter on it's own int start = 0; if (Font::treatAsSpace(run[0])) { int add = 0; if (numSpaces) { add = padding/numSpaces; padding -= add; --numSpaces; } components->append(TextRunComponent(1, run.rtl(), &font.font(), offset)); offset += add + letterSpacing + components->last().width; start = 1; // qDebug() << "space at 0" << offset; } else if (smallCaps) f = (QChar::category(run[0]) == QChar::Letter_Lowercase ? &font.scFont() : &font.font()); for (int i = 1; i < run.length(); ++i) { uint ch = run[i]; if (QChar(ch).isHighSurrogate() && QChar(run[i-1]).isLowSurrogate()) ch = QChar::surrogateToUcs4(ch, run[i-1]); if (QChar(ch).isLowSurrogate() || QChar::category(ch) == QChar::Mark_NonSpacing) continue; if (Font::treatAsSpace(run[i])) { int add = 0; // qDebug() << " treatAsSpace:" << i << start; if (i - start > 0) { components->append(TextRunComponent(run.characters() + start, i - start, run.rtl(), f, offset, f == &font.scFont())); offset += components->last().width + letterSpacing; // qDebug() << " appending(1) " << components->last().string << components->last().width; } if (numSpaces) { add = padding/numSpaces; padding -= add; --numSpaces; } components->append(TextRunComponent(1, run.rtl(), &font.font(), offset)); offset += wordSpacing + add + components->last().width + letterSpacing; start = i + 1; continue; } else if (!letterSpacing) { // qDebug() << i << char(run[i]) << (QChar::category(ch) == QChar::Letter_Lowercase) << // QFontInfo(*f).pointSizeF(); if (QChar::category(ch) == QChar::Letter_Lowercase) { if (f == &font.scFont()) continue; } else { if (f == &font.font()) continue; } } if (i - start > 0) { components->append(TextRunComponent(run.characters() + start, i - start, run.rtl(), f, offset, f == &font.scFont())); offset += components->last().width + letterSpacing; // qDebug() << " appending(2) " << components->last().string << components->last().width; } if (smallCaps) f = (QChar::category(ch) == QChar::Letter_Lowercase ? &font.scFont() : &font.font()); start = i; } if (run.length() - start > 0) { components->append(TextRunComponent(run.characters() + start, run.length() - start, run.rtl(), f, offset, f == &font.scFont())); offset += components->last().width; // qDebug() << " appending(3) " << components->last().string << components->last().width; } offset += letterSpacing; } else { int start = 0; for (int i = 0; i < run.length(); ++i) { if (Font::treatAsSpace(run[i])) { if (i - start > 0) { components->append(TextRunComponent(run.characters() + start, i - start, run.rtl(), f, offset)); offset += components->last().width; } int add = 0; if (numSpaces) { add = padding/numSpaces; padding -= add; --numSpaces; } components->append(TextRunComponent(1, run.rtl(), &font.font(), offset)); offset += add + components->last().width; if (i) offset += wordSpacing; start = i + 1; } } if (run.length() - start > 0) { components->append(TextRunComponent(run.characters() + start, run.length() - start, run.rtl(), f, offset)); offset += components->last().width; } } return offset; } void Font::drawComplexText(GraphicsContext* ctx, const TextRun& run, const FloatPoint& point, int from, int to) const { if (to < 0) to = run.length(); QPainter *p = ctx->platformContext(); Color color = ctx->fillColor(); p->setPen(QColor(color)); Vector components; int w = generateComponents(&components, *this, run); if (from > 0 || to < run.length()) { FloatRect clip = selectionRectForComplexText(run, IntPoint(qRound(point.x()), qRound(point.y())), QFontMetrics(font()).height(), from, to); QRectF rect(clip.x(), clip.y() - ascent(), clip.width(), clip.height()); p->save(); p->setClipRect(rect.toRect()); } if (run.rtl()) { for (int i = 0; i < components.size(); ++i) { if (!components.at(i).isSpace()) { p->setFont(*components.at(i).font); QPointF pt(point.x() + w - components.at(i).offset - components.at(i).width, point.y()); p->drawText(pt, components.at(i).string); } } } else { for (int i = 0; i < components.size(); ++i) { if (!components.at(i).isSpace()) { p->setFont(*components.at(i).font); QPointF pt(point.x() + components.at(i).offset, point.y()); p->drawText(pt, components.at(i).string); } } } if (from > 0 || to < run.length()) p->restore(); } float Font::floatWidthForComplexText(const TextRun& run) const { Vector components; int w = generateComponents(&components, *this, run); return w; } int Font::offsetForPositionForComplexText(const TextRun& run, int position, bool includePartialGlyphs) const { Vector components; int w = generateComponents(&components, *this, run); int offset = 0; if (run.rtl()) { for (int i = 0; i < components.size(); ++i) { int xe = w - components.at(i).offset; int xs = xe - components.at(i).width; if (position >= xs) { QTextLayout layout(components.at(i).string, *components.at(i).font); layout.beginLayout(); QTextLine l = layout.createLine(); if (!l.isValid()) return offset; l.setLineWidth(INT_MAX / 256); layout.endLayout(); if (position - xs >= l.width()) return offset; int cursor = l.xToCursor(position - xs); if (cursor > 1) --cursor; return offset + cursor; } else offset += components.at(i).string.length() - 1; } } else { for (int i = 0; i < components.size(); ++i) { int xs = components.at(i).offset; int xe = xs + components.at(i).width; if (position <= xe) { QTextLayout layout(components.at(i).string, *components.at(i).font); layout.beginLayout(); QTextLine l = layout.createLine(); if (!l.isValid()) return offset; l.setLineWidth(INT_MAX / 256); layout.endLayout(); if (position - xs >= l.width()) return offset + components.at(i).string.length() - 1; int cursor = l.xToCursor(position - xs); if (cursor > 1) --cursor; return offset + cursor; } else offset += components.at(i).string.length() - 1; } } return run.length(); } static float cursorToX(const Vector& components, int width, bool rtl, int cursor) { int start = 0; for (int i = 0; i < components.size(); ++i) { if (start + components.at(i).string.length() - 1 < cursor) { start += components.at(i).string.length() - 1; continue; } int xs = components.at(i).offset; if (rtl) xs = width - xs - components.at(i).width; QTextLayout layout(components.at(i).string, *components.at(i).font); layout.beginLayout(); QTextLine l = layout.createLine(); if (!l.isValid()) return 0; l.setLineWidth(INT_MAX / 256); layout.endLayout(); return xs + l.cursorToX(cursor - start + 1); } return width; } FloatRect Font::selectionRectForComplexText(const TextRun& run, const IntPoint& pt, int h, int from, int to) const { Vector components; int w = generateComponents(&components, *this, run); if (from == 0 && to == run.length()) return FloatRect(pt.x(), pt.y(), w, h); float x1 = cursorToX(components, w, run.rtl(), from); float x2 = cursorToX(components, w, run.rtl(), to); if (x2 < x1) qSwap(x1, x2); return FloatRect(pt.x() + x1, pt.y(), x2 - x1, h); } int Font::lineGap() const { return QFontMetrics(m_font).leading(); } } #endif