/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the FOO module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #ifndef BENCHMARKTESTS_H #define BENCHMARKTESTS_H #include #include #include #include #include #include #include #include class Benchmark { public: virtual ~Benchmark() {} Benchmark(const QSize &size) : m_size(size) { for (int i=0; i<16; ++i) { m_colors[i] = QColor::fromRgbF((rand() % 4) / 3.0, (rand() % 4) / 3.0, (rand() % 4) / 3.0, 1); } } virtual void draw(QPainter *p, const QRect &rect, int iteration) = 0; virtual QString name() const = 0; inline const QSize &size() const { return m_size; } virtual void begin(QPainter *, int iterations = 1) { Q_UNUSED(iterations); } virtual void end(QPainter *) { } inline const QColor &randomColor(int i) { return m_colors[i % 16]; } protected: QColor m_colors[16]; QSize m_size; }; class PaintingRectAdjuster { public: PaintingRectAdjuster() : m_benchmark(0), m_bounds(), m_screen_filled(false) { } const QRect &newPaintingRect() { m_rect.translate(m_rect.width(), 0); if (m_rect.right() > m_bounds.width()) { m_rect.moveLeft(m_bounds.left()); m_rect.translate(0,m_rect.height()); if (m_rect.bottom() > m_bounds.height()) { m_screen_filled = true; m_rect.moveTo(m_bounds.topLeft()); } } return m_rect; } inline bool isScreenFilled() const { return m_screen_filled; } void reset(const QRect &bounds) { m_bounds = bounds; m_rect.moveTo(m_bounds.topLeft()); m_rect = QRect(m_bounds.topLeft(),m_benchmark->size()); m_rect.translate(-m_rect.width(),0); m_screen_filled = false; } inline void setNewBenchmark( Benchmark *benchmark ) { m_benchmark = benchmark; } protected: Benchmark *m_benchmark; QRect m_rect; QRect m_bounds; bool m_screen_filled; }; class FillRectBenchmark : public Benchmark { public: FillRectBenchmark(int size) : Benchmark(QSize(size, size)) { } virtual void draw(QPainter *p, const QRect &rect, int iterationCount) { p->fillRect(rect, randomColor(iterationCount)); } virtual QString name() const { return QString::fromLatin1("fillRect(%1)").arg(m_size.width()); } }; class ImageFillRectBenchmark : public Benchmark { public: ImageFillRectBenchmark(int size) : Benchmark(QSize(size, size)) { int s = rand() % 24 + 8; m_content = QImage(s, s, QImage::Format_ARGB32_Premultiplied); QPainter p(&m_content); p.fillRect(0, 0, s, s, Qt::white); p.fillRect(s/2, 0, s/2, s/2, Qt::gray); p.fillRect(0, s/2, s/2, s/2, Qt::gray); p.end(); m_brush = QBrush(m_content); } virtual void draw(QPainter *p, const QRect &rect, int) { p->fillRect(rect, m_brush); } virtual QString name() const { return QString::fromLatin1("fillRect with image(%1)").arg(m_size.width()); } private: QImage m_content; QBrush m_brush; }; class DrawRectBenchmark : public Benchmark { public: DrawRectBenchmark(int size) : Benchmark(QSize(size, size)) { } virtual void begin(QPainter *p, int) { p->setPen(Qt::NoPen); p->setBrush(randomColor(m_size.width())); } virtual void draw(QPainter *p, const QRect &rect, int) { p->drawRect(rect); } virtual QString name() const { return QString::fromLatin1("drawRect(%1)").arg(m_size.width()); } }; class DrawRectWithBrushChangeBenchmark : public Benchmark { public: DrawRectWithBrushChangeBenchmark(int size) : Benchmark(QSize(size, size)) { } virtual void begin(QPainter *p, int) { p->setPen(Qt::NoPen); } virtual void draw(QPainter *p, const QRect &rect, int i) { p->setBrush(randomColor(i)); p->drawRect(rect); } virtual QString name() const { return QString::fromLatin1("drawRect with brushchange(%1)").arg(m_size.width()); } }; class RoundRectBenchmark : public Benchmark { public: RoundRectBenchmark(int size) : Benchmark(QSize(size, size)) { m_roundness = size / 4.; } virtual void begin(QPainter *p, int) { p->setPen(Qt::NoPen); p->setBrush(Qt::red); } virtual void draw(QPainter *p, const QRect &rect, int) { p->drawRoundedRect(rect, m_roundness, m_roundness); } virtual QString name() const { return QString::fromLatin1("drawRoundedRect(%1)").arg(m_size.width()); } qreal m_roundness; }; class ArcsBenchmark : public Benchmark { public: enum Type { Stroked = 0x0001, Filled = 0x0002, ArcShape = 0x0010, ChordShape = 0x0020, PieShape = 0x0040, CircleShape = 0x0080, Shapes = 0x00f0 }; ArcsBenchmark(int size, uint type) : Benchmark(QSize(size, size)), m_type(type) { } virtual void begin(QPainter *p, int) { if (m_type & Stroked) p->setPen(Qt::black); else p->setPen(Qt::NoPen); if (m_type & Filled) p->setBrush(Qt::red); else p->setBrush(Qt::NoBrush); } virtual void draw(QPainter *p, const QRect &rect, int) { switch (m_type & Shapes) { case ArcShape: p->drawArc(rect, 45*16, 120*16); break; case ChordShape: p->drawChord(rect, 45*16, 120*16); break; case PieShape: p->drawPie(rect, 45*16, 120*16); break; case CircleShape: p->drawEllipse(rect); break; } } virtual QString name() const { QString fillStroke; if ((m_type & (Stroked|Filled)) == (Stroked|Filled)) { fillStroke = QLatin1String("Fill & Outline"); } else if (m_type & Stroked) { fillStroke = QLatin1String("Outline"); } else if (m_type & Filled) { fillStroke = QLatin1String("Fill"); } QString shape; if (m_type & PieShape) shape = QLatin1String("drawPie"); else if (m_type & ChordShape) shape = QLatin1String("drawChord"); else if (m_type & ArcShape) shape = QLatin1String("drawArc"); else if (m_type & CircleShape) shape = QLatin1String("drawEllipse"); return QString::fromLatin1("%1(%2) %3").arg(shape).arg(m_size.width()).arg(fillStroke); } uint m_type; }; class DrawScaledImage : public Benchmark { public: DrawScaledImage(const QImage &image, qreal scale, bool asPixmap) : Benchmark(QSize(image.width(), image.height())), m_image(image), m_type(m_as_pixmap ? "Pixmap" : "Image"), m_scale(scale), m_as_pixmap(asPixmap) { m_pixmap = QPixmap::fromImage(m_image); } DrawScaledImage(const QString& type, const QPixmap &pixmap, qreal scale) : Benchmark(QSize(pixmap.width(), pixmap.height())), m_type(type), m_scale(scale), m_as_pixmap(true), m_pixmap(pixmap) { } virtual void begin(QPainter *p, int) { p->scale(m_scale, m_scale); } virtual void draw(QPainter *p, const QRect &rect, int) { if (m_as_pixmap) p->drawPixmap(rect.topLeft(), m_pixmap); else p->drawImage(rect.topLeft(), m_image); } virtual QString name() const { return QString::fromLatin1("draw%4(%1) at scale=%2, depth=%3") .arg(m_size.width()) .arg(m_scale) .arg(m_as_pixmap ? m_pixmap.depth() : m_image.depth()) .arg(m_type); } private: QImage m_image; QString m_type; qreal m_scale; bool m_as_pixmap; QPixmap m_pixmap; }; class DrawTransformedImage : public Benchmark { public: DrawTransformedImage(const QImage &image, bool asPixmap) : Benchmark(QSize(image.width(), image.height())), m_image(image), m_type(m_as_pixmap ? "Pixmap" : "Image"), m_as_pixmap(asPixmap) { m_pixmap = QPixmap::fromImage(m_image); } DrawTransformedImage(const QString& type, const QPixmap &pixmap) : Benchmark(QSize(pixmap.width(), pixmap.height())), m_type(type), m_as_pixmap(true), m_pixmap(pixmap) { } virtual void draw(QPainter *p, const QRect &rect, int) { QTransform oldTransform = p->transform(); p->translate(0.5 * rect.width() + rect.left(), 0.5 * rect.height() + rect.top()); p->shear(0.25, 0.0); p->rotate(5.0); if (m_as_pixmap) p->drawPixmap(-0.5 * rect.width(), -0.5 * rect.height(), m_pixmap); else p->drawImage(-0.5 * rect.width(), -0.5 * rect.height(), m_image); p->setTransform(oldTransform); } virtual QString name() const { return QString::fromLatin1("draw%3(%1) w/transform, depth=%2") .arg(m_size.width()) .arg(m_as_pixmap ? m_pixmap.depth() : m_image.depth()) .arg(m_type); } private: QImage m_image; QString m_type; bool m_as_pixmap; QPixmap m_pixmap; }; class DrawImage : public Benchmark { public: DrawImage(const QImage &image, bool asPixmap) : Benchmark(QSize(image.width(), image.height())), m_image(image), m_type(m_as_pixmap ? "Pixmap" : "Image"), m_as_pixmap(asPixmap) { m_pixmap = QPixmap::fromImage(image); } DrawImage(const QString& type, const QPixmap &pixmap) : Benchmark(QSize(pixmap.width(), pixmap.height())), m_type(type), m_as_pixmap(true), m_pixmap(pixmap) { } virtual void draw(QPainter *p, const QRect &rect, int) { if (m_as_pixmap) p->drawPixmap(rect.topLeft(), m_pixmap); else p->drawImage(rect.topLeft(), m_image); } virtual QString name() const { return QString::fromLatin1("draw%2(%1), depth=%3") .arg(m_size.width()) .arg(m_type) .arg(m_as_pixmap ? m_pixmap.depth() : m_image.depth()); } private: QImage m_image; QString m_type; bool m_as_pixmap; QPixmap m_pixmap; }; class DrawText : public Benchmark { public: enum Mode { PainterMode, PainterQPointMode, LayoutMode, DocumentMode, PixmapMode, StaticTextMode, StaticTextWithMaximumSizeMode, StaticTextBackendOptimizations }; DrawText(const QString &text, Mode mode) : Benchmark(QSize()), m_mode(mode), m_text(text), m_document(text), m_layout(text) { } virtual void begin(QPainter *p, int iterations) { m_staticTexts.clear(); m_currentStaticText = 0; m_pixmaps.clear(); m_currentPixmap = 0; QRect m_bounds = QRect(0,0,p->device()->width(), p->device()->height()); switch (m_mode) { case PainterMode: m_size = (p->boundingRect(m_bounds, 0, m_text)).size(); // m_rect = m_rect.translated(-m_rect.topLeft()); break; case DocumentMode: m_size = QSize(m_document.size().toSize()); break; case PixmapMode: for (int i=0; i<4; ++i) { m_size = (p->boundingRect(m_bounds, 0, m_text)).size(); QPixmap pixmap = QPixmap(m_size); pixmap.fill(Qt::transparent); { QPainter p(&pixmap); p.drawText(pixmap.rect(), m_text); } m_pixmaps.append(pixmap); } break; case LayoutMode: { QRect r = p->boundingRect(m_bounds, 0, m_text); QStringList lines = m_text.split('\n'); int height = 0; int leading = p->fontMetrics().leading(); m_layout.beginLayout(); for (int i=0; iboundingRect(m_bounds, 0, m_text)).size(); staticText.setTextWidth(m_size.width() + 10); staticText.setText(m_text); staticText.prepare(p->transform(), p->font()); m_staticTexts.append(staticText); break; } case StaticTextBackendOptimizations: { m_size = (p->boundingRect(m_bounds, 0, m_text)).size(); for (int i=0; itransform(), p->font()); m_staticTexts.append(staticText); } break; } case StaticTextMode: { QStaticText staticText; staticText.setText(m_text); staticText.prepare(p->transform(), p->font()); m_staticTexts.append(staticText); QFontMetrics fm(p->font()); m_size = QSize(fm.width(m_text, m_text.length()), fm.height()); break; } case PainterQPointMode: { QFontMetrics fm(p->font()); m_size = QSize(fm.width(m_text, m_text.length()), fm.height()); break; } } } virtual void draw(QPainter *p, const QRect &rect, int) { switch (m_mode) { case PainterMode: p->drawText(rect, 0, m_text); break; case PainterQPointMode: p->drawText(rect.topLeft(), m_text); break; case PixmapMode: p->drawPixmap(rect.topLeft(), m_pixmaps.at(m_currentPixmap)); m_currentPixmap = (m_currentPixmap + 1) % m_pixmaps.size(); break; case DocumentMode: p->translate(rect.topLeft()); m_document.drawContents(p); p->translate(-rect.topLeft()); break; case LayoutMode: m_layout.draw(p, rect.topLeft()); break; case StaticTextWithMaximumSizeMode: case StaticTextMode: p->drawStaticText(rect.topLeft(), m_staticTexts.at(0)); break; case StaticTextBackendOptimizations: p->drawStaticText(rect.topLeft(), m_staticTexts.at(m_currentStaticText)); m_currentStaticText = (m_currentStaticText + 1) % m_staticTexts.size(); break; } } virtual QString name() const { int letters = m_text.length(); int lines = m_text.count('\n'); if (lines == 0) lines = 1; QString type; switch (m_mode) { case PainterMode: type = "drawText(rect)"; break; case PainterQPointMode: type = "drawText(point)"; break; case LayoutMode: type = "layout.draw()"; break; case DocumentMode: type = "doc.drawContents()"; break; case PixmapMode: type = "pixmap cached text"; break; case StaticTextMode: type = "drawStaticText()"; break; case StaticTextWithMaximumSizeMode: type = "drawStaticText() w/ maxsize"; break; case StaticTextBackendOptimizations: type = "drawStaticText() w/ backend optimizations"; break; } return QString::fromLatin1("%3, len=%1, lines=%2") .arg(letters) .arg(lines) .arg(type); } private: Mode m_mode; QString m_text; QTextDocument m_document; QTextLayout m_layout; QList m_pixmaps; int m_currentPixmap; int m_currentStaticText; QList m_staticTexts; }; class ClippedDrawRectBenchmark : public Benchmark { public: enum ClipType { RectClip, TwoRectRegionClip, EllipseRegionClip, TwoRectPathClip, EllipsePathClip, AAEllipsePathClip, EllipseRegionThenRectClip, EllipsePathThenRectClip }; ClippedDrawRectBenchmark(int size, ClipType type) : Benchmark(QSize(size, size)), m_type(type) { } virtual void begin(QPainter *p, int) { QRect m_bounds = QRect(0,0,p->device()->width(), p->device()->height()); p->setPen(Qt::NoPen); p->setBrush(Qt::red); switch (m_type) { case RectClip: p->setClipRect(m_bounds.adjusted(1, 1, -1, -1)); break; case TwoRectRegionClip: p->setClipRegion(QRegion(m_bounds.adjusted(0, 0, -1, -1)) | QRegion(m_bounds.adjusted(1, 1, 0, 0))); break; case EllipseRegionClip: p->setClipRegion(QRegion(m_bounds, QRegion::Ellipse)); break; case TwoRectPathClip: { QPainterPath path; path.addRect(m_bounds.adjusted(0, 0, -1, -1)); path.addRect(m_bounds.adjusted(1, 1, 0, 0)); path.setFillRule(Qt::WindingFill); p->setClipPath(path); } break; case EllipsePathClip: { QPainterPath path; path.addEllipse(m_bounds); p->setClipPath(path); } break; case AAEllipsePathClip: { QPainterPath path; path.addEllipse(m_bounds); p->setRenderHint(QPainter::Antialiasing); p->setClipPath(path); p->setRenderHint(QPainter::Antialiasing, false); } break; case EllipseRegionThenRectClip: p->setClipRegion(QRegion(m_bounds, QRegion::Ellipse)); p->setClipRegion(QRegion(m_bounds.width() / 4, m_bounds.height() / 4, m_bounds.width() / 2, m_bounds.height() / 2), Qt::IntersectClip); break; case EllipsePathThenRectClip: { QPainterPath path; path.addEllipse(m_bounds); p->setClipPath(path); p->setClipRegion(QRegion(m_bounds.width() / 4, m_bounds.height() / 4, m_bounds.width() / 2, m_bounds.height() / 2), Qt::IntersectClip); } break; } } virtual void draw(QPainter *p, const QRect &rect, int) { p->drawRect(rect); } virtual QString name() const { QString namedType; switch (m_type) { case RectClip: namedType = "rect"; break; case TwoRectRegionClip: namedType = "two-rect-region"; break; case EllipseRegionClip: namedType = "ellipse-region"; break; case TwoRectPathClip: namedType = "two-rect-path"; break; case EllipsePathClip: namedType = "ellipse-path"; break; case AAEllipsePathClip: namedType = "aa-ellipse-path"; break; case EllipseRegionThenRectClip: namedType = "ellipseregion&rect"; break; case EllipsePathThenRectClip: namedType = "ellipsepath&rect"; break; } return QString::fromLatin1("%1-clipped-drawRect(%2)").arg(namedType).arg(m_size.width()); } ClipType m_type; }; class LinesBenchmark : public Benchmark { public: enum LineType { Horizontal_Integer, Diagonal_Integer, Vertical_Integer, Horizontal_Float, Diagonal_Float, Vertical_Float }; LinesBenchmark(int length, LineType type) : Benchmark(QSize(qAbs(length), qAbs(length))), m_type(type), m_length(length) { } virtual void draw(QPainter *p, const QRect &rect, int) { switch (m_type) { case Horizontal_Integer: p->drawLine(QLine(rect.x(), rect.y(), rect.x() + m_length, rect.y())); break; case Diagonal_Integer: p->drawLine(QLine(rect.x(), rect.y(), rect.x() + m_length, rect.y() + m_length)); break; case Vertical_Integer: p->drawLine(QLine(rect.x() + 4, rect.y(), rect.x() + 4, rect.y() + m_length)); break; case Horizontal_Float: p->drawLine(QLineF(rect.x(), rect.y(), rect.x() + m_length, rect.y())); break; case Diagonal_Float: p->drawLine(QLineF(rect.x(), rect.y(), rect.x() + m_length, rect.y() + m_length)); break; case Vertical_Float: p->drawLine(QLineF(rect.x() + 4, rect.y(), rect.x() + 4, rect.y() + m_length)); break; } } virtual QString name() const { const char *names[] = { "Hor_I", "Diag_I", "Ver_I", "Hor_F", "Diag_F", "Ver_F" }; return QString::fromLatin1("drawLine(size=%1,type=%2)").arg(m_length).arg(names[m_type]); } LineType m_type; int m_length; }; #endif // BENCHMARKTESTS_H