diff -r 000000000000 -r 1918ee327afb src/gui/painting/qbrush.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/gui/painting/qbrush.cpp Mon Jan 11 14:00:40 2010 +0000 @@ -0,0 +1,2161 @@ +/**************************************************************************** +** +** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). +** All rights reserved. +** Contact: Nokia Corporation (qt-info@nokia.com) +** +** This file is part of the QtGui module of the Qt Toolkit. +** +** $QT_BEGIN_LICENSE:LGPL$ +** No Commercial Usage +** This file contains pre-release code and may not be distributed. +** You may use this file in accordance with the terms and conditions +** contained in the Technology Preview License Agreement accompanying +** this package. +** +** GNU Lesser General Public License Usage +** Alternatively, 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. +** +** If you have questions regarding the use of this file, please contact +** Nokia at qt-info@nokia.com. +** +** +** +** +** +** +** +** +** $QT_END_LICENSE$ +** +****************************************************************************/ + +#include "qbrush.h" +#include "qpixmap.h" +#include "qbitmap.h" +#include "qpixmapcache.h" +#include "qdatastream.h" +#include "qvariant.h" +#include "qline.h" +#include "qdebug.h" +#include + +QT_BEGIN_NAMESPACE + +const uchar *qt_patternForBrush(int brushStyle, bool invert) +{ + Q_ASSERT(brushStyle > Qt::SolidPattern && brushStyle < Qt::LinearGradientPattern); + if(invert) { + static const uchar dense1_pat[] = { 0xff, 0xbb, 0xff, 0xff, 0xff, 0xbb, 0xff, 0xff }; + static const uchar dense2_pat[] = { 0x77, 0xff, 0xdd, 0xff, 0x77, 0xff, 0xdd, 0xff }; + static const uchar dense3_pat[] = { 0x55, 0xbb, 0x55, 0xee, 0x55, 0xbb, 0x55, 0xee }; + static const uchar dense4_pat[] = { 0xaa, 0x55, 0xaa, 0x55, 0xaa, 0x55, 0xaa, 0x55 }; + static const uchar dense5_pat[] = { 0xaa, 0x44, 0xaa, 0x11, 0xaa, 0x44, 0xaa, 0x11 }; + static const uchar dense6_pat[] = { 0x88, 0x00, 0x22, 0x00, 0x88, 0x00, 0x22, 0x00 }; + static const uchar dense7_pat[] = { 0x00, 0x44, 0x00, 0x00, 0x00, 0x44, 0x00, 0x00 }; + static const uchar hor_pat[] = { 0x00, 0x00, 0x00, 0xff, 0x00, 0x00, 0x00, 0x00 }; + static const uchar ver_pat[] = { 0x10, 0x10, 0x10, 0x10, 0x10, 0x10, 0x10, 0x10 }; + static const uchar cross_pat[] = { 0x10, 0x10, 0x10, 0xff, 0x10, 0x10, 0x10, 0x10 }; + static const uchar bdiag_pat[] = { 0x80, 0x40, 0x20, 0x10, 0x08, 0x04, 0x02, 0x01 }; + static const uchar fdiag_pat[] = { 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80 }; + static const uchar dcross_pat[] = { 0x81, 0x42, 0x24, 0x18, 0x18, 0x24, 0x42, 0x81 }; + static const uchar *const pat_tbl[] = { + dense1_pat, dense2_pat, dense3_pat, dense4_pat, dense5_pat, + dense6_pat, dense7_pat, + hor_pat, ver_pat, cross_pat, bdiag_pat, fdiag_pat, dcross_pat }; + return pat_tbl[brushStyle - Qt::Dense1Pattern]; + } + static const uchar dense1_pat[] = { 0x00, 0x44, 0x00, 0x00, 0x00, 0x44, 0x00, 0x00 }; + static const uchar dense2_pat[] = { 0x88, 0x00, 0x22, 0x00, 0x88, 0x00, 0x22, 0x00 }; + static const uchar dense3_pat[] = { 0xaa, 0x44, 0xaa, 0x11, 0xaa, 0x44, 0xaa, 0x11 }; + static const uchar dense4_pat[] = { 0x55, 0xaa, 0x55, 0xaa, 0x55, 0xaa, 0x55, 0xaa }; + static const uchar dense5_pat[] = { 0x55, 0xbb, 0x55, 0xee, 0x55, 0xbb, 0x55, 0xee }; + static const uchar dense6_pat[] = { 0x77, 0xff, 0xdd, 0xff, 0x77, 0xff, 0xdd, 0xff }; + static const uchar dense7_pat[] = { 0xff, 0xbb, 0xff, 0xff, 0xff, 0xbb, 0xff, 0xff }; + static const uchar hor_pat[] = { 0xff, 0xff, 0xff, 0x00, 0xff, 0xff, 0xff, 0xff }; + static const uchar ver_pat[] = { 0xef, 0xef, 0xef, 0xef, 0xef, 0xef, 0xef, 0xef }; + static const uchar cross_pat[] = { 0xef, 0xef, 0xef, 0x00, 0xef, 0xef, 0xef, 0xef }; + static const uchar bdiag_pat[] = { 0x7f, 0xbf, 0xdf, 0xef, 0xf7, 0xfb, 0xfd, 0xfe }; + static const uchar fdiag_pat[] = { 0xfe, 0xfd, 0xfb, 0xf7, 0xef, 0xdf, 0xbf, 0x7f }; + static const uchar dcross_pat[] = { 0x7e, 0xbd, 0xdb, 0xe7, 0xe7, 0xdb, 0xbd, 0x7e }; + static const uchar *const pat_tbl[] = { + dense1_pat, dense2_pat, dense3_pat, dense4_pat, dense5_pat, + dense6_pat, dense7_pat, + hor_pat, ver_pat, cross_pat, bdiag_pat, fdiag_pat, dcross_pat }; + return pat_tbl[brushStyle - Qt::Dense1Pattern]; +} + +QPixmap qt_pixmapForBrush(int brushStyle, bool invert) +{ + QPixmap pm; + QString key = QLatin1String("$qt-brush$") + QString::number(brushStyle) + + QString::number((int)invert); + if (!QPixmapCache::find(key, pm)) { + pm = QBitmap::fromData(QSize(8, 8), qt_patternForBrush(brushStyle, invert), + QImage::Format_MonoLSB); + QPixmapCache::insert(key, pm); + } + + return pm; +} + +class QBrushPatternImageCache +{ +public: + QBrushPatternImageCache() + : m_initialized(false) + { + init(); + } + + void init() + { + for (int style = Qt::Dense1Pattern; style <= Qt::DiagCrossPattern; ++style) { + int i = style - Qt::Dense1Pattern; + m_images[i][0] = QImage(qt_patternForBrush(style, 0), 8, 8, 1, QImage::Format_MonoLSB); + m_images[i][1] = QImage(qt_patternForBrush(style, 1), 8, 8, 1, QImage::Format_MonoLSB); + } + m_initialized = true; + } + + QImage getImage(int brushStyle, bool invert) const + { + Q_ASSERT(brushStyle >= Qt::Dense1Pattern && brushStyle <= Qt::DiagCrossPattern); + if (!m_initialized) + const_cast(this)->init(); + return m_images[brushStyle - Qt::Dense1Pattern][invert]; + } + + void cleanup() { + for (int style = Qt::Dense1Pattern; style <= Qt::DiagCrossPattern; ++style) { + int i = style - Qt::Dense1Pattern; + m_images[i][0] = QImage(); + m_images[i][1] = QImage(); + } + m_initialized = false; + } + +private: + QImage m_images[Qt::DiagCrossPattern - Qt::Dense1Pattern + 1][2]; + bool m_initialized; +}; + +static void qt_cleanup_brush_pattern_image_cache(); +Q_GLOBAL_STATIC_WITH_INITIALIZER(QBrushPatternImageCache, qt_brushPatternImageCache, + { + qAddPostRoutine(qt_cleanup_brush_pattern_image_cache); + }) + +static void qt_cleanup_brush_pattern_image_cache() +{ + qt_brushPatternImageCache()->cleanup(); +} + +Q_GUI_EXPORT +QImage qt_imageForBrush(int brushStyle, bool invert) +{ + return qt_brushPatternImageCache()->getImage(brushStyle, invert); +} + +struct QTexturedBrushData : public QBrushData +{ + QTexturedBrushData() { + m_has_pixmap_texture = false; + m_pixmap = 0; + } + ~QTexturedBrushData() { + delete m_pixmap; + } + + void setPixmap(const QPixmap &pm) { + delete m_pixmap; + + if (pm.isNull()) { + m_pixmap = 0; + m_has_pixmap_texture = false; + } else { + m_pixmap = new QPixmap(pm); + m_has_pixmap_texture = true; + } + + m_image = QImage(); + } + + void setImage(const QImage &image) { + m_image = image; + delete m_pixmap; + m_pixmap = 0; + m_has_pixmap_texture = false; + } + + QPixmap &pixmap() { + if (!m_pixmap) { + m_pixmap = new QPixmap(QPixmap::fromImage(m_image)); + } + return *m_pixmap; + } + + QImage &image() { + if (m_image.isNull() && m_pixmap) + m_image = m_pixmap->toImage(); + return m_image; + } + + QPixmap *m_pixmap; + QImage m_image; + bool m_has_pixmap_texture; +}; + +// returns true if the brush has a pixmap (or bitmap) set as the +// brush texture, false otherwise +bool Q_GUI_EXPORT qHasPixmapTexture(const QBrush& brush) +{ + if (brush.style() != Qt::TexturePattern) + return false; + QTexturedBrushData *tx_data = static_cast(brush.d.data()); + return tx_data->m_has_pixmap_texture; +} + +struct QGradientBrushData : public QBrushData +{ + QGradient gradient; +}; + +struct QBrushDataPointerDeleter +{ + static inline void deleteData(QBrushData *d) + { + switch (d->style) { + case Qt::TexturePattern: + delete static_cast(d); + break; + case Qt::LinearGradientPattern: + case Qt::RadialGradientPattern: + case Qt::ConicalGradientPattern: + delete static_cast(d); + break; + default: + delete d; + } + } + + static inline void cleanup(QBrushData *d) + { + if (d && !d->ref.deref()) { + deleteData(d); + } + } +}; + +/*! + \class QBrush + \ingroup painting + \ingroup shared + + \brief The QBrush class defines the fill pattern of shapes drawn + by QPainter. + + A brush has a style, a color, a gradient and a texture. + + The brush style() defines the fill pattern using the + Qt::BrushStyle enum. The default brush style is Qt::NoBrush + (depending on how you construct a brush). This style tells the + painter to not fill shapes. The standard style for filling is + Qt::SolidPattern. The style can be set when the brush is created + using the appropriate constructor, and in addition the setStyle() + function provides means for altering the style once the brush is + constructed. + + \image brush-styles.png Brush Styles + + The brush color() defines the color of the fill pattern. The color + can either be one of Qt's predefined colors, Qt::GlobalColor, or + any other custom QColor. The currently set color can be retrieved + and altered using the color() and setColor() functions, + respectively. + + The gradient() defines the gradient fill used when the current + style is either Qt::LinearGradientPattern, + Qt::RadialGradientPattern or Qt::ConicalGradientPattern. Gradient + brushes are created by giving a QGradient as a constructor + argument when creating the QBrush. Qt provides three different + gradients: QLinearGradient, QConicalGradient, and QRadialGradient + - all of which inherit QGradient. + + \snippet doc/src/snippets/brush/gradientcreationsnippet.cpp 0 + + The texture() defines the pixmap used when the current style is + Qt::TexturePattern. You can create a brush with a texture by + providing the pixmap when the brush is created or by using + setTexture(). + + Note that applying setTexture() makes style() == + Qt::TexturePattern, regardless of previous style + settings. Also, calling setColor() will not make a difference if + the style is a gradient. The same is the case if the style is + Qt::TexturePattern style unless the current texture is a QBitmap. + + The isOpaque() function returns true if the brush is fully opaque + otherwise false. A brush is considered opaque if: + + \list + \o The alpha component of the color() is 255. + \o Its texture() does not have an alpha channel and is not a QBitmap. + \o The colors in the gradient() all have an alpha component that is 255. + \endlist + + \table 100% + \row + \o \inlineimage brush-outline.png Outlines + \o + + To specify the style and color of lines and outlines, use the + QPainter's \l {QPen}{pen} combined with Qt::PenStyle and + Qt::GlobalColor: + + \snippet doc/src/snippets/code/src_gui_painting_qbrush.cpp 0 + + Note that, by default, QPainter renders the outline (using the + currently set pen) when drawing shapes. Use \l {Qt::NoPen}{\c + painter.setPen(Qt::NoPen)} to disable this behavior. + + \endtable + + For more information about painting in general, see \l{The Paint + System} documentation. + + \sa Qt::BrushStyle, QPainter, QColor +*/ + +#ifndef QT_NO_THREAD +// Special deleter that only deletes if the ref-count goes to zero +template <> +class QGlobalStaticDeleter +{ +public: + QGlobalStatic &globalStatic; + QGlobalStaticDeleter(QGlobalStatic &_globalStatic) + : globalStatic(_globalStatic) + { } + + inline ~QGlobalStaticDeleter() + { + if (!globalStatic.pointer->ref.deref()) + delete globalStatic.pointer; + globalStatic.pointer = 0; + globalStatic.destroyed = true; + } +}; +#endif + +Q_GLOBAL_STATIC_WITH_INITIALIZER(QBrushData, nullBrushInstance, + { + x->ref = 1; + x->style = Qt::BrushStyle(0); + x->color = Qt::black; + }) + +static bool qbrush_check_type(Qt::BrushStyle style) { + switch (style) { + case Qt::TexturePattern: + qWarning("QBrush: Incorrect use of TexturePattern"); + break; + case Qt::LinearGradientPattern: + case Qt::RadialGradientPattern: + case Qt::ConicalGradientPattern: + qWarning("QBrush: Wrong use of a gradient pattern"); + break; + default: + return true; + } + return false; +} + +/*! + \internal + Initializes the brush. +*/ + +void QBrush::init(const QColor &color, Qt::BrushStyle style) +{ + switch(style) { + case Qt::NoBrush: + d.reset(nullBrushInstance()); + d->ref.ref(); + if (d->color != color) setColor(color); + return; + case Qt::TexturePattern: + d.reset(new QTexturedBrushData); + break; + case Qt::LinearGradientPattern: + case Qt::RadialGradientPattern: + case Qt::ConicalGradientPattern: + d.reset(new QGradientBrushData); + break; + default: + d.reset(new QBrushData); + break; + } + d->ref = 1; + d->style = style; + d->color = color; +} + +/*! + Constructs a default black brush with the style Qt::NoBrush + (i.e. this brush will not fill shapes). +*/ + +QBrush::QBrush() + : d(nullBrushInstance()) +{ + Q_ASSERT(d); + d->ref.ref(); +} + +/*! + Constructs a brush with a black color and a texture set to the + given \a pixmap. The style is set to Qt::TexturePattern. + + \sa setTexture() +*/ + +QBrush::QBrush(const QPixmap &pixmap) +{ + init(Qt::black, Qt::TexturePattern); + setTexture(pixmap); +} + + +/*! + Constructs a brush with a black color and a texture set to the + given \a image. The style is set to Qt::TexturePattern. + + \sa setTextureImage() +*/ + +QBrush::QBrush(const QImage &image) +{ + init(Qt::black, Qt::TexturePattern); + setTextureImage(image); +} + +/*! + Constructs a black brush with the given \a style. + + \sa setStyle() +*/ + +QBrush::QBrush(Qt::BrushStyle style) +{ + if (qbrush_check_type(style)) + init(Qt::black, style); + else { + d.reset(nullBrushInstance()); + d->ref.ref(); + } +} + +/*! + Constructs a brush with the given \a color and \a style. + + \sa setColor(), setStyle() +*/ + +QBrush::QBrush(const QColor &color, Qt::BrushStyle style) +{ + if (qbrush_check_type(style)) + init(color, style); + else { + d.reset(nullBrushInstance()); + d->ref.ref(); + } +} + +/*! + \fn QBrush::QBrush(Qt::GlobalColor color, Qt::BrushStyle style) + + Constructs a brush with the given \a color and \a style. + + \sa setColor(), setStyle() +*/ +QBrush::QBrush(Qt::GlobalColor color, Qt::BrushStyle style) +{ + if (qbrush_check_type(style)) + init(color, style); + else { + d.reset(nullBrushInstance()); + d->ref.ref(); + } +} + +/*! + Constructs a brush with the given \a color and the custom pattern + stored in \a pixmap. + + The style is set to Qt::TexturePattern. The color will only have + an effect for QBitmaps. + + \sa setColor(), setPixmap() +*/ + +QBrush::QBrush(const QColor &color, const QPixmap &pixmap) +{ + init(color, Qt::TexturePattern); + setTexture(pixmap); +} + +/*! + + Constructs a brush with the given \a color and the custom pattern + stored in \a pixmap. + + The style is set to Qt::TexturePattern. The color will only have + an effect for QBitmaps. + + \sa setColor(), setPixmap() +*/ +QBrush::QBrush(Qt::GlobalColor color, const QPixmap &pixmap) +{ + init(color, Qt::TexturePattern); + setTexture(pixmap); +} + +/*! + Constructs a copy of \a other. +*/ + +QBrush::QBrush(const QBrush &other) + : d(other.d.data()) +{ + d->ref.ref(); +} + +/*! + Constructs a brush based on the given \a gradient. + + The brush style is set to the corresponding gradient style (either + Qt::LinearGradientPattern, Qt::RadialGradientPattern or + Qt::ConicalGradientPattern). +*/ +QBrush::QBrush(const QGradient &gradient) +{ + Q_ASSERT_X(gradient.type() != QGradient::NoGradient, "QBrush::QBrush", + "QGradient should not be used directly, use the linear, radial\n" + "or conical gradients instead"); + + const Qt::BrushStyle enum_table[] = { + Qt::LinearGradientPattern, + Qt::RadialGradientPattern, + Qt::ConicalGradientPattern + }; + + init(QColor(), enum_table[gradient.type()]); + QGradientBrushData *grad = static_cast(d.data()); + grad->gradient = gradient; +} + +/*! + Destroys the brush. +*/ + +QBrush::~QBrush() +{ +} + +void QBrush::cleanUp(QBrushData *x) +{ + QBrushDataPointerDeleter::deleteData(x); +} + + +void QBrush::detach(Qt::BrushStyle newStyle) +{ + if (newStyle == d->style && d->ref == 1) + return; + + QScopedPointer x; + switch(newStyle) { + case Qt::TexturePattern: { + QTexturedBrushData *tbd = new QTexturedBrushData; + if (d->style == Qt::TexturePattern) { + QTexturedBrushData *data = static_cast(d.data()); + if (data->m_has_pixmap_texture) + tbd->setPixmap(data->pixmap()); + else + tbd->setImage(data->image()); + } + x.reset(tbd); + break; + } + case Qt::LinearGradientPattern: + case Qt::RadialGradientPattern: + case Qt::ConicalGradientPattern: + x.reset(new QGradientBrushData); + static_cast(x.data())->gradient = + static_cast(d.data())->gradient; + break; + default: + x.reset(new QBrushData); + break; + } + x->ref = 1; + x->style = newStyle; + x->color = d->color; + x->transform = d->transform; + d.reset(x.take()); +} + + +/*! + \fn QBrush &QBrush::operator=(const QBrush &brush) + + Assigns the given \a brush to \e this brush and returns a + reference to \e this brush. +*/ + +QBrush &QBrush::operator=(const QBrush &b) +{ + if (d == b.d) + return *this; + + b.d->ref.ref(); + d.reset(b.d.data()); + return *this; +} + +/*! + Returns the brush as a QVariant +*/ +QBrush::operator QVariant() const +{ + return QVariant(QVariant::Brush, this); +} + +/*! + \fn Qt::BrushStyle QBrush::style() const + + Returns the brush style. + + \sa setStyle() +*/ + +/*! + Sets the brush style to \a style. + + \sa style() +*/ + +void QBrush::setStyle(Qt::BrushStyle style) +{ + if (d->style == style) + return; + + if (qbrush_check_type(style)) { + detach(style); + d->style = style; + } +} + + +/*! + \fn const QColor &QBrush::color() const + + Returns the brush color. + + \sa setColor() +*/ + +/*! + \fn void QBrush::setColor(const QColor &color) + + Sets the brush color to the given \a color. + + Note that calling setColor() will not make a difference if the + style is a gradient. The same is the case if the style is + Qt::TexturePattern style unless the current texture is a QBitmap. + + \sa color() +*/ + +void QBrush::setColor(const QColor &c) +{ + detach(d->style); + d->color = c; +} + +/*! + \fn void QBrush::setColor(Qt::GlobalColor color) + \overload + + Sets the brush color to the given \a color. +*/ + + +#ifdef QT3_SUPPORT + +/*! + \fn void QBrush::setPixmap(const QPixmap &pixmap) + + \compat + + Sets a custom pattern for this brush. + + Use setTexture() instead. +*/ + +/*! + \fn QPixmap *QBrush::pixmap() const + + Returns a pointer to the custom brush pattern. + + Use texture() instead. +*/ +QPixmap *QBrush::pixmap() const +{ + if (d->style != Qt::TexturePattern) + return 0; + QTexturedBrushData *data = static_cast(d.data()); + QPixmap &pixmap = data->pixmap(); + return pixmap.isNull() ? 0 : &pixmap; +} +#endif + +/*! + \fn QPixmap QBrush::texture() const + + Returns the custom brush pattern, or a null pixmap if no custom brush pattern + has been set. + + \sa setTexture() +*/ +QPixmap QBrush::texture() const +{ + return d->style == Qt::TexturePattern + ? (static_cast(d.data()))->pixmap() + : QPixmap(); +} + +/*! + Sets the brush pixmap to \a pixmap. The style is set to + Qt::TexturePattern. + + The current brush color will only have an effect for monochrome + pixmaps, i.e. for QPixmap::depth() == 1 (\l {QBitmap}{QBitmaps}). + + \sa texture() +*/ + +void QBrush::setTexture(const QPixmap &pixmap) +{ + if (!pixmap.isNull()) { + detach(Qt::TexturePattern); + QTexturedBrushData *data = static_cast(d.data()); + data->setPixmap(pixmap); + } else { + detach(Qt::NoBrush); + } +} + + +/*! + \since 4.2 + + Returns the custom brush pattern, or a null image if no custom + brush pattern has been set. + + If the texture was set as a QPixmap it will be converted to a + QImage. + + \sa setTextureImage() +*/ + +QImage QBrush::textureImage() const +{ + return d->style == Qt::TexturePattern + ? (static_cast(d.data()))->image() + : QImage(); +} + + +/*! + \since 4.2 + + Sets the brush image to \a image. The style is set to + Qt::TexturePattern. + + Note the current brush color will \e not have any affect on + monochrome images, as opposed to calling setTexture() with a + QBitmap. If you want to change the color of monochrome image + brushes, either convert the image to QBitmap with \c + QBitmap::fromImage() and set the resulting QBitmap as a texture, + or change the entries in the color table for the image. + + \sa textureImage(), setTexture() +*/ + +void QBrush::setTextureImage(const QImage &image) +{ + if (!image.isNull()) { + detach(Qt::TexturePattern); + QTexturedBrushData *data = static_cast(d.data()); + data->setImage(image); + } else { + detach(Qt::NoBrush); + } +} + + +/*! + Returns the gradient describing this brush. +*/ +const QGradient *QBrush::gradient() const +{ + if (d->style == Qt::LinearGradientPattern + || d->style == Qt::RadialGradientPattern + || d->style == Qt::ConicalGradientPattern) { + return &static_cast(d.data())->gradient; + } + return 0; +} + + +/*! + Returns true if the brush is fully opaque otherwise false. A brush + is considered opaque if: + + \list + \i The alpha component of the color() is 255. + \i Its texture() does not have an alpha channel and is not a QBitmap. + \i The colors in the gradient() all have an alpha component that is 255. + \endlist +*/ + +bool QBrush::isOpaque() const +{ + bool opaqueColor = d->color.alpha() == 255; + + // Test awfully simple case first + if (d->style == Qt::SolidPattern) + return opaqueColor; + + if (d->style == Qt::LinearGradientPattern + || d->style == Qt::RadialGradientPattern + || d->style == Qt::ConicalGradientPattern) { + QGradientStops stops = gradient()->stops(); + for (int i=0; istyle == Qt::TexturePattern) { + return qHasPixmapTexture(*this) + ? !texture().hasAlphaChannel() && !texture().isQBitmap() + : !textureImage().hasAlphaChannel(); + } + + return false; +} + + +/*! + \since 4.2 + + Sets \a matrix as an explicit transformation matrix on the + current brush. The brush transformation matrix is merged with + QPainter transformation matrix to produce the final result. + + \sa matrix() +*/ +void QBrush::setMatrix(const QMatrix &matrix) +{ + setTransform(QTransform(matrix)); +} + +/*! + \since 4.3 + + Sets \a matrix as an explicit transformation matrix on the + current brush. The brush transformation matrix is merged with + QPainter transformation matrix to produce the final result. + + \sa transform() +*/ +void QBrush::setTransform(const QTransform &matrix) +{ + detach(d->style); + d->transform = matrix; +} + + +/*! + \fn void QBrush::matrix() const + \since 4.2 + + Returns the current transformation matrix for the brush. + + \sa setMatrix() +*/ + +/*! + \fn bool QBrush::operator!=(const QBrush &brush) const + + Returns true if the brush is different from the given \a brush; + otherwise returns false. + + Two brushes are different if they have different styles, colors or + pixmaps. + + \sa operator==() +*/ + +/*! + \fn bool QBrush::operator==(const QBrush &brush) const + + Returns true if the brush is equal to the given \a brush; + otherwise returns false. + + Two brushes are equal if they have equal styles, colors and + pixmaps. + + \sa operator!=() +*/ + +bool QBrush::operator==(const QBrush &b) const +{ + if (b.d == d) + return true; + if (b.d->style == d->style && b.d->color == d->color) { + switch (d->style) { + case Qt::TexturePattern: { + QPixmap &us = (static_cast(d.data()))->pixmap(); + QPixmap &them = (static_cast(b.d.data()))->pixmap(); + return ((us.isNull() && them.isNull()) || us.cacheKey() == them.cacheKey()); + } + case Qt::LinearGradientPattern: + case Qt::RadialGradientPattern: + case Qt::ConicalGradientPattern: + { + QGradientBrushData *d1 = static_cast(d.data()); + QGradientBrushData *d2 = static_cast(b.d.data()); + return d1->gradient == d2->gradient; + } + default: + return true; + } + } + return false; +} + +/*! + \fn QBrush::operator const QColor&() const + + Returns the brush's color. + + Use color() instead. +*/ + +#ifndef QT_NO_DEBUG_STREAM +/*! + \internal +*/ +QDebug operator<<(QDebug dbg, const QBrush &b) +{ +#ifndef Q_BROKEN_DEBUG_STREAM + dbg.nospace() << "QBrush(" << b.color() << ',' << b.style() << ')'; + return dbg.space(); +#else + qWarning("This compiler doesn't support streaming QBrush to QDebug"); + return dbg; + Q_UNUSED(b); +#endif +} +#endif + +/***************************************************************************** + QBrush stream functions + *****************************************************************************/ +#ifndef QT_NO_DATASTREAM +/*! + \fn QDataStream &operator<<(QDataStream &stream, const QBrush &brush) + \relates QBrush + + Writes the given \a brush to the given \a stream and returns a + reference to the \a stream. + + \sa {Format of the QDataStream Operators} +*/ + +QDataStream &operator<<(QDataStream &s, const QBrush &b) +{ + quint8 style = (quint8) b.style(); + bool gradient_style = false; + + if (style == Qt::LinearGradientPattern || style == Qt::RadialGradientPattern + || style == Qt::ConicalGradientPattern) + gradient_style = true; + + if (s.version() < QDataStream::Qt_4_0 && gradient_style) + style = Qt::NoBrush; + + s << style << b.color(); + if (b.style() == Qt::TexturePattern) { + s << b.texture(); + } else if (s.version() >= QDataStream::Qt_4_0 && gradient_style) { + const QGradient *gradient = b.gradient(); + int type_as_int = int(gradient->type()); + s << type_as_int; + if (s.version() >= QDataStream::Qt_4_3) { + s << int(gradient->spread()); + s << int(gradient->coordinateMode()); + } + + if (s.version() >= QDataStream::Qt_4_5) + s << int(gradient->interpolationMode()); + + if (sizeof(qreal) == sizeof(double)) { + s << gradient->stops(); + } else { + // ensure that we write doubles here instead of streaming the stops + // directly; otherwise, platforms that redefine qreal might generate + // data that cannot be read on other platforms. + QVector stops = gradient->stops(); + s << quint32(stops.size()); + for (int i = 0; i < stops.size(); ++i) { + const QGradientStop &stop = stops.at(i); + s << QPair(double(stop.first), stop.second); + } + } + + if (gradient->type() == QGradient::LinearGradient) { + s << static_cast(gradient)->start(); + s << static_cast(gradient)->finalStop(); + } else if (gradient->type() == QGradient::RadialGradient) { + s << static_cast(gradient)->center(); + s << static_cast(gradient)->focalPoint(); + s << (double) static_cast(gradient)->radius(); + } else { // type == Conical + s << static_cast(gradient)->center(); + s << (double) static_cast(gradient)->angle(); + } + } + if (s.version() >= QDataStream::Qt_4_3) + s << b.transform(); + return s; +} + +/*! + \fn QDataStream &operator>>(QDataStream &stream, QBrush &brush) + \relates QBrush + + Reads the given \a brush from the given \a stream and returns a + reference to the \a stream. + + \sa {Format of the QDataStream Operators} +*/ + +QDataStream &operator>>(QDataStream &s, QBrush &b) +{ + quint8 style; + QColor color; + s >> style; + s >> color; + if (style == Qt::TexturePattern) { + QPixmap pm; + s >> pm; + b = QBrush(color, pm); + } else if (style == Qt::LinearGradientPattern + || style == Qt::RadialGradientPattern + || style == Qt::ConicalGradientPattern) { + + int type_as_int; + QGradient::Type type; + QGradientStops stops; + QGradient::CoordinateMode cmode = QGradient::LogicalMode; + QGradient::Spread spread = QGradient::PadSpread; + QGradient::InterpolationMode imode = QGradient::ColorInterpolation; + + s >> type_as_int; + type = QGradient::Type(type_as_int); + if (s.version() >= QDataStream::Qt_4_3) { + s >> type_as_int; + spread = QGradient::Spread(type_as_int); + s >> type_as_int; + cmode = QGradient::CoordinateMode(type_as_int); + } + + if (s.version() >= QDataStream::Qt_4_5) { + s >> type_as_int; + imode = QGradient::InterpolationMode(type_as_int); + } + + if (sizeof(qreal) == sizeof(double)) { + s >> stops; + } else { + quint32 numStops; + double n; + QColor c; + + s >> numStops; + for (quint32 i = 0; i < numStops; ++i) { + s >> n >> c; + stops << QPair(n, c); + } + } + + if (type == QGradient::LinearGradient) { + QPointF p1, p2; + s >> p1; + s >> p2; + QLinearGradient lg(p1, p2); + lg.setStops(stops); + lg.setSpread(spread); + lg.setCoordinateMode(cmode); + lg.setInterpolationMode(imode); + b = QBrush(lg); + } else if (type == QGradient::RadialGradient) { + QPointF center, focal; + double radius; + s >> center; + s >> focal; + s >> radius; + QRadialGradient rg(center, radius, focal); + rg.setStops(stops); + rg.setSpread(spread); + rg.setCoordinateMode(cmode); + rg.setInterpolationMode(imode); + b = QBrush(rg); + } else { // type == QGradient::ConicalGradient + QPointF center; + double angle; + s >> center; + s >> angle; + QConicalGradient cg(center, angle); + cg.setStops(stops); + cg.setSpread(spread); + cg.setCoordinateMode(cmode); + cg.setInterpolationMode(imode); + b = QBrush(cg); + } + } else { + b = QBrush(color, (Qt::BrushStyle)style); + } + if (s.version() >= QDataStream::Qt_4_3) { + QTransform transform; + s >> transform; + b.setTransform(transform); + } + return s; +} +#endif // QT_NO_DATASTREAM + +/******************************************************************************* + * QGradient implementations + */ + + +/*! + \class QGradient + \ingroup painting + \ingroup shared + + \brief The QGradient class is used in combination with QBrush to + specify gradient fills. + + Qt currently supports three types of gradient fills: + + \list + \o \e Linear gradients interpolate colors between start and end points. + \o \e Radial gradients interpolate colors between a focal point and end + points on a circle surrounding it. + \o \e Conical gradients interpolate colors around a center point. + \endlist + + A gradient's type can be retrieved using the type() function. + Each of the types is represented by a subclass of QGradient: + + \table + \row + \o \inlineimage qgradient-linear.png + \o \inlineimage qgradient-radial.png + \o \inlineimage qgradient-conical.png + \header + \o QLinearGradient + \o QRadialGradient + \o QConicalGradient + \endtable + + The colors in a gradient is defined using stop points of the + QGradientStop type, i.e. a position and a color. Use the + setColorAt() function to define a single stop + point. Alternatively, use the setStops() function to define + several stop points in one go. Note that the latter function \e + replaces the current set of stop points. + + It is the gradient's complete set of stop points (accessible + through the stops() function) that describes how the gradient area + should be filled. If no stop points have been specified, a + gradient of black at 0 to white at 1 is used. + + A diagonal linear gradient from black at (100, 100) to white at + (200, 200) could be specified like this: + + \snippet doc/src/snippets/brush/brush.cpp 0 + + A gradient can have an arbitrary number of stop points. The + following would create a radial gradient starting with + red in the center, blue and then green on the edges: + + \snippet doc/src/snippets/brush/brush.cpp 1 + + It is possible to repeat or reflect the gradient outside its area + by specifiying the \l {QGradient::Spread}{spread method} using the + setSpread() function. The default is to pad the outside area with + the color at the closest stop point. The currently set \l + {QGradient::Spread}{spread method} can be retrieved using the + spread() function. The QGradient::Spread enum defines three + different methods: + + \table + \row + \o \inlineimage qradialgradient-pad.png + \o \inlineimage qradialgradient-repeat.png + \o \inlineimage qradialgradient-reflect.png + \row + \o \l {QGradient::PadSpread}{PadSpread} + \o \l {QGradient::RepeatSpread}{RepeatSpread} + \o \l {QGradient::ReflectSpread}{ReflectSpread} + \endtable + + Note that the setSpread() function only has effect for linear and + radial gradients. The reason is that the conical gradient is + closed by definition, i.e. the \e conical gradient fills the + entire circle from 0 - 360 degrees, while the boundary of a radial + or a linear gradient can be specified through its radius or final + stop points, respectively. + + The gradient coordinates can be specified in logical coordinates, + relative to device coordinates, or relative to object bounding box coordinates. + The \l {QGradient::CoordinateMode}{coordinate mode} can be set using the + setCoordinateMode() function. The default is LogicalMode, where the + gradient coordinates are specified in the same way as the object + coordinates. To retrieve the currently set \l {QGradient::CoordinateMode} + {coordinate mode} use coordinateMode(). + + + \sa {demos/gradients}{The Gradients Demo}, QBrush +*/ + +/*! + \internal +*/ +QGradient::QGradient() + : m_type(NoGradient), dummy(0) +{ +} + + +/*! + \enum QGradient::Type + + Specifies the type of gradient. + + \value LinearGradient Interpolates colors between start and end points + (QLinearGradient). + + \value RadialGradient Interpolate colors between a focal point and end + points on a circle surrounding it (QRadialGradient). + + \value ConicalGradient Interpolate colors around a center point (QConicalGradient). + \value NoGradient No gradient is used. + + \sa type() +*/ + +/*! + \enum QGradient::Spread + + Specifies how the area outside the gradient area should be + filled. + + \value PadSpread The area is filled with the closest stop + color. This is the default. + + \value RepeatSpread The gradient is repeated outside the gradient + area. + + \value ReflectSpread The gradient is reflected outside the + gradient area. + + \sa spread(), setSpread() +*/ + +/*! + \fn void QGradient::setSpread(Spread method) + + Specifies the spread \a method that should be used for this + gradient. + + Note that this function only has effect for linear and radial + gradients. + + \sa spread() +*/ + +/*! + \fn QGradient::Spread QGradient::spread() const + + Returns the spread method use by this gradient. The default is + PadSpread. + + \sa setSpread() +*/ + +/*! + \fn QGradient::Type QGradient::type() const + + Returns the type of gradient. +*/ + +/*! + \fn void QGradient::setColorAt(qreal position, const QColor &color) + + Creates a stop point at the given \a position with the given \a + color. The given \a position must be in the range 0 to 1. + + \sa setStops(), stops() +*/ + +void QGradient::setColorAt(qreal pos, const QColor &color) +{ + if (pos > 1 || pos < 0) { + qWarning("QGradient::setColorAt: Color position must be specified in the range 0 to 1"); + return; + } + + int index = 0; + while (index < m_stops.size() && m_stops.at(index).first < pos) ++index; + + if (index < m_stops.size() && m_stops.at(index).first == pos) + m_stops[index].second = color; + else + m_stops.insert(index, QGradientStop(pos, color)); +} + +/*! + \fn void QGradient::setStops(const QGradientStops &stopPoints) + + Replaces the current set of stop points with the given \a + stopPoints. The positions of the points must be in the range 0 to + 1, and must be sorted with the lowest point first. + + \sa setColorAt(), stops() +*/ +void QGradient::setStops(const QGradientStops &stops) +{ + m_stops.clear(); + for (int i=0; i> 2) & 0x01); +} + +/*! + \since 4.5 + \internal + + Sets the interpolation mode of this gradient to \a mode. The default + mode is ColorInterpolation. +*/ +void QGradient::setInterpolationMode(InterpolationMode mode) +{ + Q_DUMMY_ACCESSOR + i &= ~(1 << 2); + i |= (uint(mode) << 2); + dummy = p; +} + +#undef Q_DUMMY_ACCESSOR + +/*! + \fn bool QGradient::operator!=(const QGradient &gradient) const + \since 4.2 + + Returns true if the gradient is the same as the other \a gradient + specified; otherwise returns false. + + \sa operator==() +*/ + +/*! + Returns true if the gradient is the same as the other \a gradient + specified; otherwise returns false. + + \sa operator!=() +*/ +bool QGradient::operator==(const QGradient &gradient) const +{ + if (gradient.m_type != m_type + || gradient.m_spread != m_spread + || gradient.dummy != dummy) return false; + + if (m_type == LinearGradient) { + if (m_data.linear.x1 != gradient.m_data.linear.x1 + || m_data.linear.y1 != gradient.m_data.linear.y1 + || m_data.linear.x2 != gradient.m_data.linear.x2 + || m_data.linear.y2 != gradient.m_data.linear.y2) + return false; + } else if (m_type == RadialGradient) { + if (m_data.radial.cx != gradient.m_data.radial.cx + || m_data.radial.cy != gradient.m_data.radial.cy + || m_data.radial.fx != gradient.m_data.radial.fx + || m_data.radial.fy != gradient.m_data.radial.fy + || m_data.radial.radius != gradient.m_data.radial.radius) + return false; + } else { // m_type == ConicalGradient + if (m_data.conical.cx != gradient.m_data.conical.cx + || m_data.conical.cy != gradient.m_data.conical.cy + || m_data.conical.angle != gradient.m_data.conical.angle) + return false; + } + + return stops() == gradient.stops(); +} + +/*! + \internal +*/ +bool QGradient::operator==(const QGradient &gradient) +{ + return const_cast(this)->operator==(gradient); +} + +/*! + \class QLinearGradient + \ingroup painting + + \brief The QLinearGradient class is used in combination with QBrush to + specify a linear gradient brush. + + Linear gradients interpolate colors between start and end + points. Outside these points the gradient is either padded, + reflected or repeated depending on the currently set \l + {QGradient::Spread}{spread} method: + + \table + \row + \o \inlineimage qlineargradient-pad.png + \o \inlineimage qlineargradient-reflect.png + \o \inlineimage qlineargradient-repeat.png + \row + \o \l {QGradient::PadSpread}{PadSpread} (default) + \o \l {QGradient::ReflectSpread}{ReflectSpread} + \o \l {QGradient::RepeatSpread}{RepeatSpread} + \endtable + + The colors in a gradient is defined using stop points of the + QGradientStop type, i.e. a position and a color. Use the + QGradient::setColorAt() or the QGradient::setStops() function to + define the stop points. It is the gradient's complete set of stop + points that describes how the gradient area should be filled. If + no stop points have been specified, a gradient of black at 0 to + white at 1 is used. + + In addition to the functions inherited from QGradient, the + QLinearGradient class provides the finalStop() function which + returns the final stop point of the gradient, and the start() + function returning the start point of the gradient. + + \sa QRadialGradient, QConicalGradient, {demos/gradients}{The + Gradients Demo} +*/ + + +/*! + Constructs a default linear gradient with interpolation area + between (0, 0) and (1, 1). + + \sa QGradient::setColorAt(), setStart(), setFinalStop() +*/ + +QLinearGradient::QLinearGradient() +{ + m_type = LinearGradient; + m_spread = PadSpread; + m_data.linear.x1 = 0; + m_data.linear.y1 = 0; + m_data.linear.x2 = 1; + m_data.linear.y2 = 1; +} + + +/*! + Constructs a linear gradient with interpolation area between the + given \a start point and \a finalStop. + + \note The expected parameter values are in pixels. + + \sa QGradient::setColorAt(), QGradient::setStops() +*/ +QLinearGradient::QLinearGradient(const QPointF &start, const QPointF &finalStop) +{ + m_type = LinearGradient; + m_spread = PadSpread; + m_data.linear.x1 = start.x(); + m_data.linear.y1 = start.y(); + m_data.linear.x2 = finalStop.x(); + m_data.linear.y2 = finalStop.y(); +} + +/*! + \fn QLinearGradient::QLinearGradient(qreal x1, qreal y1, qreal x2, qreal y2) + + Constructs a linear gradient with interpolation area between (\a + x1, \a y1) and (\a x2, \a y2). + + \note The expected parameter values are in pixels. + + \sa QGradient::setColorAt(), QGradient::setStops() +*/ +QLinearGradient::QLinearGradient(qreal xStart, qreal yStart, qreal xFinalStop, qreal yFinalStop) +{ + m_type = LinearGradient; + m_spread = PadSpread; + m_data.linear.x1 = xStart; + m_data.linear.y1 = yStart; + m_data.linear.x2 = xFinalStop; + m_data.linear.y2 = yFinalStop; +} + + +/*! + Returns the start point of this linear gradient in logical coordinates. + + \sa QGradient::stops() +*/ + +QPointF QLinearGradient::start() const +{ + Q_ASSERT(m_type == LinearGradient); + return QPointF(m_data.linear.x1, m_data.linear.y1); +} + +/*! + \fn void QLinearGradient::setStart(qreal x, qreal y) + \overload + \since 4.2 + + Sets the start point of this linear gradient in logical + coordinates to \a x, \a y. + + \sa start() +*/ + +/*! + \since 4.2 + + Sets the start point of this linear gradient in logical + coordinates to \a start. + + \sa start() +*/ + +void QLinearGradient::setStart(const QPointF &start) +{ + Q_ASSERT(m_type == LinearGradient); + m_data.linear.x1 = start.x(); + m_data.linear.y1 = start.y(); +} + + +/*! + \fn void QLinearGradient::setFinalStop(qreal x, qreal y) + \overload + \since 4.2 + + Sets the final stop point of this linear gradient in logical + coordinates to \a x, \a y. + + \sa start() +*/ + +/*! + Returns the final stop point of this linear gradient in logical coordinates. + + \sa QGradient::stops() +*/ + +QPointF QLinearGradient::finalStop() const +{ + Q_ASSERT(m_type == LinearGradient); + return QPointF(m_data.linear.x2, m_data.linear.y2); +} + + +/*! + \since 4.2 + + Sets the final stop point of this linear gradient in logical + coordinates to \a stop. + + \sa finalStop() +*/ + +void QLinearGradient::setFinalStop(const QPointF &stop) +{ + Q_ASSERT(m_type == LinearGradient); + m_data.linear.x2 = stop.x(); + m_data.linear.y2 = stop.y(); +} + + +/*! + \class QRadialGradient + \ingroup painting + + \brief The QRadialGradient class is used in combination with QBrush to + specify a radial gradient brush. + + Radial gradients interpolate colors between a focal point and end + points on a circle surrounding it. Outside the end points the + gradient is either padded, reflected or repeated depending on the + currently set \l {QGradient::Spread}{spread} method: + + \table + \row + \o \inlineimage qradialgradient-pad.png + \o \inlineimage qradialgradient-reflect.png + \o \inlineimage qradialgradient-repeat.png + \row + \o \l {QGradient::PadSpread}{PadSpread} (default) + \o \l {QGradient::ReflectSpread}{ReflectSpread} + \o \l {QGradient::RepeatSpread}{RepeatSpread} + \endtable + + The colors in a gradient is defined using stop points of the + QGradientStop type, i.e. a position and a color. Use the + QGradient::setColorAt() or the QGradient::setStops() function to + define the stop points. It is the gradient's complete set of stop + points that describes how the gradient area should be filled. If + no stop points have been specified, a gradient of black at 0 to + white at 1 is used. + + In addition to the functions inherited from QGradient, the + QRadialGradient class provides the center(), focalPoint() and + radius() functions returning the gradient's center, focal point + and radius respectively. + + \sa QLinearGradient, QConicalGradient, {demos/gradients}{The + Gradients Demo} +*/ + +static QPointF qt_radial_gradient_adapt_focal_point(const QPointF ¢er, + qreal radius, + const QPointF &focalPoint) +{ + // We have a one pixel buffer zone to avoid numerical instability on the + // circle border + //### this is hacky because technically we should adjust based on current matrix + const qreal compensated_radius = radius - radius * 0.001; + QLineF line(center, focalPoint); + if (line.length() > (compensated_radius)) + line.setLength(compensated_radius); + return line.p2(); +} + +/*! + Constructs a radial gradient with the given \a center, \a + radius and \a focalPoint. + + \sa QGradient::setColorAt(), QGradient::setStops() +*/ + +QRadialGradient::QRadialGradient(const QPointF ¢er, qreal radius, const QPointF &focalPoint) +{ + m_type = RadialGradient; + m_spread = PadSpread; + m_data.radial.cx = center.x(); + m_data.radial.cy = center.y(); + m_data.radial.radius = radius; + + QPointF adapted_focal = qt_radial_gradient_adapt_focal_point(center, radius, focalPoint); + m_data.radial.fx = adapted_focal.x(); + m_data.radial.fy = adapted_focal.y(); +} + +/*! + Constructs a radial gradient with the given \a center, \a + radius and the focal point in the circle center. + + \sa QGradient::setColorAt(), QGradient::setStops() +*/ +QRadialGradient::QRadialGradient(const QPointF ¢er, qreal radius) +{ + m_type = RadialGradient; + m_spread = PadSpread; + m_data.radial.cx = center.x(); + m_data.radial.cy = center.y(); + m_data.radial.radius = radius; + m_data.radial.fx = center.x(); + m_data.radial.fy = center.y(); +} + + +/*! + Constructs a radial gradient with the given center (\a cx, \a cy), + \a radius and focal point (\a fx, \a fy). + + \sa QGradient::setColorAt(), QGradient::setStops() +*/ + +QRadialGradient::QRadialGradient(qreal cx, qreal cy, qreal radius, qreal fx, qreal fy) +{ + m_type = RadialGradient; + m_spread = PadSpread; + m_data.radial.cx = cx; + m_data.radial.cy = cy; + m_data.radial.radius = radius; + + QPointF adapted_focal = qt_radial_gradient_adapt_focal_point(QPointF(cx, cy), + radius, + QPointF(fx, fy)); + + m_data.radial.fx = adapted_focal.x(); + m_data.radial.fy = adapted_focal.y(); +} + +/*! + Constructs a radial gradient with the center at (\a cx, \a cy) and the + specified \a radius. The focal point lies at the center of the circle. + + \sa QGradient::setColorAt(), QGradient::setStops() + */ +QRadialGradient::QRadialGradient(qreal cx, qreal cy, qreal radius) +{ + m_type = RadialGradient; + m_spread = PadSpread; + m_data.radial.cx = cx; + m_data.radial.cy = cy; + m_data.radial.radius = radius; + m_data.radial.fx = cx; + m_data.radial.fy = cy; +} + + +/*! + Constructs a radial gradient with the center and focal point at + (0, 0) with a radius of 1. +*/ +QRadialGradient::QRadialGradient() +{ + m_type = RadialGradient; + m_spread = PadSpread; + m_data.radial.cx = 0; + m_data.radial.cy = 0; + m_data.radial.radius = 1; + m_data.radial.fx = 0; + m_data.radial.fy = 0; +} + + +/*! + Returns the center of this radial gradient in logical coordinates. + + \sa QGradient::stops() +*/ + +QPointF QRadialGradient::center() const +{ + Q_ASSERT(m_type == RadialGradient); + return QPointF(m_data.radial.cx, m_data.radial.cy); +} + +/*! + \fn void QRadialGradient::setCenter(qreal x, qreal y) + \overload + \since 4.2 + + Sets the center of this radial gradient in logical coordinates + to (\a x, \a y). + + \sa center() +*/ + +/*! + \since 4.2 + + Sets the center of this radial gradient in logical coordinates + to \a center. + + \sa center() +*/ + +void QRadialGradient::setCenter(const QPointF ¢er) +{ + Q_ASSERT(m_type == RadialGradient); + m_data.radial.cx = center.x(); + m_data.radial.cy = center.y(); +} + + +/*! + Returns the radius of this radial gradient in logical coordinates. + + \sa QGradient::stops() +*/ + +qreal QRadialGradient::radius() const +{ + Q_ASSERT(m_type == RadialGradient); + return m_data.radial.radius; +} + + +/*! + \since 4.2 + + Sets the radius of this radial gradient in logical coordinates + to \a radius +*/ +void QRadialGradient::setRadius(qreal radius) +{ + Q_ASSERT(m_type == RadialGradient); + m_data.radial.radius = radius; +} + + +/*! + Returns the focal point of this radial gradient in logical + coordinates. + + \sa QGradient::stops() +*/ + +QPointF QRadialGradient::focalPoint() const +{ + Q_ASSERT(m_type == RadialGradient); + return QPointF(m_data.radial.fx, m_data.radial.fy); +} + +/*! + \fn void QRadialGradient::setFocalPoint(qreal x, qreal y) + \overload + \since 4.2 + + Sets the focal point of this radial gradient in logical + coordinates to (\a x, \a y). + + \sa focalPoint() +*/ + +/*! + \since 4.2 + + Sets the focal point of this radial gradient in logical + coordinates to \a focalPoint. + + \sa focalPoint() +*/ + +void QRadialGradient::setFocalPoint(const QPointF &focalPoint) +{ + Q_ASSERT(m_type == RadialGradient); + m_data.radial.fx = focalPoint.x(); + m_data.radial.fy = focalPoint.y(); +} + + + +/*! + \class QConicalGradient + \ingroup painting + + \brief The QConicalGradient class is used in combination with QBrush to + specify a conical gradient brush. + + Conical gradients interpolate interpolate colors counter-clockwise + around a center point. + + \image qconicalgradient.png + + The colors in a gradient is defined using stop points of the + QGradientStop type, i.e. a position and a color. Use the + QGradient::setColorAt() or the QGradient::setStops() function to + define the stop points. It is the gradient's complete set of stop + points that describes how the gradient area should be filled. If + no stop points have been specified, a gradient of black at 0 to + white at 1 is used. + + In addition to the functions inherited from QGradient, the + QConicalGradient class provides the angle() and center() functions + returning the start angle and center of the gradient. + + Note that the setSpread() function has no effect for conical + gradients. The reason is that the conical gradient is closed by + definition, i.e. the conical gradient fills the entire circle from + 0 - 360 degrees, while the boundary of a radial or a linear + gradient can be specified through its radius or final stop points, + respectively. + + \sa QLinearGradient, QRadialGradient, {demos/gradients}{The + Gradients Demo} +*/ + + +/*! + Constructs a conical gradient with the given \a center, starting + the interpolation at the given \a angle. The \a angle must be + specified in degrees between 0 and 360. + + \sa QGradient::setColorAt(), QGradient::setStops() +*/ + +QConicalGradient::QConicalGradient(const QPointF ¢er, qreal angle) +{ + m_type = ConicalGradient; + m_spread = PadSpread; + m_data.conical.cx = center.x(); + m_data.conical.cy = center.y(); + m_data.conical.angle = angle; +} + + +/*! + Constructs a conical gradient with the given center (\a cx, \a + cy), starting the interpolation at the given \a angle. The angle + must be specified in degrees between 0 and 360. + + \sa QGradient::setColorAt(), QGradient::setStops() +*/ + +QConicalGradient::QConicalGradient(qreal cx, qreal cy, qreal angle) +{ + m_type = ConicalGradient; + m_spread = PadSpread; + m_data.conical.cx = cx; + m_data.conical.cy = cy; + m_data.conical.angle = angle; +} + + +/*! + Constructs a conical with center at (0, 0) starting the + interpolation at angle 0. + + \sa QGradient::setColorAt(), setCenter(), setAngle() +*/ + +QConicalGradient::QConicalGradient() +{ + m_type = ConicalGradient; + m_spread = PadSpread; + m_data.conical.cx = 0; + m_data.conical.cy = 0; + m_data.conical.angle = 0; +} + + +/*! + Returns the center of the conical gradient in logical + coordinates. + + \sa stops() +*/ + +QPointF QConicalGradient::center() const +{ + Q_ASSERT(m_type == ConicalGradient); + return QPointF(m_data.conical.cx, m_data.conical.cy); +} + + +/*! + \fn void QConicalGradient::setCenter(qreal x, qreal y) + + \overload + + Sets the center of this conical gradient in logical coordinates to + (\a x, \a y). + + \sa center() +*/ + +/*! + Sets the center of this conical gradient in logical coordinates to + \a center. + + \sa center() +*/ + +void QConicalGradient::setCenter(const QPointF ¢er) +{ + Q_ASSERT(m_type == ConicalGradient); + m_data.conical.cx = center.x(); + m_data.conical.cy = center.y(); +} + +/*! + Returns the start angle of the conical gradient in logical + coordinates. + + \sa stops() +*/ + +qreal QConicalGradient::angle() const +{ + Q_ASSERT(m_type == ConicalGradient); + return m_data.conical.angle; +} + + +/*! + \since 4.2 + + Sets \a angle to be the start angle for this conical gradient in + logical coordinates. + + \sa angle() +*/ + +void QConicalGradient::setAngle(qreal angle) +{ + Q_ASSERT(m_type == ConicalGradient); + m_data.conical.angle = angle; +} + +/*! + \typedef QGradientStop + \relates QGradient + + Typedef for QPair<\l qreal, QColor>. +*/ + +/*! + \typedef QGradientStops + \relates QGradient + + Typedef for QVector. +*/ + +/*! + \typedef QBrush::DataPtr + \internal +*/ + +/*! + \fn DataPtr &QBrush::data_ptr() + \internal +*/ + + +/*! + \fn bool QBrush::isDetached() const + \internal +*/ + +/*! + \fn QTransform QBrush::transform() const + \since 4.3 + + Returns the current transformation matrix for the brush. + + \sa setTransform() +*/ + +QT_END_NAMESPACE