/****************************************************************************
**
** Copyright (C) 2010 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.
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** $QT_END_LICENSE$
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****************************************************************************/
#include "qgtkstyle.h"
#if !defined(QT_NO_STYLE_GTK)
#include <private/qapplication_p.h>
#include <QtCore/QLibrary>
#include <QtCore/QSettings>
#include <QtGui/QDialogButtonBox>
#include <QtGui/QStatusBar>
#include <QtGui/QLineEdit>
#include <QtGui/QWidget>
#include <QtGui/QListView>
#include <QtGui/QApplication>
#include <QtGui/QStyleOption>
#include <QtGui/QPushButton>
#include <QtGui/QPainter>
#include <QtGui/QMainWindow>
#include <QtGui/QToolBar>
#include <QtGui/QHeaderView>
#include <QtGui/QMenuBar>
#include <QtGui/QComboBox>
#include <QtGui/QSpinBox>
#include <QtGui/QScrollBar>
#include <QtGui/QAbstractButton>
#include <QtGui/QToolButton>
#include <QtGui/QGroupBox>
#include <QtGui/QRadioButton>
#include <QtGui/QCheckBox>
#include <QtGui/QTreeView>
#include <qpixmapcache.h>
#undef signals // Collides with GTK stymbols
#include <private/qgtkpainter_p.h>
#include <private/qstylehelper_p.h>
#include <private/qgtkstyle_p.h>
#include <private/qcleanlooksstyle_p.h>
QT_BEGIN_NAMESPACE
static const char * const dock_widget_close_xpm[] =
{
"11 13 5 1",
" c None",
". c #D5CFCB",
"+ c #6C6A67",
"@ c #6C6A67",
"$ c #B5B0AC",
" ",
" @@@@@@@@@ ",
"@+ +@",
"@ +@ @+ @",
"@ @@@ @@@ @",
"@ @@@@@ @",
"@ @@@ @",
"@ @@@@@ @",
"@ @@@ @@@ @",
"@ +@ @+ @",
"@+ +@",
" @@@@@@@@@ ",
" "
};
static const char * const dock_widget_restore_xpm[] =
{
"11 13 5 1",
" c None",
". c #D5CFCB",
"+ c #6C6A67",
"@ c #6C6A67",
"# c #6C6A67",
" ",
" @@@@@@@@@ ",
"@+ +@",
"@ #@@@# @",
"@ @ @ @",
"@ #@@@# @ @",
"@ @ @ @ @",
"@ @ @@@ @",
"@ @ @ @",
"@ #@@@@ @",
"@+ +@",
" @@@@@@@@@ ",
" "
};
static const int groupBoxBottomMargin = 2; // space below the groupbox
static const int groupBoxTitleMargin = 6; // space between contents and title
static const int groupBoxTopMargin = 2;
/*!
Returns the configuration string for \a value.
Returns \a fallback if \a value is not found.
*/
QString QGtkStyle::getGConfString(const QString &value, const QString &fallback)
{
return QGtkStylePrivate::getGConfString(value, fallback);
}
/*!
Returns the configuration boolean for \a key.
Returns \a fallback if \a key is not found.
*/
bool QGtkStyle::getGConfBool(const QString &key, bool fallback)
{
return QGtkStylePrivate::getGConfBool(key, fallback);
}
static QColor mergedColors(const QColor &colorA, const QColor &colorB, int factor = 50)
{
const int maxFactor = 100;
QColor tmp = colorA;
tmp.setRed((tmp.red() * factor) / maxFactor + (colorB.red() * (maxFactor - factor)) / maxFactor);
tmp.setGreen((tmp.green() * factor) / maxFactor + (colorB.green() * (maxFactor - factor)) / maxFactor);
tmp.setBlue((tmp.blue() * factor) / maxFactor + (colorB.blue() * (maxFactor - factor)) / maxFactor);
return tmp;
}
static GdkColor fromQColor(const QColor &color)
{
GdkColor retval;
retval.red = color.red() * 255;
retval.green = color.green() * 255;
retval.blue = color.blue() * 255;
return retval;
}
/*!
\class QGtkStyle
\brief The QGtkStyle class provides a widget style rendered by GTK+
\since 4.5
The QGtkStyle style provides a look and feel that integrates well
into GTK-based desktop environments such as the XFCe and GNOME.
It does this by making use of the GTK+ theme engine, ensuring
that Qt applications look and feel native on these platforms.
Note: The style requires GTK+ version 2.10 or later.
The Qt3-based "Qt" GTK+ theme engine will not work with QGtkStyle.
\sa {Cleanlooks Style Widget Gallery}, QWindowsXPStyle, QMacStyle, QWindowsStyle,
QCDEStyle, QMotifStyle, QPlastiqueStyle, QCleanlooksStyle
*/
/*!
Constructs a QGtkStyle object.
*/
QGtkStyle::QGtkStyle()
: QCleanlooksStyle(*new QGtkStylePrivate)
{
Q_D(QGtkStyle);
d->init();
}
/*!
\internal
Constructs a QGtkStyle object.
*/
QGtkStyle::QGtkStyle(QGtkStylePrivate &dd)
: QCleanlooksStyle(dd)
{
Q_D(QGtkStyle);
d->init();
}
/*!
Destroys the QGtkStyle object.
*/
QGtkStyle::~QGtkStyle()
{
}
/*!
\reimp
*/
QPalette QGtkStyle::standardPalette() const
{
Q_D(const QGtkStyle);
QPalette palette = QCleanlooksStyle::standardPalette();
if (d->isThemeAvailable()) {
GtkStyle *style = d->gtkStyle();
GtkWidget *gtkButton = d->gtkWidget(QLS("GtkButton"));
GtkWidget *gtkEntry = d->getTextColorWidget();
GdkColor gdkBg, gdkBase, gdkText, gdkForeground, gdkSbg, gdkSfg;
QColor bg, base, text, fg, highlight, highlightText;
gdkBg = style->bg[GTK_STATE_NORMAL];
gdkForeground = gtkButton->style->fg[GTK_STATE_NORMAL];
// Our base and selected color is primarily used for text
// so we assume a gtkEntry will have the most correct value
gdkBase = gtkEntry->style->base[GTK_STATE_NORMAL];
gdkText = gtkEntry->style->text[GTK_STATE_NORMAL];
gdkSbg = gtkEntry->style->base[GTK_STATE_SELECTED];
gdkSfg = gtkEntry->style->text[GTK_STATE_SELECTED];
bg = QColor(gdkBg.red>>8, gdkBg.green>>8, gdkBg.blue>>8);
text = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
fg = QColor(gdkForeground.red>>8, gdkForeground.green>>8, gdkForeground.blue>>8);
base = QColor(gdkBase.red>>8, gdkBase.green>>8, gdkBase.blue>>8);
highlight = QColor(gdkSbg.red>>8, gdkSbg.green>>8, gdkSbg.blue>>8);
highlightText = QColor(gdkSfg.red>>8, gdkSfg.green>>8, gdkSfg.blue>>8);
palette.setColor(QPalette::HighlightedText, highlightText);
palette.setColor(QPalette::Light, bg.lighter(125));
palette.setColor(QPalette::Shadow, bg.darker(130));
palette.setColor(QPalette::Dark, bg.darker(120));
palette.setColor(QPalette::Text, text);
palette.setColor(QPalette::WindowText, fg);
palette.setColor(QPalette::ButtonText, fg);
palette.setColor(QPalette::Base, base);
QColor alternateRowColor = palette.base().color().lighter(93); // ref gtkstyle.c draw_flat_box
GtkWidget *gtkTreeView = d->gtkWidget(QLS("GtkTreeView"));
GdkColor *gtkAltBase = NULL;
d->gtk_widget_style_get(gtkTreeView, "odd-row-color", >kAltBase, NULL);
if (gtkAltBase) {
alternateRowColor = QColor(gtkAltBase->red>>8, gtkAltBase->green>>8, gtkAltBase->blue>>8);
d->gdk_color_free(gtkAltBase);
}
palette.setColor(QPalette::AlternateBase, alternateRowColor);
palette.setColor(QPalette::Window, bg);
palette.setColor(QPalette::Button, bg);
palette.setColor(QPalette::Background, bg);
QColor disabled((fg.red() + bg.red()) / 2,
(fg.green() + bg.green())/ 2,
(fg.blue() + bg.blue()) / 2);
palette.setColor(QPalette::Disabled, QPalette::Text, disabled);
palette.setColor(QPalette::Disabled, QPalette::WindowText, disabled);
palette.setColor(QPalette::Disabled, QPalette::Foreground, disabled);
palette.setColor(QPalette::Disabled, QPalette::ButtonText, disabled);
palette.setColor(QPalette::Highlight, highlight);
// calculate disabled colors by removing saturation
highlight.setHsv(highlight.hue(), 0, highlight.value(), highlight.alpha());
highlightText.setHsv(highlightText.hue(), 0, highlightText.value(), highlightText.alpha());
palette.setColor(QPalette::Disabled, QPalette::Highlight, highlight);
palette.setColor(QPalette::Disabled, QPalette::HighlightedText, highlightText);
style = d->gtk_rc_get_style_by_paths(d->gtk_settings_get_default(), "gtk-tooltips", "GtkWindow",
d->gtk_window_get_type());
if (style) {
gdkText = style->fg[GTK_STATE_NORMAL];
text = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
palette.setColor(QPalette::ToolTipText, text);
}
}
return palette;
}
/*!
\reimp
*/
void QGtkStyle::polish(QPalette &palette)
{
Q_D(QGtkStyle);
// QCleanlooksStyle will alter the palette, hence we do
// not want to polish the palette unless we are using it as
// the fallback
if (!d->isThemeAvailable())
QCleanlooksStyle::polish(palette);
else
palette = palette.resolve(standardPalette());
}
/*!
\reimp
*/
void QGtkStyle::polish(QApplication *app)
{
Q_D(QGtkStyle);
QCleanlooksStyle::polish(app);
// Custom fonts and palettes with QtConfig are intentionally
// not supported as these should be entirely determined by
// current Gtk settings
if (app->desktopSettingsAware() && d->isThemeAvailable()) {
QApplicationPrivate::setSystemPalette(standardPalette());
QApplicationPrivate::setSystemFont(d->getThemeFont());
d->applyCustomPaletteHash();
if (!d->isKDE4Session()) {
qt_filedialog_open_filename_hook = &QGtkStylePrivate::openFilename;
qt_filedialog_save_filename_hook = &QGtkStylePrivate::saveFilename;
qt_filedialog_open_filenames_hook = &QGtkStylePrivate::openFilenames;
qt_filedialog_existing_directory_hook = &QGtkStylePrivate::openDirectory;
}
}
}
/*!
\reimp
*/
void QGtkStyle::unpolish(QApplication *app)
{
Q_D(QGtkStyle);
QCleanlooksStyle::unpolish(app);
QPixmapCache::clear();
if (app->desktopSettingsAware() && d->isThemeAvailable()
&& !d->isKDE4Session()) {
qt_filedialog_open_filename_hook = 0;
qt_filedialog_save_filename_hook = 0;
qt_filedialog_open_filenames_hook = 0;
qt_filedialog_existing_directory_hook = 0;
}
}
/*!
\reimp
*/
void QGtkStyle::polish(QWidget *widget)
{
Q_D(QGtkStyle);
QCleanlooksStyle::polish(widget);
if (!d->isThemeAvailable())
return;
if (qobject_cast<QAbstractButton*>(widget)
|| qobject_cast<QToolButton*>(widget)
|| qobject_cast<QComboBox*>(widget)
|| qobject_cast<QGroupBox*>(widget)
|| qobject_cast<QScrollBar*>(widget)
|| qobject_cast<QSlider*>(widget)
|| qobject_cast<QAbstractSpinBox*>(widget)
|| qobject_cast<QSpinBox*>(widget)
|| qobject_cast<QHeaderView*>(widget))
widget->setAttribute(Qt::WA_Hover);
else if (QTreeView *tree = qobject_cast<QTreeView *> (widget))
tree->viewport()->setAttribute(Qt::WA_Hover);
}
/*!
\reimp
*/
void QGtkStyle::unpolish(QWidget *widget)
{
QCleanlooksStyle::unpolish(widget);
}
/*!
\reimp
*/
int QGtkStyle::pixelMetric(PixelMetric metric,
const QStyleOption *option,
const QWidget *widget) const
{
Q_D(const QGtkStyle);
if (!d->isThemeAvailable())
return QCleanlooksStyle::pixelMetric(metric, option, widget);
switch (metric) {
case PM_DefaultFrameWidth:
if (qobject_cast<const QFrame*>(widget)) {
if (GtkStyle *style =
d->gtk_rc_get_style_by_paths(d->gtk_settings_get_default(),
"*.GtkScrolledWindow",
"*.GtkScrolledWindow",
d->gtk_window_get_type()))
return qMax(style->xthickness, style->ythickness);
}
return 2;
case PM_MenuButtonIndicator:
return 20;
case PM_TabBarBaseOverlap:
return 1;
case PM_ToolBarSeparatorExtent:
return 11;
case PM_ToolBarFrameWidth:
return 1;
case PM_ToolBarItemSpacing:
return 0;
case PM_ButtonShiftHorizontal: {
GtkWidget *gtkButton = d->gtkWidget(QLS("GtkButton"));
guint horizontal_shift;
d->gtk_widget_style_get(gtkButton, "child-displacement-x", &horizontal_shift, NULL);
return horizontal_shift;
}
case PM_ButtonShiftVertical: {
GtkWidget *gtkButton = d->gtkWidget(QLS("GtkButton"));
guint vertical_shift;
d->gtk_widget_style_get(gtkButton, "child-displacement-y", &vertical_shift, NULL);
return vertical_shift;
}
case PM_MenuBarPanelWidth:
return 0;
case PM_MenuPanelWidth: {
GtkWidget *gtkMenu = d->gtkWidget(QLS("GtkMenu"));
guint horizontal_padding = 0;
// horizontal-padding is used by Maemo to get thicker borders
if (!d->gtk_check_version(2, 10, 0))
d->gtk_widget_style_get(gtkMenu, "horizontal-padding", &horizontal_padding, NULL);
int padding = qMax<int>(gtkMenu->style->xthickness, horizontal_padding);
return padding;
}
case PM_ButtonIconSize: {
int retVal = 24;
GtkSettings *settings = d->gtk_settings_get_default();
gchararray icon_sizes;
g_object_get(settings, "gtk-icon-sizes", &icon_sizes, NULL);
QStringList values = QString(QLS(icon_sizes)).split(QLatin1Char(':'));
g_free(icon_sizes);
QChar splitChar(QLatin1Char(','));
foreach (const QString &value, values) {
if (value.startsWith(QLS("gtk-button="))) {
QString iconSize = value.right(value.size() - 11);
if (iconSize.contains(splitChar))
retVal = iconSize.split(splitChar)[0].toInt();
break;
}
}
return retVal;
}
case PM_MenuVMargin:
case PM_MenuHMargin:
return 0;
case PM_DockWidgetTitleMargin:
return 0;
case PM_DockWidgetTitleBarButtonMargin:
return 5;
case PM_TabBarTabVSpace:
return 12;
case PM_TabBarTabHSpace:
return 14;
case PM_TabBarTabShiftVertical:
return 2;
case PM_ToolBarHandleExtent:
return 9;
case PM_SplitterWidth:
return 6;
case PM_SliderThickness:
case PM_SliderControlThickness: {
GtkWidget *gtkScale = d->gtkWidget(QLS("GtkHScale"));
gint val;
d->gtk_widget_style_get(gtkScale, "slider-width", &val, NULL);
if (metric == PM_SliderControlThickness)
return val + 2*gtkScale->style->ythickness;
return val;
}
case PM_ScrollBarExtent: {
gint sliderLength;
gint trough_border;
GtkWidget *hScrollbar = d->gtkWidget(QLS("GtkHScrollbar"));
d->gtk_widget_style_get(hScrollbar,
"trough-border", &trough_border,
"slider-width", &sliderLength,
NULL);
return sliderLength + trough_border*2;
}
case PM_ScrollBarSliderMin:
return 34;
case PM_SliderLength:
gint val;
d->gtk_widget_style_get(d->gtkWidget(QLS("GtkHScale")), "slider-length", &val, NULL);
return val;
case PM_ExclusiveIndicatorWidth:
case PM_ExclusiveIndicatorHeight:
case PM_IndicatorWidth:
case PM_IndicatorHeight: {
GtkWidget *gtkCheckButton = d->gtkWidget(QLS("GtkCheckButton"));
gint size, spacing;
d->gtk_widget_style_get(gtkCheckButton, "indicator-spacing", &spacing, "indicator-size", &size, NULL);
return size + 2 * spacing;
}
case PM_MenuBarVMargin: {
GtkWidget *gtkMenubar = d->gtkWidget(QLS("GtkMenuBar"));
return qMax(0, gtkMenubar->style->ythickness);
}
case PM_ScrollView_ScrollBarSpacing:
{
gint spacing = 3;
GtkWidget *gtkScrollWindow = d->gtkWidget(QLS("GtkScrolledWindow"));
Q_ASSERT(gtkScrollWindow);
d->gtk_widget_style_get(gtkScrollWindow, "scrollbar-spacing", &spacing, NULL);
return spacing;
}
case PM_SubMenuOverlap: {
gint offset = 0;
GtkWidget *gtkMenu = d->gtkWidget(QLS("GtkMenu"));
d->gtk_widget_style_get(gtkMenu, "horizontal-offset", &offset, NULL);
return offset;
}
default:
return QCleanlooksStyle::pixelMetric(metric, option, widget);
}
}
/*!
\reimp
*/
int QGtkStyle::styleHint(StyleHint hint, const QStyleOption *option, const QWidget *widget,
QStyleHintReturn *returnData = 0) const
{
Q_D(const QGtkStyle);
if (!d->isThemeAvailable())
return QCleanlooksStyle::styleHint(hint, option, widget, returnData);
switch (hint) {
case SH_DialogButtonLayout: {
int ret = QDialogButtonBox::GnomeLayout;
gboolean alternateOrder = 0;
GtkSettings *settings = d->gtk_settings_get_default();
g_object_get(settings, "gtk-alternative-button-order", &alternateOrder, NULL);
if (alternateOrder)
ret = QDialogButtonBox::WinLayout;
return ret;
}
break;
case SH_ToolButtonStyle:
{
if (d->isKDE4Session())
return QCleanlooksStyle::styleHint(hint, option, widget, returnData);
GtkWidget *gtkToolbar = d->gtkWidget(QLS("GtkToolbar"));
GtkToolbarStyle toolbar_style = GTK_TOOLBAR_ICONS;
g_object_get(gtkToolbar, "toolbar-style", &toolbar_style, NULL);
switch (toolbar_style) {
case GTK_TOOLBAR_TEXT:
return Qt::ToolButtonTextOnly;
case GTK_TOOLBAR_BOTH:
return Qt::ToolButtonTextUnderIcon;
case GTK_TOOLBAR_BOTH_HORIZ:
return Qt::ToolButtonTextBesideIcon;
case GTK_TOOLBAR_ICONS:
default:
return Qt::ToolButtonIconOnly;
}
}
break;
case SH_SpinControls_DisableOnBounds:
return int(true);
case SH_DitherDisabledText:
return int(false);
case SH_ComboBox_Popup: {
GtkWidget *gtkComboBox = d->gtkWidget(QLS("GtkComboBox"));
gboolean appears_as_list;
d->gtk_widget_style_get((GtkWidget*)gtkComboBox, "appears-as-list", &appears_as_list, NULL);
return appears_as_list ? 0 : 1;
}
case SH_MenuBar_AltKeyNavigation:
return int(false);
case SH_EtchDisabledText:
return int(false);
case SH_Menu_SubMenuPopupDelay: {
gint delay = 225;
GtkSettings *settings = d->gtk_settings_get_default();
g_object_get(settings, "gtk-menu-popup-delay", &delay, NULL);
return delay;
}
case SH_ScrollView_FrameOnlyAroundContents: {
gboolean scrollbars_within_bevel = false;
if (widget && widget->isWindow())
scrollbars_within_bevel = true;
else if (!d->gtk_check_version(2, 12, 0)) {
GtkWidget *gtkScrollWindow = d->gtkWidget(QLS("GtkScrolledWindow"));
d->gtk_widget_style_get(gtkScrollWindow, "scrollbars-within-bevel", &scrollbars_within_bevel, NULL);
}
return !scrollbars_within_bevel;
}
case SH_DialogButtonBox_ButtonsHaveIcons: {
static bool buttonsHaveIcons = d->getGConfBool(QLS("/desktop/gnome/interface/buttons_have_icons"));
return buttonsHaveIcons;
}
case SH_UnderlineShortcut: {
gboolean underlineShortcut = true;
if (!d->gtk_check_version(2, 12, 0)) {
GtkSettings *settings = d->gtk_settings_get_default();
g_object_get(settings, "gtk-enable-mnemonics", &underlineShortcut, NULL);
}
return underlineShortcut;
}
default:
return QCleanlooksStyle::styleHint(hint, option, widget, returnData);
}
}
/*!
\reimp
*/
void QGtkStyle::drawPrimitive(PrimitiveElement element,
const QStyleOption *option,
QPainter *painter,
const QWidget *widget) const
{
Q_D(const QGtkStyle);
if (!d->isThemeAvailable()) {
QCleanlooksStyle::drawPrimitive(element, option, painter, widget);
return;
}
GtkStyle* style = d->gtkStyle();
QGtkPainter gtkPainter(painter);
switch (element) {
case PE_Frame: {
if (widget && widget->inherits("QComboBoxPrivateContainer")){
QStyleOption copy = *option;
copy.state |= State_Raised;
proxy()->drawPrimitive(PE_PanelMenu, ©, painter, widget);
break;
}
// Drawing the entire itemview frame is very expensive, especially on the native X11 engine
// Instead we cheat a bit and draw a border image without the center part, hence only scaling
// thin rectangular images
const int pmSize = 64;
const int border = proxy()->pixelMetric(PM_DefaultFrameWidth, option, widget);
const QString pmKey = QString(QLS("windowframe %0")).arg(option->state);
QPixmap pixmap;
QRect pmRect(QPoint(0,0), QSize(pmSize, pmSize));
// Only draw through style once
if (!QPixmapCache::find(pmKey, pixmap)) {
pixmap = QPixmap(pmSize, pmSize);
pixmap.fill(Qt::transparent);
QPainter pmPainter(&pixmap);
QGtkPainter gtkFramePainter(&pmPainter);
gtkFramePainter.setUsePixmapCache(false); // Don't cache twice
GtkShadowType shadow_type = GTK_SHADOW_NONE;
if (option->state & State_Sunken)
shadow_type = GTK_SHADOW_IN;
else if (option->state & State_Raised)
shadow_type = GTK_SHADOW_OUT;
GtkStyle *style = d->gtk_rc_get_style_by_paths(d->gtk_settings_get_default(),
"*.GtkScrolledWindow", "*.GtkScrolledWindow", d->gtk_window_get_type());
if (style)
gtkFramePainter.paintShadow(d->gtkWidget(QLS("GtkFrame")), "viewport", pmRect,
option->state & State_Enabled ? GTK_STATE_NORMAL : GTK_STATE_INSENSITIVE,
shadow_type, style);
QPixmapCache::insert(pmKey, pixmap);
}
QRect rect = option->rect;
const int rw = rect.width() - border;
const int rh = rect.height() - border;
const int pw = pmRect.width() - border;
const int ph = pmRect.height() - border;
// Sidelines
painter->drawPixmap(rect.adjusted(border, 0, -border, -rh), pixmap, pmRect.adjusted(border, 0, -border,-ph));
painter->drawPixmap(rect.adjusted(border, rh, -border, 0), pixmap, pmRect.adjusted(border, ph,-border,0));
painter->drawPixmap(rect.adjusted(0, border, -rw, -border), pixmap, pmRect.adjusted(0, border, -pw, -border));
painter->drawPixmap(rect.adjusted(rw, border, 0, -border), pixmap, pmRect.adjusted(pw, border, 0, -border));
// Corners
painter->drawPixmap(rect.adjusted(0, 0, -rw, -rh), pixmap, pmRect.adjusted(0, 0, -pw,-ph));
painter->drawPixmap(rect.adjusted(rw, 0, 0, -rh), pixmap, pmRect.adjusted(pw, 0, 0,-ph));
painter->drawPixmap(rect.adjusted(0, rh, -rw, 0), pixmap, pmRect.adjusted(0, ph, -pw,0));
painter->drawPixmap(rect.adjusted(rw, rh, 0, 0), pixmap, pmRect.adjusted(pw, ph, 0,0));
}
break;
case PE_PanelTipLabel: {
GtkWidget *gtkWindow = d->gtkWidget(QLS("GtkWindow")); // The Murrine Engine currently assumes a widget is passed
style = d->gtk_rc_get_style_by_paths(d->gtk_settings_get_default(), "gtk-tooltips", "GtkWindow",
d->gtk_window_get_type());
gtkPainter.paintFlatBox(gtkWindow, "tooltip", option->rect, GTK_STATE_NORMAL, GTK_SHADOW_NONE, style);
}
break;
case PE_PanelStatusBar: {
if (widget && widget->testAttribute(Qt::WA_SetPalette) &&
option->palette.resolve() & (1 << QPalette::Window)) {
// Respect custom palette
painter->fillRect(option->rect, option->palette.window());
break;
}
GtkShadowType shadow_type;
GtkWidget *gtkStatusbarFrame = d->gtkWidget(QLS("GtkStatusbar.GtkFrame"));
d->gtk_widget_style_get(gtkStatusbarFrame->parent, "shadow-type", &shadow_type, NULL);
gtkPainter.paintShadow(gtkStatusbarFrame, "frame", option->rect, GTK_STATE_NORMAL,
shadow_type, gtkStatusbarFrame->style);
}
break;
case PE_IndicatorHeaderArrow:
if (const QStyleOptionHeader *header = qstyleoption_cast<const QStyleOptionHeader *>(option)) {
GtkWidget *gtkTreeHeader = d->gtkWidget(QLS("GtkTreeView.GtkButton"));
GtkStateType state = gtkPainter.gtkState(option);
style = gtkTreeHeader->style;
GtkArrowType type = GTK_ARROW_UP;
QRect r = header->rect;
QImage arrow;
if (header->sortIndicator & QStyleOptionHeader::SortUp)
type = GTK_ARROW_UP;
else if (header->sortIndicator & QStyleOptionHeader::SortDown)
type = GTK_ARROW_DOWN;
gtkPainter.paintArrow(gtkTreeHeader, "button", option->rect.adjusted(1, 1, -1, -1), type, state,
GTK_SHADOW_NONE, FALSE, style);
}
break;
case PE_FrameFocusRect:
if (!widget || qobject_cast<const QAbstractItemView*>(widget))
QCleanlooksStyle::drawPrimitive(element, option, painter, widget);
else {
// ### this mess should move to subcontrolrect
QRect frameRect = option->rect.adjusted(1, 1, -1, -2);
if (qobject_cast<const QTabBar*>(widget))
frameRect.adjust(-1, 1, 1, 1);
gtkPainter.paintFocus(NULL, "tab", frameRect, GTK_STATE_ACTIVE, style);
}
break;
case PE_IndicatorBranch:
if (option->state & State_Children) {
QRect rect = option->rect;
rect = QRect(0, 0, 12, 12);
rect.moveCenter(option->rect.center());
rect.translate(2, 0);
GtkExpanderStyle openState = GTK_EXPANDER_EXPANDED;
GtkExpanderStyle closedState = GTK_EXPANDER_COLLAPSED;
GtkWidget *gtkTreeView = d->gtkWidget(QLS("GtkTreeView"));
GtkStateType state = GTK_STATE_NORMAL;
if (!(option->state & State_Enabled))
state = GTK_STATE_INSENSITIVE;
else if (option->state & State_MouseOver)
state = GTK_STATE_PRELIGHT;
gtkPainter.paintExpander(gtkTreeView, "treeview", rect, state,
option->state & State_Open ? openState : closedState , gtkTreeView->style);
}
break;
case PE_PanelItemViewItem:
if (const QStyleOptionViewItemV4 *vopt = qstyleoption_cast<const QStyleOptionViewItemV4 *>(option)) {
if (vopt->state & State_Selected) {
QLinearGradient gradient;
gradient.setStart(option->rect.left(), option->rect.top());
gradient.setFinalStop(option->rect.left(), option->rect.bottom());
gradient.setColorAt(0, option->palette.highlight().color().lighter(105));
gradient.setColorAt(0.5, option->palette.highlight().color().lighter(101));
gradient.setColorAt(0.51, option->palette.highlight().color().darker(101));
gradient.setColorAt(1, option->palette.highlight().color().darker(105));
painter->fillRect(option->rect, gradient);
} else {
if (vopt->backgroundBrush.style() != Qt::NoBrush) {
QPointF oldBO = painter->brushOrigin();
painter->setBrushOrigin(vopt->rect.topLeft());
painter->fillRect(vopt->rect, vopt->backgroundBrush);
painter->setBrushOrigin(oldBO);
}
}
}
break;
case PE_IndicatorToolBarSeparator:
{
const int margin = 6;
GtkWidget *gtkSeparator = d->gtkWidget(QLS("GtkToolbar.GtkSeparatorToolItem"));
if (option->state & State_Horizontal) {
const int offset = option->rect.width()/2;
QRect rect = option->rect.adjusted(offset, margin, 0, -margin);
painter->setPen(QPen(option->palette.background().color().darker(110)));
gtkPainter.paintVline( gtkSeparator, "vseparator",
rect, GTK_STATE_NORMAL, gtkSeparator->style,
0, rect.height(), 0);
} else { //Draw vertical separator
const int offset = option->rect.height()/2;
QRect rect = option->rect.adjusted(margin, offset, -margin, 0);
painter->setPen(QPen(option->palette.background().color().darker(110)));
gtkPainter.paintHline( gtkSeparator, "hseparator",
rect, GTK_STATE_NORMAL, gtkSeparator->style,
0, rect.width(), 0);
}
}
break;
case PE_IndicatorToolBarHandle: {
GtkWidget *gtkToolbar = d->gtkWidget(QLS("GtkToolbar"));
GtkShadowType shadow_type;
d->gtk_widget_style_get(gtkToolbar, "shadow-type", &shadow_type, NULL);
//Note when the toolbar is horizontal, the handle is vertical
painter->setClipRect(option->rect);
gtkPainter.paintHandle(gtkToolbar, "toolbar", option->rect.adjusted(-1, -1 ,0 ,1),
GTK_STATE_NORMAL, shadow_type, !(option->state & State_Horizontal) ?
GTK_ORIENTATION_HORIZONTAL : GTK_ORIENTATION_VERTICAL, gtkToolbar->style);
}
break;
case PE_IndicatorArrowUp:
case PE_IndicatorArrowDown:
case PE_IndicatorArrowLeft:
case PE_IndicatorArrowRight: {
GtkArrowType type = GTK_ARROW_UP;
switch (element) {
case PE_IndicatorArrowDown:
type = GTK_ARROW_DOWN;
break;
case PE_IndicatorArrowLeft:
type = GTK_ARROW_LEFT;
break;
case PE_IndicatorArrowRight:
type = GTK_ARROW_RIGHT;
break;
default:
break;
}
int size = qMin(option->rect.height(), option->rect.width());
int border = (size > 9) ? (size/4) : 0; //Allow small arrows to have exact dimensions
int bsx = 0, bsy = 0;
if (option->state & State_Sunken) {
bsx = proxy()->pixelMetric(PM_ButtonShiftHorizontal);
bsy = proxy()->pixelMetric(PM_ButtonShiftVertical);
}
QRect arrowRect = option->rect.adjusted(border + bsx, border + bsy, -border + bsx, -border + bsy);
GtkShadowType shadow = option->state & State_Sunken ? GTK_SHADOW_IN : GTK_SHADOW_OUT;
GtkStateType state = gtkPainter.gtkState(option);
QColor arrowColor = option->palette.buttonText().color();
GtkWidget *gtkArrow = d->gtkWidget(QLS("GtkArrow"));
GdkColor color = fromQColor(arrowColor);
d->gtk_widget_modify_fg (gtkArrow, state, &color);
gtkPainter.paintArrow(gtkArrow, "button", arrowRect,
type, state, shadow, FALSE, gtkArrow->style,
QString::number(arrowColor.rgba(), 16));
// Passing NULL will revert the color change
d->gtk_widget_modify_fg (gtkArrow, state, NULL);
}
break;
case PE_FrameGroupBox:
// Do nothing here, the GNOME groupboxes are flat
break;
case PE_PanelMenu: {
GtkWidget *gtkMenu = d->gtkWidget(QLS("GtkMenu"));
gtkPainter.setAlphaSupport(false); // Note, alpha disabled for performance reasons
gtkPainter.paintBox(gtkMenu, "menu", option->rect, GTK_STATE_NORMAL, GTK_SHADOW_OUT, gtkMenu->style, QString());
}
break;
case PE_FrameMenu:
//This is actually done by PE_Widget due to a clipping issue
//Otherwise Menu items will not be able to span the entire menu width
// This is only used by floating tool bars
if (qobject_cast<const QToolBar *>(widget)) {
GtkWidget *gtkMenubar = d->gtkWidget(QLS("GtkMenuBar"));
gtkPainter.paintBox( gtkMenubar, "toolbar", option->rect,
GTK_STATE_NORMAL, GTK_SHADOW_OUT, style);
gtkPainter.paintBox( gtkMenubar, "menu", option->rect,
GTK_STATE_NORMAL, GTK_SHADOW_OUT, style);
}
break;
case PE_FrameLineEdit: {
GtkWidget *gtkEntry = d->gtkWidget(QLS("GtkEntry"));
gboolean interior_focus;
gint focus_line_width;
QRect rect = option->rect;
d->gtk_widget_style_get(gtkEntry,
"interior-focus", &interior_focus,
"focus-line-width", &focus_line_width, NULL);
// See https://bugzilla.mozilla.org/show_bug.cgi?id=405421 for info about this hack
g_object_set_data(G_OBJECT(gtkEntry), "transparent-bg-hint", GINT_TO_POINTER(TRUE));
if (!interior_focus && option->state & State_HasFocus)
rect.adjust(focus_line_width, focus_line_width, -focus_line_width, -focus_line_width);
if (option->state & State_HasFocus)
GTK_WIDGET_SET_FLAGS(gtkEntry, GTK_HAS_FOCUS);
gtkPainter.paintShadow(gtkEntry, "entry", rect, option->state & State_Enabled ?
GTK_STATE_NORMAL : GTK_STATE_INSENSITIVE,
GTK_SHADOW_IN, gtkEntry->style,
option->state & State_HasFocus ? QLS("focus") : QString());
if (!interior_focus && option->state & State_HasFocus)
gtkPainter.paintShadow(gtkEntry, "entry", option->rect, option->state & State_Enabled ?
GTK_STATE_ACTIVE : GTK_STATE_INSENSITIVE,
GTK_SHADOW_IN, gtkEntry->style, QLS("GtkEntryShadowIn"));
if (option->state & State_HasFocus)
GTK_WIDGET_UNSET_FLAGS(gtkEntry, GTK_HAS_FOCUS);
}
break;
case PE_PanelLineEdit:
if (const QStyleOptionFrame *panel = qstyleoption_cast<const QStyleOptionFrame *>(option)) {
GtkWidget *gtkEntry = d->gtkWidget(QLS("GtkEntry"));
if (panel->lineWidth > 0)
proxy()->drawPrimitive(PE_FrameLineEdit, option, painter, widget);
uint resolve_mask = option->palette.resolve();
QRect textRect = option->rect.adjusted(gtkEntry->style->xthickness, gtkEntry->style->ythickness,
-gtkEntry->style->xthickness, -gtkEntry->style->ythickness);
if (widget && widget->testAttribute(Qt::WA_SetPalette) &&
resolve_mask & (1 << QPalette::Base)) // Palette overridden by user
painter->fillRect(textRect, option->palette.base());
else
gtkPainter.paintFlatBox( gtkEntry, "entry_bg", textRect,
option->state & State_Enabled ? GTK_STATE_NORMAL : GTK_STATE_INSENSITIVE, GTK_SHADOW_NONE, gtkEntry->style);
}
break;
case PE_FrameTabWidget:
if (const QStyleOptionTabWidgetFrame *frame = qstyleoption_cast<const QStyleOptionTabWidgetFrame*>(option)) {
GtkWidget *gtkNotebook = d->gtkWidget(QLS("GtkNotebook"));
style = gtkPainter.getStyle(gtkNotebook);
gtkPainter.setAlphaSupport(false);
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = GTK_STATE_NORMAL; // Only state supported by gtknotebook
bool reverse = (option->direction == Qt::RightToLeft);
QGtkStylePrivate::gtk_widget_set_direction(gtkNotebook, reverse ? GTK_TEXT_DIR_RTL : GTK_TEXT_DIR_LTR);
if (const QStyleOptionTabWidgetFrameV2 *tabframe = qstyleoption_cast<const QStyleOptionTabWidgetFrameV2*>(option)) {
GtkPositionType frameType = GTK_POS_TOP;
QTabBar::Shape shape = frame->shape;
int gapStart = 0;
int gapSize = 0;
if (shape == QTabBar::RoundedNorth || shape == QTabBar::RoundedSouth) {
frameType = (shape == QTabBar::RoundedNorth) ? GTK_POS_TOP : GTK_POS_BOTTOM;
gapStart = tabframe->selectedTabRect.left();
gapSize = tabframe->selectedTabRect.width();
} else {
frameType = (shape == QTabBar::RoundedWest) ? GTK_POS_LEFT : GTK_POS_RIGHT;
gapStart = tabframe->selectedTabRect.y();
gapSize = tabframe->selectedTabRect.height();
}
gtkPainter.paintBoxGap(gtkNotebook, "notebook", option->rect, state, shadow, frameType,
gapStart, gapSize, style);
break; // done
}
// Note this is only the fallback option
gtkPainter.paintBox(gtkNotebook, "notebook", option->rect, state, shadow, style);
}
break;
case PE_PanelButtonCommand:
case PE_PanelButtonTool: {
bool isDefault = false;
bool isTool = (element == PE_PanelButtonTool);
if (const QStyleOptionButton *btn = qstyleoption_cast<const QStyleOptionButton*>(option))
isDefault = btn->features & QStyleOptionButton::DefaultButton;
// don't draw a frame for tool buttons that have the autoRaise flag and are not enabled or on
if (isTool && !(option->state & State_Enabled || option->state & State_On) && (option->state & State_AutoRaise))
break;
// don't draw a frame for dock widget buttons, unless we are hovering
if (widget && widget->inherits("QDockWidgetTitleButton") && !(option->state & State_MouseOver))
break;
GtkStateType state = gtkPainter.gtkState(option);
if (option->state & State_On || option->state & State_Sunken)
state = GTK_STATE_ACTIVE;
GtkWidget *gtkButton = d->gtkWidget(isTool ? QLS("GtkToolButton.GtkButton") : QLS("GtkButton"));
gint focusWidth, focusPad;
gboolean interiorFocus = false;
d->gtk_widget_style_get (gtkButton,
"focus-line-width", &focusWidth,
"focus-padding", &focusPad,
"interior-focus", &interiorFocus, NULL);
style = gtkButton->style;
QRect buttonRect = option->rect;
QString key;
if (isDefault) {
key += QLS("def");
GTK_WIDGET_SET_FLAGS(gtkButton, GTK_HAS_DEFAULT);
gtkPainter.paintBox(gtkButton, "buttondefault", buttonRect, state, GTK_SHADOW_IN,
style, isDefault ? QLS("d") : QString());
}
bool hasFocus = option->state & State_HasFocus;
if (hasFocus) {
key += QLS("def");
GTK_WIDGET_SET_FLAGS(gtkButton, GTK_HAS_FOCUS);
}
if (!interiorFocus)
buttonRect = buttonRect.adjusted(focusWidth, focusWidth, -focusWidth, -focusWidth);
GtkShadowType shadow = (option->state & State_Sunken || option->state & State_On ) ?
GTK_SHADOW_IN : GTK_SHADOW_OUT;
gtkPainter.paintBox(gtkButton, "button", buttonRect, state, shadow,
style, key);
if (isDefault)
GTK_WIDGET_UNSET_FLAGS(gtkButton, GTK_HAS_DEFAULT);
if (hasFocus)
GTK_WIDGET_UNSET_FLAGS(gtkButton, GTK_HAS_FOCUS);
}
break;
case PE_IndicatorRadioButton: {
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = gtkPainter.gtkState(option);
if (option->state & State_Sunken)
state = GTK_STATE_ACTIVE;
if (option->state & State_NoChange)
shadow = GTK_SHADOW_ETCHED_IN;
else if (option->state & State_On)
shadow = GTK_SHADOW_IN;
else
shadow = GTK_SHADOW_OUT;
GtkWidget *gtkRadioButton = d->gtkWidget(QLS("GtkRadioButton"));
gint spacing;
d->gtk_widget_style_get(gtkRadioButton, "indicator-spacing", &spacing, NULL);
QRect buttonRect = option->rect.adjusted(spacing, spacing, -spacing, -spacing);
gtkPainter.setClipRect(option->rect);
// ### Note: Ubuntulooks breaks when the proper widget is passed
// Murrine engine requires a widget not to get RGBA check - warnings
GtkWidget *gtkCheckButton = d->gtkWidget(QLS("GtkCheckButton"));
QString key(QLS("radiobutton"));
if (option->state & State_HasFocus) { // Themes such as Nodoka check this flag
key += QLatin1Char('f');
GTK_WIDGET_SET_FLAGS(gtkCheckButton, GTK_HAS_FOCUS);
}
gtkPainter.paintOption(gtkCheckButton , buttonRect, state, shadow, gtkRadioButton->style, key);
if (option->state & State_HasFocus)
GTK_WIDGET_UNSET_FLAGS(gtkCheckButton, GTK_HAS_FOCUS);
}
break;
case PE_IndicatorCheckBox: {
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = gtkPainter.gtkState(option);
if (option->state & State_Sunken)
state = GTK_STATE_ACTIVE;
if (option->state & State_NoChange)
shadow = GTK_SHADOW_ETCHED_IN;
else if (option->state & State_On)
shadow = GTK_SHADOW_IN;
else
shadow = GTK_SHADOW_OUT;
int spacing;
GtkWidget *gtkCheckButton = d->gtkWidget(QLS("GtkCheckButton"));
QString key(QLS("checkbutton"));
if (option->state & State_HasFocus) { // Themes such as Nodoka checks this flag
key += QLatin1Char('f');
GTK_WIDGET_SET_FLAGS(gtkCheckButton, GTK_HAS_FOCUS);
}
// Some styles such as aero-clone assume they can paint in the spacing area
gtkPainter.setClipRect(option->rect);
d->gtk_widget_style_get(gtkCheckButton, "indicator-spacing", &spacing, NULL);
QRect checkRect = option->rect.adjusted(spacing, spacing, -spacing, -spacing);
gtkPainter.paintCheckbox(gtkCheckButton, checkRect, state, shadow, gtkCheckButton->style,
key);
if (option->state & State_HasFocus)
GTK_WIDGET_UNSET_FLAGS(gtkCheckButton, GTK_HAS_FOCUS);
}
break;
#ifndef QT_NO_TABBAR
case PE_FrameTabBarBase:
if (const QStyleOptionTabBarBase *tbb
= qstyleoption_cast<const QStyleOptionTabBarBase *>(option)) {
QRect tabRect = tbb->rect;
QRegion region(tabRect);
painter->save();
painter->setPen(QPen(option->palette.dark().color().dark(110), 0));
switch (tbb->shape) {
case QTabBar::RoundedNorth:
painter->drawLine(tabRect.topLeft(), tabRect.topRight());
break;
case QTabBar::RoundedWest:
painter->drawLine(tabRect.left(), tabRect.top(), tabRect.left(), tabRect.bottom());
break;
case QTabBar::RoundedSouth:
painter->drawLine(tbb->rect.left(), tbb->rect.bottom(),
tabRect.right(), tabRect.bottom());
break;
case QTabBar::RoundedEast:
painter->drawLine(tabRect.topRight(), tabRect.bottomRight());
break;
case QTabBar::TriangularNorth:
case QTabBar::TriangularEast:
case QTabBar::TriangularWest:
case QTabBar::TriangularSouth:
painter->restore();
QWindowsStyle::drawPrimitive(element, option, painter, widget);
return;
}
painter->restore();
}
return;
#endif // QT_NO_TABBAR
case PE_Widget:
break;
default:
QCleanlooksStyle::drawPrimitive(element, option, painter, widget);
}
}
/*!
\reimp
*/
void QGtkStyle::drawComplexControl(ComplexControl control, const QStyleOptionComplex *option,
QPainter *painter, const QWidget *widget) const
{
Q_D(const QGtkStyle);
if (!d->isThemeAvailable()) {
QCleanlooksStyle::drawComplexControl(control, option, painter, widget);
return;
}
GtkStyle* style = d->gtkStyle();
QGtkPainter gtkPainter(painter);
QColor button = option->palette.button().color();
QColor dark;
QColor grooveColor;
QColor darkOutline;
dark.setHsv(button.hue(),
qMin(255, (int)(button.saturation()*1.9)),
qMin(255, (int)(button.value()*0.7)));
grooveColor.setHsv(button.hue(),
qMin(255, (int)(button.saturation()*2.6)),
qMin(255, (int)(button.value()*0.9)));
darkOutline.setHsv(button.hue(),
qMin(255, (int)(button.saturation()*3.0)),
qMin(255, (int)(button.value()*0.6)));
QColor alphaCornerColor;
if (widget)
alphaCornerColor = mergedColors(option->palette.color(widget->backgroundRole()), darkOutline);
else
alphaCornerColor = mergedColors(option->palette.background().color(), darkOutline);
QPalette palette = option->palette;
switch (control) {
case CC_TitleBar:
if (const QStyleOptionTitleBar *tb = qstyleoption_cast<const QStyleOptionTitleBar *>(option)) {
// Since this is drawn by metacity and not Gtk we
// have to rely on Cleanlooks for a fallback
QStyleOptionTitleBar copyOpt = *tb;
QPalette pal = copyOpt.palette;
// Bg color is closer to the window selection than
// the base selection color
GdkColor gdkBg = style->bg[GTK_STATE_SELECTED];
QColor bgColor(gdkBg.red>>8, gdkBg.green>>8, gdkBg.blue>>8);
pal.setBrush(QPalette::Active, QPalette::Highlight, bgColor);
copyOpt.palette = pal;
QCleanlooksStyle::drawComplexControl(control, ©Opt, painter, widget);
}
break;
#ifndef QT_NO_GROUPBOX
case CC_GroupBox:
painter->save();
if (const QStyleOptionGroupBox *groupBox = qstyleoption_cast<const QStyleOptionGroupBox *>(option)) {
QRect textRect = proxy()->subControlRect(CC_GroupBox, groupBox, SC_GroupBoxLabel, widget);
QRect checkBoxRect = proxy()->subControlRect(CC_GroupBox, groupBox, SC_GroupBoxCheckBox, widget);
// Draw title
if ((groupBox->subControls & QStyle::SC_GroupBoxLabel) && !groupBox->text.isEmpty()) {
// Draw prelight background
GtkWidget *gtkCheckButton = d->gtkWidget(QLS("GtkCheckButton"));
if (option->state & State_MouseOver) {
QRect bgRect = textRect | checkBoxRect;
gtkPainter.paintFlatBox(gtkCheckButton, "checkbutton", bgRect.adjusted(0, 0, 0, -2),
GTK_STATE_PRELIGHT, GTK_SHADOW_ETCHED_OUT, gtkCheckButton->style);
}
if (!groupBox->text.isEmpty()) {
int alignment = int(groupBox->textAlignment);
if (!proxy()->styleHint(QStyle::SH_UnderlineShortcut, option, widget))
alignment |= Qt::TextHideMnemonic;
QColor textColor = groupBox->textColor; // Note: custom textColor is currently ignored
int labelState = GTK_STATE_INSENSITIVE;
if (option->state & State_Enabled)
labelState = (option->state & State_MouseOver) ? GTK_STATE_PRELIGHT : GTK_STATE_NORMAL;
GdkColor gdkText = gtkCheckButton->style->fg[labelState];
textColor = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
painter->setPen(textColor);
QFont font = painter->font();
font.setBold(true);
painter->setFont(font);
painter->drawText(textRect, Qt::TextShowMnemonic | Qt::AlignLeft| alignment, groupBox->text);
if (option->state & State_HasFocus)
gtkPainter.paintFocus( NULL, "tab", textRect.adjusted(-4, -1, 0, -3), GTK_STATE_ACTIVE, style);
}
}
if (groupBox->subControls & SC_GroupBoxCheckBox) {
QStyleOptionButton box;
box.QStyleOption::operator=(*groupBox);
box.rect = checkBoxRect;
proxy()->drawPrimitive(PE_IndicatorCheckBox, &box, painter, widget);
}
}
painter->restore();
break;
#endif // QT_NO_GROUPBOX
#ifndef QT_NO_COMBOBOX
case CC_ComboBox:
// See: http://live.gnome.org/GnomeArt/Tutorials/GtkThemes/GtkComboBox
// and http://live.gnome.org/GnomeArt/Tutorials/GtkThemes/GtkComboBoxEntry
if (const QStyleOptionComboBox *comboBox = qstyleoption_cast<const QStyleOptionComboBox *>(option)) {
bool sunken = comboBox->state & State_On; // play dead, if combobox has no items
BEGIN_STYLE_PIXMAPCACHE(QString::fromLatin1("cb-%0-%1").arg(sunken).arg(comboBox->editable));
QGtkPainter gtkCachedPainter(p);
gtkCachedPainter.setUsePixmapCache(false); // cached externally
bool isEnabled = (comboBox->state & State_Enabled);
bool focus = isEnabled && (comboBox->state & State_HasFocus);
QColor buttonShadow = option->palette.dark().color();
GtkStateType state = gtkPainter.gtkState(option);
int appears_as_list = !proxy()->styleHint(QStyle::SH_ComboBox_Popup, comboBox, widget);
QPixmap cache;
QString pixmapName;
QStyleOptionComboBox comboBoxCopy = *comboBox;
comboBoxCopy.rect = option->rect;
bool reverse = (option->direction == Qt::RightToLeft);
QRect rect = option->rect;
QRect arrowButtonRect = proxy()->subControlRect(CC_ComboBox, &comboBoxCopy,
SC_ComboBoxArrow, widget);
QRect editRect = proxy()->subControlRect(CC_ComboBox, &comboBoxCopy,
SC_ComboBoxEditField, widget);
GtkShadowType shadow = (option->state & State_Sunken || option->state & State_On ) ?
GTK_SHADOW_IN : GTK_SHADOW_OUT;
QString comboBoxPath = QLS(comboBox->editable ? "GtkComboBoxEntry" : "GtkComboBox");
// We use the gtk widget to position arrows and separators for us
GtkWidget *gtkCombo = d->gtkWidget(comboBoxPath);
GtkAllocation geometry = {0, 0, option->rect.width(), option->rect.height()};
d->gtk_widget_set_direction(gtkCombo, reverse ? GTK_TEXT_DIR_RTL : GTK_TEXT_DIR_LTR);
d->gtk_widget_size_allocate(gtkCombo, &geometry);
QString buttonPath = comboBoxPath + QLS(".GtkToggleButton");
GtkWidget *gtkToggleButton = d->gtkWidget(buttonPath);
d->gtk_widget_set_direction(gtkToggleButton, reverse ? GTK_TEXT_DIR_RTL : GTK_TEXT_DIR_LTR);
if (gtkToggleButton && (appears_as_list || comboBox->editable)) {
if (focus)
GTK_WIDGET_SET_FLAGS(gtkToggleButton, GTK_HAS_FOCUS);
// Draw the combo box as a line edit with a button next to it
if (comboBox->editable || appears_as_list) {
GtkStateType frameState = (state == GTK_STATE_PRELIGHT) ? GTK_STATE_NORMAL : state;
QString entryPath = QLS(comboBox->editable ? "GtkComboBoxEntry.GtkEntry" : "GtkComboBox.GtkFrame");
GtkWidget *gtkEntry = d->gtkWidget(entryPath);
d->gtk_widget_set_direction(gtkEntry, reverse ? GTK_TEXT_DIR_RTL : GTK_TEXT_DIR_LTR);
QRect frameRect = option->rect;
if (reverse)
frameRect.setLeft(arrowButtonRect.right());
else
frameRect.setRight(arrowButtonRect.left());
// Fill the line edit background
// We could have used flat_box with "entry_bg" but that is probably not worth the overhead
uint resolve_mask = option->palette.resolve();
int xt = gtkEntry->style->xthickness;
int yt = gtkEntry->style->ythickness;
QRect contentRect = frameRect.adjusted(xt, yt, -xt, -yt);
// Required for inner blue highlight with clearlooks
if (focus)
GTK_WIDGET_SET_FLAGS(gtkEntry, GTK_HAS_FOCUS);
if (widget && widget->testAttribute(Qt::WA_SetPalette) &&
resolve_mask & (1 << QPalette::Base)) // Palette overridden by user
p->fillRect(contentRect, option->palette.base().color());
else {
gtkCachedPainter.paintFlatBox(gtkEntry, "entry_bg", contentRect,
option->state & State_Enabled ? GTK_STATE_NORMAL : GTK_STATE_INSENSITIVE,
GTK_SHADOW_NONE, gtkEntry->style, entryPath + QString::number(focus));
}
gtkCachedPainter.paintShadow(gtkEntry, comboBox->editable ? "entry" : "frame", frameRect, frameState,
GTK_SHADOW_IN, gtkEntry->style, entryPath +
QString::number(focus) + QString::number(comboBox->editable) +
QString::number(option->direction));
if (focus)
GTK_WIDGET_UNSET_FLAGS(gtkEntry, GTK_HAS_FOCUS);
}
GtkStateType buttonState = GTK_STATE_NORMAL;
if (!(option->state & State_Enabled))
buttonState = GTK_STATE_INSENSITIVE;
else if (option->state & State_Sunken || option->state & State_On)
buttonState = GTK_STATE_ACTIVE;
else if (option->state & State_MouseOver && comboBox->activeSubControls & SC_ComboBoxArrow)
buttonState = GTK_STATE_PRELIGHT;
QRect buttonrect = QRect(gtkToggleButton->allocation.x, gtkToggleButton->allocation.y,
gtkToggleButton->allocation.width, gtkToggleButton->allocation.height);
Q_ASSERT(gtkToggleButton);
gtkCachedPainter.paintBox( gtkToggleButton, "button", arrowButtonRect, buttonState,
shadow, gtkToggleButton->style, buttonPath +
QString::number(focus) + QString::number(option->direction));
if (focus)
GTK_WIDGET_UNSET_FLAGS(gtkToggleButton, GTK_HAS_FOCUS);
} else {
// Draw combo box as a button
QRect buttonRect = option->rect;
if (focus) // Clearlooks actually check the widget for the default state
GTK_WIDGET_SET_FLAGS(gtkToggleButton, GTK_HAS_FOCUS);
gtkCachedPainter.paintBox(gtkToggleButton, "button",
buttonRect, state,
shadow, gtkToggleButton->style,
buttonPath + QString::number(focus));
if (focus)
GTK_WIDGET_UNSET_FLAGS(gtkToggleButton, GTK_HAS_FOCUS);
// Draw the separator between label and arrows
QString vSeparatorPath = buttonPath + QLS(".GtkHBox.GtkVSeparator");
if (GtkWidget *gtkVSeparator = d->gtkWidget(vSeparatorPath)) {
QRect vLineRect(gtkVSeparator->allocation.x,
gtkVSeparator->allocation.y,
gtkVSeparator->allocation.width,
gtkVSeparator->allocation.height);
gtkCachedPainter.paintVline( gtkVSeparator, "vseparator",
vLineRect, state, gtkVSeparator->style,
0, vLineRect.height(), 0, vSeparatorPath);
gint interiorFocus = true;
d->gtk_widget_style_get(gtkToggleButton, "interior-focus", &interiorFocus, NULL);
int xt = interiorFocus ? gtkToggleButton->style->xthickness : 0;
int yt = interiorFocus ? gtkToggleButton->style->ythickness : 0;
if (focus && ((option->state & State_KeyboardFocusChange) || styleHint(SH_UnderlineShortcut, option, widget)))
gtkCachedPainter.paintFocus(gtkToggleButton, "button",
option->rect.adjusted(xt, yt, -xt, -yt),
option->state & State_Sunken ? GTK_STATE_ACTIVE : GTK_STATE_NORMAL,
gtkToggleButton->style);
}
}
if (comboBox->subControls & SC_ComboBoxArrow) {
if (!isEnabled)
state = GTK_STATE_INSENSITIVE;
else if (sunken)
state = GTK_STATE_ACTIVE;
else if (option->state & State_MouseOver)
state = GTK_STATE_PRELIGHT;
else
state = GTK_STATE_NORMAL;
QString arrowPath = comboBoxPath + QLS(appears_as_list ? ".GtkToggleButton.GtkArrow"
: ".GtkToggleButton.GtkHBox.GtkArrow");
GtkWidget *gtkArrow = d->gtkWidget(arrowPath);
gfloat scale = 0.7;
gint minSize = 15;
QRect arrowWidgetRect;
if (gtkArrow && !d->gtk_check_version(2, 12, 0)) {
d->gtk_widget_style_get(gtkArrow, "arrow-scaling", &scale, NULL);
d->gtk_widget_style_get(gtkCombo, "arrow-size", &minSize, NULL);
}
if (gtkArrow) {
arrowWidgetRect = QRect(gtkArrow->allocation.x, gtkArrow->allocation.y,
gtkArrow->allocation.width, gtkArrow->allocation.height);
style = gtkArrow->style;
}
// Note that for some reason the arrow-size is not properly respected with Hildon
// Hence we enforce the minimum "arrow-size" ourselves
int arrowSize = qMax(qMin(rect.height() - gtkCombo->style->ythickness * 2, minSize),
qMin(arrowWidgetRect.width(), arrowWidgetRect.height()));
QRect arrowRect(0, 0, static_cast<int>(arrowSize * scale), static_cast<int>(arrowSize * scale));
arrowRect.moveCenter(arrowWidgetRect.center());
if (sunken) {
int xoff, yoff;
GtkWidget *gtkButton = d->gtkWidget(comboBoxPath + QLS(".GtkToggleButton"));
d->gtk_widget_style_get(gtkButton, "child-displacement-x", &xoff, NULL);
d->gtk_widget_style_get(gtkButton, "child-displacement-y", &yoff, NULL);
arrowRect = arrowRect.adjusted(xoff, yoff, xoff, yoff);
}
// Some styles such as Nimbus paint outside the arrowRect
// hence we have provide the whole widget as the cliprect
if (gtkArrow) {
gtkCachedPainter.setClipRect(option->rect);
gtkCachedPainter.paintArrow( gtkArrow, "arrow", arrowRect,
GTK_ARROW_DOWN, state, GTK_SHADOW_NONE, TRUE,
style, arrowPath + QString::number(option->direction));
}
}
END_STYLE_PIXMAPCACHE;
}
break;
#endif // QT_NO_COMBOBOX
#ifndef QT_NO_TOOLBUTTON
case CC_ToolButton:
if (const QStyleOptionToolButton *toolbutton
= qstyleoption_cast<const QStyleOptionToolButton *>(option)) {
QRect button, menuarea;
button = proxy()->subControlRect(control, toolbutton, SC_ToolButton, widget);
menuarea = proxy()->subControlRect(control, toolbutton, SC_ToolButtonMenu, widget);
State bflags = toolbutton->state & ~(State_Sunken | State_MouseOver);
if (bflags & State_AutoRaise)
if (!(bflags & State_MouseOver))
bflags &= ~State_Raised;
State mflags = bflags;
if (toolbutton->state & State_Sunken) {
if (toolbutton->activeSubControls & SC_ToolButton)
bflags |= State_Sunken;
if (toolbutton->activeSubControls & SC_ToolButtonMenu)
mflags |= State_Sunken;
} else if (toolbutton->state & State_MouseOver) {
if (toolbutton->activeSubControls & SC_ToolButton)
bflags |= State_MouseOver;
if (toolbutton->activeSubControls & SC_ToolButtonMenu)
mflags |= State_MouseOver;
}
QStyleOption tool(0);
tool.palette = toolbutton->palette;
if (toolbutton->subControls & SC_ToolButton) {
if (bflags & (State_Sunken | State_On | State_Raised | State_MouseOver)) {
tool.rect = button;
tool.state = bflags;
proxy()->drawPrimitive(PE_PanelButtonTool, &tool, painter, widget);
}
}
bool drawMenuArrow = toolbutton->features & QStyleOptionToolButton::HasMenu &&
!(toolbutton->features & QStyleOptionToolButton::MenuButtonPopup);
int popupArrowSize = drawMenuArrow ? 7 : 0;
if (toolbutton->state & State_HasFocus) {
QStyleOptionFocusRect fr;
fr.QStyleOption::operator=(*toolbutton);
fr.rect = proxy()->subControlRect(CC_ToolButton, toolbutton, SC_ToolButton, widget);
fr.rect.adjust(1, 1, -1, -1);
proxy()->drawPrimitive(PE_FrameFocusRect, &fr, painter, widget);
}
QStyleOptionToolButton label = *toolbutton;
label.state = bflags;
GtkWidget *gtkButton = d->gtkWidget(QLS("GtkToolButton.GtkButton"));
QPalette pal = toolbutton->palette;
if (option->state & State_Enabled &&
option->state & State_MouseOver && !(widget && widget->testAttribute(Qt::WA_SetPalette))) {
GdkColor gdkText = gtkButton->style->fg[GTK_STATE_PRELIGHT];
QColor textColor = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
pal.setBrush(QPalette::All, QPalette::ButtonText, textColor);
label.palette = pal;
}
label.rect = button.adjusted(style->xthickness, style->ythickness,
-style->xthickness - popupArrowSize, -style->ythickness);
proxy()->drawControl(CE_ToolButtonLabel, &label, painter, widget);
if (toolbutton->subControls & SC_ToolButtonMenu) {
tool.rect = menuarea;
tool.state = mflags;
if ((mflags & State_Enabled && (mflags & (State_Sunken | State_Raised | State_MouseOver))) || !(mflags & State_AutoRaise))
proxy()->drawPrimitive(PE_IndicatorButtonDropDown, &tool, painter, widget);
proxy()->drawPrimitive(PE_IndicatorArrowDown, &tool, painter, widget);
} else if (drawMenuArrow) {
QRect ir = toolbutton->rect;
QStyleOptionToolButton newBtn = *toolbutton;
newBtn.rect = QRect(ir.right() - popupArrowSize - style->xthickness - 3, ir.height()/2 - 1, popupArrowSize, popupArrowSize);
proxy()->drawPrimitive(PE_IndicatorArrowDown, &newBtn, painter, widget);
}
}
break;
#endif // QT_NO_TOOLBUTTON
#ifndef QT_NO_SCROLLBAR
case CC_ScrollBar:
if (const QStyleOptionSlider *scrollBar = qstyleoption_cast<const QStyleOptionSlider *>(option)) {
GtkWidget *gtkHScrollBar = d->gtkWidget(QLS("GtkHScrollbar"));
GtkWidget *gtkVScrollBar = d->gtkWidget(QLS("GtkVScrollbar"));
// Fill background in case the scrollbar is partially transparent
painter->fillRect(option->rect, option->palette.background());
QRect rect = scrollBar->rect;
QRect scrollBarSubLine = proxy()->subControlRect(control, scrollBar, SC_ScrollBarSubLine, widget);
QRect scrollBarAddLine = proxy()->subControlRect(control, scrollBar, SC_ScrollBarAddLine, widget);
QRect scrollBarSlider = proxy()->subControlRect(control, scrollBar, SC_ScrollBarSlider, widget);
QRect grooveRect = proxy()->subControlRect(control, scrollBar, SC_ScrollBarGroove, widget);
bool horizontal = scrollBar->orientation == Qt::Horizontal;
GtkWidget * scrollbarWidget = horizontal ? gtkHScrollBar : gtkVScrollBar;
style = scrollbarWidget->style;
gboolean trough_under_steppers = true;
gboolean trough_side_details = false;
gboolean stepper_size = 14;
gint trough_border = 1;
if (!d->gtk_check_version(2, 10, 0)) {
d->gtk_widget_style_get((GtkWidget*)(scrollbarWidget),
"trough-border", &trough_border,
"trough-side-details", &trough_side_details,
"trough-under-steppers", &trough_under_steppers,
"stepper-size", &stepper_size, NULL);
}
if (trough_under_steppers) {
scrollBarAddLine.adjust(trough_border, trough_border, -trough_border, -trough_border);
scrollBarSubLine.adjust(trough_border, trough_border, -trough_border, -trough_border);
scrollBarSlider.adjust(horizontal ? -trough_border : 0, horizontal ? 0 : -trough_border,
horizontal ? trough_border : 0, horizontal ? 0 : trough_border);
}
// Some styles check the position of scrollbars in order to determine
// if lines should be painted when the scrollbar is in max or min positions.
int maximum = 2;
int fakePos = 0;
bool reverse = (option->direction == Qt::RightToLeft);
if (scrollBar->minimum == scrollBar->maximum)
maximum = 0;
if (scrollBar->sliderPosition == scrollBar->maximum)
fakePos = maximum;
else if (scrollBar->sliderPosition > scrollBar->minimum)
fakePos = maximum - 1;
GtkObject *adjustment = d->gtk_adjustment_new(fakePos, 0, maximum, 0, 0, 0);
if (horizontal)
d->gtk_range_set_adjustment((GtkRange*)(gtkHScrollBar), (GtkAdjustment*)(adjustment));
else
d->gtk_range_set_adjustment((GtkRange*)(gtkVScrollBar), (GtkAdjustment*)(adjustment));
if (scrollBar->subControls & SC_ScrollBarGroove) {
GtkStateType state = GTK_STATE_ACTIVE;
if (!(option->state & State_Enabled))
state = GTK_STATE_INSENSITIVE;
if (trough_under_steppers)
grooveRect = option->rect;
gtkPainter.paintBox( scrollbarWidget, "trough", grooveRect, state, GTK_SHADOW_IN, style);
}
//paint slider
if (scrollBar->subControls & SC_ScrollBarSlider) {
GtkStateType state = GTK_STATE_NORMAL;
if (!(option->state & State_Enabled))
state = GTK_STATE_INSENSITIVE;
else if (option->state & State_MouseOver && (scrollBar->activeSubControls & SC_ScrollBarSlider))
state = GTK_STATE_PRELIGHT;
GtkShadowType shadow = GTK_SHADOW_OUT;
if (trough_under_steppers) {
if (!horizontal)
scrollBarSlider.adjust(trough_border, 0, -trough_border, 0);
else
scrollBarSlider.adjust(0, trough_border, 0, -trough_border);
}
gtkPainter.paintSlider( scrollbarWidget, "slider", scrollBarSlider, state, shadow, style,
horizontal ? GTK_ORIENTATION_HORIZONTAL : GTK_ORIENTATION_VERTICAL, QString(QLS("%0%1")).arg(fakePos).arg(maximum));
}
if (scrollBar->subControls & SC_ScrollBarAddLine) {
gtkVScrollBar->allocation.y = scrollBarAddLine.top();
gtkVScrollBar->allocation.height = scrollBarAddLine.height() - rect.height() + 6;
gtkHScrollBar->allocation.x = scrollBarAddLine.right();
gtkHScrollBar->allocation.width = scrollBarAddLine.width() - rect.width();
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = GTK_STATE_NORMAL;
if (!(option->state & State_Enabled) || (fakePos == maximum))
state = GTK_STATE_INSENSITIVE;
else if (option->state & State_Sunken && (scrollBar->activeSubControls & SC_ScrollBarAddLine)) {
state = GTK_STATE_ACTIVE;
shadow = GTK_SHADOW_IN;
} else if (option->state & State_MouseOver && (scrollBar->activeSubControls & SC_ScrollBarAddLine))
state = GTK_STATE_PRELIGHT;
gtkPainter.paintBox( scrollbarWidget,
horizontal ? "hscrollbar" : "vscrollbar", scrollBarAddLine,
state, shadow, style, QLS("add"));
gtkPainter.paintArrow( scrollbarWidget, horizontal ? "hscrollbar" : "vscrollbar", scrollBarAddLine.adjusted(4, 4, -4, -4),
horizontal ? (reverse ? GTK_ARROW_LEFT : GTK_ARROW_RIGHT) :
GTK_ARROW_DOWN, state, GTK_SHADOW_NONE, FALSE, style);
}
if (scrollBar->subControls & SC_ScrollBarSubLine) {
gtkVScrollBar->allocation.y = 0;
gtkVScrollBar->allocation.height = scrollBarSubLine.height();
gtkHScrollBar->allocation.x = 0;
gtkHScrollBar->allocation.width = scrollBarSubLine.width();
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = GTK_STATE_NORMAL;
if (!(option->state & State_Enabled) || (fakePos == 0))
state = GTK_STATE_INSENSITIVE;
else if (option->state & State_Sunken && (scrollBar->activeSubControls & SC_ScrollBarSubLine)) {
shadow = GTK_SHADOW_IN;
state = GTK_STATE_ACTIVE;
} else if (option->state & State_MouseOver && (scrollBar->activeSubControls & SC_ScrollBarSubLine))
state = GTK_STATE_PRELIGHT;
gtkPainter.paintBox(scrollbarWidget, horizontal ? "hscrollbar" : "vscrollbar", scrollBarSubLine,
state, shadow, style, QLS("sub"));
gtkPainter.paintArrow(scrollbarWidget, horizontal ? "hscrollbar" : "vscrollbar", scrollBarSubLine.adjusted(4, 4, -4, -4),
horizontal ? (reverse ? GTK_ARROW_RIGHT : GTK_ARROW_LEFT) :
GTK_ARROW_UP, state, GTK_SHADOW_NONE, FALSE, style);
}
}
break;
#endif //QT_NO_SCROLLBAR
#ifndef QT_NO_SPINBOX
case CC_SpinBox:
if (const QStyleOptionSpinBox *spinBox = qstyleoption_cast<const QStyleOptionSpinBox *>(option)) {
GtkWidget *gtkSpinButton = d->gtkWidget(
spinBox->buttonSymbols == QAbstractSpinBox::NoButtons ?
QLS("GtkEntry") :
QLS("GtkSpinButton"));
bool isEnabled = (spinBox->state & State_Enabled);
bool hover = isEnabled && (spinBox->state & State_MouseOver);
bool sunken = (spinBox->state & State_Sunken);
bool upIsActive = (spinBox->activeSubControls == SC_SpinBoxUp);
bool downIsActive = (spinBox->activeSubControls == SC_SpinBoxDown);
bool reverse = (spinBox->direction == Qt::RightToLeft);
QRect editArea = option->rect;
QRect editRect = proxy()->subControlRect(CC_SpinBox, option, SC_SpinBoxEditField, widget);
QRect upRect, downRect, buttonRect;
if (spinBox->buttonSymbols != QAbstractSpinBox::NoButtons) {
upRect = proxy()->subControlRect(CC_SpinBox, option, SC_SpinBoxUp, widget);
downRect = proxy()->subControlRect(CC_SpinBox, option, SC_SpinBoxDown, widget);
//### Move this to subControlRect
upRect.setTop(option->rect.top());
if (reverse)
upRect.setLeft(option->rect.left());
else
upRect.setRight(option->rect.right());
downRect.setBottom(option->rect.bottom());
if (reverse)
downRect.setLeft(option->rect.left());
else
downRect.setRight(option->rect.right());
buttonRect = upRect | downRect;
if (reverse)
editArea.setLeft(upRect.right());
else
editArea.setRight(upRect.left());
}
if (spinBox->frame) {
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = gtkPainter.gtkState(option);
if (!(option->state & State_Enabled))
state = GTK_STATE_INSENSITIVE;
else if (option->state & State_HasFocus)
state = GTK_STATE_NORMAL;
else if (state == GTK_STATE_PRELIGHT)
state = GTK_STATE_NORMAL;
shadow = GTK_SHADOW_IN;
style = gtkPainter.getStyle(gtkSpinButton);
QString key;
if (option->state & State_HasFocus) {
key += QLatin1Char('f');
GTK_WIDGET_SET_FLAGS(gtkSpinButton, GTK_HAS_FOCUS);
}
uint resolve_mask = option->palette.resolve();
if (resolve_mask & (1 << QPalette::Base)) // Palette overridden by user
painter->fillRect(editRect, option->palette.base().color());
else
gtkPainter.paintFlatBox(gtkSpinButton, "entry_bg", editArea.adjusted(style->xthickness, style->ythickness,
-style->xthickness, -style->ythickness),
option->state & State_Enabled ?
GTK_STATE_NORMAL : GTK_STATE_INSENSITIVE, GTK_SHADOW_NONE, style, key);
gtkPainter.paintShadow(gtkSpinButton, "entry", editArea, state, GTK_SHADOW_IN, gtkSpinButton->style, key);
if (spinBox->buttonSymbols != QAbstractSpinBox::NoButtons) {
gtkPainter.paintBox(gtkSpinButton, "spinbutton", buttonRect, state, GTK_SHADOW_IN, style, key);
upRect.setSize(downRect.size());
if (!(option->state & State_Enabled))
gtkPainter.paintBox( gtkSpinButton, "spinbutton_up", upRect, GTK_STATE_INSENSITIVE, GTK_SHADOW_IN, style, key);
else if (upIsActive && sunken)
gtkPainter.paintBox( gtkSpinButton, "spinbutton_up", upRect, GTK_STATE_ACTIVE, GTK_SHADOW_IN, style, key);
else if (upIsActive && hover)
gtkPainter.paintBox( gtkSpinButton, "spinbutton_up", upRect, GTK_STATE_PRELIGHT, GTK_SHADOW_OUT, style, key);
else
gtkPainter.paintBox( gtkSpinButton, "spinbutton_up", upRect, GTK_STATE_NORMAL, GTK_SHADOW_OUT, style, key);
if (!(option->state & State_Enabled))
gtkPainter.paintBox( gtkSpinButton, "spinbutton_down", downRect, GTK_STATE_INSENSITIVE, GTK_SHADOW_IN, style, key);
else if (downIsActive && sunken)
gtkPainter.paintBox( gtkSpinButton, "spinbutton_down", downRect, GTK_STATE_ACTIVE, GTK_SHADOW_IN, style, key);
else if (downIsActive && hover)
gtkPainter.paintBox( gtkSpinButton, "spinbutton_down", downRect, GTK_STATE_PRELIGHT, GTK_SHADOW_OUT, style, key);
else
gtkPainter.paintBox( gtkSpinButton, "spinbutton_down", downRect, GTK_STATE_NORMAL, GTK_SHADOW_OUT, style, key);
if (option->state & State_HasFocus)
GTK_WIDGET_UNSET_FLAGS(gtkSpinButton, GTK_HAS_FOCUS);
}
}
if (spinBox->buttonSymbols == QAbstractSpinBox::PlusMinus) {
int centerX = upRect.center().x();
int centerY = upRect.center().y();
// plus/minus
if (spinBox->activeSubControls == SC_SpinBoxUp && sunken) {
painter->drawLine(1 + centerX - 2, 1 + centerY, 1 + centerX + 2, 1 + centerY);
painter->drawLine(1 + centerX, 1 + centerY - 2, 1 + centerX, 1 + centerY + 2);
} else {
painter->drawLine(centerX - 2, centerY, centerX + 2, centerY);
painter->drawLine(centerX, centerY - 2, centerX, centerY + 2);
}
centerX = downRect.center().x();
centerY = downRect.center().y();
if (spinBox->activeSubControls == SC_SpinBoxDown && sunken) {
painter->drawLine(1 + centerX - 2, 1 + centerY, 1 + centerX + 2, 1 + centerY);
} else {
painter->drawLine(centerX - 2, centerY, centerX + 2, centerY);
}
} else if (spinBox->buttonSymbols == QAbstractSpinBox::UpDownArrows) {
int size = d->getSpinboxArrowSize();
int w = size / 2 - 1;
w -= w % 2 - 1; // force odd
int h = (w + 1)/2;
QRect arrowRect(0, 0, w, h);
arrowRect.moveCenter(upRect.center());
// arrows
GtkStateType state = GTK_STATE_NORMAL;
if (!(option->state & State_Enabled) || !(spinBox->stepEnabled & QAbstractSpinBox::StepUpEnabled))
state = GTK_STATE_INSENSITIVE;
gtkPainter.paintArrow( gtkSpinButton, "spinbutton", arrowRect, GTK_ARROW_UP, state,
GTK_SHADOW_NONE, FALSE, style);
arrowRect.moveCenter(downRect.center());
if (!(option->state & State_Enabled) || !(spinBox->stepEnabled & QAbstractSpinBox::StepDownEnabled))
state = GTK_STATE_INSENSITIVE;
gtkPainter.paintArrow( gtkSpinButton, "spinbutton", arrowRect, GTK_ARROW_DOWN, state,
GTK_SHADOW_NONE, FALSE, style);
}
}
break;
#endif // QT_NO_SPINBOX
#ifndef QT_NO_SLIDER
case CC_Slider:
if (const QStyleOptionSlider *slider = qstyleoption_cast<const QStyleOptionSlider *>(option)) {
GtkWidget *hScaleWidget = d->gtkWidget(QLS("GtkHScale"));
GtkWidget *vScaleWidget = d->gtkWidget(QLS("GtkVScale"));
QRect groove = proxy()->subControlRect(CC_Slider, option, SC_SliderGroove, widget);
QRect handle = proxy()->subControlRect(CC_Slider, option, SC_SliderHandle, widget);
QRect ticks = proxy()->subControlRect(CC_Slider, option, SC_SliderTickmarks, widget);
bool horizontal = slider->orientation == Qt::Horizontal;
bool ticksAbove = slider->tickPosition & QSlider::TicksAbove;
bool ticksBelow = slider->tickPosition & QSlider::TicksBelow;
QColor activeHighlight = option->palette.color(QPalette::Normal, QPalette::Highlight);
QPixmap cache;
QBrush oldBrush = painter->brush();
QPen oldPen = painter->pen();
QColor shadowAlpha(Qt::black);
shadowAlpha.setAlpha(10);
QColor highlightAlpha(Qt::white);
highlightAlpha.setAlpha(80);
GtkWidget *scaleWidget = horizontal ? hScaleWidget : vScaleWidget;
style = scaleWidget->style;
if ((option->subControls & SC_SliderGroove) && groove.isValid()) {
GtkObject *adjustment = d->gtk_adjustment_new(slider->sliderPosition,
slider->minimum,
slider->maximum,
slider->singleStep,
slider->singleStep,
slider->pageStep);
int outerSize;
d->gtk_range_set_adjustment ((GtkRange*)(scaleWidget), (GtkAdjustment*)(adjustment));
d->gtk_range_set_inverted((GtkRange*)(scaleWidget), !horizontal);
d->gtk_widget_style_get(scaleWidget, "trough-border", &outerSize, NULL);
outerSize++;
GtkStateType state = gtkPainter.gtkState(option);
int focusFrameMargin = 2;
QRect grooveRect = option->rect.adjusted(focusFrameMargin, outerSize + focusFrameMargin,
-focusFrameMargin, -outerSize - focusFrameMargin);
gboolean trough_side_details = false; // Indicates if the upper or lower scale background differs
if (!d->gtk_check_version(2, 10, 0))
d->gtk_widget_style_get((GtkWidget*)(scaleWidget), "trough-side-details", &trough_side_details, NULL);
if (!trough_side_details) {
gtkPainter.paintBox( scaleWidget, "trough", grooveRect, state,
GTK_SHADOW_IN, style, QString(QLS("p%0")).arg(slider->sliderPosition));
} else {
QRect upperGroove = grooveRect;
QRect lowerGroove = grooveRect;
if (horizontal) {
upperGroove.setLeft(handle.center().x());
lowerGroove.setRight(handle.center().x());
} else {
upperGroove.setBottom(handle.center().y());
lowerGroove.setTop(handle.center().y());
}
gtkPainter.paintBox( scaleWidget, "trough-upper", upperGroove, state,
GTK_SHADOW_IN, style, QString(QLS("p%0")).arg(slider->sliderPosition));
gtkPainter.paintBox( scaleWidget, "trough-lower", lowerGroove, state,
GTK_SHADOW_IN, style, QString(QLS("p%0")).arg(slider->sliderPosition));
}
}
if (option->subControls & SC_SliderTickmarks) {
painter->setPen(darkOutline);
int tickSize = proxy()->pixelMetric(PM_SliderTickmarkOffset, option, widget);
int available = proxy()->pixelMetric(PM_SliderSpaceAvailable, slider, widget);
int interval = slider->tickInterval;
if (interval <= 0) {
interval = slider->singleStep;
if (QStyle::sliderPositionFromValue(slider->minimum, slider->maximum, interval,
available)
- QStyle::sliderPositionFromValue(slider->minimum, slider->maximum,
0, available) < 3)
interval = slider->pageStep;
}
if (interval <= 0)
interval = 1;
int v = slider->minimum;
int len = proxy()->pixelMetric(PM_SliderLength, slider, widget);
while (v <= slider->maximum + 1) {
if (v == slider->maximum + 1 && interval == 1)
break;
const int v_ = qMin(v, slider->maximum);
int pos = sliderPositionFromValue(slider->minimum, slider->maximum,
v_, (horizontal
? slider->rect.width()
: slider->rect.height()) - len,
slider->upsideDown) + len / 2;
int extra = 2 - ((v_ == slider->minimum || v_ == slider->maximum) ? 1 : 0);
if (horizontal) {
if (ticksAbove)
painter->drawLine(pos, slider->rect.top() + extra,
pos, slider->rect.top() + tickSize);
if (ticksBelow)
painter->drawLine(pos, slider->rect.bottom() - extra,
pos, slider->rect.bottom() - tickSize);
} else {
if (ticksAbove)
painter->drawLine(slider->rect.left() + extra, pos,
slider->rect.left() + tickSize, pos);
if (ticksBelow)
painter->drawLine(slider->rect.right() - extra, pos,
slider->rect.right() - tickSize, pos);
}
// In the case where maximum is max int
int nextInterval = v + interval;
if (nextInterval < v)
break;
v = nextInterval;
}
}
// Draw slider handle
if (option->subControls & SC_SliderHandle) {
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = GTK_STATE_NORMAL;
if (!(option->state & State_Enabled))
state = GTK_STATE_INSENSITIVE;
else if (option->state & State_MouseOver && option->activeSubControls & SC_SliderHandle)
state = GTK_STATE_PRELIGHT;
bool horizontal = option->state & State_Horizontal;
if (slider->state & State_HasFocus) {
QStyleOptionFocusRect fropt;
fropt.QStyleOption::operator=(*slider);
fropt.rect = slider->rect.adjusted(-1, -1 ,1, 1);
if (horizontal) {
fropt.rect.setTop(handle.top() - 3);
fropt.rect.setBottom(handle.bottom() + 4);
} else {
fropt.rect.setLeft(handle.left() - 3);
fropt.rect.setRight(handle.right() + 3);
}
proxy()->drawPrimitive(PE_FrameFocusRect, &fropt, painter, widget);
}
gtkPainter.paintSlider( scaleWidget, horizontal ? "hscale" : "vscale", handle, state, shadow, style,
horizontal ? GTK_ORIENTATION_HORIZONTAL : GTK_ORIENTATION_VERTICAL);
}
painter->setBrush(oldBrush);
painter->setPen(oldPen);
}
break;
#endif // QT_NO_SLIDER
default:
QCleanlooksStyle::drawComplexControl(control, option, painter, widget);
break;
}
}
/*!
\reimp
*/
void QGtkStyle::drawControl(ControlElement element,
const QStyleOption *option,
QPainter *painter,
const QWidget *widget) const
{
Q_D(const QGtkStyle);
if (!d->isThemeAvailable()) {
QCleanlooksStyle::drawControl(element, option, painter, widget);
return;
}
GtkStyle* style = d->gtkStyle();
QGtkPainter gtkPainter(painter);
switch (element) {
case CE_ProgressBarLabel:
if (const QStyleOptionProgressBar *bar = qstyleoption_cast<const QStyleOptionProgressBar *>(option)) {
GtkWidget *gtkProgressBar = d->gtkWidget(QLS("GtkProgressBar"));
if (!gtkProgressBar)
return;
QRect leftRect;
QRect rect = bar->rect;
GdkColor gdkText = gtkProgressBar->style->fg[GTK_STATE_NORMAL];
QColor textColor = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
gdkText = gtkProgressBar->style->fg[GTK_STATE_PRELIGHT];
QColor alternateTextColor= QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
painter->save();
bool vertical = false, inverted = false;
if (const QStyleOptionProgressBarV2 *bar2 = qstyleoption_cast<const QStyleOptionProgressBarV2 *>(option)) {
vertical = (bar2->orientation == Qt::Vertical);
inverted = bar2->invertedAppearance;
}
if (vertical)
rect = QRect(rect.left(), rect.top(), rect.height(), rect.width()); // flip width and height
const int progressIndicatorPos = (bar->progress - qreal(bar->minimum)) * rect.width() /
qMax(qreal(1.0), qreal(bar->maximum) - bar->minimum);
if (progressIndicatorPos >= 0 && progressIndicatorPos <= rect.width())
leftRect = QRect(rect.left(), rect.top(), progressIndicatorPos, rect.height());
if (vertical)
leftRect.translate(rect.width() - progressIndicatorPos, 0);
bool flip = (!vertical && (((bar->direction == Qt::RightToLeft) && !inverted) ||
((bar->direction == Qt::LeftToRight) && inverted)));
QRegion rightRect = rect;
rightRect = rightRect.subtracted(leftRect);
painter->setClipRegion(rightRect);
painter->setPen(flip ? alternateTextColor : textColor);
painter->drawText(rect, bar->text, QTextOption(Qt::AlignAbsolute | Qt::AlignHCenter | Qt::AlignVCenter));
if (!leftRect.isNull()) {
painter->setPen(flip ? textColor : alternateTextColor);
painter->setClipRect(leftRect);
painter->drawText(rect, bar->text, QTextOption(Qt::AlignAbsolute | Qt::AlignHCenter | Qt::AlignVCenter));
}
painter->restore();
}
break;
case CE_PushButtonLabel:
if (const QStyleOptionButton *button = qstyleoption_cast<const QStyleOptionButton *>(option)) {
QRect ir = button->rect;
uint tf = Qt::AlignVCenter | Qt::TextShowMnemonic;
QPoint buttonShift;
if (option->state & State_Sunken)
buttonShift = QPoint(pixelMetric(PM_ButtonShiftHorizontal, option, widget),
proxy()->pixelMetric(PM_ButtonShiftVertical, option, widget));
if (proxy()->styleHint(SH_UnderlineShortcut, button, widget))
tf |= Qt::TextShowMnemonic;
else
tf |= Qt::TextHideMnemonic;
if (!button->icon.isNull()) {
//Center both icon and text
QPoint point;
QIcon::Mode mode = button->state & State_Enabled ? QIcon::Normal : QIcon::Disabled;
if (mode == QIcon::Normal && button->state & State_HasFocus)
mode = QIcon::Active;
QIcon::State state = QIcon::Off;
if (button->state & State_On)
state = QIcon::On;
QPixmap pixmap = button->icon.pixmap(button->iconSize, mode, state);
int w = pixmap.width();
int h = pixmap.height();
if (!button->text.isEmpty())
w += button->fontMetrics.boundingRect(option->rect, tf, button->text).width() + 4;
point = QPoint(ir.x() + ir.width() / 2 - w / 2,
ir.y() + ir.height() / 2 - h / 2);
if (button->direction == Qt::RightToLeft)
point.rx() += pixmap.width();
painter->drawPixmap(visualPos(button->direction, button->rect, point + buttonShift), pixmap);
if (button->direction == Qt::RightToLeft)
ir.translate(-point.x() - 2, 0);
else
ir.translate(point.x() + pixmap.width() + 2, 0);
// left-align text if there is
if (!button->text.isEmpty())
tf |= Qt::AlignLeft;
} else {
tf |= Qt::AlignHCenter;
}
ir.translate(buttonShift);
if (button->features & QStyleOptionButton::HasMenu)
ir = ir.adjusted(0, 0, -pixelMetric(PM_MenuButtonIndicator, button, widget), 0);
GtkWidget *gtkButton = d->gtkWidget(QLS("GtkButton"));
QPalette pal = button->palette;
int labelState = GTK_STATE_INSENSITIVE;
if (option->state & State_Enabled)
labelState = (option->state & State_MouseOver && !(option->state & State_Sunken)) ?
GTK_STATE_PRELIGHT : GTK_STATE_NORMAL;
GdkColor gdkText = gtkButton->style->fg[labelState];
QColor textColor = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
pal.setBrush(QPalette::ButtonText, textColor);
proxy()->drawItemText(painter, ir, tf, pal, (button->state & State_Enabled),
button->text, QPalette::ButtonText);
}
break;
case CE_RadioButton: // Fall through
case CE_CheckBox:
if (const QStyleOptionButton *btn = qstyleoption_cast<const QStyleOptionButton *>(option)) {
bool isRadio = (element == CE_RadioButton);
// Draw prelight background
GtkWidget *gtkRadioButton = d->gtkWidget(QLS("GtkRadioButton"));
if (option->state & State_MouseOver) {
gtkPainter.paintFlatBox(gtkRadioButton, "checkbutton", option->rect,
GTK_STATE_PRELIGHT, GTK_SHADOW_ETCHED_OUT, gtkRadioButton->style);
}
QStyleOptionButton subopt = *btn;
subopt.rect = subElementRect(isRadio ? SE_RadioButtonIndicator
: SE_CheckBoxIndicator, btn, widget);
proxy()->drawPrimitive(isRadio ? PE_IndicatorRadioButton : PE_IndicatorCheckBox,
&subopt, painter, widget);
subopt.rect = subElementRect(isRadio ? SE_RadioButtonContents
: SE_CheckBoxContents, btn, widget);
// Get label text color
QPalette pal = subopt.palette;
int labelState = GTK_STATE_INSENSITIVE;
if (option->state & State_Enabled)
labelState = (option->state & State_MouseOver) ? GTK_STATE_PRELIGHT : GTK_STATE_NORMAL;
GdkColor gdkText = gtkRadioButton->style->fg[labelState];
QColor textColor = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
pal.setBrush(QPalette::WindowText, textColor);
subopt.palette = pal;
proxy()->drawControl(isRadio ? CE_RadioButtonLabel : CE_CheckBoxLabel, &subopt, painter, widget);
if (btn->state & State_HasFocus) {
QStyleOptionFocusRect fropt;
fropt.QStyleOption::operator=(*btn);
fropt.rect = subElementRect(isRadio ? SE_RadioButtonFocusRect
: SE_CheckBoxFocusRect, btn, widget);
proxy()->drawPrimitive(PE_FrameFocusRect, &fropt, painter, widget);
}
}
break;
#ifndef QT_NO_COMBOBOX
case CE_ComboBoxLabel:
if (const QStyleOptionComboBox *cb = qstyleoption_cast<const QStyleOptionComboBox *>(option)) {
QRect editRect = proxy()->subControlRect(CC_ComboBox, cb, SC_ComboBoxEditField, widget);
bool appearsAsList = !proxy()->styleHint(QStyle::SH_ComboBox_Popup, cb, widget);
painter->save();
painter->setClipRect(editRect);
if (!cb->currentIcon.isNull()) {
QIcon::Mode mode = cb->state & State_Enabled ? QIcon::Normal
: QIcon::Disabled;
QPixmap pixmap = cb->currentIcon.pixmap(cb->iconSize, mode);
QRect iconRect(editRect);
iconRect.setWidth(cb->iconSize.width() + 4);
iconRect = alignedRect(cb->direction,
Qt::AlignLeft | Qt::AlignVCenter,
iconRect.size(), editRect);
if (cb->editable)
painter->fillRect(iconRect, option->palette.brush(QPalette::Base));
proxy()->drawItemPixmap(painter, iconRect, Qt::AlignCenter, pixmap);
if (cb->direction == Qt::RightToLeft)
editRect.translate(-4 - cb->iconSize.width(), 0);
else
editRect.translate(cb->iconSize.width() + 4, 0);
}
if (!cb->currentText.isEmpty() && !cb->editable) {
GtkWidget *gtkCombo = d->gtkWidget(QLS("GtkComboBox"));
QPalette pal = cb->palette;
int labelState = GTK_STATE_INSENSITIVE;
if (option->state & State_Enabled)
labelState = (option->state & State_MouseOver && !appearsAsList) ? GTK_STATE_PRELIGHT : GTK_STATE_NORMAL;
GdkColor gdkText = gtkCombo->style->fg[labelState];
QColor textColor = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
pal.setBrush(QPalette::ButtonText, textColor);
proxy()->drawItemText(painter, editRect.adjusted(1, 0, -1, 0),
visualAlignment(cb->direction, Qt::AlignLeft | Qt::AlignVCenter),
pal, cb->state & State_Enabled, cb->currentText, QPalette::ButtonText);
}
painter->restore();
}
break;
#endif // QT_NO_COMBOBOX
case CE_DockWidgetTitle:
painter->save();
if (const QStyleOptionDockWidget *dwOpt = qstyleoption_cast<const QStyleOptionDockWidget *>(option)) {
const QStyleOptionDockWidgetV2 *v2
= qstyleoption_cast<const QStyleOptionDockWidgetV2*>(dwOpt);
bool verticalTitleBar = v2 == 0 ? false : v2->verticalTitleBar;
QRect rect = dwOpt->rect;
QRect titleRect = subElementRect(SE_DockWidgetTitleBarText, option, widget).adjusted(-2, 0, -2, 0);
QRect r = rect.adjusted(0, 0, -1, -1);
if (verticalTitleBar)
r.adjust(0, 0, 0, -1);
if (verticalTitleBar) {
QRect r = rect;
QSize s = r.size();
s.transpose();
r.setSize(s);
titleRect = QRect(r.left() + rect.bottom()
- titleRect.bottom(),
r.top() + titleRect.left() - rect.left(),
titleRect.height(), titleRect.width());
painter->translate(r.left(), r.top() + r.width());
painter->rotate(-90);
painter->translate(-r.left(), -r.top());
rect = r;
}
if (!dwOpt->title.isEmpty()) {
QString titleText
= painter->fontMetrics().elidedText(dwOpt->title,
Qt::ElideRight, titleRect.width());
proxy()->drawItemText(painter,
titleRect,
Qt::AlignLeft | Qt::AlignVCenter | Qt::TextShowMnemonic, dwOpt->palette,
dwOpt->state & State_Enabled, titleText,
QPalette::WindowText);
}
}
painter->restore();
break;
case CE_HeaderSection:
painter->save();
// Draws the header in tables.
if (const QStyleOptionHeader *header = qstyleoption_cast<const QStyleOptionHeader *>(option)) {
Q_UNUSED(header);
GtkWidget *gtkTreeView = d->gtkWidget(QLS("GtkTreeView"));
// Get the middle column
GtkTreeViewColumn *column = d->gtk_tree_view_get_column((GtkTreeView*)gtkTreeView, 1);
Q_ASSERT(column);
GtkWidget *gtkTreeHeader = column->button;
GtkStateType state = gtkPainter.gtkState(option);
GtkShadowType shadow = GTK_SHADOW_OUT;
if (option->state & State_Sunken)
shadow = GTK_SHADOW_IN;
gtkPainter.paintBox(gtkTreeHeader, "button", option->rect.adjusted(-1, 0, 0, 0), state, shadow, gtkTreeHeader->style);
}
painter->restore();
break;
#ifndef QT_NO_SIZEGRIP
case CE_SizeGrip: {
GtkWidget *gtkStatusbar = d->gtkWidget(QLS("GtkStatusbar.GtkFrame"));
QRect gripRect = option->rect.adjusted(0, 0, -gtkStatusbar->style->xthickness, -gtkStatusbar->style->ythickness);
gtkPainter.paintResizeGrip( gtkStatusbar, "statusbar", gripRect, GTK_STATE_NORMAL,
GTK_SHADOW_OUT, QApplication::isRightToLeft() ?
GDK_WINDOW_EDGE_SOUTH_WEST : GDK_WINDOW_EDGE_SOUTH_EAST,
gtkStatusbar->style);
}
break;
#endif // QT_NO_SIZEGRIP
case CE_MenuBarEmptyArea: {
GtkWidget *gtkMenubar = d->gtkWidget(QLS("GtkMenuBar"));
GdkColor gdkBg = gtkMenubar->style->bg[GTK_STATE_NORMAL]; // Theme can depend on transparency
painter->fillRect(option->rect, QColor(gdkBg.red>>8, gdkBg.green>>8, gdkBg.blue>>8));
if (widget) { // See CE_MenuBarItem
QRect menuBarRect = widget->rect();
QPixmap pixmap(menuBarRect.size());
pixmap.fill(Qt::transparent);
QPainter pmPainter(&pixmap);
QGtkPainter gtkMenuBarPainter(&pmPainter);
GtkShadowType shadow_type;
d->gtk_widget_style_get(gtkMenubar, "shadow-type", &shadow_type, NULL);
gtkMenuBarPainter.paintBox( gtkMenubar, "menubar", menuBarRect,
GTK_STATE_NORMAL, shadow_type, gtkMenubar->style);
pmPainter.end();
painter->drawPixmap(option->rect, pixmap, option->rect);
}
}
break;
case CE_MenuBarItem:
painter->save();
if (const QStyleOptionMenuItem *mbi = qstyleoption_cast<const QStyleOptionMenuItem *>(option)) {
GtkWidget *gtkMenubarItem = d->gtkWidget(QLS("GtkMenuBar.GtkMenuItem"));
GtkWidget *gtkMenubar = d->gtkWidget(QLS("GtkMenuBar"));
style = gtkMenubarItem->style;
if (widget) {
// Since Qt does not currently allow filling the entire background
// we use a hack for this by making a complete menubar each time and
// paint with the correct offset inside it. Pixmap caching should resolve
// most of the performance penalty.
QRect menuBarRect = widget->rect();
QPixmap pixmap(menuBarRect.size());
pixmap.fill(Qt::transparent);
QPainter pmPainter(&pixmap);
QGtkPainter menubarPainter(&pmPainter);
GtkShadowType shadow_type;
d->gtk_widget_style_get(gtkMenubar, "shadow-type", &shadow_type, NULL);
GdkColor gdkBg = gtkMenubar->style->bg[GTK_STATE_NORMAL]; // Theme can depend on transparency
painter->fillRect(option->rect, QColor(gdkBg.red>>8, gdkBg.green>>8, gdkBg.blue>>8));
menubarPainter.paintBox(gtkMenubar, "menubar", menuBarRect,
GTK_STATE_NORMAL, shadow_type, gtkMenubar->style);
pmPainter.end();
painter->drawPixmap(option->rect, pixmap, option->rect);
}
QStyleOptionMenuItem item = *mbi;
bool act = mbi->state & State_Selected && mbi->state & State_Sunken;
bool dis = !(mbi->state & State_Enabled);
item.rect = mbi->rect;
GdkColor gdkText = gtkMenubarItem->style->fg[dis ? GTK_STATE_INSENSITIVE : GTK_STATE_NORMAL];
GdkColor gdkHText = gtkMenubarItem->style->fg[GTK_STATE_PRELIGHT];
QColor normalTextColor = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
QColor highlightedTextColor = QColor(gdkHText.red>>8, gdkHText.green>>8, gdkHText.blue>>8);
item.palette.setBrush(QPalette::HighlightedText, highlightedTextColor);
item.palette.setBrush(QPalette::Text, normalTextColor);
item.palette.setBrush(QPalette::ButtonText, normalTextColor);
QCommonStyle::drawControl(element, &item, painter, widget);
if (act) {
GtkShadowType shadowType = GTK_SHADOW_NONE;
d->gtk_widget_style_get (gtkMenubarItem, "selected-shadow-type", &shadowType, NULL);
gtkPainter.paintBox(gtkMenubarItem, "menuitem", option->rect.adjusted(0, 0, 0, 3),
GTK_STATE_PRELIGHT, shadowType, gtkMenubarItem->style);
//draw text
QPalette::ColorRole textRole = dis ? QPalette::Text : QPalette::HighlightedText;
uint alignment = Qt::AlignCenter | Qt::TextShowMnemonic | Qt::TextDontClip | Qt::TextSingleLine;
if (!proxy()->styleHint(SH_UnderlineShortcut, mbi, widget))
alignment |= Qt::TextHideMnemonic;
proxy()->drawItemText(painter, item.rect, alignment, item.palette, mbi->state & State_Enabled, mbi->text, textRole);
}
}
painter->restore();
break;
case CE_Splitter: {
GtkWidget *gtkWindow = d->gtkWidget(QLS("GtkWindow")); // The Murrine Engine currently assumes a widget is passed
gtkPainter.paintHandle(gtkWindow, "splitter", option->rect, gtkPainter.gtkState(option), GTK_SHADOW_NONE,
!(option->state & State_Horizontal) ? GTK_ORIENTATION_HORIZONTAL : GTK_ORIENTATION_VERTICAL,
style);
}
break;
#ifndef QT_NO_TOOLBAR
case CE_ToolBar:
if (const QStyleOptionToolBar *toolbar = qstyleoption_cast<const QStyleOptionToolBar *>(option)) {
// Reserve the beveled appearance only for mainwindow toolbars
if (!(widget && qobject_cast<const QMainWindow*> (widget->parentWidget())))
break;
QRect rect = option->rect;
// There is a 1 pixel gap between toolbar lines in some styles (i.e Human)
if (toolbar->positionWithinLine != QStyleOptionToolBar::End)
rect.adjust(0, 0, 1, 0);
GtkWidget *gtkToolbar = d->gtkWidget(QLS("GtkToolbar"));
GtkShadowType shadow_type = GTK_SHADOW_NONE;
d->gtk_widget_style_get(gtkToolbar, "shadow-type", &shadow_type, NULL);
gtkPainter.paintBox( gtkToolbar, "toolbar", rect,
GTK_STATE_NORMAL, shadow_type, gtkToolbar->style);
}
break;
#endif // QT_NO_TOOLBAR
case CE_MenuItem:
painter->save();
// Draws one item in a popup menu.
if (const QStyleOptionMenuItem *menuItem = qstyleoption_cast<const QStyleOptionMenuItem *>(option)) {
const int windowsItemFrame = 2; // menu item frame width
const int windowsItemHMargin = 3; // menu item hor text margin
const int windowsItemVMargin = 26; // menu item ver text margin
const int windowsRightBorder = 15; // right border on windows
GtkWidget *gtkMenuItem = menuItem->checked ? d->gtkWidget(QLS("GtkMenu.GtkCheckMenuItem")) :
d->gtkWidget(QLS("GtkMenu.GtkMenuItem"));
style = gtkPainter.getStyle(gtkMenuItem);
QColor borderColor = option->palette.background().color().darker(160);
QColor shadow = option->palette.dark().color();
if (menuItem->menuItemType == QStyleOptionMenuItem::Separator) {
GtkWidget *gtkMenuSeparator = d->gtkWidget(QLS("GtkMenu.GtkSeparatorMenuItem"));
painter->setPen(shadow.lighter(106));
gboolean wide_separators = 0;
gint separator_height = 0;
guint horizontal_padding = 3;
QRect separatorRect = option->rect;
if (!d->gtk_check_version(2, 10, 0)) {
d->gtk_widget_style_get(gtkMenuSeparator,
"wide-separators", &wide_separators,
"separator-height", &separator_height,
"horizontal-padding", &horizontal_padding,
NULL);
}
separatorRect.setHeight(option->rect.height() - 2 * gtkMenuSeparator->style->ythickness);
separatorRect.setWidth(option->rect.width() - 2 * (horizontal_padding + gtkMenuSeparator->style->xthickness));
separatorRect.moveCenter(option->rect.center());
if (wide_separators)
gtkPainter.paintBox( gtkMenuSeparator, "hseparator",
separatorRect, GTK_STATE_NORMAL, GTK_SHADOW_NONE, gtkMenuSeparator->style);
else
gtkPainter.paintHline( gtkMenuSeparator, "hseparator",
separatorRect, GTK_STATE_NORMAL, gtkMenuSeparator->style,
0, option->rect.right() - 1, 1);
painter->restore();
break;
}
bool selected = menuItem->state & State_Selected && menuItem->state & State_Enabled;
if (selected) {
QRect rect = option->rect;
#ifndef QT_NO_COMBOBOX
if (qobject_cast<const QComboBox*>(widget))
rect = option->rect;
#endif
gtkPainter.paintBox( gtkMenuItem, "menuitem", rect, GTK_STATE_PRELIGHT, GTK_SHADOW_OUT, style);
}
bool checkable = menuItem->checkType != QStyleOptionMenuItem::NotCheckable;
bool checked = menuItem->checked;
bool enabled = menuItem->state & State_Enabled;
bool ignoreCheckMark = false;
gint checkSize;
d->gtk_widget_style_get(d->gtkWidget(QLS("GtkMenu.GtkCheckMenuItem")), "indicator-size", &checkSize, NULL);
int checkcol = qMax(menuItem->maxIconWidth, qMax(20, checkSize));
#ifndef QT_NO_COMBOBOX
if (qobject_cast<const QComboBox*>(widget))
ignoreCheckMark = true; // Ignore the checkmarks provided by the QComboMenuDelegate
#endif
if (!ignoreCheckMark) {
// Check
QRect checkRect(option->rect.left() + 7, option->rect.center().y() - checkSize/2 + 1, checkSize, checkSize);
checkRect = visualRect(menuItem->direction, menuItem->rect, checkRect);
if (checkable && menuItem->icon.isNull()) {
// Some themes such as aero-clone draw slightly outside the paint rect
int spacing = 1; // ### Consider using gtkCheckBox : "indicator-spacing" instead
if (menuItem->checkType & QStyleOptionMenuItem::Exclusive) {
// Radio button
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = gtkPainter.gtkState(option);
if (selected)
state = GTK_STATE_PRELIGHT;
if (checked)
shadow = GTK_SHADOW_IN;
gtkPainter.setClipRect(checkRect.adjusted(-spacing, -spacing, spacing, spacing));
gtkPainter.paintOption(gtkMenuItem, checkRect.translated(-spacing, -spacing), state, shadow,
gtkMenuItem->style, QLS("option"));
gtkPainter.setClipRect(QRect());
} else {
// Check box
if (menuItem->icon.isNull()) {
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = gtkPainter.gtkState(option);
if (selected)
state = GTK_STATE_PRELIGHT;
if (checked)
shadow = GTK_SHADOW_IN;
gtkPainter.setClipRect(checkRect.adjusted(-spacing, -spacing, -spacing, -spacing));
gtkPainter.paintCheckbox(gtkMenuItem, checkRect.translated(-spacing, -spacing), state, shadow,
gtkMenuItem->style, QLS("check"));
gtkPainter.setClipRect(QRect());
}
}
}
} else {
// Ignore checkmark
if (menuItem->icon.isNull())
checkcol = 0;
else
checkcol = menuItem->maxIconWidth;
}
bool dis = !(menuItem->state & State_Enabled);
bool act = menuItem->state & State_Selected;
const QStyleOption *opt = option;
const QStyleOptionMenuItem *menuitem = menuItem;
QPainter *p = painter;
QRect vCheckRect = visualRect(opt->direction, menuitem->rect,
QRect(menuitem->rect.x() + 3, menuitem->rect.y(),
checkcol, menuitem->rect.height()));
if (!menuItem->icon.isNull()) {
QIcon::Mode mode = dis ? QIcon::Disabled : QIcon::Normal;
if (act && !dis)
mode = QIcon::Active;
QPixmap pixmap;
int smallIconSize = proxy()->pixelMetric(PM_SmallIconSize, option, widget);
QSize iconSize(smallIconSize, smallIconSize);
#ifndef QT_NO_COMBOBOX
if (const QComboBox *combo = qobject_cast<const QComboBox*>(widget))
iconSize = combo->iconSize();
#endif // QT_NO_COMBOBOX
if (checked)
pixmap = menuItem->icon.pixmap(iconSize, mode, QIcon::On);
else
pixmap = menuItem->icon.pixmap(iconSize, mode);
int pixw = pixmap.width();
int pixh = pixmap.height();
QRect pmr(0, 0, pixw, pixh);
pmr.moveCenter(vCheckRect.center() - QPoint(0, 1));
painter->setPen(menuItem->palette.text().color());
if (!ignoreCheckMark && checkable && checked) {
QStyleOption opt = *option;
if (act) {
QColor activeColor = mergedColors(option->palette.background().color(),
option->palette.highlight().color());
opt.palette.setBrush(QPalette::Button, activeColor);
}
opt.state |= State_Sunken;
opt.rect = vCheckRect;
proxy()->drawPrimitive(PE_PanelButtonCommand, &opt, painter, widget);
}
painter->drawPixmap(pmr.topLeft(), pixmap);
}
GdkColor gdkText = gtkMenuItem->style->fg[GTK_STATE_NORMAL];
GdkColor gdkDText = gtkMenuItem->style->fg[GTK_STATE_INSENSITIVE];
GdkColor gdkHText = gtkMenuItem->style->fg[GTK_STATE_PRELIGHT];
uint resolve_mask = option->palette.resolve();
QColor textColor = QColor(gdkText.red>>8, gdkText.green>>8, gdkText.blue>>8);
QColor disabledTextColor = QColor(gdkDText.red>>8, gdkDText.green>>8, gdkDText.blue>>8);
if (resolve_mask & (1 << QPalette::ButtonText)) {
textColor = option->palette.buttonText().color();
disabledTextColor = option->palette.brush(QPalette::Disabled, QPalette::ButtonText).color();
}
QColor highlightedTextColor = QColor(gdkHText.red>>8, gdkHText.green>>8, gdkHText.blue>>8);
if (resolve_mask & (1 << QPalette::HighlightedText)) {
highlightedTextColor = option->palette.highlightedText().color();
}
if (selected)
painter->setPen(highlightedTextColor);
else
painter->setPen(textColor);
int x, y, w, h;
menuitem->rect.getRect(&x, &y, &w, &h);
int tab = menuitem->tabWidth;
int xm = windowsItemFrame + checkcol + windowsItemHMargin;
int xpos = menuitem->rect.x() + xm + 1;
QRect textRect(xpos, y + windowsItemVMargin, w - xm - windowsRightBorder - tab + 1, h - 2 * windowsItemVMargin);
QRect vTextRect = visualRect(opt->direction, menuitem->rect, textRect);
QString s = menuitem->text;
if (!s.isEmpty()) { // Draw text
p->save();
int t = s.indexOf(QLatin1Char('\t'));
int text_flags = Qt::AlignVCenter | Qt::TextShowMnemonic | Qt::TextDontClip | Qt::TextSingleLine;
if (!proxy()->styleHint(SH_UnderlineShortcut, menuitem, widget))
text_flags |= Qt::TextHideMnemonic;
// Draw shortcut right aligned
text_flags |= Qt::AlignRight;
if (t >= 0) {
int rightMargin = 12; // Hardcode for now
QRect vShortcutRect = visualRect(opt->direction, menuitem->rect,
QRect(textRect.topRight(), QPoint(menuitem->rect.right() - rightMargin, textRect.bottom())));
if (dis)
p->setPen(disabledTextColor);
p->drawText(vShortcutRect, text_flags , s.mid(t + 1));
s = s.left(t);
}
text_flags &= ~Qt::AlignRight;
text_flags |= Qt::AlignLeft;
QFont font = menuitem->font;
if (menuitem->menuItemType == QStyleOptionMenuItem::DefaultItem)
font.setBold(true);
p->setFont(font);
if (dis)
p->setPen(disabledTextColor);
p->drawText(vTextRect, text_flags, s.left(t));
p->restore();
}
// Arrow
if (menuItem->menuItemType == QStyleOptionMenuItem::SubMenu) {// draw sub menu arrow
QPoint buttonShift(pixelMetric(PM_ButtonShiftHorizontal, option, widget),
proxy()->pixelMetric(PM_ButtonShiftVertical, option, widget));
QFontMetrics fm(menuitem->font);
int arrow_size = fm.ascent() + fm.descent() - 2 * gtkMenuItem->style->ythickness;
gfloat arrow_scaling = 0.8;
int extra = 0;
if (!d->gtk_check_version(2, 16, 0)) {
// "arrow-scaling" is actually hardcoded and fails on hardy (see gtk+-2.12/gtkmenuitem.c)
// though the current documentation states otherwise
d->gtk_widget_style_get(gtkMenuItem, "arrow-scaling", &arrow_scaling, NULL);
// in versions < 2.16 ythickness was previously subtracted from the arrow_size
extra = 2 * gtkMenuItem->style->ythickness;
}
int horizontal_padding;
d->gtk_widget_style_get(gtkMenuItem, "horizontal-padding", &horizontal_padding, NULL);
const int dim = static_cast<int>(arrow_size * arrow_scaling) + extra;
int xpos = menuItem->rect.left() + menuItem->rect.width() - horizontal_padding - dim;
QRect vSubMenuRect = visualRect(option->direction, menuItem->rect,
QRect(xpos, menuItem->rect.top() +
menuItem->rect.height() / 2 - dim / 2, dim, dim));
GtkStateType state = enabled ? (act ? GTK_STATE_PRELIGHT: GTK_STATE_NORMAL) : GTK_STATE_INSENSITIVE;
GtkShadowType shadowType = (state == GTK_STATE_PRELIGHT) ? GTK_SHADOW_OUT : GTK_SHADOW_IN;
gtkPainter.paintArrow(gtkMenuItem, "menuitem", vSubMenuRect, QApplication::isRightToLeft() ? GTK_ARROW_LEFT : GTK_ARROW_RIGHT, state,
shadowType, FALSE, style);
}
}
painter->restore();
break;
case CE_PushButton:
if (const QStyleOptionButton *btn = qstyleoption_cast<const QStyleOptionButton *>(option)) {
GtkWidget *gtkButton = d->gtkWidget(QLS("GtkButton"));
proxy()->drawControl(CE_PushButtonBevel, btn, painter, widget);
QStyleOptionButton subopt = *btn;
subopt.rect = subElementRect(SE_PushButtonContents, btn, widget);
gint interiorFocus = true;
d->gtk_widget_style_get(gtkButton, "interior-focus", &interiorFocus, NULL);
int xt = interiorFocus ? gtkButton->style->xthickness : 0;
int yt = interiorFocus ? gtkButton->style->ythickness : 0;
if (btn->features & QStyleOptionButton::Flat && btn->state & State_HasFocus)
// The normal button focus rect does not work well for flat buttons in Clearlooks
proxy()->drawPrimitive(PE_FrameFocusRect, option, painter, widget);
else if (btn->state & State_HasFocus)
gtkPainter.paintFocus(gtkButton, "button",
option->rect.adjusted(xt, yt, -xt, -yt),
btn->state & State_Sunken ? GTK_STATE_ACTIVE : GTK_STATE_NORMAL,
gtkButton->style);
proxy()->drawControl(CE_PushButtonLabel, &subopt, painter, widget);
}
break;
#ifndef QT_NO_TABBAR
case CE_TabBarTabShape:
if (const QStyleOptionTab *tab = qstyleoption_cast<const QStyleOptionTab *>(option)) {
GtkWidget *gtkNotebook = d->gtkWidget(QLS("GtkNotebook"));
style = gtkPainter.getStyle(gtkNotebook);
QRect rect = option->rect;
GtkShadowType shadow = GTK_SHADOW_OUT;
GtkStateType state = GTK_STATE_ACTIVE;
if (tab->state & State_Selected)
state = GTK_STATE_NORMAL;
bool selected = (tab->state & State_Selected);
bool first = false, last = false;
if (widget) {
// This is most accurate and avoids resizing tabs while moving
first = tab->rect.left() == widget->rect().left();
last = tab->rect.right() == widget->rect().right();
} else if (option->direction == Qt::RightToLeft) {
bool tmp = first;
first = last;
last = tmp;
}
int topIndent = 3;
int bottomIndent = 1;
int tabOverlap = 1;
painter->save();
switch (tab->shape) {
case QTabBar::RoundedNorth:
if (!selected)
rect.adjust(first ? 0 : -tabOverlap, topIndent, last ? 0 : tabOverlap, -bottomIndent);
gtkPainter.paintExtention( gtkNotebook, "tab", rect,
state, shadow, GTK_POS_BOTTOM, style);
break;
case QTabBar::RoundedSouth:
if (!selected)
rect.adjust(first ? 0 : -tabOverlap, 0, last ? 0 : tabOverlap, -topIndent);
gtkPainter.paintExtention( gtkNotebook, "tab", rect.adjusted(0, 1, 0, 0),
state, shadow, GTK_POS_TOP, style);
break;
case QTabBar::RoundedWest:
if (!selected)
rect.adjust(topIndent, 0, -bottomIndent, 0);
gtkPainter.paintExtention( gtkNotebook, "tab", rect, state, shadow, GTK_POS_RIGHT, style);
break;
case QTabBar::RoundedEast:
if (!selected)
rect.adjust(bottomIndent, 0, -topIndent, 0);
gtkPainter.paintExtention( gtkNotebook, "tab", rect, state, shadow, GTK_POS_LEFT, style);
break;
default:
QCleanlooksStyle::drawControl(element, option, painter, widget);
break;
}
painter->restore();
}
break;
#endif //QT_NO_TABBAR
case CE_ProgressBarGroove:
if (const QStyleOptionProgressBar *bar = qstyleoption_cast<const QStyleOptionProgressBar *>(option)) {
Q_UNUSED(bar);
GtkWidget *gtkProgressBar = d->gtkWidget(QLS("GtkProgressBar"));
GtkStateType state = gtkPainter.gtkState(option);
gtkPainter.paintBox( gtkProgressBar, "trough", option->rect, state, GTK_SHADOW_IN, gtkProgressBar->style);
}
break;
case CE_ProgressBarContents:
if (const QStyleOptionProgressBar *bar = qstyleoption_cast<const QStyleOptionProgressBar *>(option)) {
GtkStateType state = option->state & State_Enabled ? GTK_STATE_NORMAL : GTK_STATE_INSENSITIVE;
GtkWidget *gtkProgressBar = d->gtkWidget(QLS("GtkProgressBar"));
style = gtkProgressBar->style;
gtkPainter.paintBox( gtkProgressBar, "trough", option->rect, state, GTK_SHADOW_IN, style);
int xt = style->xthickness;
int yt = style->ythickness;
QRect rect = bar->rect.adjusted(xt, yt, -xt, -yt);
bool vertical = false;
bool inverted = false;
bool indeterminate = (bar->minimum == 0 && bar->maximum == 0);
// Get extra style options if version 2
if (const QStyleOptionProgressBarV2 *bar2 = qstyleoption_cast<const QStyleOptionProgressBarV2 *>(option)) {
vertical = (bar2->orientation == Qt::Vertical);
inverted = bar2->invertedAppearance;
}
// If the orientation is vertical, we use a transform to rotate
// the progress bar 90 degrees clockwise. This way we can use the
// same rendering code for both orientations.
if (vertical) {
rect.translate(xt, -yt * 2);
rect = QRect(rect.left(), rect.top(), rect.height(), rect.width()); // Flip width and height
QTransform m = QTransform::fromTranslate(rect.height(), 0);
m.rotate(90.0);
painter->setTransform(m);
}
int maxWidth = rect.width();
int minWidth = 4;
qint64 progress = (qint64)qMax(bar->progress, bar->minimum); // Workaround for bug in QProgressBar
double vc6_workaround = ((progress - qint64(bar->minimum)) / double(qint64(bar->maximum) - qint64(bar->minimum))) * maxWidth;
int progressBarWidth = (int(vc6_workaround) > minWidth ) ? int(vc6_workaround) : minWidth;
int width = indeterminate ? maxWidth : progressBarWidth;
bool reverse = (!vertical && (bar->direction == Qt::RightToLeft)) || vertical;
if (inverted)
reverse = !reverse;
int maximum = 2;
int fakePos = 0;
if (bar->minimum == bar->maximum)
maximum = 0;
if (bar->progress == bar->maximum)
fakePos = maximum;
else if (bar->progress > bar->minimum)
fakePos = maximum - 1;
GtkObject *adjustment = d->gtk_adjustment_new(fakePos, 0, maximum, 0, 0, 0);
d->gtk_progress_set_adjustment((GtkProgress*)(gtkProgressBar), (GtkAdjustment*)(adjustment));
QRect progressBar;
if (!indeterminate) {
if (!reverse)
progressBar.setRect(rect.left(), rect.top(), width, rect.height());
else
progressBar.setRect(rect.right() - width, rect.top(), width, rect.height());
} else {
Q_D(const QGtkStyle);
int slideWidth = ((rect.width() - 4) * 2) / 3;
int step = ((d->animateStep * slideWidth) / d->animationFps) % slideWidth;
if ((((d->animateStep * slideWidth) / d->animationFps) % (2 * slideWidth)) >= slideWidth)
step = slideWidth - step;
progressBar.setRect(rect.left() + step, rect.top(), slideWidth / 2, rect.height());
}
QString key = QString(QLS("%0")).arg(fakePos);
if (inverted) {
key += QLatin1String("inv");
gtkPainter.setFlipHorizontal(true);
}
gtkPainter.paintBox( gtkProgressBar, "bar", progressBar, GTK_STATE_SELECTED, GTK_SHADOW_OUT, style, key);
}
break;
default:
QCleanlooksStyle::drawControl(element, option, painter, widget);
}
}
/*!
\reimp
*/
QRect QGtkStyle::subControlRect(ComplexControl control, const QStyleOptionComplex *option,
SubControl subControl, const QWidget *widget) const
{
Q_D(const QGtkStyle);
QRect rect = QWindowsStyle::subControlRect(control, option, subControl, widget);
if (!d->isThemeAvailable())
return QCleanlooksStyle::subControlRect(control, option, subControl, widget);
switch (control) {
case CC_TitleBar:
return QCleanlooksStyle::subControlRect(control, option, subControl, widget);
case CC_Slider:
if (const QStyleOptionSlider *slider = qstyleoption_cast<const QStyleOptionSlider *>(option)) {
// Reserve space for outside focus rect
QStyleOptionSlider sliderCopy = *slider;
sliderCopy.rect = option->rect.adjusted(2, 2, -2, -2);
return QCleanlooksStyle::subControlRect(control, &sliderCopy, subControl, widget);
}
break;
#ifndef QT_NO_GROUPBOX
case CC_GroupBox:
if (qstyleoption_cast<const QStyleOptionGroupBox *>(option)) {
rect = option->rect.adjusted(0, groupBoxTopMargin, 0, -groupBoxBottomMargin);
int topMargin = 0;
int topHeight = 0;
topHeight = 10;
QRect frameRect = rect;
frameRect.setTop(topMargin);
if (subControl == SC_GroupBoxFrame)
return rect;
else if (subControl == SC_GroupBoxContents) {
int margin = 0;
int leftMarginExtension = 8;
return frameRect.adjusted(leftMarginExtension + margin, margin + topHeight + groupBoxTitleMargin, -margin, -margin);
}
if (const QGroupBox *groupBoxWidget = qobject_cast<const QGroupBox *>(widget)) {
//Prepare metrics for a bold font
QFont font = widget->font();
font.setBold(true);
QFontMetrics fontMetrics(font);
QSize textRect = fontMetrics.boundingRect(groupBoxWidget->title()).size() + QSize(4, 4);
int indicatorWidth = proxy()->pixelMetric(PM_IndicatorWidth, option, widget);
int indicatorHeight = proxy()->pixelMetric(PM_IndicatorHeight, option, widget);
if (subControl == SC_GroupBoxCheckBox) {
rect.setWidth(indicatorWidth);
rect.setHeight(indicatorHeight);
rect.moveTop((textRect.height() - indicatorHeight) / 2);
} else if (subControl == SC_GroupBoxLabel) {
if (groupBoxWidget->isCheckable())
rect.adjust(indicatorWidth + 4, 0, 0, 0);
rect.setSize(textRect);
}
rect = visualRect(option->direction, option->rect, rect);
}
}
return rect;
#endif
#ifndef QT_NO_SPINBOX
case CC_SpinBox:
if (const QStyleOptionSpinBox *spinbox = qstyleoption_cast<const QStyleOptionSpinBox *>(option)) {
GtkWidget *gtkSpinButton = d->gtkWidget(QLS("GtkSpinButton"));
int center = spinbox->rect.height() / 2;
int xt = spinbox->frame ? gtkSpinButton->style->xthickness : 0;
int yt = spinbox->frame ? gtkSpinButton->style->ythickness : 0;
int y = yt;
QSize bs;
bs.setHeight(qMax(8, spinbox->rect.height()/2 - y));
bs.setWidth(d->getSpinboxArrowSize());
int x, lx, rx;
x = spinbox->rect.width() - y - bs.width() + 2;
lx = xt;
rx = x - xt;
switch (subControl) {
case SC_SpinBoxUp:
if (spinbox->buttonSymbols == QAbstractSpinBox::NoButtons)
return QRect();
rect = QRect(x, xt, bs.width(), center - yt);
break;
case SC_SpinBoxDown:
if (spinbox->buttonSymbols == QAbstractSpinBox::NoButtons)
return QRect();
rect = QRect(x, center, bs.width(), spinbox->rect.bottom() - center - yt + 1);
break;
case SC_SpinBoxEditField:
if (spinbox->buttonSymbols == QAbstractSpinBox::NoButtons)
rect = QRect(lx, yt, spinbox->rect.width() - 2*xt, spinbox->rect.height() - 2*yt);
else
rect = QRect(lx, yt, rx - qMax(xt - 1, 0), spinbox->rect.height() - 2*yt);
break;
case SC_SpinBoxFrame:
rect = spinbox->rect;
default:
break;
}
rect = visualRect(spinbox->direction, spinbox->rect, rect);
}
break;
#endif // Qt_NO_SPINBOX
#ifndef QT_NO_COMBOBOX
case CC_ComboBox:
if (const QStyleOptionComboBox *box = qstyleoption_cast<const QStyleOptionComboBox *>(option)) {
// We employ the gtk widget to position arrows and separators for us
QString comboBoxPath = box->editable ? QLS("GtkComboBoxEntry") : QLS("GtkComboBox");
GtkWidget *gtkCombo = d->gtkWidget(comboBoxPath);
d->gtk_widget_set_direction(gtkCombo, (option->direction == Qt::RightToLeft) ? GTK_TEXT_DIR_RTL : GTK_TEXT_DIR_LTR);
GtkAllocation geometry = {0, 0, qMax(0, option->rect.width()), qMax(0, option->rect.height())};
d->gtk_widget_size_allocate(gtkCombo, &geometry);
int appears_as_list = !proxy()->styleHint(QStyle::SH_ComboBox_Popup, option, widget);
QString arrowPath = comboBoxPath + QLS(".GtkToggleButton");
if (!box->editable && !appears_as_list)
arrowPath += QLS(".GtkHBox.GtkArrow");
GtkWidget *arrowWidget = d->gtkWidget(arrowPath);
if (!arrowWidget)
return QCleanlooksStyle::subControlRect(control, option, subControl, widget);
QRect buttonRect(option->rect.left() + arrowWidget->allocation.x,
option->rect.top() + arrowWidget->allocation.y,
arrowWidget->allocation.width, arrowWidget->allocation.height);
switch (subControl) {
case SC_ComboBoxArrow: // Note: this indicates the arrowbutton for editable combos
rect = buttonRect;
break;
case SC_ComboBoxEditField: {
rect = visualRect(option->direction, option->rect, rect);
int xMargin = box->editable ? 1 : 4, yMargin = 2;
rect.setRect(option->rect.left() + gtkCombo->style->xthickness + xMargin,
option->rect.top() + gtkCombo->style->ythickness + yMargin,
option->rect.width() - buttonRect.width() - 2*(gtkCombo->style->xthickness + xMargin),
option->rect.height() - 2*(gtkCombo->style->ythickness + yMargin));
rect = visualRect(option->direction, option->rect, rect);
break;
}
default:
break;
}
}
break;
#endif // QT_NO_COMBOBOX
default:
break;
}
return rect;
}
/*!
\reimp
*/
QSize QGtkStyle::sizeFromContents(ContentsType type, const QStyleOption *option,
const QSize &size, const QWidget *widget) const
{
Q_D(const QGtkStyle);
QSize newSize = QCleanlooksStyle::sizeFromContents(type, option, size, widget);
if (!d->isThemeAvailable())
return newSize;
switch (type) {
case CT_ToolButton:
if (const QStyleOptionToolButton *toolbutton = qstyleoption_cast<const QStyleOptionToolButton *>(option)) {
GtkWidget *gtkButton = d->gtkWidget(QLS("GtkToolButton.GtkButton"));
newSize = size + QSize(2 * gtkButton->style->xthickness, 2 + 2 * gtkButton->style->ythickness);
if (widget && qobject_cast<QToolBar *>(widget->parentWidget())) {
QSize minSize(0, 25);
if (toolbutton->toolButtonStyle != Qt::ToolButtonTextOnly)
minSize = toolbutton->iconSize + QSize(12, 12);
newSize = newSize.expandedTo(minSize);
}
if (toolbutton->features & QStyleOptionToolButton::HasMenu)
newSize += QSize(6, 0);
}
break;
case CT_MenuItem:
if (const QStyleOptionMenuItem *menuItem = qstyleoption_cast<const QStyleOptionMenuItem *>(option)) {
int textMargin = 8;
if (menuItem->menuItemType == QStyleOptionMenuItem::Separator) {
GtkWidget *gtkMenuSeparator = d->gtkWidget(QLS("GtkMenu.GtkSeparatorMenuItem"));
GtkRequisition sizeReq = {0, 0};
d->gtk_widget_size_request(gtkMenuSeparator, &sizeReq);
newSize = QSize(size.width(), sizeReq.height);
break;
}
GtkWidget *gtkMenuItem = d->gtkWidget(QLS("GtkMenu.GtkCheckMenuItem"));
GtkStyle* style = gtkMenuItem->style;
// Note we get the perfect height for the default font since we
// set a fake text label on the gtkMenuItem
// But if custom fonts are used on the widget we need a minimum size
GtkRequisition sizeReq = {0, 0};
d->gtk_widget_size_request(gtkMenuItem, &sizeReq);
newSize.setHeight(qMax(newSize.height() - 4, sizeReq.height));
newSize += QSize(textMargin + style->xthickness - 1, 0);
// Cleanlooks assumes a check column of 20 pixels so we need to
// expand it a bit
gint checkSize;
d->gtk_widget_style_get(gtkMenuItem, "indicator-size", &checkSize, NULL);
newSize.setWidth(newSize.width() + qMax(0, checkSize - 20));
}
break;
case CT_SpinBox:
// QSpinBox does some nasty things that depends on CT_LineEdit
newSize = size + QSize(0, -d->gtkWidget(QLS("GtkSpinButton"))->style->ythickness * 2);
break;
case CT_PushButton:
if (const QStyleOptionButton *btn = qstyleoption_cast<const QStyleOptionButton *>(option)) {
GtkWidget *gtkButton = d->gtkWidget(QLS("GtkButton"));
gint focusPadding, focusWidth;
d->gtk_widget_style_get(gtkButton, "focus-padding", &focusPadding, NULL);
d->gtk_widget_style_get(gtkButton, "focus-line-width", &focusWidth, NULL);
newSize = size;
newSize += QSize(2*gtkButton->style->xthickness + 4, 2*gtkButton->style->ythickness);
newSize += QSize(2*(focusWidth + focusPadding + 2), 2*(focusWidth + focusPadding));
GtkWidget *gtkButtonBox = d->gtkWidget(QLS("GtkHButtonBox"));
gint minWidth = 85, minHeight = 0;
d->gtk_widget_style_get(gtkButtonBox, "child-min-width", &minWidth,
"child-min-height", &minHeight, NULL);
if (!btn->text.isEmpty() && newSize.width() < minWidth)
newSize.setWidth(minWidth);
if (newSize.height() < minHeight)
newSize.setHeight(minHeight);
}
break;
case CT_Slider: {
GtkWidget *gtkSlider = d->gtkWidget(QLS("GtkHScale"));
newSize = size + QSize(2*gtkSlider->style->xthickness, 2*gtkSlider->style->ythickness);
}
break;
case CT_LineEdit: {
GtkWidget *gtkEntry = d->gtkWidget(QLS("GtkEntry"));
newSize = size + QSize(2*gtkEntry->style->xthickness, 2 + 2*gtkEntry->style->ythickness);
}
break;
case CT_ItemViewItem:
newSize += QSize(0, 2);
break;
case CT_ComboBox:
if (const QStyleOptionComboBox *combo = qstyleoption_cast<const QStyleOptionComboBox *>(option)) {
GtkWidget *gtkCombo = d->gtkWidget(QLS("GtkComboBox"));
QRect arrowButtonRect = proxy()->subControlRect(CC_ComboBox, combo, SC_ComboBoxArrow, widget);
newSize = size + QSize(12 + arrowButtonRect.width() + 2*gtkCombo->style->xthickness, 4 + 2*gtkCombo->style->ythickness);
if (!(widget && qobject_cast<QToolBar *>(widget->parentWidget())))
newSize += QSize(0, 2);
}
break;
case CT_GroupBox:
newSize += QSize(4, groupBoxBottomMargin + groupBoxTopMargin + groupBoxTitleMargin); // Add some space below the groupbox
break;
case CT_TabBarTab:
if (const QStyleOptionTab *tab = qstyleoption_cast<const QStyleOptionTab *>(option)) {
if (!tab->icon.isNull())
newSize += QSize(6, 0);
}
newSize += QSize(1, 1);
break;
default:
break;
}
return newSize;
}
/*! \reimp */
QPixmap QGtkStyle::standardPixmap(StandardPixmap sp, const QStyleOption *option,
const QWidget *widget) const
{
Q_D(const QGtkStyle);
if (!d->isThemeAvailable())
return QCleanlooksStyle::standardPixmap(sp, option, widget);
QPixmap pixmap;
switch (sp) {
case SP_TitleBarNormalButton: {
QImage restoreButton((const char **)dock_widget_restore_xpm);
QColor alphaCorner = restoreButton.color(2);
alphaCorner.setAlpha(80);
restoreButton.setColor(2, alphaCorner.rgba());
alphaCorner.setAlpha(180);
restoreButton.setColor(4, alphaCorner.rgba());
return QPixmap::fromImage(restoreButton);
}
break;
case SP_TitleBarCloseButton: // Fall through
case SP_DockWidgetCloseButton: {
QImage closeButton((const char **)dock_widget_close_xpm);
QColor alphaCorner = closeButton.color(2);
alphaCorner.setAlpha(80);
closeButton.setColor(2, alphaCorner.rgba());
return QPixmap::fromImage(closeButton);
}
break;
case SP_DialogDiscardButton:
return QGtkPainter::getIcon(GTK_STOCK_DELETE);
case SP_DialogOkButton:
return QGtkPainter::getIcon(GTK_STOCK_OK);
case SP_DialogCancelButton:
return QGtkPainter::getIcon(GTK_STOCK_CANCEL);
case SP_DialogYesButton:
return QGtkPainter::getIcon(GTK_STOCK_YES);
case SP_DialogNoButton:
return QGtkPainter::getIcon(GTK_STOCK_NO);
case SP_DialogOpenButton:
return QGtkPainter::getIcon(GTK_STOCK_OPEN);
case SP_DialogCloseButton:
return QGtkPainter::getIcon(GTK_STOCK_CLOSE);
case SP_DialogApplyButton:
return QGtkPainter::getIcon(GTK_STOCK_APPLY);
case SP_DialogSaveButton:
return QGtkPainter::getIcon(GTK_STOCK_SAVE);
case SP_MessageBoxWarning:
return QGtkPainter::getIcon(GTK_STOCK_DIALOG_WARNING, GTK_ICON_SIZE_DIALOG);
case SP_MessageBoxQuestion:
return QGtkPainter::getIcon(GTK_STOCK_DIALOG_QUESTION, GTK_ICON_SIZE_DIALOG);
case SP_MessageBoxInformation:
return QGtkPainter::getIcon(GTK_STOCK_DIALOG_INFO, GTK_ICON_SIZE_DIALOG);
case SP_MessageBoxCritical:
return QGtkPainter::getIcon(GTK_STOCK_DIALOG_ERROR, GTK_ICON_SIZE_DIALOG);
default:
return QCleanlooksStyle::standardPixmap(sp, option, widget);
}
return pixmap;
}
/*!
\internal
*/
QIcon QGtkStyle::standardIconImplementation(StandardPixmap standardIcon,
const QStyleOption *option,
const QWidget *widget) const
{
Q_D(const QGtkStyle);
if (!d->isThemeAvailable())
return QCleanlooksStyle::standardIconImplementation(standardIcon, option, widget);
switch (standardIcon) {
case SP_DialogDiscardButton:
return QGtkPainter::getIcon(GTK_STOCK_DELETE);
case SP_DialogOkButton:
return QGtkPainter::getIcon(GTK_STOCK_OK);
case SP_DialogCancelButton:
return QGtkPainter::getIcon(GTK_STOCK_CANCEL);
case SP_DialogYesButton:
return QGtkPainter::getIcon(GTK_STOCK_YES);
case SP_DialogNoButton:
return QGtkPainter::getIcon(GTK_STOCK_NO);
case SP_DialogOpenButton:
return QGtkPainter::getIcon(GTK_STOCK_OPEN);
case SP_DialogCloseButton:
return QGtkPainter::getIcon(GTK_STOCK_CLOSE);
case SP_DialogApplyButton:
return QGtkPainter::getIcon(GTK_STOCK_APPLY);
case SP_DialogSaveButton:
return QGtkPainter::getIcon(GTK_STOCK_SAVE);
case SP_MessageBoxWarning:
return QGtkPainter::getIcon(GTK_STOCK_DIALOG_WARNING, GTK_ICON_SIZE_DIALOG);
case SP_MessageBoxQuestion:
return QGtkPainter::getIcon(GTK_STOCK_DIALOG_QUESTION, GTK_ICON_SIZE_DIALOG);
case SP_MessageBoxInformation:
return QGtkPainter::getIcon(GTK_STOCK_DIALOG_INFO, GTK_ICON_SIZE_DIALOG);
case SP_MessageBoxCritical:
return QGtkPainter::getIcon(GTK_STOCK_DIALOG_ERROR, GTK_ICON_SIZE_DIALOG);
default:
return QCleanlooksStyle::standardIconImplementation(standardIcon, option, widget);
}
}
/*! \reimp */
QRect QGtkStyle::subElementRect(SubElement element, const QStyleOption *option, const QWidget *widget) const
{
Q_D(const QGtkStyle);
QRect r = QCleanlooksStyle::subElementRect(element, option, widget);
if (!d->isThemeAvailable())
return r;
switch (element) {
case SE_ProgressBarLabel:
case SE_ProgressBarContents:
case SE_ProgressBarGroove:
return option->rect;
case SE_PushButtonContents:
if (!d->gtk_check_version(2, 10, 0)) {
GtkWidget *gtkButton = d->gtkWidget(QLS("GtkButton"));
GtkBorder *border = 0;
d->gtk_widget_style_get(gtkButton, "inner-border", &border, NULL);
if (border) {
r = option->rect.adjusted(border->left, border->top, -border->right, -border->bottom);
d->gtk_border_free(border);
} else {
r = option->rect.adjusted(1, 1, -1, -1);
}
r = visualRect(option->direction, option->rect, r);
}
break;
default:
break;
}
return r;
}
/*!
\reimp
*/
QRect QGtkStyle::itemPixmapRect(const QRect &r, int flags, const QPixmap &pixmap) const
{
return QCleanlooksStyle::itemPixmapRect(r, flags, pixmap);
}
/*!
\reimp
*/
void QGtkStyle::drawItemPixmap(QPainter *painter, const QRect &rect,
int alignment, const QPixmap &pixmap) const
{
QCleanlooksStyle::drawItemPixmap(painter, rect, alignment, pixmap);
}
/*!
\reimp
*/
QStyle::SubControl QGtkStyle::hitTestComplexControl(ComplexControl cc, const QStyleOptionComplex *opt,
const QPoint &pt, const QWidget *w) const
{
return QCleanlooksStyle::hitTestComplexControl(cc, opt, pt, w);
}
/*!
\reimp
*/
QPixmap QGtkStyle::generatedIconPixmap(QIcon::Mode iconMode, const QPixmap &pixmap,
const QStyleOption *opt) const
{
return QCleanlooksStyle::generatedIconPixmap(iconMode, pixmap, opt);
}
/*!
\reimp
*/
void QGtkStyle::drawItemText(QPainter *painter, const QRect &rect, int alignment, const QPalette &pal,
bool enabled, const QString& text, QPalette::ColorRole textRole) const
{
return QCleanlooksStyle::drawItemText(painter, rect, alignment, pal, enabled, text, textRole);
}
QT_END_NAMESPACE
#endif //!defined(QT_NO_STYLE_QGTK)