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gtk3-tqt-engine/tdegtk/tdegtk-draw.cpp

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/* The TdeGtk Theming Engine for Gtk+.
* Copyright (C) 2012 Timothy Pearson <kb9vqf@pearsoncomputing.net>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston,
* MA 02110-1301, USA.
*
*/
#include <cairo.h>
#include <gtk/gtk.h>
#include <math.h>
#include <tqapplication.h>
#include <tqpainter.h>
#include <tqstyle.h>
#include <tqpopupmenu.h>
#include <tqlistview.h>
#include <tqdrawutil.h>
#include <tqslider.h>
#include <kiconloader.h>
#include <kicontheme.h>
#include "tdegtk-cairo-support.h"
#include "tdegtk-draw.h"
#include "tdegtk-support.h"
#include "tdegtk-types.h"
#include "tdegtk-widgetlookup.h"
#include "tdegtk-utils.h"
#include "tdegtk-animations.h"
#include "tqtcairopainter.h"
#define DEBUG_FILL_BACKGROUND_WITH_COLOR(p,x,y,z) TQBrush brush2( TQColor(x,y,z), TQBrush::SolidPattern ); \
p.setBrush( brush2 ); \
p.setPen( TQt::NoPen ); \
p.drawRect( 0,0, width*2,height*2 ); \
p.setBrush(TQt::NoBrush);
#define DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p,x) p.setBrush(x); \
p.setPen(TQt::NoPen); \
p.drawRect(0, 0, width, height); \
p.setBrush(TQt::NoBrush);
#define DRAW_FILLED_RECTANGLE_OVER_SPECIFIC_AREA(p,b,x,y,w,h) p.setBrush(b); \
p.setPen(TQt::NoPen); \
p.drawRect(x, y, w, h); \
p.setBrush(TQt::NoBrush);
extern int m_scrollBarSubLineWidth;
extern bool m_scrollbarBack1;
extern bool m_scrollbarForward1;
extern bool m_scrollbarBack2;
extern bool m_scrollbarForward2;
WidgetLookup m_widgetLookup;
Animations m_animations;
//#define DRAW_SCROLLBAR_PIECES_INSTEAD_OF_ENTIRE_BAR 1
// Keep this in sync with gtkToTQPaletteColorGroup() below
static TQColorGroup gtkToTQtColorGroup(GtkThemingEngine* engine, GtkStateFlags state) {
// GdkRGBA *background_color;
// GdkRGBA *foreground_color;
// gtk_theming_engine_get(engine, state, GTK_STYLE_PROPERTY_BACKGROUND_COLOR, &background_color, NULL);
// gtk_theming_engine_get(engine, state, GTK_STYLE_PROPERTY_COLOR, &foreground_color, NULL);
// GTK_STATE_FLAG_ACTIVE
// GTK_STATE_FLAG_PRELIGHT
// GTK_STATE_FLAG_SELECTED
// GTK_STATE_FLAG_INSENSITIVE
// GTK_STATE_FLAG_INCONSISTENT
// GTK_STATE_FLAG_FOCUSED
TQColorGroup cg;
// if (state & GTK_STATE_FLAG_INCONSISTENT) {
// cg = tqApp->palette().inactive();
// }
/*else*/ if (state & GTK_STATE_FLAG_INSENSITIVE) {
cg = tqApp->palette().disabled();
}
else {
cg = tqApp->palette().active();
}
// cg.setColor(TQColorGroup::Background, TQColor((background_color->red*255.0),(background_color->green*255.0),(background_color->blue*255.0)));
// cg.setColor(TQColorGroup::Foreground, TQColor((foreground_color->red*255.0),(foreground_color->green*255.0),(foreground_color->blue*255.0)));
return cg;
}
// Keep this in sync with gtkToTQtColorGroup() above
static TQPalette::ColorGroup gtkToTQPaletteColorGroup(GtkThemingEngine* engine, GtkStateFlags state) {
TQPalette::ColorGroup cg = TQPalette::Active;
if (state & GTK_STATE_FLAG_INSENSITIVE) {
cg = TQPalette::Disabled;
}
else {
cg = TQPalette::Active;
}
return cg;
}
static TQStyle::SFlags gtkToTQtStyleFlags(GtkThemingEngine* engine, GtkStateFlags state, TQt3WidgetType wt, GtkWidget* widget) {
TQStyle::SFlags sflags = TQStyle::Style_Default;
gboolean active, inconsistent, mousedown, prelight, focused, disabled, in_menu, has_focus;
in_menu = gtk_theming_engine_has_class (engine, GTK_STYLE_CLASS_MENUITEM);
prelight = (state & GTK_STATE_FLAG_PRELIGHT) != 0;
focused = (state & GTK_STATE_FLAG_FOCUSED) != 0;
disabled = (state & GTK_STATE_FLAG_INSENSITIVE) != 0;
inconsistent = (state & GTK_STATE_FLAG_INCONSISTENT) != 0;
mousedown = (state & GTK_STATE_FLAG_SELECTED) != 0;
active = (state & GTK_STATE_FLAG_ACTIVE) != 0;
has_focus = gtk_widget_has_visible_focus(widget);
if ((wt == TQT3WT_TQRadioButton) || (wt == TQT3WT_TQCheckBox) || (wt == TQT3WT_TQPushButton)) {
GtkCheckButton* checkButton = (widget)?((GTK_IS_CHECK_BUTTON(widget))?GTK_CHECK_BUTTON(widget):0L):0L;
if ((!inconsistent) && (!mousedown)) {
if (active) {
sflags |= TQStyle::Style_On;
}
else {
sflags |= TQStyle::Style_Off;
}
}
if (mousedown) {
sflags |= TQStyle::Style_Down;
if (gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(checkButton))) {
sflags |= TQStyle::Style_On;
}
}
if (prelight) {
sflags |= TQStyle::Style_MouseOver;
}
if (focused) {
sflags |= TQStyle::Style_HasFocus;
}
if (!disabled) {
sflags |= TQStyle::Style_Enabled;
}
if (has_focus) {
sflags |= TQStyle::Style_HasFocus;
}
}
else if (wt == TQT3WT_TQToolButton) {
if (!inconsistent) {
if (active) {
sflags |= TQStyle::Style_On;
}
else {
sflags |= TQStyle::Style_Off;
}
}
if (mousedown) {
sflags |= TQStyle::Style_Down;
}
if (prelight) {
sflags |= TQStyle::Style_MouseOver;
sflags |= TQStyle::Style_Raised;
}
if (focused) {
sflags |= TQStyle::Style_HasFocus;
}
if (!disabled) {
sflags |= TQStyle::Style_Enabled;
}
if (has_focus) {
sflags |= TQStyle::Style_HasFocus;
}
}
else if (wt == TQT3WT_GTKTreeViewCell) {
if (!inconsistent) {
if (active) {
sflags |= TQStyle::Style_On;
}
else {
sflags |= TQStyle::Style_Off;
}
}
if (prelight) {
sflags |= TQStyle::Style_MouseOver;
}
if (focused) {
sflags |= TQStyle::Style_HasFocus;
}
if (!disabled) {
sflags |= TQStyle::Style_Enabled;
}
if (has_focus) {
sflags |= TQStyle::Style_HasFocus;
}
}
else if (wt == TQT3WT_TQGroupBox) {
if (prelight) {
sflags |= TQStyle::Style_MouseOver;
}
if (focused) {
sflags |= TQStyle::Style_HasFocus;
}
if (!disabled) {
sflags |= TQStyle::Style_Enabled;
}
if (has_focus) {
sflags |= TQStyle::Style_HasFocus;
}
}
else if (wt == TQT3WT_TQMenuItem) {
if (prelight) {
sflags |= TQStyle::Style_MouseOver;
}
if (focused) {
sflags |= TQStyle::Style_HasFocus;
}
if (!disabled) {
sflags |= TQStyle::Style_Enabled;
}
if (has_focus) {
sflags |= TQStyle::Style_HasFocus;
}
}
else if (wt == TQT3WT_TQSlider) {
if (active) {
sflags |= TQStyle::Style_Active;
}
if (prelight) {
sflags |= TQStyle::Style_MouseOver;
}
if (focused) {
sflags |= TQStyle::Style_HasFocus;
}
if (!disabled) {
sflags |= TQStyle::Style_Enabled;
}
if (has_focus) {
sflags |= TQStyle::Style_HasFocus;
}
}
else if (wt == TQT3WT_TQScrollBar) {
if (active) {
sflags |= TQStyle::Style_Active;
}
if (prelight) {
sflags |= TQStyle::Style_MouseOver;
}
if (focused) {
sflags |= TQStyle::Style_HasFocus;
}
if (!disabled) {
sflags |= TQStyle::Style_Enabled;
}
if (has_focus) {
sflags |= TQStyle::Style_HasFocus;
}
}
else if (wt == TQT3WT_TQLineEdit) {
if (active) {
sflags |= TQStyle::Style_Down;
}
if (prelight) {
sflags |= TQStyle::Style_MouseOver;
}
if (focused) {
sflags |= TQStyle::Style_HasFocus;
}
if (!disabled) {
sflags |= TQStyle::Style_Enabled;
}
if (has_focus) {
sflags |= TQStyle::Style_HasFocus;
}
sflags |= TQStyle::Style_Sunken;
}
else {
if (active) {
sflags |= TQStyle::Style_Down;
}
if (prelight) {
sflags |= TQStyle::Style_MouseOver;
}
if (focused) {
sflags |= TQStyle::Style_HasFocus;
}
if (!disabled) {
sflags |= TQStyle::Style_Enabled;
}
if (has_focus) {
sflags |= TQStyle::Style_HasFocus;
}
}
return sflags;
}
static TQColorGroup::ColorRole backgroundModeToColorRole(TQt::BackgroundMode mode) {
TQColorGroup::ColorRole ret = TQColorGroup::Background;
if (mode == TQt::PaletteForeground) {
ret = TQColorGroup::Foreground;
}
else if (mode == TQt::PaletteBackground) {
ret = TQColorGroup::Background;
}
else if (mode == TQt::PaletteButton) {
ret = TQColorGroup::Button;
}
else if (mode == TQt::PaletteLight) {
ret = TQColorGroup::Light;
}
else if (mode == TQt::PaletteMidlight) {
ret = TQColorGroup::Midlight;
}
else if (mode == TQt::PaletteDark) {
ret = TQColorGroup::Dark;
}
else if (mode == TQt::PaletteMid) {
ret = TQColorGroup::Mid;
}
else if (mode == TQt::PaletteText) {
ret = TQColorGroup::Text;
}
else if (mode == TQt::PaletteBrightText) {
ret = TQColorGroup::BrightText;
}
else if (mode == TQt::PaletteButtonText) {
ret = TQColorGroup::ButtonText;
}
else if (mode == TQt::PaletteBase) {
ret = TQColorGroup::Base;
}
else if (mode == TQt::PaletteShadow) {
ret = TQColorGroup::Shadow;
}
else if (mode == TQt::PaletteHighlight) {
ret = TQColorGroup::Highlight;
}
else if (mode == TQt::PaletteHighlightedText) {
ret = TQColorGroup::HighlightedText;
}
else if (mode == TQt::PaletteLink) {
ret = TQColorGroup::Link;
}
else if (mode == TQt::PaletteLinkVisited) {
ret = TQColorGroup::LinkVisited;
}
return ret;
}
void gtkRangeToCeData(GtkRange* rangeWidget, TQStyleControlElementData &ceData) {
gint slider_start_pos;
gint slider_end_pos;
GtkAdjustment* adjustment = gtk_range_get_adjustment(rangeWidget);
gtk_range_get_slider_range(rangeWidget, &slider_start_pos, &slider_end_pos);
ceData.minSteps = gtk_adjustment_get_lower(adjustment);
ceData.maxSteps = gtk_adjustment_get_upper(adjustment);
// ceData.tickMarkSetting =
// ceData.tickInterval =
ceData.currentStep = gtk_adjustment_get_value(adjustment);
ceData.startStep = slider_start_pos;
ceData.lineStep = gtk_adjustment_get_step_increment(adjustment);
ceData.pageStep = gtk_adjustment_get_page_increment(adjustment);
}
void gtkScaleToSliderCeData(GtkScale* scaleWidget, TQStyleControlElementData &ceData) {
gtkRangeToCeData(GTK_RANGE(scaleWidget), ceData);
// GtkPositionType valuePosition = gtk_scale_get_value_pos(scaleWidget);
// if (valuePosition == GTK_POS_LEFT) {
// ceData.tickMarkSetting = TQSlider::Left;
// }
// else if (valuePosition == GTK_POS_RIGHT) {
// ceData.tickMarkSetting = TQSlider::Right;
// }
// else if (valuePosition == GTK_POS_TOP) {
// ceData.tickMarkSetting = TQSlider::Above;
// }
// else if (valuePosition == GTK_POS_BOTTOM) {
// ceData.tickMarkSetting = TQSlider::Below;
// }
// else {
ceData.tickMarkSetting = TQSlider::NoMarks;
// }
}
void gtkScrollbarToScrollbarCeData(GtkScrollbar* scrollbarWidget, TQStyleControlElementData &ceData) {
GtkRange* rangeWidget = GTK_RANGE(scrollbarWidget);
gtkRangeToCeData(rangeWidget, ceData);
gint slider_start_pos;
gint slider_end_pos;
GtkAdjustment* adjustment = gtk_range_get_adjustment(rangeWidget);
gtk_range_get_slider_range(rangeWidget, &slider_start_pos, &slider_end_pos);
ceData.minSteps = gtk_adjustment_get_lower(adjustment);
ceData.maxSteps = (gtk_adjustment_get_upper(adjustment)-(gtk_adjustment_get_page_increment(adjustment)+gtk_adjustment_get_step_increment(adjustment)));
ceData.currentStep = gtk_adjustment_get_value(adjustment);
ceData.startStep = slider_start_pos;
ceData.lineStep = gtk_adjustment_get_step_increment(adjustment);
ceData.pageStep = gtk_adjustment_get_page_increment(adjustment);
// Convert the GTK slider length into a correct pagestep that TQt3 can use to obtain the same slider length value
bool threeButtonScrollBar = false;
if (m_scrollbarForward1 | m_scrollbarBack2) threeButtonScrollBar = true;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
int gtkSliderLength = slider_end_pos - slider_start_pos;
uint range = ceData.maxSteps - ceData.minSteps;
// HACK
// GTK3 does not handle odd-sized steppers correctly
if ((m_scrollBarSubLineWidth % 2) != 0) {
gtkSliderLength = gtkSliderLength + 4;
}
int sbextent = tqApp->style().pixelMetric(TQStyle::PM_ScrollBarExtent, ceData, elementFlags, NULL);
int maxlen = ((ceData.orientation == TQt::Horizontal) ? ceData.rect.width() : ceData.rect.height()) - (sbextent * (threeButtonScrollBar ? 3.0 : 2.0));
int gtkPageStep=ceil((-1.0)*(range*gtkSliderLength)/(gtkSliderLength-maxlen));
ceData.pageStep = gtkPageStep;
}
static void
draw_combobox_frame(DRAW_ARGS, const GtkWidgetPath* path, GtkStateFlags state, GtkWidget* widget) {
cairo_save(cr);
cairo_matrix_t gtk_matrix;
cairo_get_matrix(cr, &gtk_matrix);
gtk_matrix.x0 = 0;
gtk_matrix.y0 = 0;
cairo_set_matrix(cr, &gtk_matrix);
GtkWidget* parent(widget?gtk_widget_get_parent(widget):0L);
if (GTK_IS_COMBO_BOX(parent)) {
const GtkAllocation allocation = Gtk::gtk_widget_get_allocation(parent);
TQRect boundingRect(0, 0, allocation.width, allocation.height);
TQt3CairoPaintDevice pd2(NULL, allocation.x, allocation.y, allocation.width, allocation.height, cr);
TQPainter p2(&pd2);
TQStringList objectTypes;
objectTypes.append(TQCOMBOBOX_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_ENTRY)) {
elementFlags = elementFlags | TQStyle::CEF_IsEditable;
}
ceData.rect = boundingRect;
if (gtk_widget_has_visible_focus(widget)) {
elementFlags = elementFlags | TQStyle::CEF_HasFocus;
}
// Draw item
//tqApp->style().drawComplexControl(TQStyle::CC_ComboBox, &p2, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget), TQStyle::SC_ComboBoxFrame, TQStyle::SC_None);
tqApp->style().drawComplexControl(TQStyle::CC_ComboBox, &p2, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget), TQStyle::SC_All, TQStyle::SC_None);
}
cairo_restore(cr);
}
static void
draw_progressbar_frame(DRAW_ARGS, const GtkWidgetPath* path, GtkStateFlags state, GtkWidget* widget) {
cairo_save(cr);
cairo_matrix_t gtk_matrix;
cairo_get_matrix(cr, &gtk_matrix);
gtk_matrix.x0 = 0;
gtk_matrix.y0 = 0;
cairo_set_matrix(cr, &gtk_matrix);
if (GTK_IS_PROGRESS_BAR(widget)) {
const GtkAllocation allocation = Gtk::gtk_widget_get_allocation(widget);
TQRect boundingRect(0, 0, allocation.width, allocation.height);
TQt3CairoPaintDevice pd2(NULL, allocation.x, allocation.y, allocation.width, allocation.height, cr);
TQPainter p2(&pd2);
TQStringList objectTypes;
objectTypes.append(TQPROGRESSBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
GtkProgressBar* progressBar = GTK_PROGRESS_BAR(widget);
gdouble gtkProgressBarFraction = gtk_progress_bar_get_fraction(progressBar);
ceData.totalSteps = 8192;
ceData.currentStep = gtkProgressBarFraction*8192;
ceData.percentageVisible = false;
TQStyle::SFlags sflags = gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget);
sflags = sflags | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default);
TQRect progressBarGrooveRect;
TQRect progressBarContentsRect;
if (gtk_widget_has_visible_focus(widget)) {
elementFlags = elementFlags | TQStyle::CEF_HasFocus;
}
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Base);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p2, brush)
// Draw frame
progressBarGrooveRect = TQStyle::visualRect(tqApp->style().subRect(TQStyle::SR_ProgressBarGroove, ceData, elementFlags, NULL), ceData, elementFlags);
progressBarContentsRect = TQStyle::visualRect(tqApp->style().subRect(TQStyle::SR_ProgressBarContents, ceData, elementFlags, NULL), ceData, elementFlags);
tqApp->style().drawControl(TQStyle::CE_ProgressBarGroove, &p2, ceData, elementFlags, progressBarGrooveRect, ((state & GTK_STATE_FLAG_INSENSITIVE)?objectPalette.disabled():objectPalette.active()), sflags);
// Draw contents
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL)) {
// If vertical, apply a 90 degree rotation matrix to the painter
// This is required to make TQt draw a vertical progress bar
TQWMatrix m;
// // Upside down
// m.rotate(90.0);
// m.translate(0, (allocation.width)*(-1.0));
// Right side up
m.rotate(-90.0);
m.translate((allocation.height)*(-1.0), 0);
p2.setWorldMatrix(m, TRUE);
boundingRect = TQRect(0, 0, allocation.height, allocation.width);
ceData.rect = boundingRect;
}
progressBarGrooveRect = TQStyle::visualRect(tqApp->style().subRect(TQStyle::SR_ProgressBarGroove, ceData, elementFlags, NULL), ceData, elementFlags);
progressBarContentsRect = TQStyle::visualRect(tqApp->style().subRect(TQStyle::SR_ProgressBarContents, ceData, elementFlags, NULL), ceData, elementFlags);
tqApp->style().drawControl(TQStyle::CE_ProgressBarContents, &p2, ceData, elementFlags, progressBarContentsRect, ((state & GTK_STATE_FLAG_INSENSITIVE)?objectPalette.disabled():objectPalette.active()), sflags);
}
cairo_restore(cr);
}
static void
draw_slider_frame(DRAW_ARGS, const GtkWidgetPath* path, GtkStateFlags state, GtkWidget* widget) {
cairo_save(cr);
cairo_matrix_t gtk_matrix;
cairo_get_matrix(cr, &gtk_matrix);
gtk_matrix.x0 = 0;
gtk_matrix.y0 = 0;
cairo_set_matrix(cr, &gtk_matrix);
if (GTK_IS_SCALE(widget)) {
const GtkAllocation allocation = Gtk::gtk_widget_get_allocation(widget);
GdkRectangle rangeRect;
gtk_range_get_range_rect(GTK_RANGE(widget), &rangeRect);
TQRect boundingRect(0, 0, rangeRect.width, rangeRect.height);
TQt3CairoPaintDevice pd2(NULL, allocation.x + rangeRect.x, allocation.y + rangeRect.y, rangeRect.width, rangeRect.height, cr);
TQPainter p2(&pd2);
bool mousedown = (state & GTK_STATE_FLAG_ACTIVE) != 0;
bool prelight = (state & GTK_STATE_FLAG_PRELIGHT) != 0;
GtkScale* scaleWidget = GTK_SCALE(widget);
TQStringList objectTypes;
objectTypes.append(TQSLIDER_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
gtkScaleToSliderCeData(scaleWidget, ceData);
if (gtk_widget_has_visible_focus(widget)) {
elementFlags = elementFlags | TQStyle::CEF_HasFocus;
}
if (mousedown) {
elementFlags = elementFlags | TQStyle::CEF_IsActive;
}
if (prelight) {
elementFlags = elementFlags | TQStyle::CEF_HasMouse;
}
// Draw item
tqApp->style().drawComplexControl(TQStyle::CC_Slider, &p2, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_TQSlider, widget) | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default), TQStyle::SC_All, ((mousedown)?TQStyle::SC_All:TQStyle::SC_None));
}
cairo_restore(cr);
}
TQStyle::SubControl lastSliderActiveSubControl = TQStyle::SC_None;
static void
draw_scrollbar_frame(DRAW_ARGS, const GtkWidgetPath* path, GtkStateFlags state, GtkWidget* widget) {
cairo_save(cr);
cairo_matrix_t gtk_matrix;
cairo_get_matrix(cr, &gtk_matrix);
gtk_matrix.x0 = 0;
gtk_matrix.y0 = 0;
cairo_set_matrix(cr, &gtk_matrix);
if (GTK_IS_SCROLLBAR(widget)) {
const GtkAllocation allocation = Gtk::gtk_widget_get_allocation(widget);
GdkRectangle rangeRect;
gtk_range_get_range_rect(GTK_RANGE(widget), &rangeRect);
TQRect boundingRect(0, 0, rangeRect.width, rangeRect.height);
TQt3CairoPaintDevice pd2(NULL, allocation.x + rangeRect.x, allocation.y + rangeRect.y, rangeRect.width, rangeRect.height, cr);
TQPainter p2(&pd2);
GtkStateFlags widgetStateFlags = gtk_widget_get_state_flags(widget);
bool prelight = (state & GTK_STATE_FLAG_PRELIGHT) != 0;
GtkScrollbar* scrollbarWidget = GTK_SCROLLBAR(widget);
TQStringList objectTypes;
objectTypes.append(TQSLIDER_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
gtkScrollbarToScrollbarCeData(scrollbarWidget, ceData);
if (gtk_widget_has_visible_focus(widget)) {
elementFlags = elementFlags | TQStyle::CEF_HasFocus;
}
if (prelight) {
elementFlags = elementFlags | TQStyle::CEF_HasMouse;
}
TQStyle::SFlags sflags = gtkToTQtStyleFlags(engine, state, TQT3WT_TQScrollBar, widget);
sflags = sflags | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default);
if (gtk_widget_get_sensitive(widget)) {
sflags |= TQStyle::Style_Enabled;
state = (GtkStateFlags)(state & (~GTK_STATE_FLAG_INSENSITIVE));
}
else {
sflags &= ~TQStyle::Style_Enabled;
state = (GtkStateFlags)(state | GTK_STATE_FLAG_INSENSITIVE);
}
sflags &= ~TQStyle::Style_On;
sflags &= ~TQStyle::Style_Down;
sflags &= ~TQStyle::Style_Active;
// Determine active subcontrols
gint cursor_x = -1;
gint cursor_y = -1;
TQStyle::SubControl activeSubControl = TQStyle::SC_None;
if (gtk_widget_get_realized(widget)) {
GdkDevice *device;
device = gdk_device_manager_get_client_pointer(gdk_display_get_device_manager(gtk_widget_get_display(widget)));
gdk_window_get_device_position(gtk_widget_get_window(widget), device, &cursor_x, &cursor_y, NULL);
cursor_x = cursor_x - allocation.x;
cursor_y = cursor_y - allocation.y;
TQPoint cursor_pos(cursor_x, cursor_y);
TQRect addline, subline, addpage, subpage, slider, first, last;
subline = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, TQStyle::SC_ScrollBarSubLine);
addline = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, TQStyle::SC_ScrollBarAddLine);
subpage = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, TQStyle::SC_ScrollBarSubPage);
addpage = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, TQStyle::SC_ScrollBarAddPage);
slider = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, TQStyle::SC_ScrollBarSlider);
first = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, TQStyle::SC_ScrollBarFirst);
last = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, TQStyle::SC_ScrollBarLast);
bool threeButtonScrollBar = false;
if (m_scrollbarForward1 | m_scrollbarBack2) threeButtonScrollBar = true;
if (threeButtonScrollBar) {
if (ceData.orientation == TQt::Horizontal) {
addline = TQRect(allocation.width-(subline.width()*2), subline.y(), subline.width()*2, subline.height());
}
else {
addline = TQRect(subline.x(), allocation.height-(subline.height()*2), subline.width(), subline.height()*2);
}
}
// HACK
// This may not be 100% reliable!
GdkModifierType mouseStateFlags;
gdk_device_get_state (device, gtk_widget_get_window(widget), NULL, &mouseStateFlags);
bool mousedown = (mouseStateFlags & GDK_BUTTON1_MASK);
if (mousedown) {
if (lastSliderActiveSubControl != TQStyle::SC_None) {
activeSubControl = (TQStyle::SubControl)(activeSubControl | lastSliderActiveSubControl);
}
else {
if (subline.contains(cursor_pos)) {
activeSubControl = (TQStyle::SubControl)(activeSubControl | TQStyle::SC_ScrollBarSubLine);
lastSliderActiveSubControl = TQStyle::SC_ScrollBarSubLine;
}
else if (addline.contains(cursor_pos)) {
if (threeButtonScrollBar) {
// Not so fast...the addline region may contain a subline control!
TQRect internalSubLine;
if (ceData.orientation == TQt::Horizontal) {
internalSubLine = TQRect(addline.x(), addline.y(), addline.width()/2, addline.height());
}
else {
internalSubLine = TQRect(addline.x(), addline.y(), addline.width(), addline.height()/2);
}
if (internalSubLine.contains(cursor_pos)) {
activeSubControl = (TQStyle::SubControl)(activeSubControl | TQStyle::SC_ScrollBarSubLine);
lastSliderActiveSubControl = TQStyle::SC_ScrollBarSubLine;
}
else {
activeSubControl = (TQStyle::SubControl)(activeSubControl | TQStyle::SC_ScrollBarAddLine);
lastSliderActiveSubControl = TQStyle::SC_ScrollBarAddLine;
}
}
else {
activeSubControl = (TQStyle::SubControl)(activeSubControl | TQStyle::SC_ScrollBarAddLine);
lastSliderActiveSubControl = TQStyle::SC_ScrollBarAddLine;
}
}
else if (subpage.contains(cursor_pos)) {
activeSubControl = (TQStyle::SubControl)(activeSubControl | TQStyle::SC_ScrollBarSubPage);
lastSliderActiveSubControl = TQStyle::SC_ScrollBarSubPage;
}
else if (addpage.contains(cursor_pos)) {
activeSubControl = (TQStyle::SubControl)(activeSubControl | TQStyle::SC_ScrollBarAddPage);
lastSliderActiveSubControl = TQStyle::SC_ScrollBarAddPage;
}
else if (slider.contains(cursor_pos)) {
activeSubControl = (TQStyle::SubControl)(activeSubControl | TQStyle::SC_ScrollBarSlider);
lastSliderActiveSubControl = TQStyle::SC_ScrollBarSlider;
}
else if (first.contains(cursor_pos)) {
activeSubControl = (TQStyle::SubControl)(activeSubControl | TQStyle::SC_ScrollBarFirst);
lastSliderActiveSubControl = TQStyle::SC_ScrollBarFirst;
}
else if (last.contains(cursor_pos)) {
activeSubControl = (TQStyle::SubControl)(activeSubControl | TQStyle::SC_ScrollBarLast);
lastSliderActiveSubControl = TQStyle::SC_ScrollBarLast;
}
}
}
else {
lastSliderActiveSubControl = TQStyle::SC_None;
}
}
// Draw item
tqApp->style().drawComplexControl(TQStyle::CC_ScrollBar, &p2, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), sflags, TQStyle::SC_All, activeSubControl);
}
cairo_restore(cr);
}
static void
draw_checkbox(DRAW_ARGS, const GtkWidgetPath* path, GtkStateFlags state, GtkWidget* widget, TQt3WidgetType tqt3WidgetType) {
TQStringList objectTypes;
objectTypes.append(TQCHECKBOX_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd2(NULL, x, y, width, height, cr);
TQPainter p2(&pd2);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
if (gtk_widget_has_visible_focus(widget)) {
elementFlags = elementFlags | TQStyle::CEF_HasFocus;
}
// Draw item
tqApp->style().drawControl(TQStyle::CE_CheckBox, &p2, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, tqt3WidgetType, widget));
}
static void
draw_radiobutton(DRAW_ARGS, const GtkWidgetPath* path, GtkStateFlags state, GtkWidget* widget, TQt3WidgetType tqt3WidgetType) {
TQStringList objectTypes;
objectTypes.append(TQCHECKBOX_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd2(NULL, x, y, width, height, cr);
TQPainter p2(&pd2);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
if (gtk_widget_has_visible_focus(widget)) {
elementFlags = elementFlags | TQStyle::CEF_HasFocus;
}
// Draw item
tqApp->style().drawControl(TQStyle::CE_RadioButton, &p2, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, tqt3WidgetType, widget));
}
static void
draw_pushbutton(DRAW_ARGS, const GtkWidgetPath* path, GtkStateFlags state, GtkWidget* widget, TQt3WidgetType tqt3WidgetType) {
TQStringList objectTypes;
objectTypes.append(TQCHECKBOX_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd2(NULL, x, y, width, height, cr);
TQPainter p2(&pd2);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
if (gtk_widget_has_default(widget)) {
elementFlags = elementFlags | TQStyle::CEF_IsDefault;
}
if (gtk_widget_has_visible_focus(widget)) {
elementFlags = elementFlags | TQStyle::CEF_HasFocus;
}
// Draw item
tqApp->style().drawControl(TQStyle::CE_PushButton, &p2, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, tqt3WidgetType, widget));
}
static void
draw_toolbar_button(DRAW_ARGS, const GtkWidgetPath* path, GtkStateFlags state, GtkWidget* widget, TQt3WidgetType tqt3WidgetType) {
bool mousedown = (state & GTK_STATE_FLAG_ACTIVE) != 0;
TQStringList objectTypes;
objectTypes.append(TQTOOLBUTTON_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.colorGroup = ((state & GTK_STATE_FLAG_INSENSITIVE)?objectPalette.disabled():objectPalette.active());
ceData.orientation = TQt::Horizontal;
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd2(NULL, x, y, width, height, cr);
TQPainter p2(&pd2);
ceData.rect = boundingRect;
GtkWidget* parent = (widget)?Gtk::gtk_widget_find_parent(widget, GTK_TYPE_TOOLBAR):0L;
if (parent) {
TQStringList parentObjectTypes;
parentObjectTypes.append(TQTOOLBAR_OBJECT_NAME_STRING);
TQPalette parentObjectPalette = tqApp->palette(parentObjectTypes);
const GtkAllocation allocation = Gtk::gtk_widget_get_allocation(parent);
ceData.parentWidgetData.widgetObjectTypes = parentObjectTypes;
ceData.parentWidgetData.rect = TQRect(0, 0, allocation.width, allocation.height);
ceData.parentWidgetData.colorGroup = ((state & GTK_STATE_FLAG_INSENSITIVE)?parentObjectPalette.disabled():parentObjectPalette.active());
}
// Draw item
tqApp->style().drawComplexControl(TQStyle::CC_ToolButton, &p2, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, tqt3WidgetType, widget), TQStyle::SC_ToolButton, ((mousedown)?TQStyle::SC_ToolButton:TQStyle::SC_None));
}
/* draw a texture placed on the centroid */
static gboolean
draw_centroid_texture (GtkThemingEngine *engine,
cairo_t *cr,
gdouble x,
gdouble y,
gdouble width,
gdouble height)
{
GtkStateFlags state;
GValue value = { 0, };
cairo_pattern_t *texture = NULL;
cairo_surface_t *surface = NULL;
gboolean retval = FALSE;
state = gtk_theming_engine_get_state (engine);
gtk_theming_engine_get_property (engine, "-tdegtk-centroid-texture", state, &value);
if (!G_VALUE_HOLDS_BOXED (&value))
return FALSE;
texture = (cairo_pattern_t*)g_value_dup_boxed (&value);
g_value_unset (&value);
if (texture != NULL)
cairo_pattern_get_surface (texture, &surface);
if (surface != NULL)
{
cairo_save (cr);
cairo_set_source_surface (cr, surface, (gint) (x + width / 2 - cairo_image_surface_get_width (surface) / 2),
(gint) (y + height / 2 - cairo_image_surface_get_height (surface) / 2));
cairo_paint (cr);
cairo_restore (cr);
retval = TRUE;
}
if (texture != NULL)
cairo_pattern_destroy (texture);
return retval;
}
static void
tdegtk_draw_activity (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_widget_path_is_type(path, GTK_TYPE_PROGRESS_BAR)) {
#if 0
TQStringList objectTypes;
objectTypes.append(TQPROGRESSBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
TQStyle::SFlags sflags = gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget);
sflags = sflags | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default);
TQRect progressBarRect = TQStyle::visualRect(tqApp->style().subRect(TQStyle::SR_ProgressBarContents, ceData, elementFlags, NULL), ceData, elementFlags);
// Draw item
tqApp->style().drawControl(TQStyle::CE_ProgressBarContents, &p, ceData, elementFlags, progressBarRect, ((state & GTK_STATE_FLAG_INSENSITIVE)?objectPalette.disabled():objectPalette.active()), sflags);
#else
// Do nothing
#endif
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,128,0,128);
printf("[WARNING] tdegtk_draw_activity() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
p.end();
}
static void
tdegtk_draw_arrow (GtkThemingEngine *engine,
cairo_t *cr,
gdouble angle,
gdouble x,
gdouble y,
gdouble size)
{
cairo_save(cr);
cairo_reset_clip(cr);
TQRect boundingRect(0, 0, size, size);
TQt3CairoPaintDevice *pd = NULL;
TQPainter *p = NULL;
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
GtkWidget* parent(widget?gtk_widget_get_parent(widget):0L);
GtkArrowType arrow_direction;
if ((angle <= ((G_PI/2)-(G_PI/4))) || (angle > ((3*(G_PI/2))+(G_PI/4)))) {
arrow_direction = GTK_ARROW_UP;
}
else if ((angle <= ((G_PI)-(G_PI/4))) && (angle > ((0)+(G_PI/4)))) {
arrow_direction = GTK_ARROW_RIGHT;
}
else if ((angle <= ((3*(G_PI/2))-(G_PI/4))) && (angle > ((G_PI/2)+(G_PI/4)))) {
arrow_direction = GTK_ARROW_DOWN;
}
else {
arrow_direction = GTK_ARROW_LEFT;
}
#if 0
if (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_COMBO_BOX)) {
// Do nothing
}
else
#endif
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_SCROLLBAR)) {
#ifdef DRAW_SCROLLBAR_PIECES_INSTEAD_OF_ENTIRE_BAR
TQStringList objectTypes;
objectTypes.append(TQSCROLLBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
GtkRange* rangeWidget = GTK_RANGE(widget);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.orientation = ((arrow_direction == GTK_ARROW_UP) || (arrow_direction == GTK_ARROW_DOWN))?TQt::Vertical:TQt::Horizontal;
bool subline = ((arrow_direction == GTK_ARROW_DOWN) || (arrow_direction == GTK_ARROW_RIGHT))?false:true;
bool combine_addlineregion_drawing_areas = tqApp->style().styleHint(TQStyle::SH_ScrollBar_CombineAddLineRegionDrawingAreas);
const GtkAllocation allocation = Gtk::gtk_widget_get_allocation(widget);
TQStyle::SFlags sflags = gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget);
sflags = sflags | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default);
if (combine_addlineregion_drawing_areas) {
int newx = x;
int newy = y;
int neww = size;
int newh = size;
if (!subline) {
if (ceData.orientation == TQt::Horizontal) {
if ((x+m_scrollBarSubLineWidth) == allocation.width) {
newx = x-m_scrollBarSubLineWidth;
}
boundingRect.setWidth(m_scrollBarSubLineWidth*2);
neww = m_scrollBarSubLineWidth*2;
}
else {
if ((y+m_scrollBarSubLineWidth) == allocation.height) {
newy = y-m_scrollBarSubLineWidth;
}
boundingRect.setHeight(m_scrollBarSubLineWidth*2);
newh = m_scrollBarSubLineWidth*2;
}
}
pd = new TQt3CairoPaintDevice(NULL, newx, newy, neww, newh, cr);
p = new TQPainter(pd);
if (!subline) {
if (ceData.orientation == TQt::Horizontal) {
p->setClipRect(TQRect(0+m_scrollBarSubLineWidth, 0, m_scrollBarSubLineWidth, newh));
}
else {
p->setClipRect(TQRect(0, 0+m_scrollBarSubLineWidth, neww, m_scrollBarSubLineWidth));
}
}
}
else {
pd = new TQt3CairoPaintDevice(NULL, x, y, size, size, cr);
p = new TQPainter(pd);
}
ceData.rect = boundingRect;
gtkRangeToCeData(rangeWidget, ceData);
// Draw slider arrow buttons
TQRect scrollpagerect = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, (subline)?TQStyle::SC_ScrollBarSubLine:TQStyle::SC_ScrollBarAddLine, sflags);
if (ceData.orientation == TQt::Vertical) {
scrollpagerect.setY(ceData.rect.y());
scrollpagerect.setHeight(ceData.rect.height());
}
else {
scrollpagerect.setX(ceData.rect.x());
scrollpagerect.setWidth(ceData.rect.width());
}
tqApp->style().drawPrimitive((subline)?TQStyle::PE_ScrollBarSubLine:TQStyle::PE_ScrollBarAddLine, p, scrollpagerect, gtkToTQtColorGroup(engine, state), sflags);
#else
// Draw nothing
#endif
}
else if (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_COMBO_BOX) && (!(GTK_IS_MENU_ITEM(widget) || GTK_IS_MENU_ITEM(parent) || (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_MENUITEM))))) {
// Do nothing
}
else {
pd = new TQt3CairoPaintDevice(NULL, x, y, size, size, cr);
p = new TQPainter(pd);
// Draw arrow
TQStyle::PrimitiveElement pe;
if (arrow_direction == GTK_ARROW_UP) {
pe = TQStyle::PE_ArrowUp;
}
else if (arrow_direction == GTK_ARROW_DOWN) {
pe = TQStyle::PE_ArrowDown;
}
else if (arrow_direction == GTK_ARROW_LEFT) {
pe = TQStyle::PE_ArrowLeft;
}
else {
pe = TQStyle::PE_ArrowRight;
}
tqApp->style().drawPrimitive(pe, p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
}
if (p) {
p->end();
delete p;
}
if (pd) {
delete pd;
}
cairo_restore(cr);
}
static void
tdegtk_draw_cell_background (DRAW_ARGS,
GtkRegionFlags flags)
{
cairo_save(cr);
cairo_reset_clip(cr);
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_widget_path_is_type(path, GTK_TYPE_TREE_VIEW)) {
TQStringList objectTypes;
objectTypes.append(TQLISTVIEW_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
if ((state & GTK_STATE_FLAG_SELECTED) != 0) {
ceData.viewportData.bgBrush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Highlight);
}
else {
ceData.viewportData.bgBrush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Base);
}
TQListViewItem tqt3ListViewItem;
TQStyleOption listViewItemOpt(&tqt3ListViewItem);
// Draw item
tqApp->style().drawComplexControl(TQStyle::CC_ListView, &p, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget), TQStyle::SC_ListView, TQStyle::SC_All, listViewItemOpt);
}
// FIXME
// GtkCellRenderer backgrounds should be drawn here, however GTK3 does not provide any means for a GtkCellRenderer to call style engine methods!
// See upstream GTK bug #687677
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,255,128,64);
printf("[WARNING] tdegtk_draw_cell_background() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
p.end();
cairo_restore(cr);
}
static void
tdegtk_draw_cell_frame (DRAW_ARGS,
GtkRegionFlags flags)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
#if 0
if (gtk_widget_path_is_type(path, GTK_TYPE_TREE_VIEW)) {
TQStringList objectTypes;
objectTypes.append(TQLISTVIEW_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
if ((state & GTK_STATE_FLAG_SELECTED) != 0) {
ceData.viewportData.bgBrush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Highlight);
}
else {
ceData.viewportData.bgBrush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Base);
}
TQListViewItem tqt3ListViewItem;
TQStyleOption listViewItemOpt(&tqt3ListViewItem);
TQRect paintDeviceRect;
TQRect backgroundRect;
// Draw item
tqApp->style().drawComplexControl(TQStyle::CC_ListView, &p, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget), TQStyle::SC_ListView, TQStyle::SC_All, listViewItemOpt);
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,255,64,64);
printf("[WARNING] tdegtk_draw_cell_background() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
#endif
p.end();
}
static void
tdegtk_draw_check (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_widget_path_is_type(path, GTK_TYPE_TREE_VIEW)) {
draw_checkbox(engine, cr, x, y, width, height, path, state, widget, TQT3WT_GTKTreeViewCell);
}
else {
draw_checkbox(engine, cr, x, y, width, height, path, state, widget, TQT3WT_TQCheckBox);
}
p.end();
}
static void
tdegtk_draw_common (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,0,255,255);
GtkStateFlags state;
state = gtk_theming_engine_get_state(engine);
//tqApp->style().drawPrimitive(TQStyle::PE_Indicator, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
p.end();
}
static void
tdegtk_draw_common_background (DRAW_ARGS)
{
cairo_save(cr);
cairo_reset_clip(cr);
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_SCROLLBAR)) {
#ifdef DRAW_SCROLLBAR_PIECES_INSTEAD_OF_ENTIRE_BAR
TQStringList objectTypes;
objectTypes.append(TQSCROLLBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
GtkRange* rangeWidget = GTK_RANGE(widget);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
gtkRangeToCeData(rangeWidget, ceData);
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_PanelLineEdit, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget) | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default));
#else
draw_scrollbar_frame(engine, cr, x, y, width, height, path, state, widget);
#endif
}
else if ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_FRAME) || gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_ENTRY) || gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_BUTTON)) && (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_COMBO_BOX))) {
draw_combobox_frame(engine, cr, x, y, width, height, path, state, widget);
}
else if ((gtk_widget_path_is_type(path, GTK_TYPE_ENTRY))
|| (gtk_widget_path_is_type(path, GTK_TYPE_TEXT_VIEW))
|| (gtk_widget_path_is_type(path, GTK_TYPE_TEXT_BUFFER))
|| (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_ENTRY))
|| (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_COMBOBOX_ENTRY))
) {
TQStringList objectTypes;
objectTypes.append(TQLINEEDIT_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Base);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
}
#if 0
else if (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_COMBO_BOX)) {
bool mousedown = (state & GTK_STATE_FLAG_ACTIVE) != 0;
TQStringList objectTypes;
objectTypes.append(TQCOMBOBOX_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_ENTRY)) {
elementFlags = elementFlags | TQStyle::CEF_IsEditable;
}
ceData.rect = boundingRect;
// Draw item
tqApp->style().drawComplexControl(TQStyle::CC_ComboBox, &p, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget), TQStyle::SC_ComboBoxEditField, TQStyle::SC_None);
}
#endif
else if (gtk_widget_path_is_type(path, GTK_TYPE_BUTTON)) {
#if 0
TQStringList objectTypes;
objectTypes.append(TQBUTTON_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
if (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_TOOLBAR)) {
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
}
else if (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_TREE_VIEW)) {
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
}
else {
draw_pushbutton(engine, cr, x, y, width, height, path, state, widget, TQT3WT_TQPushButton);
}
#else
// Draw nothing!
#endif
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_TOOLBAR)) {
TQStringList objectTypes;
objectTypes.append(TQTOOLBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_MENUBAR)) {
TQStringList objectTypes;
objectTypes.append(TQMENUBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_TOOLTIP)) {
TQStringList objectTypes;
objectTypes.append(TQTIPLABEL_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
}
else if ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_MENU)) || (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_MENUITEM))) {
GtkWidget* parent(widget?gtk_widget_get_parent(widget):0L);
if (!GTK_IS_MENU_BAR(parent)) {
// FIXME
// Mouse movements in the popup menu should be tracked similarly to mouse movements in the tab bar
// Many TQt3 styles highlight inactive menu items on hover; not providing this visual feedback may cause users to briefly think their GTK application has frozen up
// // Register menu item with animation engine
// m_animations.menuItemEngine().registerWidget(widget);
//
// // Check tab properties
// int tabIndex = Gtk::gtk_notebook_find_tab(widget, x+width/2, y+height/2);
// m_animations.tabWidgetEngine().updateTabRect(widget, tabIndex, x, y, width, height);
// bool prelight = (tabIndex == m_animations.tabWidgetEngine().hoveredTab(widget));
// GtkMenuItem* menuitem = GTK_MENU_ITEM(widget);
// const int currentPage = gtk_notebook_get_current_page(notebook);
// const int numPages = gtk_notebook_get_n_pages(notebook);
// bool selectedTab = (tabIndex==currentPage);
TQStringList objectTypes;
objectTypes.append(TQPOPUPMENU_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
bool pressed = false;
bool prelight = false;
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
TQMenuItem tqt3MenuItem;
int maxAcceleratorTextWidth = 0;
int maxIconWidth = IconSize(KIcon::Small) + 4;
TQStyleOption menuOpt(&tqt3MenuItem, maxIconWidth, maxAcceleratorTextWidth);
// if (???) elementFlags = elementFlags | TQStyle::TQStyle::CEF_IsCheckable;
TQRect paintDeviceRect;
TQRect backgroundRect;
// Draw item
tqApp->style().drawControl(TQStyle::CE_PopupMenuItem, &p, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_TQMenuItem, widget) | ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_MENUITEM))?TQStyle::Style_Active:TQStyle::Style_Default) | ((pressed)?TQStyle::Style_Down:TQStyle::Style_Default) | ((prelight)?TQStyle::Style_MouseOver:TQStyle::Style_Default), menuOpt);
}
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_NOTEBOOK)) {
TQStringList objectTypes;
objectTypes.append(TQTABWIDGET_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_PROGRESS_BAR)) {
// Do nothing; backround is drawn in frame drawing routine
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_HANDLE_BOX)) {
TQStringList objectTypes;
objectTypes.append(TQDOCKWINDOWHANDLE_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_CELL)) {
TQStringList objectTypes;
objectTypes.append(TQLISTVIEW_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
if ((state & GTK_STATE_FLAG_SELECTED) != 0) {
ceData.viewportData.bgBrush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Highlight);
}
else {
ceData.viewportData.bgBrush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Base);
}
TQListViewItem tqt3ListViewItem;
TQStyleOption listViewItemOpt(&tqt3ListViewItem);
// Draw item
tqApp->style().drawComplexControl(TQStyle::CC_ListView, &p, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget), TQStyle::SC_ListView, TQStyle::SC_All, listViewItemOpt);
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_SCALE) /*&& gtk_theming_engine_has_class (engine, GTK_STYLE_CLASS_TROUGH)*/) {
draw_slider_frame(engine, cr, x, y, width, height, path, state, widget);
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_IMAGE)) {
// Do nothing
}
else if ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_BACKGROUND))
|| (gtk_widget_path_is_type(path, GTK_TYPE_EXPANDER))
|| (gtk_widget_path_is_type(path, GTK_TYPE_BOX))
|| (gtk_widget_path_is_type(path, GTK_TYPE_VIEWPORT))
|| (gtk_widget_path_is_type(path, GTK_TYPE_SCROLLED_WINDOW))
|| (gtk_widget_path_is_type(path, GTK_TYPE_PANED))
) {
TQStringList objectTypes;
objectTypes.append(TQWIDGET_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,0,0,255);
printf("[WARNING] tdegtk_draw_common_background() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
p.end();
cairo_restore(cr);
}
static void
tdegtk_draw_common_frame (DRAW_ARGS)
{
cairo_save(cr);
cairo_reset_clip(cr);
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
TQString widgetPath(Gtk::gtk_widget_path(widget));
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_SCROLLBAR)) {
#ifdef DRAW_SCROLLBAR_PIECES_INSTEAD_OF_ENTIRE_BAR
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_BUTTON)) {
// Scrollbar buttons are drawn in the arrow handler
}
else {
TQStringList objectTypes;
objectTypes.append(TQSCROLLBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
GtkRange* rangeWidget = GTK_RANGE(widget);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
ceData.orientation = ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal);
gtkRangeToCeData(rangeWidget, ceData);
// Draw background
// HACK
// PE_ScrollBarAddPage and PE_ScrollBarSubPage are separate in TQt3
// Apparently there is no such distinction in GTK3!
TQRect scrollpagerect = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, TQStyle::SC_ScrollBarAddPage, gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget) | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default));
if (ceData.orientation == TQt::Vertical) {
scrollpagerect.setY(ceData.rect.y());
scrollpagerect.setHeight(ceData.rect.height());
}
else {
scrollpagerect.setX(ceData.rect.x());
scrollpagerect.setWidth(ceData.rect.width());
}
tqApp->style().drawPrimitive(TQStyle::PE_ScrollBarAddPage, &p, scrollpagerect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
}
#else
// Do nothing...
#endif
}
else if ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_FRAME) || gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_ENTRY) || gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_BUTTON)) && (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_COMBO_BOX))) {
draw_combobox_frame(engine, cr, x, y, width, height, path, state, widget);
}
else {
if (gtk_widget_path_is_type(path, GTK_TYPE_BUTTON)) {
if (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_TOOLBAR)) {
draw_toolbar_button(engine, cr, x, y, width, height, path, state, widget, TQT3WT_TQToolButton);
}
else if (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_TREE_VIEW)) {
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_HeaderSection, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
}
else {
draw_pushbutton(engine, cr, x, y, width, height, path, state, widget, TQT3WT_TQPushButton);
}
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_MENUITEM)) {
GtkWidget* parent(widget?gtk_widget_get_parent(widget):0L);
if (GTK_IS_MENU_BAR(parent)) {
TQStringList objectTypes;
objectTypes.append(TQPOPUPMENU_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// See FIXME in tdegtk_draw_common_background
bool pressed = true;
bool prelight = false;
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_ButtonDropDown, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_TQMenuItem, widget) | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default) | ((pressed)?TQStyle::Style_Down:TQStyle::Style_Default) | ((prelight)?TQStyle::Style_MouseOver:TQStyle::Style_Default));
}
}
#if 0
// FIXME
// Certain styles (highcolor) paint over the color swatches if this is enabled, rendering the picker useless
else if (widgetPath.endsWith(".GtkColorSwatch")) {
TQStringList objectTypes;
objectTypes.append(TQLINEEDIT_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_PanelLineEdit, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_TQLineEdit, widget));
}
#endif
else if (widgetPath.endsWith(".add-color-button")) {
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_ButtonBevel, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_ENTRY)) {
TQStringList objectTypes;
objectTypes.append(TQLINEEDIT_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_PanelLineEdit, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_TQLineEdit, widget));
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_SPIN_BUTTON)) {
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_ButtonBevel, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_TQPushButton, widget));
}
else if ((gtk_widget_path_is_type(path, GTK_TYPE_HANDLE_BOX))
|| (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_TOOLBAR))
) {
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_PanelDockWindow, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_MENUBAR)) {
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_PanelMenuBar, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
}
else if (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_STATUSBAR)) {
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_StatusBarSection, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_MENU)) {
TQStringList objectTypes;
objectTypes.append(TQPOPUPMENU_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_PanelPopup, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget) | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default));
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_TOOLTIP)) {
TQStringList objectTypes;
objectTypes.append(TQTOOLTIP_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
int groupBoxLineWidth = 1;
int lineWidth = 0;
lineWidth = groupBoxLineWidth;
// Draw tooltip frame
qDrawPlainRect(&p, boundingRect, ((state & GTK_STATE_FLAG_INSENSITIVE)?objectPalette.disabled():objectPalette.active()).foreground(), lineWidth);
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_PROGRESS_BAR)) {
draw_progressbar_frame(engine, cr, x, y, width, height, path, state, widget);
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_IMAGE)) {
// Do nothing
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_NOTEBOOK)) {
// Draw frame
tqApp->style().drawPrimitive(TQStyle::PE_PanelTabWidget, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
}
else if ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_BACKGROUND))
|| (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_BOX))
|| (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_EXPANDER))
|| (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_BOX))
|| (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_VIEWPORT))
|| (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_SCROLLED_WINDOW))
|| (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_PANED))
) {
// Do nothing
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,128,64,255);
printf("[WARNING] tdegtk_draw_common_frame() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
}
p.end();
cairo_restore(cr);
}
static void
tdegtk_draw_expander (DRAW_ARGS)
{
GtkStateFlags state;
GdkRGBA color;
gint size;
gdouble angle = G_PI_2;
state = gtk_theming_engine_get_state (engine);
gtk_theming_engine_get_color (engine, state, &color);
cairo_save (cr);
/* use floor function to adjust doubles */
size = floor (MIN (width, height));
x += (gint) (width / 2) - size / 2;
y += (gint) (height / 2) - size / 2;
if ((state & GTK_STATE_FLAG_ACTIVE) == 0)
angle = 0;
cairo_translate (cr, x + size / 2.0 + 0.5, y + size / 2.0 + 0.5);
cairo_rotate (cr, angle);
cairo_translate (cr, size / 4.0, 0);
/* FIXME this + 1/- 1 is done to fix blurred diagonal lines.
* I know it's not nice at all, but it fix a visual bug */
cairo_move_to (cr, - size / 2.0, - size / 2.0);
cairo_rel_line_to (cr, size / 2.0 + 1, size / 2.0);
cairo_rel_line_to (cr, - size / 2.0 - 1, size / 2.0);
cairo_close_path (cr);
cairo_set_source_rgba (cr, color.red, color.green, color.blue, color.alpha * 0.75);
cairo_fill_preserve (cr);
gdk_cairo_set_source_rgba (cr, &color);
cairo_stroke (cr);
cairo_restore (cr);
}
static void
tdegtk_draw_extension (DRAW_ARGS,
GtkPositionType gap_side)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_NOTEBOOK)) {
// Register tabbar with animation engine
m_animations.tabWidgetEngine().registerWidget(widget);
// Check tab properties
int tabIndex = Gtk::gtk_notebook_find_tab(widget, x+width/2, y+height/2);
m_animations.tabWidgetEngine().updateTabRect(widget, tabIndex, x, y, width, height);
bool prelight = (tabIndex == m_animations.tabWidgetEngine().hoveredTab(widget));
GtkNotebook* notebook = GTK_NOTEBOOK(widget);
// bool firstTab = (tabIndex == 0);
// bool lastTab = (tabIndex == gtk_notebook_get_n_pages(notebook)-1);
const int currentPage = gtk_notebook_get_current_page(notebook);
const int numPages = gtk_notebook_get_n_pages(notebook);
bool selectedTab = (tabIndex==currentPage);
TQStringList objectTypes;
objectTypes.append(TQTABBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
TQTab tqt3Tab;
tqt3Tab.setIdentifier(tabIndex);
TQStyleOption tabOpt(&tqt3Tab, (prelight)?&tqt3Tab:(TQTab*)NULL);
elementFlags = elementFlags | TQStyle::CEF_HasParentWidget;
ceData.parentWidgetData.widgetObjectTypes.append(TQTABBAR_OBJECT_NAME_STRING);
int tab_overlap = tqApp->style().pixelMetric(TQStyle::PM_TabBarTabOverlap);
int tab_to_frame_gap_height = 2;
ceData.tabBarData.tabCount = numPages;
ceData.tabBarData.identIndexMap[tqt3Tab.identifier()] = tabIndex;
TQRect paintDeviceRect;
TQRect backgroundRect;
switch (gap_side) {
default:
case GTK_POS_TOP:
ceData.tabBarData.shape = TQTabBar::RoundedBelow;
paintDeviceRect = TQRect(x-tab_overlap, y-tab_to_frame_gap_height, width+(tab_overlap*2), height+tab_to_frame_gap_height);
boundingRect = TQRect(0, 0, width+tab_overlap, height+tab_to_frame_gap_height);
backgroundRect = TQRect(tab_overlap, 0, width, height+2);
break;
case GTK_POS_LEFT:
ceData.tabBarData.shape = TQTabBar::RoundedAbove;
// FIXME
// TQt3 does not know how to draw these
// For now, draw a single unconnected tab in this location
tabIndex = 0;
ceData.tabBarData.tabCount = 1;
tqt3Tab.setIdentifier(tabIndex);
ceData.tabBarData.identIndexMap[tqt3Tab.identifier()] = tabIndex;
paintDeviceRect = TQRect(x-tab_to_frame_gap_height, y, width+tab_to_frame_gap_height, height);
boundingRect = TQRect(0, 0, width, height);
backgroundRect = TQRect(0, 0, width, height);
break;
case GTK_POS_BOTTOM:
ceData.tabBarData.shape = TQTabBar::RoundedAbove;
paintDeviceRect = TQRect(x-tab_overlap, y, width+(tab_overlap*2), height+tab_to_frame_gap_height);
boundingRect = TQRect(0, 0, width+tab_overlap, height+tab_to_frame_gap_height);
backgroundRect = TQRect(tab_overlap, 0, width, height+2);
break;
case GTK_POS_RIGHT:
ceData.tabBarData.shape = TQTabBar::RoundedAbove;
// FIXME
// TQt3 does not know how to draw these
// For now, draw a single unconnected tab in this location
tabIndex = 0;
ceData.tabBarData.tabCount = 1;
tqt3Tab.setIdentifier(tabIndex);
ceData.tabBarData.identIndexMap[tqt3Tab.identifier()] = tabIndex;
paintDeviceRect = TQRect(x, y, width+tab_to_frame_gap_height, height);
boundingRect = TQRect(0, 0, width, height);
backgroundRect = TQRect(0, 0, width, height);
break;
}
cairo_save(cr);
cairo_reset_clip(cr);
TQt3CairoPaintDevice pd2(NULL, paintDeviceRect.x(), paintDeviceRect.y(), paintDeviceRect.width(), paintDeviceRect.height(), cr);
TQPainter p2(&pd2);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_SPECIFIC_AREA(p2, brush, backgroundRect.x(), backgroundRect.y(), backgroundRect.width(), backgroundRect.height())
// Draw tab
tqApp->style().drawControl(TQStyle::CE_TabBarTab, &p2, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget) | ((selectedTab)?TQStyle::Style_Selected:TQStyle::Style_Default) | ((prelight)?TQStyle::Style_MouseOver:TQStyle::Style_Default), tabOpt);
cairo_restore(cr);
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,255,255,0);
printf("[WARNING] tdegtk_draw_extension() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
p.end();
}
static void
tdegtk_draw_focus (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_FRAME) || gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_ENTRY) || gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_BUTTON)) && (Gtk::gtk_widget_path_has_type(path, GTK_TYPE_COMBO_BOX))) {
// Draw nothing!
}
else if ((gtk_widget_path_is_type(path, GTK_TYPE_ENTRY))
|| (gtk_widget_path_is_type(path, GTK_TYPE_TEXT_VIEW))
|| (gtk_widget_path_is_type(path, GTK_TYPE_TEXT_BUFFER))
|| (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_ENTRY))
|| (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_COMBOBOX_ENTRY))
|| (gtk_widget_path_is_type(path, GTK_TYPE_TREE_VIEW))
|| (gtk_widget_path_is_type(path, GTK_TYPE_BUTTON))
|| (gtk_widget_path_is_type(path, GTK_TYPE_EXPANDER))
) {
TQStyle::SFlags sflags = TQStyle::Style_Default;
TQStringList objectTypes;
if ((gtk_widget_path_is_type(path, GTK_TYPE_ENTRY))
|| (gtk_widget_path_is_type(path, GTK_TYPE_TEXT_VIEW))
|| (gtk_widget_path_is_type(path, GTK_TYPE_TEXT_BUFFER))
|| (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_ENTRY))
|| (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_COMBOBOX_ENTRY))
) {
objectTypes.append(TQLINEEDIT_OBJECT_NAME_STRING);
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_TREE_VIEW)) {
objectTypes.append(TQLISTVIEW_OBJECT_NAME_STRING);
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_BUTTON)) {
objectTypes.append(TQPUSHBUTTON_OBJECT_NAME_STRING);
}
else {
objectTypes.append(TQWIDGET_OBJECT_NAME_STRING);
}
TQPalette objectPalette = tqApp->palette(objectTypes);
TQColor bgColor;
if (state & GTK_STATE_FLAG_INSENSITIVE) {
bgColor = objectPalette.color(TQPalette::Disabled, TQColorGroup::Background);
}
else {
bgColor = objectPalette.color(TQPalette::Active, TQColorGroup::Background);
}
TQRect focusBoundingRect = boundingRect;
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
if (gtk_widget_path_is_type(path, GTK_TYPE_BUTTON)) {
TQStringList objectTypes;
objectTypes.append(TQBUTTON_OBJECT_NAME_STRING);
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
focusBoundingRect = TQStyle::visualRect(tqApp->style().subRect(TQStyle::SR_PushButtonFocusRect, ceData, elementFlags, NULL), ceData, elementFlags);
}
TQStyleOption opt(bgColor);
// FIXME
// There are only a few TQt3 widgets that draw a PE_FocusRect directly
// Those specific widgets need to be isolated and the draw routine added here
// All other widget should not trigger any drawing here!
//tqApp->style().drawPrimitive(TQStyle::PE_FocusRect, &p, focusBoundingRect, gtkToTQtColorGroup(engine, state), sflags, opt);
}
else if ((gtk_widget_path_is_type(path, GTK_TYPE_ENTRY))
|| (gtk_widget_path_is_type(path, GTK_TYPE_NOTEBOOK))
|| (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_SCALE))
) {
// Draw nothing
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,128,255,64);
printf("[WARNING] tdegtk_draw_focus() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
p.end();
}
static void
tdegtk_draw_frame_gap (DRAW_ARGS,
GtkPositionType gap_side,
gdouble xy0_gap,
gdouble xy1_gap)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_FRAME)) {
GtkFrame* frame = GTK_FRAME(widget);
GtkShadowType gtkShadowType = gtk_frame_get_shadow_type(frame);
TQStringList objectTypes;
objectTypes.append(TQGROUPBOX_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
int groupBoxLineWidth = 1;
int lineWidth = 0;
int midLineWidth = 0;
TQStyle::SFlags sflags = gtkToTQtStyleFlags(engine, state, TQT3WT_TQGroupBox, widget);
if (gtkShadowType == GTK_SHADOW_NONE) {
lineWidth = 0;
midLineWidth = 0;
}
else if (gtkShadowType == GTK_SHADOW_IN) {
lineWidth = groupBoxLineWidth;
midLineWidth = 0;
sflags = sflags | TQStyle::Style_Sunken;
}
else if (gtkShadowType == GTK_SHADOW_OUT) {
lineWidth = groupBoxLineWidth;
midLineWidth = 0;
sflags = sflags | TQStyle::Style_Raised;
}
else if (gtkShadowType == GTK_SHADOW_ETCHED_IN) {
lineWidth = groupBoxLineWidth;
midLineWidth = groupBoxLineWidth;
sflags = sflags | TQStyle::Style_Sunken;
}
else if (gtkShadowType == GTK_SHADOW_ETCHED_OUT) {
lineWidth = groupBoxLineWidth;
midLineWidth = groupBoxLineWidth;
sflags = sflags | TQStyle::Style_Raised;
}
TQStyleOption opt(lineWidth, midLineWidth);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
// Draw group box
tqApp->style().drawPrimitive(TQStyle::PE_PanelGroupBox, &p, boundingRect, gtkToTQtColorGroup(engine, state), sflags, opt);
// Draw background behind groupbox label
DRAW_FILLED_RECTANGLE_OVER_SPECIFIC_AREA(p, brush, xy0_gap, x, (xy1_gap-xy0_gap), (height/2))
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,255,128,0);
printf("[WARNING] tdegtk_draw_frame_gap() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
p.end();
}
static void
tdegtk_draw_grip (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
TQStringList objectTypes;
objectTypes.append(TQSTATUSBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
cairo_save(cr);
cairo_reset_clip(cr);
// Draw grip
tqApp->style().drawPrimitive(TQStyle::PE_SizeGrip, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
cairo_restore(cr);
p.end();
}
static void
tdegtk_draw_handle (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_widget_path_is_type(path, GTK_TYPE_HANDLE_BOX)) {
TQStringList objectTypes;
objectTypes.append(TQDOCKWINDOWHANDLE_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw handle
tqApp->style().drawPrimitive(TQStyle::PE_DockWindowHandle, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget) | ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQStyle::Style_Default:TQStyle::Style_Horizontal));
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_PANED)) {
TQStringList objectTypes;
objectTypes.append(TQSPLITTER_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw handle
tqApp->style().drawPrimitive(TQStyle::PE_Splitter, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget) | ((gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQStyle::Style_Default:TQStyle::Style_Horizontal));
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,0,128,255);
printf("[WARNING] tdegtk_draw_handle() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
p.end();
}
static void
tdegtk_draw_line (GtkThemingEngine *engine,
cairo_t *cr,
gdouble x0,
gdouble y0,
gdouble x1,
gdouble y1)
{
// FIXME
// This should be using TQt to draw the line with an appropriate line color from the current widget type palette
// line endings
if (y0 == y1) {
y0 += 0.5;
y1 += 0.5;
x0 += 0.5;
x1 -= 0.5;
}
else if (x0 == x1) {
x0 += 0.5;
x1 += 0.5;
y0 += 0.5;
y1 -= 0.5;
}
cairo_move_to (cr, x0, y0);
cairo_line_to (cr, x1, y1);
tdegtk_cairo_set_source_border (engine, cr, MAX (x1 - x0, 1), MAX (y1 - y0, 1));
cairo_stroke (cr);
}
static void
tdegtk_draw_notebook (DRAW_ARGS,
GtkPositionType gap_side,
gdouble xy0_gap,
gdouble xy1_gap)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,0,255,0);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
TQStringList objectTypes;
objectTypes.append(TQTABWIDGET_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
// Draw background
TQBrush brush = objectPalette.brush(gtkToTQPaletteColorGroup(engine, state), TQColorGroup::Background);
DRAW_FILLED_RECTANGLE_OVER_ENTIRE_AREA(p, brush)
// Draw tab frame
tqApp->style().drawPrimitive(TQStyle::PE_PanelTabWidget, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
p.end();
}
static void
tdegtk_draw_radio (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_widget_path_is_type(path, GTK_TYPE_TREE_VIEW)) {
draw_radiobutton(engine, cr, x, y, width, height, path, state, widget, TQT3WT_GTKTreeViewCell);
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_MENUITEM)) {
const GtkAllocation allocation = Gtk::gtk_widget_get_allocation(widget);
boundingRect = TQRect(0, 0, allocation.width, allocation.height);
TQt3CairoPaintDevice pd2(NULL, 0, 0, allocation.width, allocation.height, cr);
TQPainter p2(&pd2);
bool checked = ((state & GTK_STATE_FLAG_ACTIVE) != 0);
int maxAcceleratorTextWidth = 0;
int maxIconWidth = IconSize(KIcon::Small) + 4;
TQStringList objectTypes;
objectTypes.append(TQPOPUPMENU_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
TQMenuItem tqt3MenuItem;
tqt3MenuItem.setChecked(checked);
TQStyleOption menuOpt(&tqt3MenuItem, maxIconWidth, maxAcceleratorTextWidth);
elementFlags = elementFlags | TQStyle::TQStyle::CEF_IsCheckable;
if (checked) {
tqApp->style().drawPrimitive(TQStyle::PE_MenuItemIndicatorFrame, &p2, ceData, elementFlags, ceData.rect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_TQRadioButton, widget), menuOpt);
tqApp->style().drawPrimitive(TQStyle::PE_MenuItemIndicatorCheck, &p2, ceData, elementFlags, ceData.rect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_TQRadioButton, widget), menuOpt);
}
}
else {
draw_radiobutton(engine, cr, x, y, width, height, path, state, widget, TQT3WT_TQRadioButton);
}
p.end();
}
static void
tdegtk_draw_separator (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_widget_path_is_type(path, GTK_TYPE_SEPARATOR_MENU_ITEM)) {
TQStringList objectTypes;
objectTypes.append(TQPOPUPMENU_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
bool pressed = false;
bool prelight = false;
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
TQMenuItem tqt3MenuItem;
tqt3MenuItem.setSeparator(true);
int maxAcceleratorTextWidth = 0;
int maxIconWidth = IconSize(KIcon::Small) + 4;
TQStyleOption menuOpt(&tqt3MenuItem, maxIconWidth, maxAcceleratorTextWidth);
// if (???) elementFlags = elementFlags | TQStyle::TQStyle::CEF_IsCheckable;
TQRect paintDeviceRect;
TQRect backgroundRect;
// Draw item
tqApp->style().drawControl(TQStyle::CE_PopupMenuItem, &p, ceData, elementFlags, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_TQMenuItem, widget), menuOpt);
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_SEPARATOR)) {
TQt::Orientation orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
tqApp->style().drawPrimitive(TQStyle::PE_Separator, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget) | ((orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default));
}
else if (gtk_widget_path_is_type(path, GTK_TYPE_SEPARATOR_TOOL_ITEM)) {
TQt::Orientation orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
tqApp->style().drawPrimitive(TQStyle::PE_Separator, &p, boundingRect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget) | ((orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default));
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,128,128,255);
printf("[WARNING] tdegtk_draw_separator() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
p.end();
}
static void
tdegtk_draw_slider (DRAW_ARGS,
GtkOrientation orientation)
{
cairo_save(cr);
cairo_reset_clip(cr);
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
const GtkWidgetPath* path;
GtkStateFlags state;
GtkWidget* widget;
path = gtk_theming_engine_get_path(engine);
state = gtk_theming_engine_get_state(engine);
widget = m_widgetLookup.find(cr, path);
if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_SCROLLBAR)) {
#ifdef DRAW_SCROLLBAR_PIECES_INSTEAD_OF_ENTIRE_BAR
TQStringList objectTypes;
objectTypes.append(TQSCROLLBAR_OBJECT_NAME_STRING);
TQPalette objectPalette = tqApp->palette(objectTypes);
GtkRange* rangeWidget = GTK_RANGE(widget);
TQStyleControlElementData ceData;
TQStyle::ControlElementFlags elementFlags = TQStyle::CEF_None;
ceData.widgetObjectTypes = objectTypes;
ceData.rect = boundingRect;
ceData.orientation = (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_VERTICAL))?TQt::Vertical:TQt::Horizontal;
gtkRangeToCeData(rangeWidget, ceData);
// Draw slider
TQRect scrollpagerect = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, ceData, elementFlags, TQStyle::SC_ScrollBarSlider, gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget));
if (ceData.orientation == TQt::Vertical) {
scrollpagerect.setY(ceData.rect.y());
scrollpagerect.setHeight(ceData.rect.height());
}
else {
scrollpagerect.setX(ceData.rect.x());
scrollpagerect.setWidth(ceData.rect.width());
}
tqApp->style().drawPrimitive(TQStyle::PE_ScrollBarSlider, &p, scrollpagerect, gtkToTQtColorGroup(engine, state), gtkToTQtStyleFlags(engine, state, TQT3WT_NONE, widget) | ((ceData.orientation == TQt::Horizontal)?TQStyle::Style_Horizontal:TQStyle::Style_Default));
#else
// draw_scrollbar_frame(engine, cr, x, y, width, height, path, state, widget);
#endif
}
else if (gtk_theming_engine_has_class(engine, GTK_STYLE_CLASS_SCALE)) {
draw_slider_frame(engine, cr, x, y, width, height, path, state, widget);
}
else {
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,255,0,255);
printf("[WARNING] tdegtk_draw_slider() nonfunctional for widget with path '%s'\n\r", gtk_widget_path_to_string (gtk_theming_engine_get_path(engine))); fflush(stdout);
}
p.end();
cairo_restore(cr);
}
static void
tdegtk_draw_spinbutton_background (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,128,255,0);
p.end();
}
static void
tdegtk_draw_spinbutton_frame (DRAW_ARGS)
{
TQRect boundingRect(0, 0, width, height);
TQt3CairoPaintDevice pd(NULL, x, y, width, height, cr);
TQPainter p(&pd);
DEBUG_FILL_BACKGROUND_WITH_COLOR(p,128,255,128);
p.end();
}
void
tdegtk_register_style_default (TdeGtkStyleFunctions *functions)
{
g_assert (functions);
functions->draw_activity = tdegtk_draw_activity;
functions->draw_arrow = tdegtk_draw_arrow;
functions->draw_cell_background = tdegtk_draw_cell_background;
functions->draw_cell_frame = tdegtk_draw_cell_frame;
functions->draw_check = tdegtk_draw_check;
functions->draw_common = tdegtk_draw_common;
functions->draw_common_background = tdegtk_draw_common_background;
functions->draw_common_frame = tdegtk_draw_common_frame;
functions->draw_expander = tdegtk_draw_expander;
functions->draw_extension = tdegtk_draw_extension;
functions->draw_focus = tdegtk_draw_focus;
functions->draw_frame_gap = tdegtk_draw_frame_gap;
functions->draw_grip = tdegtk_draw_grip;
functions->draw_handle = tdegtk_draw_handle;
functions->draw_line = tdegtk_draw_line;
functions->draw_notebook = tdegtk_draw_notebook;
functions->draw_radio = tdegtk_draw_radio;
functions->draw_separator = tdegtk_draw_separator;
functions->draw_slider = tdegtk_draw_slider;
functions->draw_spinbutton_background = tdegtk_draw_spinbutton_background;
functions->draw_spinbutton_frame = tdegtk_draw_spinbutton_frame;
}
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