/**
* displayconfig . cpp
*
* Copyright ( c ) 2009 - 2010 Timothy Pearson < kb9vqf @ pearsoncomputing . net >
*
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation ; either version 2 of the License , or
* ( at your option ) any later version .
*
* This program 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 General Public License for more details .
*
* You should have received a copy of the GNU General Public License
* along with this program ; if not , write to the Free Software
* Foundation , Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 , USA .
*/
# include <tqcheckbox.h>
# include <tqlabel.h>
# include <tqlayout.h>
# include <tqlineedit.h>
# include <tqpushbutton.h>
# include <tqtabwidget.h>
# include <tqtimer.h>
# include <dcopclient.h>
# include <tdeaboutdata.h>
# include <tdeapplication.h>
# include <tdeconfig.h>
# include <kcombobox.h>
# include <kdebug.h>
# include <kdialog.h>
# include <tdeglobal.h>
# include <tdelistview.h>
# include <tdelocale.h>
# include <tdemessagebox.h>
# include <tdepopupmenu.h>
# include <kinputdialog.h>
# include <kurlrequester.h>
# include <tdecmoduleloader.h>
# include <kgenericfactory.h>
# include <kstandarddirs.h>
# include <unistd.h>
# include <ksimpleconfig.h>
# include <string>
# include <stdio.h>
# include <tqstring.h>
# include <math.h>
# define PI 3.1415926535897932384626433832795028841971693993751058209749445923078164062862089986280348253421170679
# include "displayconfig.h"
using namespace std ;
# ifdef __OpenBSD__
# define abs __gnu_cxx::abs
# endif
/**** DLL Interface ****/
typedef KGenericFactory < KDisplayConfig , TQWidget > KDisplayCFactory ;
K_EXPORT_COMPONENT_FACTORY ( kcm_displayconfig , KDisplayCFactory ( " kcmdisplayconfig " ) )
KSimpleConfig * systemconfig ;
TQPoint moveTQRectOutsideTQRect ( TQRect base , TQRect movable , int fallback_level = 0 ) {
TQPoint final_result ;
double base_center_x = base . x ( ) + ( base . width ( ) / 2 ) ;
double base_center_y = base . y ( ) + ( base . height ( ) / 2 ) ;
double movable_center_x = movable . x ( ) + ( movable . width ( ) / 2 ) ;
double movable_center_y = movable . y ( ) + ( movable . height ( ) / 2 ) ;
double max_x_movement = ( base . width ( ) / 2 ) + ( movable . width ( ) / 2 ) ;
double max_y_movement = ( base . height ( ) / 2 ) + ( movable . height ( ) / 2 ) ;
double x_diff = abs ( base_center_x - movable_center_x ) ;
double y_diff = abs ( base_center_y - movable_center_y ) ;
int invert_movement ;
// Calculate the angles of the four corners of the base rectangle
double angle_1 = atan2 ( ( base . height ( ) / 2 ) , ( base . width ( ) / 2 ) ) ;
double angle_2 = atan2 ( ( base . height ( ) / 2 ) , ( base . width ( ) / 2 ) * ( - 1 ) ) ;
double angle_3 = atan2 ( ( base . height ( ) / 2 ) * ( - 1 ) , ( base . width ( ) / 2 ) * ( - 1 ) ) ;
double angle_4 = atan2 ( ( base . height ( ) / 2 ) * ( - 1 ) , ( base . width ( ) / 2 ) ) ;
// Calculate the angle that the movable rectangle center is on
double movable_angle = atan2 ( base_center_y - movable_center_y , movable_center_x - base_center_x ) ;
// Fix up coordinates
if ( angle_1 < 0 ) angle_1 = angle_1 + ( 2 * PI ) ;
if ( angle_2 < 0 ) angle_2 = angle_2 + ( 2 * PI ) ;
if ( angle_3 < 0 ) angle_3 = angle_3 + ( 2 * PI ) ;
if ( angle_4 < 0 ) angle_4 = angle_4 + ( 2 * PI ) ;
if ( movable_angle < 0 ) movable_angle = movable_angle + ( 2 * PI ) ;
// Now calculate quadrant
int quadrant ;
if ( ( movable_angle < angle_2 ) & & ( movable_angle > = angle_1 ) ) {
quadrant = 2 ;
}
else if ( ( movable_angle < angle_3 ) & & ( movable_angle > = angle_2 ) ) {
quadrant = 3 ;
}
else if ( ( movable_angle < angle_4 ) & & ( movable_angle > = angle_3 ) ) {
quadrant = 4 ;
}
else {
quadrant = 1 ;
}
if ( fallback_level = = 0 ) {
if ( ( quadrant = = 2 ) | | ( quadrant = = 4 ) ) {
// Move it in the Y direction
if ( movable_center_y < base_center_y )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( 0 , ( max_y_movement - y_diff ) * invert_movement ) ;
}
else {
// Move it in the X direction
if ( movable_center_x < base_center_x )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( ( max_x_movement - x_diff ) * invert_movement , 0 ) ;
}
}
if ( fallback_level = = 1 ) {
if ( ( quadrant = = 1 ) | | ( quadrant = = 3 ) ) {
// Move it in the Y direction
if ( movable_center_y < base_center_y )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( 0 , ( max_y_movement - y_diff ) * invert_movement ) ;
}
else {
// Move it in the X direction
if ( movable_center_x < base_center_x )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( ( max_x_movement - x_diff ) * invert_movement , 0 ) ;
}
}
if ( fallback_level = = 2 ) {
// Ooh, nasty, I need to move the rectangle the other (suboptimal) direction
if ( ( quadrant = = 2 ) | | ( quadrant = = 4 ) ) {
// Move it in the Y direction
if ( movable_center_y > = base_center_y )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( 0 , ( max_y_movement + y_diff ) * invert_movement ) ;
}
else {
// Move it in the X direction
if ( movable_center_x > = base_center_x )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( ( max_x_movement + x_diff ) * invert_movement , 0 ) ;
}
}
if ( fallback_level = = 3 ) {
// Ooh, nasty, I need to move the rectangle the other (suboptimal) direction
if ( ( quadrant = = 1 ) | | ( quadrant = = 3 ) ) {
// Move it in the Y direction
if ( movable_center_y > = base_center_y )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( 0 , ( max_y_movement + y_diff ) * invert_movement ) ;
}
else {
// Move it in the X direction
if ( movable_center_x > = base_center_x )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( ( max_x_movement + x_diff ) * invert_movement , 0 ) ;
}
}
// Check for intersection
TQRect test_rect = movable ;
test_rect . moveBy ( final_result . x ( ) , final_result . y ( ) ) ;
if ( test_rect . intersects ( base ) ) {
if ( final_result . x ( ) > 0 )
final_result . setX ( final_result . x ( ) + 1 ) ;
if ( final_result . x ( ) < 0 )
final_result . setX ( final_result . x ( ) - 1 ) ;
if ( final_result . y ( ) > 0 )
final_result . setY ( final_result . y ( ) + 1 ) ;
if ( final_result . y ( ) < 0 )
final_result . setY ( final_result . y ( ) - 1 ) ;
}
return final_result ;
}
TQPoint moveTQRectSoThatItTouchesTQRect ( TQRect base , TQRect movable , int fallback_level = 0 ) {
TQPoint final_result ;
double base_center_x = base . x ( ) + ( base . width ( ) / 2 ) ;
double base_center_y = base . y ( ) + ( base . height ( ) / 2 ) ;
double movable_center_x = movable . x ( ) + ( movable . width ( ) / 2 ) ;
double movable_center_y = movable . y ( ) + ( movable . height ( ) / 2 ) ;
double max_x_movement = ( base . width ( ) / 2 ) + ( movable . width ( ) / 2 ) ;
double max_y_movement = ( base . height ( ) / 2 ) + ( movable . height ( ) / 2 ) ;
double x_diff = abs ( base_center_x - movable_center_x ) ;
double y_diff = abs ( base_center_y - movable_center_y ) ;
int invert_movement ;
// Calculate the angles of the four corners of the base rectangle
double angle_1 = atan2 ( ( base . height ( ) / 2 ) , ( base . width ( ) / 2 ) ) ;
double angle_2 = atan2 ( ( base . height ( ) / 2 ) , ( base . width ( ) / 2 ) * ( - 1 ) ) ;
double angle_3 = atan2 ( ( base . height ( ) / 2 ) * ( - 1 ) , ( base . width ( ) / 2 ) * ( - 1 ) ) ;
double angle_4 = atan2 ( ( base . height ( ) / 2 ) * ( - 1 ) , ( base . width ( ) / 2 ) ) ;
// Calculate the angle that the movable rectangle center is on
double movable_angle = atan2 ( base_center_y - movable_center_y , movable_center_x - base_center_x ) ;
// Fix up coordinates
if ( angle_1 < 0 ) angle_1 = angle_1 + ( 2 * PI ) ;
if ( angle_2 < 0 ) angle_2 = angle_2 + ( 2 * PI ) ;
if ( angle_3 < 0 ) angle_3 = angle_3 + ( 2 * PI ) ;
if ( angle_4 < 0 ) angle_4 = angle_4 + ( 2 * PI ) ;
if ( movable_angle < 0 ) movable_angle = movable_angle + ( 2 * PI ) ;
// Now calculate quadrant
int quadrant ;
if ( ( movable_angle < angle_2 ) & & ( movable_angle > = angle_1 ) ) {
quadrant = 2 ;
}
else if ( ( movable_angle < angle_3 ) & & ( movable_angle > = angle_2 ) ) {
quadrant = 3 ;
}
else if ( ( movable_angle < angle_4 ) & & ( movable_angle > = angle_3 ) ) {
quadrant = 4 ;
}
else {
quadrant = 1 ;
}
if ( fallback_level = = 0 ) {
if ( ( quadrant = = 2 ) | | ( quadrant = = 4 ) ) {
// Move it in the Y direction
if ( movable_center_y < base_center_y )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( 0 , ( max_y_movement - y_diff ) * invert_movement ) ;
}
else {
// Move it in the X direction
if ( movable_center_x < base_center_x )
invert_movement = - 1 ;
else
invert_movement = 1 ;
final_result = TQPoint ( ( max_x_movement - x_diff ) * invert_movement , 0 ) ;
}
}
// Check for intersection
TQRect test_rect = movable ;
test_rect . moveBy ( final_result . x ( ) , final_result . y ( ) ) ;
if ( test_rect . intersects ( base ) ) {
if ( final_result . x ( ) > 0 )
final_result . setX ( final_result . x ( ) - 1 ) ;
if ( final_result . x ( ) < 0 )
final_result . setX ( final_result . x ( ) + 1 ) ;
if ( final_result . y ( ) > 0 )
final_result . setY ( final_result . y ( ) - 1 ) ;
if ( final_result . y ( ) < 0 )
final_result . setY ( final_result . y ( ) + 1 ) ;
}
return final_result ;
}
TQPoint moveTQRectOutsideMonitorRegion ( TQRect rect , MonitorRegion region ) {
// This is a fun little class (not!)
// It needs to move the TQRect so that it does not overlap any rectangles in the region
long rect_center_x = rect . x ( ) + ( rect . width ( ) / 2 ) ;
long rect_center_y = rect . y ( ) + ( rect . height ( ) / 2 ) ;
// First, see if the rectangle actually overlaps the region
if ( ! region . contains ( rect ) )
return TQPoint ( 0 , 0 ) ;
// Then, break the region into the series of source rectangles
TQMemArray < TQRect > rectangles = region . rects ( ) ;
// Next, find which rectangle is closest to the center of the TQRect
int closest = 0 ;
long distance = 16384 * 16384 ;
int fallback_mode = 0 ;
long test_distance ;
long test_center_x ;
long test_center_y ;
for ( unsigned int i = 0 ; i < rectangles . size ( ) ; i + + ) {
test_center_x = rectangles [ i ] . x ( ) + ( rectangles [ i ] . width ( ) / 2 ) ;
test_center_y = rectangles [ i ] . y ( ) + ( rectangles [ i ] . height ( ) / 2 ) ;
test_distance = pow ( test_center_x - rect_center_x , 2 ) + pow ( test_center_y - rect_center_y , 2 ) ;
if ( test_distance < distance ) {
// Make sure this is an outer rectangle; i,e. there is empty space where
// we would want to move the TQRect...
// To do that we will move the TQRect in all four possible directions,
// and see if any put the TQRect in an empty location
// If they do, then this current rectangle is considered usable
// and it is added to the distance checking routine.
TQPoint test_moveby = moveTQRectOutsideTQRect ( rectangles [ i ] , rect , 0 ) ;
TQRect test_rect = rect ;
test_rect . moveBy ( test_moveby . x ( ) , test_moveby . y ( ) ) ;
if ( ! region . contains ( test_rect ) ) {
closest = i ;
distance = test_distance ;
fallback_mode = 0 ;
}
else {
test_moveby = moveTQRectOutsideTQRect ( rectangles [ i ] , rect , 1 ) ;
test_rect = rect ;
test_rect . moveBy ( test_moveby . x ( ) , test_moveby . y ( ) ) ;
if ( ! region . contains ( test_rect ) ) {
closest = i ;
distance = test_distance ;
fallback_mode = 1 ;
}
else {
test_moveby = moveTQRectOutsideTQRect ( rectangles [ i ] , rect , 2 ) ;
test_rect = rect ;
test_rect . moveBy ( test_moveby . x ( ) , test_moveby . y ( ) ) ;
if ( ! region . contains ( test_rect ) ) {
closest = i ;
distance = test_distance ;
fallback_mode = 2 ;
}
else {
test_moveby = moveTQRectOutsideTQRect ( rectangles [ i ] , rect , 3 ) ;
test_rect = rect ;
test_rect . moveBy ( test_moveby . x ( ) , test_moveby . y ( ) ) ;
if ( ! region . contains ( test_rect ) ) {
closest = i ;
distance = test_distance ;
fallback_mode = 3 ;
}
}
}
}
}
}
// Finally, calculate the required translation to move the TQRect outside the MonitorRegion
// so that it touches the closest line found above
return moveTQRectOutsideTQRect ( rectangles [ closest ] , rect , fallback_mode ) ;
}
TQPoint compressTQRectTouchingMonitorRegion ( TQRect rect , MonitorRegion region , TQSize workspace ) {
// This is another fun little class (not!)
// It needs to move the TQRect so that it touches the closest outside line of the MonitorRegion
bool should_move ;
long rect_center_x = rect . x ( ) + ( rect . width ( ) / 2 ) ;
long rect_center_y = rect . y ( ) + ( rect . height ( ) / 2 ) ;
// First, break the region into the series of source rectangles
TQMemArray < TQRect > rectangles = region . rects ( ) ;
// Next, find which rectangle is closest to the center of the TQRect
should_move = false ;
int closest = 0 ;
long distance = 16384 * 16384 ;
int fallback_mode ;
long test_distance ;
long test_center_x ;
long test_center_y ;
for ( unsigned int i = 0 ; i < rectangles . size ( ) ; i + + ) {
test_center_x = rectangles [ i ] . x ( ) + ( rectangles [ i ] . width ( ) / 2 ) ;
test_center_y = rectangles [ i ] . y ( ) + ( rectangles [ i ] . height ( ) / 2 ) ;
test_distance = pow ( test_center_x - rect_center_x , 2 ) + pow ( test_center_y - rect_center_y , 2 ) ;
if ( ( abs ( test_center_x - ( workspace . width ( ) / 2 ) ) < 2 ) & & ( abs ( test_center_y - ( workspace . height ( ) / 2 ) ) < 2 ) ) {
test_distance = 0 ; // Give the primary monitor "gravity" so it can attract all other monitors to itself
}
if ( test_distance < distance ) {
// Make sure this is an outer rectangle; i,e. there is empty space where
// we would want to move the TQRect...
// To do that we will move the TQRect in all four possible directions,
// and see if any put the TQRect in an empty location
// If they do, then this current rectangle is considered usable
// and it is added to the distance checking routine.
TQPoint test_moveby = moveTQRectSoThatItTouchesTQRect ( rectangles [ i ] , rect , 0 ) ;
TQRect test_rect = rect ;
test_rect . moveBy ( test_moveby . x ( ) , test_moveby . y ( ) ) ;
if ( ! region . contains ( test_rect ) ) {
closest = i ;
distance = test_distance ;
fallback_mode = 0 ;
should_move = true ;
}
}
}
// Finally, calculate the required translation to move the TQRect outside the MonitorRegion
// so that it touches the closest line found above
if ( should_move )
return moveTQRectSoThatItTouchesTQRect ( rectangles [ closest ] , rect , fallback_mode ) ;
else
return TQPoint ( 0 , 0 ) ;
}
void KDisplayConfig : : updateDraggableMonitorInformation ( int monitor_id ) {
updateDraggableMonitorInformationInternal ( monitor_id , true ) ;
changed ( ) ;
}
void KDisplayConfig : : updateDraggableMonitorInformationInternal ( int monitor_id , bool recurse ) {
int i ;
int j = 0 ;
DraggableMonitor * primary_monitor = NULL ;
DraggableMonitor * moved_monitor = NULL ;
SingleScreenData * screendata = NULL ;
TQObjectList monitors ;
// Find the moved draggable monitor object
monitors = base - > monitorPhyArrange - > childrenListObject ( ) ;
if ( monitors . count ( ) ) {
for ( i = 0 ; i < int ( monitors . count ( ) ) ; + + i ) {
if ( : : tqqt_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ) {
DraggableMonitor * monitor = static_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ;
if ( monitor - > screen_id = = monitor_id ) {
moved_monitor = monitor ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( moved_monitor - > screen_id ) ;
}
}
}
}
if ( ! screendata ) {
return ;
}
TQString rotationDesired = * screendata - > rotations . at ( screendata - > current_rotation_index ) ;
bool isvisiblyrotated = ( ( rotationDesired = = ROTATION_90_DEGREES_STRING ) | | ( rotationDesired = = ROTATION_270_DEGREES_STRING ) ) ;
if ( screendata - > is_extended ) {
moved_monitor - > show ( ) ;
}
else {
moved_monitor - > hide ( ) ;
}
// Handle resizing
if ( isvisiblyrotated ) {
moved_monitor - > setFixedSize ( screendata - > current_y_pixel_count * base - > monitorPhyArrange - > resize_factor , screendata - > current_x_pixel_count * base - > monitorPhyArrange - > resize_factor ) ;
}
else {
moved_monitor - > setFixedSize ( screendata - > current_x_pixel_count * base - > monitorPhyArrange - > resize_factor , screendata - > current_y_pixel_count * base - > monitorPhyArrange - > resize_factor ) ;
}
// Find the primary monitor
for ( i = 0 ; i < numberOfScreens ; i + + ) {
screendata = m_screenInfoArray [ activeProfileName ] . at ( i ) ;
if ( screendata - > is_primary )
j = i ;
}
monitors = base - > monitorPhyArrange - > childrenListObject ( ) ;
primary_monitor = NULL ;
if ( monitors . count ( ) ) {
for ( i = 0 ; i < int ( monitors . count ( ) ) ; + + i ) {
if ( : : tqqt_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ) {
DraggableMonitor * monitor = static_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ;
if ( monitor - > screen_id = = j ) {
monitor - > is_primary = true ; // Prevent dragging of the primary monitor
primary_monitor = monitor ;
}
else {
monitor - > is_primary = false ;
}
}
}
}
if ( primary_monitor ) {
if ( moved_monitor ! = primary_monitor ) {
// Run layout rules
applyMonitorLayoutRules ( moved_monitor ) ;
int toffset_x = moved_monitor - > x ( ) - ( ( base - > monitorPhyArrange - > width ( ) / 2 ) - ( primary_monitor - > width ( ) / 2 ) ) ;
int toffset_y = moved_monitor - > y ( ) - ( ( base - > monitorPhyArrange - > height ( ) / 2 ) - ( primary_monitor - > height ( ) / 2 ) ) ;
int offset_x = toffset_x / base - > monitorPhyArrange - > resize_factor ;
int offset_y = toffset_y / base - > monitorPhyArrange - > resize_factor ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( monitor_id ) ;
screendata - > absolute_x_position = offset_x ;
screendata - > absolute_y_position = offset_y ;
}
else {
// Reset the position of the primary monitor
moveMonitor ( primary_monitor , 0 , 0 ) ;
}
}
else {
printf ( " [WARNING] Display layout broken... \n " ) ; fflush ( stdout ) ;
}
layoutDragDropDisplay ( ) ;
// // FIXME Yes, this should work. For some reason it creates big problems instead
// // Run layout rules on all monitors
// if (recurse == true) {
// applyMonitorLayoutRules();
// }
}
bool KDisplayConfig : : applyMonitorLayoutRules ( ) {
int i ;
for ( i = 0 ; i < numberOfScreens ; i + + ) {
updateDraggableMonitorInformationInternal ( i , false ) ;
}
return false ;
}
bool KDisplayConfig : : applyMonitorLayoutRules ( DraggableMonitor * monitor_to_move ) {
int i ;
bool monitor_was_moved ;
TQObjectList monitors ;
// Ensure that the monitors:
// 1) Do NOT overlap
// 2) Touch on at least one side
monitor_was_moved = false ;
// Handle 1)
// First, create a region from the monitor rectangles
// The moved monitor cannot exist within that region
MonitorRegion other_monitors ;
monitors = base - > monitorPhyArrange - > childrenListObject ( ) ;
if ( monitors . count ( ) ) {
for ( i = 0 ; i < int ( monitors . count ( ) ) ; + + i ) {
if ( : : tqqt_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ) {
DraggableMonitor * monitor = static_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ;
if ( monitor ! = monitor_to_move ) {
other_monitors = other_monitors . unite ( MonitorRegion ( monitor - > geometry ( ) ) ) ;
}
}
}
}
// Now get the required move X/Y direction
TQPoint req_move = moveTQRectOutsideMonitorRegion ( monitor_to_move - > geometry ( ) , other_monitors ) ;
// And move the monitor
if ( ! monitor_to_move - > isHidden ( ) )
monitor_to_move - > move ( monitor_to_move - > x ( ) + req_move . x ( ) , monitor_to_move - > y ( ) + req_move . y ( ) ) ;
else {
req_move . setX ( 0 ) ;
req_move . setY ( 0 ) ;
monitor_to_move - > move ( base - > monitorPhyArrange - > width ( ) , base - > monitorPhyArrange - > height ( ) ) ;
}
if ( ( req_move . x ( ) ! = 0 ) | | ( req_move . y ( ) ! = 0 ) )
monitor_was_moved = true ;
// Handle 2)
// Now we need to shrink the monitors so that no gaps appear between then
// All shrinking must take place towards the nearest extant monitor edge
// First, determine which rectangles touch the primary monitor, or touch rectangles that then
// in turn touch the primary monitor
// FIXME
// Only run this routine if we don't touch the primary monitor, or touch any rectangles that
// actually do touch the primary monitor (possible through other rectangles, etc.)...
// This would be for efficiency
// FIXME
// if () {
TQPoint req_move2 ( - 1 , - 1 ) ;
while ( ( req_move2 . x ( ) ! = 0 ) | | ( req_move2 . y ( ) ! = 0 ) ) {
// First, create a region from the monitor rectangles
MonitorRegion other_monitors2 ;
monitors = base - > monitorPhyArrange - > childrenListObject ( ) ;
if ( monitors . count ( ) ) {
for ( i = 0 ; i < int ( monitors . count ( ) ) ; + + i ) {
if ( : : tqqt_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ) {
DraggableMonitor * monitor = static_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ;
if ( monitor ! = monitor_to_move ) {
other_monitors2 = other_monitors2 . unite ( MonitorRegion ( monitor - > geometry ( ) ) ) ;
}
}
}
}
// Now get the required move X/Y direction
req_move2 = compressTQRectTouchingMonitorRegion ( monitor_to_move - > geometry ( ) , other_monitors , base - > monitorPhyArrange - > size ( ) ) ;
// And move the monitor
if ( ! monitor_to_move - > isHidden ( ) )
monitor_to_move - > move ( monitor_to_move - > x ( ) + req_move2 . x ( ) , monitor_to_move - > y ( ) + req_move2 . y ( ) ) ;
else {
req_move2 . setX ( 0 ) ;
req_move2 . setY ( 0 ) ;
monitor_to_move - > move ( base - > monitorPhyArrange - > width ( ) , base - > monitorPhyArrange - > height ( ) ) ;
}
if ( ( req_move2 . x ( ) ! = 0 ) | | ( req_move2 . y ( ) ! = 0 ) )
monitor_was_moved = true ;
}
// }
return monitor_was_moved ;
}
void KDisplayConfig : : moveMonitor ( DraggableMonitor * monitor , int realx , int realy ) {
int i ;
int j = 0 ;
bool primary_found ;
DraggableMonitor * primary_monitor ;
SingleScreenData * screendata ;
// Find the primary monitor
primary_found = false ;
for ( i = 0 ; i < numberOfScreens ; i + + ) {
screendata = m_screenInfoArray [ activeProfileName ] . at ( i ) ;
if ( screendata - > is_primary ) {
j = i ;
primary_found = true ;
}
}
TQObjectList monitors = base - > monitorPhyArrange - > childrenListObject ( ) ;
primary_monitor = NULL ;
if ( monitors . count ( ) ) {
for ( i = 0 ; i < int ( monitors . count ( ) ) ; + + i ) {
if ( : : tqqt_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ) {
DraggableMonitor * monitor = static_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ;
if ( monitor - > screen_id = = j ) {
monitor - > is_primary = true ; // Prevent dragging of the primary monitor
primary_monitor = monitor ;
}
else {
monitor - > is_primary = false ;
}
}
}
}
if ( primary_found & & primary_monitor ) {
int tx = realx * base - > monitorPhyArrange - > resize_factor ;
int ty = realy * base - > monitorPhyArrange - > resize_factor ;
if ( ! monitor - > isHidden ( ) )
monitor - > move ( ( base - > monitorPhyArrange - > width ( ) / 2 ) - ( primary_monitor - > width ( ) / 2 ) + tx , ( base - > monitorPhyArrange - > height ( ) / 2 ) - ( primary_monitor - > height ( ) / 2 ) + ty ) ;
else
monitor - > move ( base - > monitorPhyArrange - > width ( ) , base - > monitorPhyArrange - > height ( ) ) ;
}
}
// int KDisplayConfig::realResolutionSliderValue() {
// return base->resolutionSlider->maxValue() - base->resolutionSlider->value();
// }
//
// void KDisplayConfig::setRealResolutionSliderValue(int index) {
// base->resolutionSlider->setValue(base->resolutionSlider->maxValue() - index);
// }
TQStringList sortResolutions ( TQStringList unsorted ) {
int xres ;
int largest ;
TQStringList sorted ;
TQStringList : : Iterator it ;
TQStringList : : Iterator largestit ;
while ( unsorted . count ( ) ) {
largest = - 1 ;
for ( it = unsorted . begin ( ) ; it ! = unsorted . end ( ) ; + + it ) {
TQString resolutionstring = * it ;
int separator_pos = resolutionstring . find ( " x " ) ;
TQString x_res_string = resolutionstring . left ( separator_pos ) ;
TQString y_res_string = resolutionstring . right ( resolutionstring . length ( ) - separator_pos - 3 ) ;
xres = x_res_string . toInt ( ) ;
if ( xres > largest ) {
largest = xres ;
largestit = it ;
}
}
sorted . prepend ( * largestit ) ;
unsorted . remove ( largestit ) ;
}
return sorted ;
}
int KDisplayConfig : : realResolutionSliderValue ( ) {
unsigned int i ;
unsigned int j ;
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
TQStringList sortedList = screendata - > resolutions ;
sortedList = sortResolutions ( sortedList ) ;
j = 0 ;
for ( i = 0 ; i < screendata - > resolutions . count ( ) ; i + + ) {
if ( ( * sortedList . at ( base - > resolutionSlider - > value ( ) ) ) = = ( * screendata - > resolutions . at ( i ) ) ) {
j = i ;
}
}
return j ;
}
void KDisplayConfig : : setRealResolutionSliderValue ( int index ) {
unsigned int i ;
unsigned int j ;
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
TQStringList sortedList = screendata - > resolutions ;
sortedList = sortResolutions ( sortedList ) ;
j = 0 ;
for ( i = 0 ; i < screendata - > resolutions . count ( ) ; i + + ) {
if ( ( * sortedList . at ( i ) ) = = ( * screendata - > resolutions . at ( index ) ) ) {
j = i ;
}
}
base - > resolutionSlider - > setValue ( j ) ;
}
/**** KDisplayConfig ****/
KDisplayConfig : : KDisplayConfig ( TQWidget * parent , const char * name , const TQStringList & )
: TDECModule ( KDisplayCFactory : : instance ( ) , parent , name ) , iccTab ( 0 ) , numberOfProfiles ( 0 ) , numberOfScreens ( 0 ) , m_randrsimple ( 0 ) , activeProfileName ( " " ) , m_gammaApplyTimer ( 0 )
{
# ifdef __TDE_HAVE_TDEHWLIB
TDEHardwareDevices * hwdevices = TDEGlobal : : hardwareDevices ( ) ;
connect ( hwdevices , TQT_SIGNAL ( hardwareUpdated ( TDEGenericDevice * ) ) , this , TQT_SLOT ( deviceChanged ( TDEGenericDevice * ) ) ) ;
# endif
m_randrsimple = new KRandrSimpleAPI ( ) ;
TQVBoxLayout * layout = new TQVBoxLayout ( this , 0 , KDialog : : spacingHint ( ) ) ;
if ( getuid ( ) ! = 0 ) {
systemconfig = new KSimpleConfig ( locateLocal ( " config " , " tdedisplay/ " , true ) + " tdedisplayconfigrc " ) ;
systemconfig - > setFileWriteMode ( 0600 ) ;
}
else {
systemconfig = new KSimpleConfig ( TQString : : fromLatin1 ( KDE_CONFDIR " /tdedisplay/tdedisplayconfigrc " ) ) ;
systemconfig - > setFileWriteMode ( 0644 ) ;
}
TDEAboutData * about =
new TDEAboutData ( I18N_NOOP ( " kcmdisplayconfig " ) , I18N_NOOP ( " TDE Display Profile Control Module " ) ,
0 , 0 , TDEAboutData : : License_GPL ,
I18N_NOOP ( " (c) 2011 Timothy Pearson " ) ) ;
about - > addAuthor ( " Timothy Pearson " , 0 , " kb9vqf@pearsoncomputing.net " ) ;
setAboutData ( about ) ;
m_gammaApplyTimer = new TQTimer ( ) ;
connect ( m_gammaApplyTimer , SIGNAL ( timeout ( ) ) , this , SLOT ( applyGamma ( ) ) ) ;
base = new DisplayConfigBase ( this ) ;
profileRulesGrid = new TQGridLayout ( base - > profileRulesGridWidget , 1 , 1 , KDialog : : marginHint ( ) ) ;
layout - > addWidget ( base ) ;
if ( getuid ( ) ! = 0 ) {
base - > systemEnableSupport - > setText ( i18n ( " &Enable local display control for this session " ) ) ;
}
// setRootOnlyMsg(i18n("<b>The global display configuration is a system wide setting, and requires administrator access</b><br>To alter the system's global display configuration, click on the \"Administrator Mode\" button below.<br>Otherwise, you may change your session-specific display configuration below."));
// setUseRootOnlyMsg(true); // Setting this hides the Apply button!
base - > nonRootWarningLabel - > setFrameShape ( TQFrame : : Box ) ;
base - > nonRootWarningLabel - > setFrameShadow ( TQFrame : : Raised ) ;
if ( getuid ( ) ! = 0 ) {
base - > nonRootWarningLabel - > setText ( i18n ( " <b>The global display configuration is a system wide setting, and requires administrator access</b><br>To alter the system's global display configuration, click on the \" Administrator Mode \" button below.<br>Otherwise, you may change your session-specific display configuration below. " ) ) ;
}
else {
base - > nonRootWarningLabel - > hide ( ) ;
}
connect ( base - > systemEnableSupport , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( changed ( ) ) ) ;
connect ( base - > systemEnableSupport , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( processLockoutControls ( ) ) ) ;
connect ( base - > addProfileButton , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( addProfile ( ) ) ) ;
connect ( base - > renameProfileButton , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( renameProfile ( ) ) ) ;
connect ( base - > deleteProfileButton , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( deleteProfile ( ) ) ) ;
connect ( base - > activateProfileButton , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( activateProfile ( ) ) ) ;
connect ( base - > reloadProfileButton , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( reloadProfileFromDisk ( ) ) ) ;
connect ( base - > saveProfileButton , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( saveProfile ( ) ) ) ;
connect ( base - > systemEnableStartupProfile , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( changed ( ) ) ) ;
connect ( base - > systemEnableStartupProfile , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( processLockoutControls ( ) ) ) ;
connect ( base - > startupDisplayProfileList , TQT_SIGNAL ( activated ( int ) ) , this , TQT_SLOT ( changed ( ) ) ) ;
connect ( base - > startupDisplayProfileList , TQT_SIGNAL ( activated ( int ) ) , this , TQT_SLOT ( selectDefaultProfile ( int ) ) ) ;
connect ( base - > displayProfileList , TQT_SIGNAL ( activated ( int ) ) , this , TQT_SLOT ( selectProfile ( int ) ) ) ;
connect ( base - > monitorDisplaySelectDD , TQT_SIGNAL ( activated ( int ) ) , TQT_SLOT ( changed ( ) ) ) ;
connect ( base - > gammamonitorDisplaySelectDD , TQT_SIGNAL ( activated ( int ) ) , TQT_SLOT ( changed ( ) ) ) ;
connect ( base - > gammaTargetSelectDD , TQT_SIGNAL ( activated ( int ) ) , TQT_SLOT ( gammaTargetChanged ( int ) ) ) ;
connect ( base - > rotationSelectDD , TQT_SIGNAL ( activated ( int ) ) , TQT_SLOT ( rotationInfoChanged ( ) ) ) ;
connect ( base - > refreshRateDD , TQT_SIGNAL ( activated ( int ) ) , TQT_SLOT ( refreshInfoChanged ( ) ) ) ;
connect ( base - > orientationHFlip , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( rotationInfoChanged ( ) ) ) ;
connect ( base - > orientationVFlip , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( rotationInfoChanged ( ) ) ) ;
connect ( base - > resolutionSlider , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_SLOT ( resolutionSliderChanged ( int ) ) ) ;
connect ( base - > gammaAllSlider , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_SLOT ( gammaAllSliderChanged ( int ) ) ) ;
connect ( base - > gammaRedSlider , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_SLOT ( gammaRedSliderChanged ( int ) ) ) ;
connect ( base - > gammaGreenSlider , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_SLOT ( gammaGreenSliderChanged ( int ) ) ) ;
connect ( base - > gammaBlueSlider , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_SLOT ( gammaBlueSliderChanged ( int ) ) ) ;
connect ( base - > monitorDisplaySelectDD , TQT_SIGNAL ( activated ( int ) ) , TQT_SLOT ( selectScreen ( int ) ) ) ;
connect ( base - > gammamonitorDisplaySelectDD , TQT_SIGNAL ( activated ( int ) ) , TQT_SLOT ( gammaselectScreen ( int ) ) ) ;
connect ( base - > systemEnableDPMS , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( dpmsChanged ( ) ) ) ;
connect ( base - > systemEnableDPMSStandby , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( dpmsChanged ( ) ) ) ;
connect ( base - > systemEnableDPMSSuspend , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( dpmsChanged ( ) ) ) ;
connect ( base - > systemEnableDPMSPowerDown , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( dpmsChanged ( ) ) ) ;
connect ( base - > dpmsStandbyTimeout , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_SLOT ( dpmsChanged ( ) ) ) ;
connect ( base - > dpmsSuspendTimeout , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_SLOT ( dpmsChanged ( ) ) ) ;
connect ( base - > dpmsPowerDownTimeout , TQT_SIGNAL ( valueChanged ( int ) ) , TQT_SLOT ( dpmsChanged ( ) ) ) ;
connect ( base - > monitorPhyArrange , TQT_SIGNAL ( workspaceRelayoutNeeded ( ) ) , this , TQT_SLOT ( layoutDragDropDisplay ( ) ) ) ;
connect ( base - > isPrimaryMonitorCB , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( changed ( ) ) ) ;
connect ( base - > isPrimaryMonitorCB , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( ensurePrimaryMonitorIsAvailable ( ) ) ) ;
connect ( base - > isExtendedMonitorCB , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( changed ( ) ) ) ;
connect ( base - > isExtendedMonitorCB , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( updateExtendedMonitorInformation ( ) ) ) ;
connect ( base - > systemEnableSupport , TQT_SIGNAL ( toggled ( bool ) ) , base - > monitorDisplaySelectDD , TQT_SLOT ( setEnabled ( bool ) ) ) ;
connect ( base - > rescanHardware , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( rescanHardware ( ) ) ) ;
connect ( base - > loadExistingProfile , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( reloadProfile ( ) ) ) ;
connect ( base - > previewConfiguration , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( activatePreview ( ) ) ) ;
connect ( base - > identifyMonitors , TQT_SIGNAL ( clicked ( ) ) , TQT_SLOT ( identifyMonitors ( ) ) ) ;
load ( ) ;
iccTab = addTab ( " iccconfig " , i18n ( " Color Profiles " ) ) ; // [FIXME] No way to save settings here yet
processLockoutControls ( ) ;
}
KDisplayConfig : : ~ KDisplayConfig ( )
{
delete systemconfig ;
if ( m_gammaApplyTimer ) {
delete m_gammaApplyTimer ;
m_gammaApplyTimer = 0 ;
}
if ( m_randrsimple ) {
delete m_randrsimple ;
m_randrsimple = 0 ;
}
}
void KDisplayConfig : : deviceChanged ( TDEGenericDevice * device ) {
# ifdef __TDE_HAVE_TDEHWLIB
if ( device - > type ( ) = = TDEGenericDeviceType : : Monitor ) {
if ( base - > rescanHardware - > isEnabled ( ) ) {
base - > rescanHardware - > setEnabled ( false ) ;
rescanHardware ( ) ;
base - > rescanHardware - > setEnabled ( true ) ;
}
}
# endif
}
void KDisplayConfig : : updateExtendedMonitorInformation ( ) {
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
screendata - > is_extended = base - > isExtendedMonitorCB - > isChecked ( ) ;
refreshDisplayedInformation ( ) ;
}
void KDisplayConfig : : rescanHardware ( void ) {
m_randrsimple - > destroyScreenInformationObject ( m_screenInfoArray [ activeProfileName ] ) ;
m_hardwareScreenInfoArray = m_randrsimple - > readCurrentDisplayConfiguration ( ) ;
m_randrsimple - > ensureMonitorDataConsistency ( m_hardwareScreenInfoArray ) ;
m_screenInfoArray [ activeProfileName ] = m_randrsimple - > copyScreenInformationObject ( m_hardwareScreenInfoArray ) ;
numberOfScreens = m_screenInfoArray [ activeProfileName ] . count ( ) ;
refreshDisplayedInformation ( ) ;
}
void KDisplayConfig : : reloadProfile ( void ) {
m_randrsimple - > ensureMonitorDataConsistency ( m_screenInfoArray [ activeProfileName ] ) ;
numberOfScreens = m_screenInfoArray [ activeProfileName ] . count ( ) ;
refreshDisplayedInformation ( ) ;
}
void KDisplayConfig : : identifyMonitors ( ) {
unsigned int i ;
TQLabel * idWidget ;
TQPtrList < TQWidget > widgetList ;
Display * randr_display ;
ScreenInfo * randr_screen_info ;
randr_display = tqt_xdisplay ( ) ;
randr_screen_info = m_randrsimple - > read_screen_info ( randr_display ) ;
for ( i = 0 ; i < m_screenInfoArray [ activeProfileName ] . count ( ) ; i + + ) {
// Look for ON outputs...
if ( ! randr_screen_info - > outputs [ i ] - > cur_crtc ) {
continue ;
}
idWidget = new TQLabel ( TQString ( " Screen \n %1 " ) . arg ( i + 1 ) , ( TQWidget * ) 0 , " " , Qt : : WStyle_Customize | Qt : : WStyle_NoBorder | Qt : : WStyle_StaysOnTop | Qt : : WX11BypassWM | Qt : : WDestructiveClose ) ;
widgetList . append ( idWidget ) ;
idWidget - > resize ( 150 , 100 ) ;
idWidget - > setAlignment ( Qt : : AlignCenter ) ;
TQFont font = idWidget - > font ( ) ;
font . setBold ( true ) ;
font . setPointSize ( 24 ) ;
idWidget - > setFont ( font ) ;
idWidget - > setPaletteForegroundColor ( Qt : : white ) ;
idWidget - > setPaletteBackgroundColor ( Qt : : black ) ;
idWidget - > show ( ) ;
KDialog : : centerOnScreen ( idWidget , i ) ;
TQTimer : : singleShot ( 3000 , idWidget , SLOT ( close ( ) ) ) ;
}
m_randrsimple - > freeScreenInfoStructure ( randr_screen_info ) ;
}
void KDisplayConfig : : activatePreview ( ) {
m_randrsimple - > applyDisplayConfiguration ( m_screenInfoArray [ activeProfileName ] , TRUE ) ;
}
void KDisplayConfig : : load ( )
{
load ( false ) ;
}
void KDisplayConfig : : loadProfileFromDiskHelper ( bool forceReload ) {
if ( forceReload ) {
m_randrsimple - > destroyScreenInformationObject ( m_screenInfoArray [ activeProfileName ] ) ;
m_screenInfoArray . remove ( activeProfileName ) ;
}
if ( ! m_screenInfoArray . contains ( activeProfileName ) ) {
TQPtrList < SingleScreenData > originalInfoArray ;
TQPtrList < SingleScreenData > newInfoArray ;
// If a configuration is present, load it in
// Otherwise, use the current display configuration
originalInfoArray = m_screenInfoArray [ activeProfileName ] ;
if ( getuid ( ) ! = 0 ) {
newInfoArray = m_randrsimple - > loadDisplayConfiguration ( activeProfileName , locateLocal ( " config " , " / " , true ) ) ;
}
else {
newInfoArray = m_randrsimple - > loadDisplayConfiguration ( activeProfileName , KDE_CONFDIR ) ;
}
if ( newInfoArray . count ( ) > 0 ) {
m_screenInfoArray [ activeProfileName ] = newInfoArray ;
m_randrsimple - > destroyScreenInformationObject ( originalInfoArray ) ;
}
else {
m_screenInfoArray [ activeProfileName ] = originalInfoArray ;
m_randrsimple - > destroyScreenInformationObject ( newInfoArray ) ;
}
}
// If there is still no valid configuration, read the active display information from the hardware
// to initialise the configuration...
if ( m_screenInfoArray [ activeProfileName ] . count ( ) < 1 ) {
m_hardwareScreenInfoArray = m_randrsimple - > readCurrentDisplayConfiguration ( ) ;
m_randrsimple - > ensureMonitorDataConsistency ( m_hardwareScreenInfoArray ) ;
m_screenInfoArray [ activeProfileName ] = m_randrsimple - > copyScreenInformationObject ( m_hardwareScreenInfoArray ) ;
}
m_randrsimple - > ensureMonitorDataConsistency ( m_screenInfoArray [ activeProfileName ] ) ;
numberOfScreens = m_screenInfoArray [ activeProfileName ] . count ( ) ;
reloadProfile ( ) ;
}
void KDisplayConfig : : selectProfile ( int slotNumber ) {
TQString selectedProfile = base - > displayProfileList - > currentText ( ) ;
if ( selectedProfile = = " <default> " ) {
selectedProfile = " " ;
}
activeProfileName = selectedProfile ;
loadProfileFromDiskHelper ( ) ;
}
void KDisplayConfig : : deleteProfile ( ) {
if ( activeProfileName = = " " ) {
KMessageBox : : sorry ( this , i18n ( " You cannot delete the default profile! " ) , i18n ( " Invalid operation requested " ) ) ;
return ;
}
int ret = KMessageBox : : warningYesNo ( this , i18n ( " <qt><b>You are attempting to delete the display profile '%1'</b><br>If you click Yes, the profile will be permanently removed from disk<p>Do you want to delete this profile?</qt> " ) . arg ( activeProfileName ) , i18n ( " Delete display profile? " ) ) ;
if ( ret = = KMessageBox : : Yes ) {
bool success = false ;
if ( getuid ( ) ! = 0 ) {
success = m_randrsimple - > deleteDisplayConfiguration ( activeProfileName , locateLocal ( " config " , " / " , true ) ) ;
}
else {
success = m_randrsimple - > deleteDisplayConfiguration ( activeProfileName , KDE_CONFDIR ) ;
}
if ( success ) {
TQStringList : : Iterator it = availableProfileNames . find ( activeProfileName ) ;
if ( it ! = availableProfileNames . end ( ) ) {
availableProfileNames . remove ( it ) ;
}
profileListChanged ( ) ;
selectProfile ( base - > displayProfileList - > currentItem ( ) ) ;
}
else {
KMessageBox : : error ( this , i18n ( " <qt><b>Unable to delete profile '%1'!</b><p>Please verify that you have permission to access the configuration file</qt> " ) . arg ( activeProfileName ) , i18n ( " Deletion failed! " ) ) ;
}
}
}
void KDisplayConfig : : renameProfile ( ) {
if ( activeProfileName = = " " ) {
KMessageBox : : sorry ( this , i18n ( " You cannot rename the default profile! " ) , i18n ( " Invalid operation requested " ) ) ;
return ;
}
// Pop up a text entry box asking for the new name of the profile
bool _ok = false ;
bool _end = false ;
TQString _new ;
TQString _text = i18n ( " Please enter the new profile name below: " ) ;
TQString _error ;
while ( ! _end ) {
_new = KInputDialog : : getText ( i18n ( " Display Profile Configuration " ) , _error + _text , activeProfileName , & _ok , this ) ;
if ( ! _ok ) {
_end = true ;
}
else {
_error = TQString ( ) ;
if ( ! _new . isEmpty ( ) ) {
if ( findProfileIndex ( _new ) ! = - 1 ) {
_error = i18n ( " Error: A profile with that name already exists " ) + TQString ( " \n " ) ;
}
else {
_end = true ;
}
}
}
}
if ( ! _ok ) return ;
bool success = false ;
if ( getuid ( ) ! = 0 ) {
success = m_randrsimple - > renameDisplayConfiguration ( activeProfileName , _new , locateLocal ( " config " , " / " , true ) ) ;
}
else {
success = m_randrsimple - > renameDisplayConfiguration ( activeProfileName , _new , KDE_CONFDIR ) ;
}
if ( success ) {
TQStringList : : Iterator it = availableProfileNames . find ( activeProfileName ) ;
if ( it ! = availableProfileNames . end ( ) ) {
availableProfileNames . remove ( it ) ;
}
availableProfileNames . append ( _new ) ;
profileListChanged ( ) ;
base - > displayProfileList - > setCurrentItem ( _new ) ;
selectProfile ( base - > displayProfileList - > currentItem ( ) ) ;
}
else {
KMessageBox : : error ( this , i18n ( " <qt><b>Unable to rename profile '%1'!</b><p>Please verify that you have permission to access the configuration file</qt> " ) . arg ( activeProfileName ) , i18n ( " Renaming failed! " ) ) ;
}
}
void KDisplayConfig : : activateProfile ( ) {
if ( getuid ( ) ! = 0 ) {
m_randrsimple - > applyDisplayConfiguration ( m_screenInfoArray [ activeProfileName ] , TRUE , locateLocal ( " config " , " / " , true ) ) ;
}
else {
m_randrsimple - > applyDisplayConfiguration ( m_screenInfoArray [ activeProfileName ] , TRUE , KDE_CONFDIR ) ;
}
rescanHardware ( ) ;
}
void KDisplayConfig : : reloadProfileFromDisk ( ) {
loadProfileFromDiskHelper ( true ) ;
}
void KDisplayConfig : : saveProfile ( ) {
saveActiveSystemWideProfileToDisk ( ) ;
}
void KDisplayConfig : : addProfile ( ) {
// Pop up a text entry box asking for the name of the new profile
bool _ok = false ;
bool _end = false ;
TQString _new ;
TQString _text = i18n ( " Please enter the new profile name below: " ) ;
TQString _error ;
while ( ! _end ) {
_new = KInputDialog : : getText ( i18n ( " Display Profile Configuration " ) , _error + _text , TQString : : null , & _ok , this ) ;
if ( ! _ok ) {
_end = true ;
}
else {
_error = TQString ( ) ;
if ( ! _new . isEmpty ( ) ) {
if ( findProfileIndex ( _new ) ! = - 1 ) {
_error = i18n ( " Error: A profile with that name already exists " ) + TQString ( " \n " ) ;
}
else {
_end = true ;
}
}
}
}
if ( ! _ok ) return ;
m_screenInfoArray [ _new ] = m_randrsimple - > copyScreenInformationObject ( m_screenInfoArray [ activeProfileName ] ) ;
// Insert the new profile name
availableProfileNames . append ( _new ) ;
profileListChanged ( ) ;
base - > displayProfileList - > setCurrentItem ( _new ) ;
selectProfile ( base - > displayProfileList - > currentItem ( ) ) ;
updateDisplayedInformation ( ) ;
saveActiveSystemWideProfileToDisk ( ) ;
emit changed ( ) ;
}
void KDisplayConfig : : updateStartupProfileLabel ( )
{
TQString friendlyName = startupProfileName ;
if ( friendlyName = = " " ) {
friendlyName = " <default> " ;
}
base - > startupDisplayProfileList - > setCurrentItem ( friendlyName , false ) ;
}
void KDisplayConfig : : selectDefaultProfile ( int slotNumber )
{
TQString selectedProfile = base - > startupDisplayProfileList - > currentText ( ) ;
if ( selectedProfile = = " <default> " ) {
selectedProfile = " " ;
}
startupProfileName = selectedProfile ;
}
void KDisplayConfig : : selectScreen ( int slotNumber ) {
base - > monitorDisplaySelectDD - > setCurrentItem ( slotNumber ) ;
base - > gammamonitorDisplaySelectDD - > setCurrentItem ( slotNumber ) ;
updateDisplayedInformation ( ) ;
}
void KDisplayConfig : : updateArray ( void ) {
m_hardwareScreenInfoArray = m_randrsimple - > readCurrentDisplayConfiguration ( ) ;
m_randrsimple - > ensureMonitorDataConsistency ( m_hardwareScreenInfoArray ) ;
m_screenInfoArray [ activeProfileName ] = m_randrsimple - > copyScreenInformationObject ( m_hardwareScreenInfoArray ) ;
numberOfScreens = m_screenInfoArray [ activeProfileName ] . count ( ) ;
}
void KDisplayConfig : : updateDisplayedInformation ( ) {
// Insert data into the GUI
unsigned int i ;
SingleScreenData * screendata ;
ensureMonitorDataConsistency ( ) ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
if ( ! screendata ) {
base - > resolutionSlider - > setEnabled ( false ) ;
base - > refreshRateDD - > setEnabled ( false ) ;
base - > rotationSelectDD - > setEnabled ( false ) ;
base - > orientationHFlip - > setEnabled ( false ) ;
base - > orientationVFlip - > setEnabled ( false ) ;
base - > isPrimaryMonitorCB - > setEnabled ( false ) ;
base - > isExtendedMonitorCB - > setEnabled ( false ) ;
return ;
}
if ( screendata - > screen_connected ) {
base - > resolutionSlider - > setEnabled ( true ) ;
base - > refreshRateDD - > setEnabled ( true ) ;
base - > rotationSelectDD - > setEnabled ( true ) ;
base - > orientationHFlip - > setEnabled ( true ) ;
base - > orientationVFlip - > setEnabled ( true ) ;
base - > isPrimaryMonitorCB - > setEnabled ( true ) ;
base - > isExtendedMonitorCB - > setEnabled ( true ) ;
}
// Update the resolutions for the selected screen
base - > resolutionSlider - > blockSignals ( true ) ;
base - > resolutionSlider - > setMaxValue ( screendata - > resolutions . count ( ) - 1 ) ;
setRealResolutionSliderValue ( screendata - > current_resolution_index ) ;
resolutionSliderTextUpdate ( realResolutionSliderValue ( ) ) ;
base - > resolutionSlider - > blockSignals ( false ) ;
// Now the refresh rates for the selected screen
base - > refreshRateDD - > blockSignals ( true ) ;
base - > refreshRateDD - > clear ( ) ;
for ( i = 0 ; i < screendata - > refresh_rates . count ( ) ; i + + ) {
base - > refreshRateDD - > insertItem ( screendata - > refresh_rates [ i ] , i ) ;
}
base - > refreshRateDD - > setCurrentItem ( screendata - > current_refresh_rate_index ) ;
base - > refreshRateDD - > blockSignals ( false ) ;
// Now the rotations and transformations for the selected screen
base - > rotationSelectDD - > blockSignals ( true ) ;
base - > orientationHFlip - > blockSignals ( true ) ;
base - > orientationVFlip - > blockSignals ( true ) ;
base - > rotationSelectDD - > clear ( ) ;
if ( screendata - > supports_transformations ) {
for ( i = 0 ; i < screendata - > rotations . count ( ) ; i + + ) {
base - > rotationSelectDD - > insertItem ( screendata - > rotations [ i ] , i ) ;
}
base - > rotationSelectDD - > setCurrentItem ( screendata - > current_rotation_index ) ;
base - > orientationHFlip - > show ( ) ;
base - > orientationVFlip - > show ( ) ;
base - > orientationHFlip - > setChecked ( screendata - > has_x_flip ) ;
base - > orientationVFlip - > setChecked ( screendata - > has_y_flip ) ;
}
else {
base - > rotationSelectDD - > insertItem ( ROTATION_0_DEGREES_STRING , 0 ) ;
base - > rotationSelectDD - > setCurrentItem ( 0 ) ;
base - > orientationHFlip - > hide ( ) ;
base - > orientationVFlip - > hide ( ) ;
}
base - > rotationSelectDD - > blockSignals ( false ) ;
base - > orientationHFlip - > blockSignals ( false ) ;
base - > orientationVFlip - > blockSignals ( false ) ;
base - > isPrimaryMonitorCB - > blockSignals ( true ) ;
base - > isExtendedMonitorCB - > blockSignals ( true ) ;
if ( screendata - > generic_screen_detected ) {
base - > isPrimaryMonitorCB - > setEnabled ( false ) ;
base - > isPrimaryMonitorCB - > setChecked ( true ) ;
base - > isExtendedMonitorCB - > setEnabled ( false ) ;
base - > isExtendedMonitorCB - > setChecked ( true ) ;
}
else {
base - > isPrimaryMonitorCB - > setEnabled ( true ) ;
base - > isPrimaryMonitorCB - > setChecked ( screendata - > is_primary ) ;
if ( screendata - > is_primary ) {
base - > isExtendedMonitorCB - > setEnabled ( false ) ;
base - > isExtendedMonitorCB - > setChecked ( true ) ;
}
else {
base - > isExtendedMonitorCB - > setEnabled ( true ) ;
base - > isExtendedMonitorCB - > setChecked ( screendata - > is_extended ) ;
}
}
base - > isPrimaryMonitorCB - > blockSignals ( false ) ;
base - > isExtendedMonitorCB - > blockSignals ( false ) ;
if ( ! screendata - > screen_connected ) {
base - > resolutionSlider - > setEnabled ( false ) ;
base - > refreshRateDD - > setEnabled ( false ) ;
base - > rotationSelectDD - > setEnabled ( false ) ;
base - > orientationHFlip - > setEnabled ( false ) ;
base - > orientationVFlip - > setEnabled ( false ) ;
base - > isPrimaryMonitorCB - > setEnabled ( false ) ;
base - > isExtendedMonitorCB - > setEnabled ( false ) ;
}
}
void KDisplayConfig : : refreshDisplayedInformation ( ) {
createHotplugRulesGrid ( ) ;
// Insert data into the GUI
int i ;
SingleScreenData * screendata ;
// First, the screens
int currentScreenIndex = base - > monitorDisplaySelectDD - > currentItem ( ) ;
base - > monitorDisplaySelectDD - > clear ( ) ;
for ( i = 0 ; i < numberOfScreens ; i + + ) {
screendata = m_screenInfoArray [ activeProfileName ] . at ( i ) ;
base - > monitorDisplaySelectDD - > insertItem ( screendata - > screenFriendlyName , i ) ;
}
base - > monitorDisplaySelectDD - > setCurrentItem ( currentScreenIndex ) ;
base - > gammamonitorDisplaySelectDD - > clear ( ) ;
for ( i = 0 ; i < numberOfScreens ; i + + ) {
screendata = m_screenInfoArray [ activeProfileName ] . at ( i ) ;
base - > gammamonitorDisplaySelectDD - > insertItem ( screendata - > screenFriendlyName , i ) ;
}
base - > gammamonitorDisplaySelectDD - > setCurrentItem ( currentScreenIndex ) ;
updateDisplayedInformation ( ) ;
updateDragDropDisplay ( ) ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( 0 ) ;
if ( screendata ) {
base - > groupPowerManagement - > setEnabled ( true ) ;
base - > systemEnableDPMS - > setEnabled ( screendata - > has_dpms ) ;
base - > systemEnableDPMS - > setChecked ( screendata - > enable_dpms ) ;
base - > systemEnableDPMSStandby - > setChecked ( screendata - > dpms_standby_delay ! = 0 ) ;
base - > systemEnableDPMSSuspend - > setChecked ( screendata - > dpms_suspend_delay ! = 0 ) ;
base - > systemEnableDPMSPowerDown - > setChecked ( screendata - > dpms_off_delay ! = 0 ) ;
base - > dpmsStandbyTimeout - > setValue ( screendata - > dpms_standby_delay / 60 ) ;
base - > dpmsSuspendTimeout - > setValue ( screendata - > dpms_suspend_delay / 60 ) ;
base - > dpmsPowerDownTimeout - > setValue ( screendata - > dpms_off_delay / 60 ) ;
}
else {
base - > groupPowerManagement - > setEnabled ( false ) ;
}
processDPMSControls ( ) ;
}
void KDisplayConfig : : updateDragDropDisplay ( ) {
// Insert data into the GUI
int i ;
int j ;
TQObjectList monitors ;
SingleScreenData * screendata ;
// Clear any screens from the workspace
monitors = base - > monitorPhyArrange - > childrenListObject ( ) ;
if ( monitors . count ( ) ) {
for ( i = 0 ; i < int ( monitors . count ( ) ) ; + + i ) {
if ( : : tqqt_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ) {
TQWidget * monitor = TQT_TQWIDGET ( monitors . at ( i ) ) ;
if ( ! monitor - > close ( TRUE ) ) {
Q_ASSERT ( " zombie monitor will not go away! " ) ;
}
}
}
}
ensureMonitorDataConsistency ( ) ;
// Add the screens to the workspace
// Set the scaling small to start with
base - > monitorPhyArrange - > resize_factor = 0.0625 ; // This always needs to divide by a multiple of 2
for ( j = 0 ; j < 2 ; j + + ) {
for ( i = 0 ; i < numberOfScreens ; i + + ) {
screendata = m_screenInfoArray [ activeProfileName ] . at ( i ) ;
if ( ( ( j = = 0 ) & & ( screendata - > is_primary = = true ) ) | | ( ( j = = 1 ) & & ( screendata - > is_primary = = false ) ) ) { // This ensures that the primary monitor is always the first one created and placed on the configuration widget
TQString rotationDesired = * screendata - > rotations . at ( screendata - > current_rotation_index ) ;
bool isvisiblyrotated = ( ( rotationDesired = = ROTATION_90_DEGREES_STRING ) | | ( rotationDesired = = ROTATION_270_DEGREES_STRING ) ) ;
DraggableMonitor * m = new DraggableMonitor ( base - > monitorPhyArrange , 0 , WStyle_Customize | WDestructiveClose | WStyle_NoBorder | WX11BypassWM ) ;
connect ( m , TQT_SIGNAL ( workspaceRelayoutNeeded ( ) ) , this , TQT_SLOT ( layoutDragDropDisplay ( ) ) ) ;
connect ( m , TQT_SIGNAL ( monitorSelected ( int ) ) , this , TQT_SLOT ( selectScreen ( int ) ) ) ;
connect ( m , TQT_SIGNAL ( monitorDragComplete ( int ) ) , this , TQT_SLOT ( updateDraggableMonitorInformation ( int ) ) ) ;
m - > screen_id = i ;
if ( isvisiblyrotated )
m - > setFixedSize ( screendata - > current_y_pixel_count * base - > monitorPhyArrange - > resize_factor , screendata - > current_x_pixel_count * base - > monitorPhyArrange - > resize_factor ) ;
else
m - > setFixedSize ( screendata - > current_x_pixel_count * base - > monitorPhyArrange - > resize_factor , screendata - > current_y_pixel_count * base - > monitorPhyArrange - > resize_factor ) ;
m - > setText ( TQString ( " %1 " ) . arg ( i + 1 ) ) ;
m - > show ( ) ;
moveMonitor ( m , screendata - > absolute_x_position , screendata - > absolute_y_position ) ;
updateDraggableMonitorInformation ( i ) ; // Make sure the new monitors don't overlap
}
}
}
layoutDragDropDisplay ( ) ;
}
void KDisplayConfig : : layoutDragDropDisplay ( ) {
int i ;
TQObjectList monitors ;
SingleScreenData * screendata ;
// Ensure data is consistent
ensureMonitorDataConsistency ( ) ;
// Arrange the screens
// First, center the primary monitor
monitors = base - > monitorPhyArrange - > childrenListObject ( ) ;
if ( monitors . count ( ) ) {
for ( i = 0 ; i < int ( monitors . count ( ) ) ; + + i ) {
if ( : : tqqt_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ) {
DraggableMonitor * monitor = static_cast < DraggableMonitor * > ( TQT_TQWIDGET ( monitors . at ( i ) ) ) ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( monitor - > screen_id ) ;
moveMonitor ( monitor , screendata - > absolute_x_position , screendata - > absolute_y_position ) ;
}
}
}
}
void KDisplayConfig : : ensureMonitorDataConsistency ( ) {
m_randrsimple - > ensureMonitorDataConsistency ( m_screenInfoArray [ activeProfileName ] ) ;
}
void KDisplayConfig : : resolutionSliderTextUpdate ( int index ) {
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
base - > resolutionLabel - > setText ( screendata - > resolutions [ realResolutionSliderValue ( ) ] + TQString ( " " ) + i18n ( " pixels " ) ) ;
}
void KDisplayConfig : : resolutionSliderChanged ( int index ) {
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
screendata - > current_resolution_index = realResolutionSliderValue ( ) ;
updateDisplayedInformation ( ) ;
updateDraggableMonitorInformation ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
applyMonitorLayoutRules ( ) ;
changed ( ) ;
}
void KDisplayConfig : : rotationInfoChanged ( ) {
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
screendata - > current_rotation_index = base - > rotationSelectDD - > currentItem ( ) ;
screendata - > has_x_flip = base - > orientationHFlip - > isChecked ( ) ;
screendata - > has_y_flip = base - > orientationVFlip - > isChecked ( ) ;
updateDisplayedInformation ( ) ;
updateDraggableMonitorInformation ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
applyMonitorLayoutRules ( ) ;
changed ( ) ;
}
void KDisplayConfig : : refreshInfoChanged ( ) {
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
screendata - > current_refresh_rate_index = base - > refreshRateDD - > currentItem ( ) ;
updateDisplayedInformation ( ) ;
updateDraggableMonitorInformation ( base - > monitorDisplaySelectDD - > currentItem ( ) ) ;
changed ( ) ;
}
void KDisplayConfig : : ensurePrimaryMonitorIsAvailable ( ) {
// Ensure that only one monitor, and not less than one monitor, is marked as primary
int i ;
SingleScreenData * screendata ;
// First, the screens
int currentScreenIndex = base - > monitorDisplaySelectDD - > currentItem ( ) ;
for ( i = 0 ; i < numberOfScreens ; i + + ) {
screendata = m_screenInfoArray [ activeProfileName ] . at ( i ) ;
if ( i ! = currentScreenIndex )
screendata - > is_primary = false ;
}
screendata = m_screenInfoArray [ activeProfileName ] . at ( currentScreenIndex ) ;
screendata - > is_primary = true ;
screendata - > is_extended = true ;
updateDragDropDisplay ( ) ;
refreshDisplayedInformation ( ) ;
}
int KDisplayConfig : : findProfileIndex ( TQString profileName ) {
int i ;
for ( i = 0 ; i < base - > displayProfileList - > count ( ) ; i + + ) {
if ( base - > displayProfileList - > text ( i ) = = profileName ) {
return i ;
}
}
return - 1 ;
}
void KDisplayConfig : : setGammaLabels ( ) {
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > gammamonitorDisplaySelectDD - > currentItem ( ) ) ;
// Round off the gammas to one decimal place
screendata - > gamma_red = floorf ( screendata - > gamma_red * 10 + 0.5 ) / 10 ;
screendata - > gamma_green = floorf ( screendata - > gamma_green * 10 + 0.5 ) / 10 ;
screendata - > gamma_blue = floorf ( screendata - > gamma_blue * 10 + 0.5 ) / 10 ;
// Set the labels
base - > gammaAllLabel - > setText ( TQString ( " %1 " ) . arg ( ( ( float ) base - > gammaAllSlider - > value ( ) ) / 10.0 , 0 , ' f ' , 1 ) ) ;
base - > gammaRedLabel - > setText ( TQString ( " %1 " ) . arg ( ( ( float ) base - > gammaRedSlider - > value ( ) ) / 10.0 , 0 , ' f ' , 1 ) ) ;
base - > gammaGreenLabel - > setText ( TQString ( " %1 " ) . arg ( ( ( float ) base - > gammaGreenSlider - > value ( ) ) / 10.0 , 0 , ' f ' , 1 ) ) ;
base - > gammaBlueLabel - > setText ( TQString ( " %1 " ) . arg ( ( ( float ) base - > gammaBlueSlider - > value ( ) ) / 10.0 , 0 , ' f ' , 1 ) ) ;
}
void KDisplayConfig : : gammaSetAverageAllSlider ( ) {
float average_gamma ;
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > gammamonitorDisplaySelectDD - > currentItem ( ) ) ;
average_gamma = ( screendata - > gamma_red + screendata - > gamma_green + screendata - > gamma_blue ) / 3.0 ;
average_gamma = floorf ( average_gamma * 10 + 0.5 ) / 10 ; // Round off the gamma to one decimal place
base - > gammaAllSlider - > setValue ( average_gamma * 10.0 ) ;
}
void KDisplayConfig : : gammaselectScreen ( int slotNumber ) {
SingleScreenData * screendata ;
base - > gammaAllSlider - > blockSignals ( true ) ;
base - > gammaRedSlider - > blockSignals ( true ) ;
base - > gammaGreenSlider - > blockSignals ( true ) ;
base - > gammaBlueSlider - > blockSignals ( true ) ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > gammamonitorDisplaySelectDD - > currentItem ( ) ) ;
base - > gammaRedSlider - > setValue ( screendata - > gamma_red * 10.0 ) ;
base - > gammaGreenSlider - > setValue ( screendata - > gamma_green * 10.0 ) ;
base - > gammaBlueSlider - > setValue ( screendata - > gamma_blue * 10.0 ) ;
gammaSetAverageAllSlider ( ) ;
setGammaLabels ( ) ;
base - > gammaAllSlider - > blockSignals ( false ) ;
base - > gammaRedSlider - > blockSignals ( false ) ;
base - > gammaGreenSlider - > blockSignals ( false ) ;
base - > gammaBlueSlider - > blockSignals ( false ) ;
}
void KDisplayConfig : : gammaAllSliderChanged ( int index ) {
SingleScreenData * screendata ;
base - > gammaAllSlider - > blockSignals ( true ) ;
base - > gammaRedSlider - > blockSignals ( true ) ;
base - > gammaGreenSlider - > blockSignals ( true ) ;
base - > gammaBlueSlider - > blockSignals ( true ) ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > gammamonitorDisplaySelectDD - > currentItem ( ) ) ;
base - > gammaRedSlider - > setValue ( base - > gammaAllSlider - > value ( ) ) ;
base - > gammaGreenSlider - > setValue ( base - > gammaAllSlider - > value ( ) ) ;
base - > gammaBlueSlider - > setValue ( base - > gammaAllSlider - > value ( ) ) ;
setGammaLabels ( ) ;
screendata - > gamma_red = ( ( float ) base - > gammaAllSlider - > value ( ) ) / 10.0 ;
screendata - > gamma_green = ( ( float ) base - > gammaAllSlider - > value ( ) ) / 10.0 ;
screendata - > gamma_blue = ( ( float ) base - > gammaAllSlider - > value ( ) ) / 10.0 ;
m_gammaApplyTimer - > start ( 10 , TRUE ) ;
base - > gammaAllSlider - > blockSignals ( false ) ;
base - > gammaRedSlider - > blockSignals ( false ) ;
base - > gammaGreenSlider - > blockSignals ( false ) ;
base - > gammaBlueSlider - > blockSignals ( false ) ;
changed ( ) ;
}
void KDisplayConfig : : gammaRedSliderChanged ( int index ) {
SingleScreenData * screendata ;
base - > gammaAllSlider - > blockSignals ( true ) ;
base - > gammaRedSlider - > blockSignals ( true ) ;
base - > gammaGreenSlider - > blockSignals ( true ) ;
base - > gammaBlueSlider - > blockSignals ( true ) ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > gammamonitorDisplaySelectDD - > currentItem ( ) ) ;
screendata - > gamma_red = ( ( float ) index ) / 10.0 ;
gammaSetAverageAllSlider ( ) ;
setGammaLabels ( ) ;
m_gammaApplyTimer - > start ( 10 , TRUE ) ;
base - > gammaAllSlider - > blockSignals ( false ) ;
base - > gammaRedSlider - > blockSignals ( false ) ;
base - > gammaGreenSlider - > blockSignals ( false ) ;
base - > gammaBlueSlider - > blockSignals ( false ) ;
changed ( ) ;
}
void KDisplayConfig : : gammaGreenSliderChanged ( int index ) {
SingleScreenData * screendata ;
base - > gammaAllSlider - > blockSignals ( true ) ;
base - > gammaRedSlider - > blockSignals ( true ) ;
base - > gammaGreenSlider - > blockSignals ( true ) ;
base - > gammaBlueSlider - > blockSignals ( true ) ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > gammamonitorDisplaySelectDD - > currentItem ( ) ) ;
screendata - > gamma_green = ( ( float ) index ) / 10.0 ;
gammaSetAverageAllSlider ( ) ;
setGammaLabels ( ) ;
m_gammaApplyTimer - > start ( 10 , TRUE ) ;
base - > gammaAllSlider - > blockSignals ( false ) ;
base - > gammaRedSlider - > blockSignals ( false ) ;
base - > gammaGreenSlider - > blockSignals ( false ) ;
base - > gammaBlueSlider - > blockSignals ( false ) ;
changed ( ) ;
}
void KDisplayConfig : : gammaBlueSliderChanged ( int index ) {
SingleScreenData * screendata ;
base - > gammaAllSlider - > blockSignals ( true ) ;
base - > gammaRedSlider - > blockSignals ( true ) ;
base - > gammaGreenSlider - > blockSignals ( true ) ;
base - > gammaBlueSlider - > blockSignals ( true ) ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( base - > gammamonitorDisplaySelectDD - > currentItem ( ) ) ;
screendata - > gamma_blue = ( ( float ) index ) / 10.0 ;
gammaSetAverageAllSlider ( ) ;
setGammaLabels ( ) ;
m_gammaApplyTimer - > start ( 10 , TRUE ) ;
base - > gammaAllSlider - > blockSignals ( false ) ;
base - > gammaRedSlider - > blockSignals ( false ) ;
base - > gammaGreenSlider - > blockSignals ( false ) ;
base - > gammaBlueSlider - > blockSignals ( false ) ;
changed ( ) ;
}
void KDisplayConfig : : applyGamma ( ) {
m_randrsimple - > applyDisplayGamma ( m_screenInfoArray [ activeProfileName ] ) ;
}
void KDisplayConfig : : gammaTargetChanged ( int slotNumber ) {
TQPixmap gammaPixmap ( locate ( " data " , TQString ( " kcontrol/pics/gamma%1.png " ) . arg ( base - > gammaTargetSelectDD - > text ( slotNumber ) ) ) ) ;
base - > gammaTestImage - > setBackgroundPixmap ( gammaPixmap ) ;
}
void KDisplayConfig : : dpmsChanged ( ) {
SingleScreenData * screendata ;
screendata = m_screenInfoArray [ activeProfileName ] . at ( 0 ) ;
processDPMSControls ( ) ;
screendata - > enable_dpms = base - > systemEnableDPMS - > isChecked ( ) ;
screendata - > dpms_standby_delay = ( base - > systemEnableDPMSStandby - > isChecked ( ) ) ? base - > dpmsStandbyTimeout - > value ( ) * 60 : 0 ;
screendata - > dpms_suspend_delay = ( base - > systemEnableDPMSSuspend - > isChecked ( ) ) ? base - > dpmsSuspendTimeout - > value ( ) * 60 : 0 ;
screendata - > dpms_off_delay = ( base - > systemEnableDPMSPowerDown - > isChecked ( ) ) ? base - > dpmsPowerDownTimeout - > value ( ) * 60 : 0 ;
changed ( ) ;
}
void KDisplayConfig : : createHotplugRulesGrid ( ) {
const TQObjectList children = base - > profileRulesGridWidget - > childrenListObject ( ) ;
TQObjectList : : iterator it = children . begin ( ) ;
for ( ; it ! = children . end ( ) ; + + it ) {
TQWidget * w = dynamic_cast < TQWidget * > ( * it ) ;
if ( w ) {
delete w ;
}
}
int i = 0 ;
int j = 0 ;
TQLabel * label ;
SingleScreenData * screendata ;
for ( i = 0 ; i < numberOfScreens ; i + + ) {
screendata = m_hardwareScreenInfoArray . at ( i ) ;
label = new TQLabel ( base - > profileRulesGridWidget , ( TQString ( " %1 " ) . arg ( i ) ) . ascii ( ) ) ;
if ( screendata ) {
label - > setText ( screendata - > screenUniqueName ) ;
}
profileRulesGrid - > addWidget ( label , 0 , i ) ;
label - > show ( ) ;
}
label = new TQLabel ( base - > profileRulesGridWidget , " <ignore> " ) ;
label - > setText ( i18n ( " Activate Profile on Match " ) ) ;
profileRulesGrid - > addWidget ( label , 0 , i + 1 ) ;
label - > show ( ) ;
i = 0 ;
HotPlugRulesList : : Iterator it2 ;
for ( it2 = currentHotplugRules . begin ( ) ; it2 ! = currentHotplugRules . end ( ) ; + + it2 ) {
for ( j = 0 ; j < numberOfScreens ; j + + ) {
int index = ( * it2 ) . outputs . findIndex ( m_hardwareScreenInfoArray . at ( j ) - > screenUniqueName ) ;
TQCheckBox * cb = new TQCheckBox ( base - > profileRulesGridWidget , ( TQString ( " %1:%2 " ) . arg ( i ) . arg ( j ) ) . ascii ( ) ) ;
connect ( cb , TQT_SIGNAL ( stateChanged ( int ) ) , this , TQT_SLOT ( profileRuleCheckBoxStateChanged ( int ) ) ) ;
connect ( cb , TQT_SIGNAL ( stateChanged ( int ) ) , this , TQT_SLOT ( changed ( ) ) ) ;
cb - > setTristate ( true ) ;
if ( index < 0 ) {
cb - > setNoChange ( ) ;
}
else {
switch ( ( * it2 ) . states [ index ] ) {
case HotPlugRule : : AnyState :
cb - > setNoChange ( ) ;
break ;
case HotPlugRule : : Connected :
cb - > setChecked ( true ) ;
break ;
case HotPlugRule : : Disconnected :
cb - > setChecked ( false ) ;
break ;
}
}
profileRulesGrid - > addWidget ( cb , i + 1 , j ) ;
cb - > show ( ) ;
}
KComboBox * combo = new KComboBox ( base - > profileRulesGridWidget , ( TQString ( " %1 " ) . arg ( i ) ) . ascii ( ) ) ;
connect ( combo , TQT_SIGNAL ( activated ( int ) ) , this , TQT_SLOT ( changed ( ) ) ) ;
combo - > insertItem ( " <default> " ) ;
for ( TQStringList : : Iterator it3 = availableProfileNames . begin ( ) ; it3 ! = availableProfileNames . end ( ) ; + + it3 ) {
combo - > insertItem ( * it3 ) ;
}
combo - > setCurrentItem ( ( * it2 ) . profileName ) ;
profileRulesGrid - > addWidget ( combo , i + 1 , j + 1 ) ;
combo - > show ( ) ;
TQPushButton * button = new TQPushButton ( base - > profileRulesGridWidget , ( TQString ( " %1 " ) . arg ( i ) ) . ascii ( ) ) ;
button - > setText ( i18n ( " Delete Rule " ) ) ;
connect ( button , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( deleteProfileRule ( ) ) ) ;
connect ( button , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( changed ( ) ) ) ;
profileRulesGrid - > addWidget ( button , i + 1 , j + 2 ) ;
button - > show ( ) ;
i + + ;
}
TQPushButton * button = new TQPushButton ( base - > profileRulesGridWidget ) ;
button - > setText ( i18n ( " Add New Rule " ) ) ;
connect ( button , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( addNewProfileRule ( ) ) ) ;
connect ( button , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( changed ( ) ) ) ;
profileRulesGrid - > addMultiCellWidget ( button , i + 2 , i + 2 , 0 , numberOfScreens + 2 ) ;
button - > show ( ) ;
}
void KDisplayConfig : : addNewProfileRule ( ) {
currentHotplugRules . append ( HotPlugRule ( ) ) ;
createHotplugRulesGrid ( ) ;
}
void KDisplayConfig : : deleteProfileRule ( ) {
const TQWidget * w = dynamic_cast < const TQWidget * > ( sender ( ) ) ;
if ( w ) {
int row = atoi ( w - > name ( ) ) ;
currentHotplugRules . remove ( currentHotplugRules . at ( row ) ) ;
createHotplugRulesGrid ( ) ;
}
}
void KDisplayConfig : : profileRuleCheckBoxStateChanged ( int state ) {
updateProfileConfigObjectFromGrid ( ) ;
emit ( changed ( ) ) ;
}
void KDisplayConfig : : updateProfileConfigObjectFromGrid ( ) {
const TQObjectList children = base - > profileRulesGridWidget - > childrenListObject ( ) ;
TQObjectList : : iterator it = children . begin ( ) ;
for ( ; it ! = children . end ( ) ; + + it ) {
TQWidget * w = dynamic_cast < TQWidget * > ( * it ) ;
TQCheckBox * cb = dynamic_cast < TQCheckBox * > ( w ) ;
TQComboBox * combo = dynamic_cast < TQComboBox * > ( w ) ;
TQLabel * label = dynamic_cast < TQLabel * > ( w ) ;
if ( label ) {
if ( TQString ( w - > name ( ) ) ! = TQString ( " <ignore> " ) ) {
int col = atoi ( w - > name ( ) ) ;
HotPlugRulesList : : Iterator it2 ;
for ( it2 = currentHotplugRules . begin ( ) ; it2 ! = currentHotplugRules . end ( ) ; + + it2 ) {
TQStringList & strlist = ( * it2 ) . outputs ;
while ( strlist . count ( ) < ( uint ) numberOfScreens ) {
strlist . append ( " " ) ;
}
while ( strlist . count ( ) > ( uint ) numberOfScreens ) {
strlist . remove ( strlist . at ( strlist . count ( ) - 1 ) ) ;
}
strlist [ col ] = label - > text ( ) ;
}
}
}
if ( cb ) {
TQStringList rowcol = TQStringList : : split ( " : " , cb - > name ( ) ) ;
int row = atoi ( rowcol [ 0 ] . ascii ( ) ) ;
int col = atoi ( rowcol [ 1 ] . ascii ( ) ) ;
TQValueList < int > & intlist = ( * ( currentHotplugRules . at ( row ) ) ) . states ;
while ( intlist . count ( ) < ( uint ) numberOfScreens ) {
intlist . append ( HotPlugRule : : AnyState ) ;
}
while ( intlist . count ( ) > ( uint ) numberOfScreens ) {
intlist . remove ( intlist . at ( intlist . count ( ) - 1 ) ) ;
}
int state = cb - > state ( ) ;
if ( state = = TQButton : : On ) {
intlist [ col ] = HotPlugRule : : Connected ;
}
else if ( state = = TQButton : : Off ) {
intlist [ col ] = HotPlugRule : : Disconnected ;
}
else {
intlist [ col ] = HotPlugRule : : AnyState ;
}
}
if ( combo ) {
int row = atoi ( w - > name ( ) ) ;
( * ( currentHotplugRules . at ( row ) ) ) . profileName = combo - > currentText ( ) ;
}
}
}
void KDisplayConfig : : profileListChanged ( ) {
// Save selected profile settings
TQString currentDisplayProfileListItem = base - > displayProfileList - > currentText ( ) ;
TQString currentStartupDisplayProfileListItem = base - > startupDisplayProfileList - > currentText ( ) ;
// Clear and reload the combo boxes
base - > displayProfileList - > clear ( ) ;
base - > startupDisplayProfileList - > clear ( ) ;
base - > displayProfileList - > insertItem ( " <default> " ) ;
base - > startupDisplayProfileList - > insertItem ( " <default> " ) ;
for ( TQStringList : : Iterator it = availableProfileNames . begin ( ) ; it ! = availableProfileNames . end ( ) ; + + it ) {
base - > displayProfileList - > insertItem ( * it ) ;
base - > startupDisplayProfileList - > insertItem ( * it ) ;
}
// Restore selected profile settings if possible
if ( base - > displayProfileList - > contains ( currentDisplayProfileListItem ) ) {
base - > displayProfileList - > setCurrentItem ( currentDisplayProfileListItem ) ;
}
else {
base - > displayProfileList - > setCurrentItem ( 0 ) ;
}
if ( base - > startupDisplayProfileList - > contains ( currentStartupDisplayProfileListItem ) ) {
base - > startupDisplayProfileList - > setCurrentItem ( currentStartupDisplayProfileListItem ) ;
}
else {
base - > startupDisplayProfileList - > setCurrentItem ( 0 ) ;
}
createHotplugRulesGrid ( ) ;
}
void KDisplayConfig : : processDPMSControls ( ) {
if ( base - > systemEnableDPMS - > isChecked ( ) ) {
base - > systemEnableDPMSStandby - > setEnabled ( true ) ;
base - > systemEnableDPMSSuspend - > setEnabled ( true ) ;
base - > systemEnableDPMSPowerDown - > setEnabled ( true ) ;
base - > dpmsStandbyTimeout - > setEnabled ( base - > systemEnableDPMSStandby - > isChecked ( ) ) ;
base - > dpmsSuspendTimeout - > setEnabled ( base - > systemEnableDPMSSuspend - > isChecked ( ) ) ;
base - > dpmsPowerDownTimeout - > setEnabled ( base - > systemEnableDPMSPowerDown - > isChecked ( ) ) ;
}
else {
base - > systemEnableDPMSStandby - > setEnabled ( false ) ;
base - > systemEnableDPMSSuspend - > setEnabled ( false ) ;
base - > systemEnableDPMSPowerDown - > setEnabled ( false ) ;
base - > dpmsStandbyTimeout - > setEnabled ( false ) ;
base - > dpmsSuspendTimeout - > setEnabled ( false ) ;
base - > dpmsPowerDownTimeout - > setEnabled ( false ) ;
}
if ( base - > systemEnableDPMSStandby - > isChecked ( ) ) base - > dpmsSuspendTimeout - > setMinValue ( base - > dpmsStandbyTimeout - > value ( ) ) ;
else base - > dpmsSuspendTimeout - > setMinValue ( 1 ) ;
if ( base - > systemEnableDPMSSuspend - > isChecked ( ) ) base - > dpmsPowerDownTimeout - > setMinValue ( base - > dpmsSuspendTimeout - > value ( ) ) ;
else if ( base - > systemEnableDPMSStandby - > isChecked ( ) ) base - > dpmsPowerDownTimeout - > setMinValue ( base - > dpmsStandbyTimeout - > value ( ) ) ;
else base - > dpmsPowerDownTimeout - > setMinValue ( 1 ) ;
}
void KDisplayConfig : : processLockoutControls ( ) {
if ( ! systemconfig - > checkConfigFilesWritable ( true ) ) {
base - > globalTab - > setEnabled ( false ) ;
base - > resolutionTab - > setEnabled ( false ) ;
base - > gammaTab - > setEnabled ( false ) ;
base - > powerTab - > setEnabled ( false ) ;
base - > displayProfileList - > setEnabled ( false ) ;
base - > addProfileButton - > setEnabled ( false ) ;
base - > renameProfileButton - > setEnabled ( false ) ;
base - > deleteProfileButton - > setEnabled ( false ) ;
base - > reloadProfileButton - > setEnabled ( false ) ;
base - > saveProfileButton - > setEnabled ( false ) ;
base - > activateProfileButton - > setEnabled ( false ) ;
base - > startupDisplayProfileList - > setEnabled ( false ) ;
base - > systemEnableStartupProfile - > setEnabled ( false ) ;
base - > groupProfileRules - > setEnabled ( false ) ;
}
else {
base - > globalTab - > setEnabled ( true ) ;
if ( base - > systemEnableSupport - > isChecked ( ) ) {
base - > resolutionTab - > setEnabled ( true ) ;
base - > gammaTab - > setEnabled ( true ) ;
base - > powerTab - > setEnabled ( true ) ;
base - > displayProfileList - > setEnabled ( true ) ;
base - > addProfileButton - > setEnabled ( true ) ;
base - > renameProfileButton - > setEnabled ( true ) ;
base - > deleteProfileButton - > setEnabled ( true ) ;
base - > reloadProfileButton - > setEnabled ( true ) ;
base - > saveProfileButton - > setEnabled ( true ) ;
base - > activateProfileButton - > setEnabled ( true ) ;
base - > systemEnableStartupProfile - > setEnabled ( true ) ;
base - > groupProfileRules - > setEnabled ( true ) ;
if ( base - > systemEnableStartupProfile - > isChecked ( ) ) {
base - > startupDisplayProfileList - > setEnabled ( true ) ;
}
else {
base - > startupDisplayProfileList - > setEnabled ( false ) ;
}
}
else {
base - > resolutionTab - > setEnabled ( false ) ;
base - > gammaTab - > setEnabled ( false ) ;
base - > powerTab - > setEnabled ( false ) ;
base - > displayProfileList - > setEnabled ( false ) ;
base - > addProfileButton - > setEnabled ( false ) ;
base - > renameProfileButton - > setEnabled ( false ) ;
base - > deleteProfileButton - > setEnabled ( false ) ;
base - > reloadProfileButton - > setEnabled ( false ) ;
base - > saveProfileButton - > setEnabled ( false ) ;
base - > activateProfileButton - > setEnabled ( false ) ;
base - > startupDisplayProfileList - > setEnabled ( false ) ;
base - > systemEnableStartupProfile - > setEnabled ( false ) ;
base - > groupProfileRules - > setEnabled ( false ) ;
}
}
base - > loadExistingProfile - > setEnabled ( false ) ; // Disable this until it works properly!
base - > loadExistingProfile - > hide ( ) ; // Same as above
}
TDECModule * KDisplayConfig : : addTab ( const TQString name , const TQString label )
{
// [FIXME] This is incomplete...Apply may not work...
TQWidget * page = new TQWidget ( base - > mainTabContainerWidget , name . latin1 ( ) ) ;
TQVBoxLayout * top = new TQVBoxLayout ( page , KDialog : : marginHint ( ) ) ;
TDECModule * kcm = TDECModuleLoader : : loadModule ( name , page ) ;
if ( kcm )
{
top - > addWidget ( kcm ) ;
base - > mainTabContainerWidget - > addTab ( page , label ) ;
connect ( kcm , TQT_SIGNAL ( changed ( bool ) ) , this , TQT_SLOT ( changed ( ) ) ) ;
//m_modules.insert(kcm, false);
return kcm ;
}
else {
delete page ;
return NULL ;
}
}
void KDisplayConfig : : load ( bool useDefaults )
{
if ( getuid ( ) ! = 0 ) {
availableProfileNames = m_randrsimple - > getDisplayConfigurationProfiles ( locateLocal ( " config " , " / " , true ) ) ;
}
else {
availableProfileNames = m_randrsimple - > getDisplayConfigurationProfiles ( KDE_CONFDIR ) ;
}
profileListChanged ( ) ;
// Update the toggle buttons with the current configuration
updateArray ( ) ;
if ( getuid ( ) ! = 0 ) {
base - > systemEnableSupport - > setChecked ( m_randrsimple - > getDisplayConfigurationEnabled ( locateLocal ( " config " , " / " , true ) ) ) ;
base - > systemEnableStartupProfile - > setChecked ( m_randrsimple - > getDisplayConfigurationStartupAutoApplyEnabled ( locateLocal ( " config " , " / " , true ) ) ) ;
startupProfileName = m_randrsimple - > getDisplayConfigurationStartupAutoApplyName ( locateLocal ( " config " , " / " , true ) ) ;
}
else {
base - > systemEnableStartupProfile - > setChecked ( m_randrsimple - > getDisplayConfigurationStartupAutoApplyEnabled ( KDE_CONFDIR ) ) ;
base - > systemEnableSupport - > setChecked ( m_randrsimple - > getDisplayConfigurationEnabled ( KDE_CONFDIR ) ) ;
startupProfileName = m_randrsimple - > getDisplayConfigurationStartupAutoApplyName ( KDE_CONFDIR ) ;
}
updateStartupProfileLabel ( ) ;
refreshDisplayedInformation ( ) ;
gammaselectScreen ( base - > gammamonitorDisplaySelectDD - > currentItem ( ) ) ;
base - > gammaTargetSelectDD - > clear ( ) ;
base - > gammaTargetSelectDD - > insertItem ( " 1.4 " , 0 ) ;
base - > gammaTargetSelectDD - > insertItem ( " 1.6 " , 1 ) ;
base - > gammaTargetSelectDD - > insertItem ( " 1.8 " , 2 ) ;
base - > gammaTargetSelectDD - > insertItem ( " 2.0 " , 3 ) ;
base - > gammaTargetSelectDD - > insertItem ( " 2.2 " , 4 ) ;
base - > gammaTargetSelectDD - > insertItem ( " 2.4 " , 5 ) ;
base - > gammaTargetSelectDD - > setCurrentItem ( 4 ) ;
gammaTargetChanged ( 4 ) ;
if ( getuid ( ) ! = 0 ) {
currentHotplugRules = m_randrsimple - > getHotplugRules ( locateLocal ( " config " , " / " , true ) ) ;
}
else {
currentHotplugRules = m_randrsimple - > getHotplugRules ( KDE_CONFDIR ) ;
}
createHotplugRulesGrid ( ) ;
emit changed ( useDefaults ) ;
}
void KDisplayConfig : : saveActiveSystemWideProfileToDisk ( )
{
if ( getuid ( ) ! = 0 ) {
m_randrsimple - > saveDisplayConfiguration ( base - > systemEnableSupport - > isChecked ( ) , base - > systemEnableStartupProfile - > isChecked ( ) , activeProfileName , startupProfileName , locateLocal ( " config " , " / " , true ) , m_screenInfoArray [ activeProfileName ] ) ;
}
else {
m_randrsimple - > saveDisplayConfiguration ( base - > systemEnableSupport - > isChecked ( ) , base - > systemEnableStartupProfile - > isChecked ( ) , activeProfileName , startupProfileName , KDE_CONFDIR , m_screenInfoArray [ activeProfileName ] ) ;
}
}
void KDisplayConfig : : save ( )
{
if ( m_randrsimple - > applyDisplayConfiguration ( m_screenInfoArray [ activeProfileName ] , TRUE ) ) {
saveActiveSystemWideProfileToDisk ( ) ;
updateProfileConfigObjectFromGrid ( ) ;
if ( getuid ( ) ! = 0 ) {
m_randrsimple - > saveHotplugRules ( currentHotplugRules , locateLocal ( " config " , " / " , true ) ) ;
}
else {
m_randrsimple - > saveHotplugRules ( currentHotplugRules , KDE_CONFDIR ) ;
}
// Write system configuration
systemconfig - > setGroup ( NULL ) ;
systemconfig - > writeEntry ( " EnableDisplayControl " , base - > systemEnableSupport - > isChecked ( ) ) ;
systemconfig - > writeEntry ( " EnableAutoStartProfile " , base - > systemEnableStartupProfile - > isChecked ( ) ) ;
systemconfig - > writeEntry ( " StartupProfileName " , startupProfileName ) ;
systemconfig - > sync ( ) ;
if ( iccTab ) {
iccTab - > save ( ) ;
}
emit changed ( false ) ;
}
else {
// Signal that settings were NOT applied
TQTimer * t = new TQTimer ( this ) ;
connect ( t , SIGNAL ( timeout ( ) ) , SLOT ( changed ( ) ) ) ;
t - > start ( 100 , FALSE ) ;
}
}
void KDisplayConfig : : defaults ( )
{
load ( true ) ;
}
TQString KDisplayConfig : : handbookSection ( ) const
{
int index = base - > mainTabContainerWidget - > currentPageIndex ( ) ;
if ( index = = 0 )
return " displayconfig-global " ;
else if ( index = = 1 )
return " displayconfig-resolution " ;
else if ( index = = 2 )
return " displayconfig-brightness " ;
else if ( index = = 3 )
return " displayconfig-power " ;
else if ( index = = 4 )
return " displayconfig-colors " ;
else
return TQString : : null ;
}
TQString KDisplayConfig : : quickHelp ( ) const
{
return i18n ( " <h1>Monitor & Display Configuration</h1> This module allows you to configure monitors attached to your "
" computer via TDE. " ) ;
}
# include "displayconfig.moc"