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tdebase/twin/client.cpp

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101 KiB

/*****************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 1999, 2000 Matthias Ettrich <ettrich@kde.org>
Copyright (C) 2003 Lubos Lunak <l.lunak@kde.org>
You can Freely distribute this program under the GNU General Public
License. See the file "COPYING" for the exact licensing terms.
******************************************************************/
#include "client.h"
#include <math.h>
#include <tqapplication.h>
#include <tqpainter.h>
#include <tqdatetime.h>
#include <tqimage.h>
#include <tqfile.h>
#include <kprocess.h>
#include <unistd.h>
#include <kstandarddirs.h>
#include <tqwhatsthis.h>
#include <twin.h>
#include <kiconloader.h>
#include <klocale.h>
#include <stdlib.h>
#include "bridge.h"
#include "group.h"
#include "workspace.h"
#include "atoms.h"
#include "notifications.h"
#include "rules.h"
#include <X11/extensions/shape.h>
// put all externs before the namespace statement to allow the linker
// to resolve them properly
extern Atom tqt_wm_state;
extern Atom tqt_window_role;
extern Atom tqt_sm_client_id;
// wait 200 ms before drawing shadow after move/resize
static const int SHADOW_DELAY = 200;
namespace KWinInternal
{
/* TODO: Remove this once X has real translucency.
*
* A list of the regions covered by all shadows and the Clients to which they
* belong. Used to redraw shadows when a window overlapping or underlying a
* shadow is moved, resized, or hidden.
*/
struct ShadowRegion
{
TQRegion region;
Client *client;
};
static TQValueList<ShadowRegion> shadowRegions;
/*
Creating a client:
- only by calling Workspace::createClient()
- it creates a new client and calls manage() for it
Destroying a client:
- destroyClient() - only when the window itself has been destroyed
- releaseWindow() - the window is kept, only the client itself is destroyed
*/
/*!
\class Client client.h
\brief The Client class encapsulates a window decoration frame.
*/
/*!
This ctor is "dumb" - it only initializes data. All the real initialization
is done in manage().
*/
Client::Client( Workspace *ws )
: TQObject( NULL ),
client( None ),
wrapper( None ),
frame( None ),
decoration( NULL ),
wspace( ws ),
bridge( new Bridge( this )),
move_faked_activity( false ),
move_resize_grab_window( None ),
transient_for( NULL ),
transient_for_id( None ),
original_transient_for_id( None ),
in_group( NULL ),
window_group( None ),
in_layer( UnknownLayer ),
ping_timer( NULL ),
process_killer( NULL ),
process_resumer( NULL ),
user_time( CurrentTime ), // not known yet
allowed_actions( 0 ),
postpone_geometry_updates( 0 ),
pending_geometry_update( false ),
shade_geometry_change( false ),
border_left( 0 ),
border_right( 0 ),
border_top( 0 ),
border_bottom( 0 ),
opacity_( 0 ),
demandAttentionKNotifyTimer( NULL )
// SELI do all as initialization
{
autoRaiseTimer = 0;
shadeHoverTimer = 0;
shadowDelayTimer = new TQTimer(this);
opacityCache = &activeOpacityCache;
shadowAfterClient = NULL;
shadowWidget = NULL;
shadowMe = true;
connect(shadowDelayTimer, TQT_SIGNAL(timeout()), TQT_SLOT(drawShadow()));
// set the initial mapping state
mapping_state = WithdrawnState;
desk = 0; // no desktop yet
mode = PositionCenter;
buttonDown = FALSE;
moveResizeMode = FALSE;
info = NULL;
shade_mode = ShadeNone;
active = FALSE;
deleting = false;
keep_above = FALSE;
keep_below = FALSE;
is_shape = FALSE;
motif_noborder = false;
motif_may_move = TRUE;
motif_may_resize = TRUE;
motif_may_close = TRUE;
fullscreen_mode = FullScreenNone;
skip_taskbar = FALSE;
original_skip_taskbar = false;
minimized = false;
hidden = false;
modal = false;
noborder = false;
user_noborder = false;
urgency = false;
ignore_focus_stealing = false;
demands_attention = false;
check_active_modal = false;
Pdeletewindow = 0;
Ptakefocus = 0;
Ptakeactivity = 0;
Pcontexthelp = 0;
Pping = 0;
input = FALSE;
skip_pager = FALSE;
max_mode = MaximizeRestore;
maxmode_restore = MaximizeRestore;
cmap = None;
frame_geometry = TQRect( 0, 0, 100, 100 ); // so that decorations don't start with size being (0,0)
client_size = TQSize( 100, 100 );
custom_opacity = false;
rule_opacity_active = 0; //translucency rules
rule_opacity_inactive = 0; //dito.
// SELI initialize xsizehints??
}
/*!
"Dumb" destructor.
*/
Client::~Client()
{
assert(!moveResizeMode);
assert( client == None );
assert( frame == None && wrapper == None );
assert( decoration == NULL );
assert( postpone_geometry_updates == 0 );
assert( !check_active_modal );
delete info;
delete bridge;
}
// use destroyClient() or releaseWindow(), Client instances cannot be deleted directly
void Client::deleteClient( Client* c, allowed_t )
{
delete c;
}
/*!
Releases the window. The client has done its job and the window is still existing.
*/
void Client::releaseWindow( bool on_shutdown )
{
assert( !deleting );
deleting = true;
workspace()->discardUsedWindowRules( this, true ); // remove ForceTemporarily rules
StackingUpdatesBlocker blocker( workspace());
if (!custom_opacity) setOpacity(FALSE);
if (moveResizeMode)
leaveMoveResize();
removeShadow();
drawIntersectingShadows();
finishWindowRules();
++postpone_geometry_updates;
// grab X during the release to make removing of properties, setting to withdrawn state
// and repareting to root an atomic operation (http://lists.kde.org/?l=kde-devel&m=116448102901184&w=2)
grabXServer();
setMappingState( WithdrawnState );
setModal( false ); // otherwise its mainwindow wouldn't get focus
hidden = true; // so that it's not considered visible anymore (can't use hideClient(), it would set flags)
if( !on_shutdown )
workspace()->clientHidden( this );
XUnmapWindow( tqt_xdisplay(), frameId()); // destroying decoration would cause ugly visual effect
destroyDecoration();
cleanGrouping();
if( !on_shutdown )
{
workspace()->removeClient( this, Allowed );
// only when the window is being unmapped, not when closing down KWin
// (NETWM sections 5.5,5.7)
info->setDesktop( 0 );
desk = 0;
info->setState( 0, info->state()); // reset all state flags
}
XDeleteProperty( tqt_xdisplay(), client, atoms->kde_net_wm_user_creation_time);
XDeleteProperty( tqt_xdisplay(), client, atoms->net_frame_extents );
XDeleteProperty( tqt_xdisplay(), client, atoms->kde_net_wm_frame_strut );
XReparentWindow( tqt_xdisplay(), client, workspace()->rootWin(), x(), y());
XRemoveFromSaveSet( tqt_xdisplay(), client );
XSelectInput( tqt_xdisplay(), client, NoEventMask );
if( on_shutdown )
{ // map the window, so it can be found after another WM is started
XMapWindow( tqt_xdisplay(), client );
// TODO preserve minimized, shaded etc. state?
}
else
{
// Make sure it's not mapped if the app unmapped it (#65279). The app
// may do map+unmap before we initially map the window by calling rawShow() from manage().
XUnmapWindow( tqt_xdisplay(), client );
}
client = None;
XDestroyWindow( tqt_xdisplay(), wrapper );
wrapper = None;
XDestroyWindow( tqt_xdisplay(), frame );
frame = None;
--postpone_geometry_updates; // don't use GeometryUpdatesBlocker, it would now set the geometry
checkNonExistentClients();
deleteClient( this, Allowed );
ungrabXServer();
}
// like releaseWindow(), but this one is called when the window has been already destroyed
// (e.g. the application closed it)
void Client::destroyClient()
{
assert( !deleting );
deleting = true;
workspace()->discardUsedWindowRules( this, true ); // remove ForceTemporarily rules
StackingUpdatesBlocker blocker( workspace());
if (moveResizeMode)
leaveMoveResize();
removeShadow();
drawIntersectingShadows();
finishWindowRules();
++postpone_geometry_updates;
setModal( false );
hidden = true; // so that it's not considered visible anymore
workspace()->clientHidden( this );
destroyDecoration();
cleanGrouping();
workspace()->removeClient( this, Allowed );
client = None; // invalidate
XDestroyWindow( tqt_xdisplay(), wrapper );
wrapper = None;
XDestroyWindow( tqt_xdisplay(), frame );
frame = None;
--postpone_geometry_updates; // don't use GeometryUpdatesBlocker, it would now set the geometry
checkNonExistentClients();
deleteClient( this, Allowed );
}
void Client::updateDecoration( bool check_workspace_pos, bool force )
{
if( !force && (( decoration == NULL && noBorder())
|| ( decoration != NULL && !noBorder())))
return;
bool do_show = false;
postponeGeometryUpdates( true );
if( force )
destroyDecoration();
if( !noBorder())
{
setMask( TQRegion()); // reset shape mask
decoration = workspace()->createDecoration( bridge );
// TODO check decoration's minimum size?
decoration->init();
decoration->widget()->installEventFilter( this );
XReparentWindow( tqt_xdisplay(), decoration->widget()->winId(), frameId(), 0, 0 );
decoration->widget()->lower();
decoration->borders( border_left, border_right, border_top, border_bottom );
options->onlyDecoTranslucent ?
setDecoHashProperty(border_top, border_right, border_bottom, border_left):
unsetDecoHashProperty();
int save_workarea_diff_x = workarea_diff_x;
int save_workarea_diff_y = workarea_diff_y;
move( calculateGravitation( false ));
plainResize( sizeForClientSize( clientSize()), ForceGeometrySet );
workarea_diff_x = save_workarea_diff_x;
workarea_diff_y = save_workarea_diff_y;
do_show = true;
}
else
destroyDecoration();
if( check_workspace_pos )
checkWorkspacePosition();
postponeGeometryUpdates( false );
if( do_show )
decoration->widget()->show();
updateFrameExtents();
updateOpacityCache();
}
void Client::destroyDecoration()
{
if( decoration != NULL )
{
delete decoration;
decoration = NULL;
TQPoint grav = calculateGravitation( true );
border_left = border_right = border_top = border_bottom = 0;
setMask( TQRegion()); // reset shape mask
int save_workarea_diff_x = workarea_diff_x;
int save_workarea_diff_y = workarea_diff_y;
plainResize( sizeForClientSize( clientSize()), ForceGeometrySet );
move( grav );
workarea_diff_x = save_workarea_diff_x;
workarea_diff_y = save_workarea_diff_y;
}
}
void Client::checkBorderSizes()
{
if( decoration == NULL )
return;
int new_left, new_right, new_top, new_bottom;
decoration->borders( new_left, new_right, new_top, new_bottom );
if( new_left == border_left && new_right == border_right
&& new_top == border_top && new_bottom == border_bottom )
return;
GeometryUpdatesPostponer blocker( this );
move( calculateGravitation( true ));
border_left = new_left;
border_right = new_right;
border_top = new_top;
border_bottom = new_bottom;
if (border_left != new_left ||
border_right != new_right ||
border_top != new_top ||
border_bottom != new_bottom)
options->onlyDecoTranslucent ?
setDecoHashProperty(new_top, new_right, new_bottom, new_left):
unsetDecoHashProperty();
move( calculateGravitation( false ));
plainResize( sizeForClientSize( clientSize()), ForceGeometrySet );
checkWorkspacePosition();
}
void Client::detectNoBorder()
{
if( Shape::hasShape( window()))
{
noborder = true;
return;
}
switch( windowType())
{
case NET::Desktop :
case NET::Dock :
case NET::TopMenu :
case NET::Splash :
noborder = true;
break;
case NET::Unknown :
case NET::Normal :
case NET::Toolbar :
case NET::Menu :
case NET::Dialog :
case NET::Utility :
noborder = false;
break;
default:
assert( false );
}
// NET::Override is some strange beast without clear definition, usually
// just meaning "noborder", so let's treat it only as such flag, and ignore it as
// a window type otherwise (SUPPORTED_WINDOW_TYPES_MASK doesn't include it)
if( info->windowType( SUPPORTED_WINDOW_TYPES_MASK | NET::OverrideMask ) == NET::Override )
noborder = true;
}
void Client::detectShapable()
{
if( Shape::hasShape( window()))
return;
switch( windowType())
{
case NET::Desktop :
case NET::Dock :
case NET::TopMenu :
case NET::Splash :
break;
case NET::Unknown :
case NET::Normal :
case NET::Toolbar :
case NET::Menu :
case NET::Dialog :
case NET::Utility :
setShapable(FALSE);
break;
default:
assert( false );
}
}
void Client::updateFrameExtents()
{
NETStrut strut;
strut.left = border_left;
strut.right = border_right;
strut.top = border_top;
strut.bottom = border_bottom;
info->setFrameExtents( strut );
}
// Resizes the decoration, and makes sure the decoration widget gets resize event
// even if the size hasn't changed. This is needed to make sure the decoration
// re-layouts (e.g. when options()->moveResizeMaximizedWindows() changes,
// the decoration may turn on/off some borders, but the actual size
// of the decoration stays the same).
void Client::resizeDecoration( const TQSize& s )
{
if( decoration == NULL )
return;
TQSize oldsize = decoration->widget()->size();
decoration->resize( s );
if( oldsize == s )
{
TQResizeEvent e( s, oldsize );
TQApplication::sendEvent( decoration->widget(), &e );
}
if (!moveResizeMode && options->shadowEnabled(isActive()))
{
// If the user is manually resizing, let Client::leaveMoveResize()
// decide when to redraw the shadow
updateOpacityCache();
}
}
bool Client::noBorder() const
{
return noborder || isFullScreen() || user_noborder || motif_noborder;
}
bool Client::userCanSetNoBorder() const
{
return !noborder && !isFullScreen() && !isShade();
}
bool Client::isUserNoBorder() const
{
return user_noborder;
}
void Client::setUserNoBorder( bool set )
{
if( !userCanSetNoBorder())
return;
set = rules()->checkNoBorder( set );
if( user_noborder == set )
return;
user_noborder = set;
updateDecoration( true, false );
updateWindowRules();
}
bool Client::isModalSystemNotification() const
{
unsigned char *data = 0;
Atom actual;
int format, result;
unsigned long n, left;
result = XGetWindowProperty(tqt_xdisplay(), window(), atoms->net_wm_system_modal_notification, 0L, 1L, False, XA_CARDINAL, &actual, &format, &n, &left, /*(unsigned char **)*/ &data);
if (result == Success && data != None && format == 32 )
{
return TRUE;
}
return FALSE;
}
void Client::updateShape()
{
// workaround for #19644 - shaped windows shouldn't have decoration
if( shape() && !noBorder())
{
noborder = true;
updateDecoration( true );
}
updateOpacityCache();
if ( shape() )
{
XShapeCombineShape(tqt_xdisplay(), frameId(), ShapeBounding,
clientPos().x(), clientPos().y(),
window(), ShapeBounding, ShapeSet);
setShapable(TRUE);
}
// !shape() mask setting is done in setMask() when the decoration
// calls it or when the decoration is created/destroyed
if( Shape::version() >= 0x11 ) // 1.1, has input shape support
{ // There appears to be no way to find out if a window has input
// shape set or not, so always propagate the input shape
// (it's the same like the bounding shape by default).
// Also, build the shape using a helper window, not directly
// in the frame window, because the sequence set-shape-to-frame,
// remove-shape-of-client, add-input-shape-of-client has the problem
// that after the second step there's a hole in the input shape
// until the real shape of the client is added and that can make
// the window lose focus (which is a problem with mouse focus policies)
static Window helper_window = None;
if( helper_window == None )
helper_window = XCreateSimpleWindow( tqt_xdisplay(), tqt_xrootwin(),
0, 0, 1, 1, 0, 0, 0 );
XResizeWindow( tqt_xdisplay(), helper_window, width(), height());
XShapeCombineShape( tqt_xdisplay(), helper_window, ShapeInput, 0, 0,
frameId(), ShapeBounding, ShapeSet );
XShapeCombineShape( tqt_xdisplay(), helper_window, ShapeInput,
clientPos().x(), clientPos().y(),
window(), ShapeBounding, ShapeSubtract );
XShapeCombineShape( tqt_xdisplay(), helper_window, ShapeInput,
clientPos().x(), clientPos().y(),
window(), ShapeInput, ShapeUnion );
XShapeCombineShape( tqt_xdisplay(), frameId(), ShapeInput, 0, 0,
helper_window, ShapeInput, ShapeSet );
}
}
void Client::setMask( const TQRegion& reg, int mode )
{
_mask = reg;
if( reg.isNull())
XShapeCombineMask( tqt_xdisplay(), frameId(), ShapeBounding, 0, 0,
None, ShapeSet );
else if( mode == X::Unsorted )
XShapeCombineRegion( tqt_xdisplay(), frameId(), ShapeBounding, 0, 0,
reg.handle(), ShapeSet );
else
{
TQMemArray< TQRect > rects = reg.rects();
XRectangle* xrects = new XRectangle[ rects.count() ];
for( unsigned int i = 0;
i < rects.count();
++i )
{
xrects[ i ].x = rects[ i ].x();
xrects[ i ].y = rects[ i ].y();
xrects[ i ].width = rects[ i ].width();
xrects[ i ].height = rects[ i ].height();
}
XShapeCombineRectangles( tqt_xdisplay(), frameId(), ShapeBounding, 0, 0,
xrects, rects.count(), ShapeSet, mode );
delete[] xrects;
}
updateShape();
}
TQRegion Client::mask() const
{
if( _mask.isEmpty())
return TQRegion( 0, 0, width(), height());
return _mask;
}
void Client::setShapable(bool b)
{
long tmp = b?1:0;
XChangeProperty(tqt_xdisplay(), frameId(), atoms->net_wm_window_shapable, XA_CARDINAL, 32, PropModeReplace, (unsigned char *) &tmp, 1L);
}
void Client::hideClient( bool hide )
{
if( hidden == hide )
return;
hidden = hide;
updateVisibility();
}
/*!
Returns whether the window is minimizable or not
*/
bool Client::isMinimizable() const
{
if( isSpecialWindow())
return false;
if( isModalSystemNotification())
return false;
if( isTransient())
{ // #66868 - let other xmms windows be minimized when the mainwindow is minimized
bool shown_mainwindow = false;
ClientList mainclients = mainClients();
for( ClientList::ConstIterator it = mainclients.begin();
it != mainclients.end();
++it )
{
if( (*it)->isShown( true ))
shown_mainwindow = true;
}
if( !shown_mainwindow )
return true;
}
// this is here because kicker's taskbar doesn't provide separate entries
// for windows with an explicitly given parent
// TODO perhaps this should be redone
if( transientFor() != NULL )
return false;
if( !wantsTabFocus()) // SELI - NET::Utility? why wantsTabFocus() - skiptaskbar? ?
return false;
return true;
}
/*!
Returns whether the window is kept above or not
*/
bool Client::keepAbove() const
{
if( isModalSystemNotification())
return true;
return keep_above;
}
/*!
Minimizes this client plus its transients
*/
void Client::minimize( bool avoid_animation )
{
if ( !isMinimizable() || isMinimized())
return;
if (isShade()) // NETWM restriction - KWindowInfo::isMinimized() == Hidden && !Shaded
info->setState(0, NET::Shaded);
Notify::raise( Notify::Minimize );
// SELI mainClients().isEmpty() ??? - and in unminimize() too
if ( mainClients().isEmpty() && isOnCurrentDesktop() && isShown( true ) && !avoid_animation )
animateMinimizeOrUnminimize( true ); // was visible or shaded
minimized = true;
updateVisibility();
updateAllowedActions();
workspace()->updateMinimizedOfTransients( this );
updateWindowRules();
workspace()->updateFocusChains( this, Workspace::FocusChainMakeLast );
}
void Client::unminimize( bool avoid_animation )
{
if (!queryUserSuspendedResume())
return;
if( !isMinimized())
return;
if (isShade()) // NETWM restriction - KWindowInfo::isMinimized() == Hidden && !Shaded
info->setState(NET::Shaded, NET::Shaded);
Notify::raise( Notify::UnMinimize );
minimized = false;
if( isOnCurrentDesktop() && isShown( true ))
{
if( mainClients().isEmpty() && !avoid_animation )
animateMinimizeOrUnminimize( FALSE );
}
updateVisibility();
updateAllowedActions();
workspace()->updateMinimizedOfTransients( this );
updateWindowRules();
}
extern bool blockAnimation;
void Client::animateMinimizeOrUnminimize( bool minimize )
{
if ( blockAnimation )
return;
if ( !options->animateMinimize )
return;
if( decoration != NULL && decoration->animateMinimize( minimize ))
return; // decoration did it
// the function is a bit tricky since it will ensure that an
// animation action needs always the same time regardless of the
// performance of the machine or the X-Server.
float lf,rf,tf,bf,step;
int speed = options->animateMinimizeSpeed;
if ( speed > 10 )
speed = 10;
if ( speed < 0 )
speed = 0;
step = 40. * (11 - speed );
NETRect r = info->iconGeometry();
TQRect icongeom( r.pos.x, r.pos.y, r.size.width, r.size.height );
if ( !icongeom.isValid() )
return;
TQPixmap pm = animationPixmap( minimize ? width() : icongeom.width() );
TQRect before, after;
if ( minimize )
{
before = TQRect( x(), y(), width(), pm.height() );
after = TQRect( icongeom.x(), icongeom.y(), icongeom.width(), pm.height() );
}
else
{
before = TQRect( icongeom.x(), icongeom.y(), icongeom.width(), pm.height() );
after = TQRect( x(), y(), width(), pm.height() );
}
lf = (after.left() - before.left())/step;
rf = (after.right() - before.right())/step;
tf = (after.top() - before.top())/step;
bf = (after.bottom() - before.bottom())/step;
grabXServer();
TQRect area = before;
TQRect area2;
TQPixmap pm2;
TQTime t;
t.start();
float diff;
TQPainter p ( workspace()->desktopWidget() );
bool need_to_clear = FALSE;
TQPixmap pm3;
do
{
if (area2 != area)
{
pm = animationPixmap( area.width() );
pm2 = TQPixmap::grabWindow( tqt_xrootwin(), area.x(), area.y(), area.width(), area.height() );
p.drawPixmap( area.x(), area.y(), pm );
if ( need_to_clear )
{
p.drawPixmap( area2.x(), area2.y(), pm3 );
need_to_clear = FALSE;
}
area2 = area;
}
XFlush(tqt_xdisplay());
XSync( tqt_xdisplay(), FALSE );
diff = t.elapsed();
if (diff > step)
diff = step;
area.setLeft(before.left() + int(diff*lf));
area.setRight(before.right() + int(diff*rf));
area.setTop(before.top() + int(diff*tf));
area.setBottom(before.bottom() + int(diff*bf));
if (area2 != area )
{
if ( area2.intersects( area ) )
p.drawPixmap( area2.x(), area2.y(), pm2 );
else
{ // no overlap, we can clear later to avoid flicker
pm3 = pm2;
need_to_clear = TRUE;
}
}
} while ( t.elapsed() < step);
if (area2 == area || need_to_clear )
p.drawPixmap( area2.x(), area2.y(), pm2 );
p.end();
ungrabXServer();
}
/*!
The pixmap shown during (un)minimalization animation
*/
TQPixmap Client::animationPixmap( int w )
{
TQFont font = options->font(isActive());
TQFontMetrics fm( font );
TQPixmap pm( w, fm.lineSpacing() );
pm.fill( options->color(Options::ColorTitleBar, isActive() || isMinimized() ) );
TQPainter p( &pm );
p.setPen(options->color(Options::ColorFont, isActive() || isMinimized() ));
p.setFont(options->font(isActive()));
p.drawText( pm.rect(), AlignLeft|AlignVCenter|SingleLine, caption() );
return pm;
}
bool Client::isShadeable() const
{
return !isSpecialWindow() && !noBorder();
}
void Client::setShade( ShadeMode mode )
{
if( !isShadeable())
return;
if( isModalSystemNotification())
return;
mode = rules()->checkShade( mode );
if( shade_mode == mode )
return;
bool was_shade = isShade();
ShadeMode was_shade_mode = shade_mode;
shade_mode = mode;
if( was_shade == isShade())
{
if( decoration != NULL ) // decoration may want to update after e.g. hover-shade changes
decoration->shadeChange();
return; // no real change in shaded state
}
if( shade_mode == ShadeNormal )
{
if ( isShown( true ) && isOnCurrentDesktop())
Notify::raise( Notify::ShadeUp );
}
else if( shade_mode == ShadeNone )
{
if( isShown( true ) && isOnCurrentDesktop())
Notify::raise( Notify::ShadeDown );
}
assert( decoration != NULL ); // noborder windows can't be shaded
GeometryUpdatesPostponer blocker( this );
// decorations may turn off some borders when shaded
decoration->borders( border_left, border_right, border_top, border_bottom );
int as = options->animateShade? 10 : 1;
// TODO all this unmapping, resizing etc. feels too much duplicated from elsewhere
if ( isShade())
{ // shade_mode == ShadeNormal
// we're about to shade, texx xcompmgr to prepare
long _shade = 1;
XChangeProperty(tqt_xdisplay(), frameId(), atoms->net_wm_window_shade, XA_CARDINAL, 32, PropModeReplace, (unsigned char *) &_shade, 1L);
// shade
int h = height();
shade_geometry_change = true;
TQSize s( sizeForClientSize( TQSize( clientSize())));
s.setHeight( border_top + border_bottom );
XSelectInput( tqt_xdisplay(), wrapper, ClientWinMask ); // avoid getting UnmapNotify
XUnmapWindow( tqt_xdisplay(), wrapper );
XUnmapWindow( tqt_xdisplay(), client );
XSelectInput( tqt_xdisplay(), wrapper, ClientWinMask | SubstructureNotifyMask );
//as we hid the unmap event, xcompmgr didn't recognize the client wid has vanished, so we'll extra inform it
//done xcompmgr workaround
// FRAME repaint( FALSE );
// bool wasStaticContents = testWFlags( WStaticContents );
// setWFlags( WStaticContents );
int step = QMAX( 4, QABS( h - s.height() ) / as )+1;
do
{
h -= step;
XResizeWindow( tqt_xdisplay(), frameId(), s.width(), h );
resizeDecoration( TQSize( s.width(), h ));
TQApplication::syncX();
} while ( h > s.height() + step );
// if ( !wasStaticContents )
// clearWFlags( WStaticContents );
plainResize( s );
shade_geometry_change = false;
if( isActive())
{
if( was_shade_mode == ShadeHover )
workspace()->activateNextClient( this );
else
workspace()->focusToNull();
}
// tell xcompmgr shade's done
_shade = 2;
XChangeProperty(tqt_xdisplay(), frameId(), atoms->net_wm_window_shade, XA_CARDINAL, 32, PropModeReplace, (unsigned char *) &_shade, 1L);
}
else
{
int h = height();
shade_geometry_change = true;
TQSize s( sizeForClientSize( clientSize()));
// FRAME bool wasStaticContents = testWFlags( WStaticContents );
// setWFlags( WStaticContents );
int step = QMAX( 4, QABS( h - s.height() ) / as )+1;
do
{
h += step;
XResizeWindow( tqt_xdisplay(), frameId(), s.width(), h );
resizeDecoration( TQSize( s.width(), h ));
// assume a border
// we do not have time to wait for X to send us paint events
// FRAME repaint( 0, h - step-5, width(), step+5, TRUE);
TQApplication::syncX();
} while ( h < s.height() - step );
// if ( !wasStaticContents )
// clearWFlags( WStaticContents );
shade_geometry_change = false;
plainResize( s );
if( shade_mode == ShadeHover || shade_mode == ShadeActivated )
setActive( TRUE );
XMapWindow( tqt_xdisplay(), wrapperId());
XMapWindow( tqt_xdisplay(), window());
XDeleteProperty (tqt_xdisplay(), client, atoms->net_wm_window_shade);
if (options->shadowEnabled(false))
{
for (ClientList::ConstIterator it = transients().begin();
it != transients().end(); ++it)
{
(*it)->removeShadow();
(*it)->drawDelayedShadow();
}
}
if ( isActive() )
workspace()->requestFocus( this );
}
checkMaximizeGeometry();
info->setState( (isShade() && !isMinimized()) ? NET::Shaded : 0, NET::Shaded );
info->setState( isShown( false ) ? 0 : NET::Hidden, NET::Hidden );
updateVisibility();
updateAllowedActions();
workspace()->updateMinimizedOfTransients( this );
decoration->shadeChange();
updateWindowRules();
}
void Client::shadeHover()
{
setShade( ShadeHover );
cancelShadeHover();
}
void Client::cancelShadeHover()
{
delete shadeHoverTimer;
shadeHoverTimer = 0;
}
void Client::toggleShade()
{
// if the mode is ShadeHover or ShadeActive, cancel shade too
setShade( shade_mode == ShadeNone ? ShadeNormal : ShadeNone );
}
void Client::updateVisibility()
{
if( deleting )
return;
bool show = true;
if( hidden )
{
setMappingState( IconicState );
info->setState( NET::Hidden, NET::Hidden );
setSkipTaskbar( true, false ); // also hide from taskbar
rawHide();
show = false;
}
else
{
setSkipTaskbar( original_skip_taskbar, false );
}
if( minimized )
{
setMappingState( IconicState );
info->setState( NET::Hidden, NET::Hidden );
rawHide();
show = false;
}
if( show )
info->setState( 0, NET::Hidden );
if( !isOnCurrentDesktop())
{
setMappingState( IconicState );
rawHide();
show = false;
}
if( show )
{
bool belongs_to_desktop = false;
for( ClientList::ConstIterator it = group()->members().begin();
it != group()->members().end();
++it )
if( (*it)->isDesktop())
{
belongs_to_desktop = true;
break;
}
if( !belongs_to_desktop && workspace()->showingDesktop())
workspace()->resetShowingDesktop( true );
if( isShade())
setMappingState( IconicState );
else
setMappingState( NormalState );
rawShow();
}
}
void Client::setShadowed(bool shadowed)
{
bool wasShadowed;
wasShadowed = isShadowed();
shadowMe = options->shadowEnabled(isActive()) ? shadowed : false;
if (shadowMe) {
if (!wasShadowed)
drawShadow();
}
else {
if (wasShadowed) {
removeShadow();
if (!activeOpacityCache.isNull())
activeOpacityCache.resize(0);
if (!inactiveOpacityCache.isNull())
inactiveOpacityCache.resize(0);
}
}
}
void Client::updateOpacityCache()
{
if (!activeOpacityCache.isNull())
activeOpacityCache.resize(0);
if (!inactiveOpacityCache.isNull())
inactiveOpacityCache.resize(0);
if (!moveResizeMode) {
// If the user is manually resizing, let Client::finishMoveResize()
// decide when to redraw the shadow
removeShadow();
drawIntersectingShadows();
if (options->shadowEnabled(isActive()))
drawDelayedShadow();
}
}
/*!
Redraw shadows that were previously occluding or occluded by this window,
to avoid visual glitches.
*/
void Client::drawIntersectingShadows() {
//Client *reshadowClient;
TQRegion region;
//TQPtrList<Client> reshadowClients;
TQValueList<Client *> reshadowClients;
TQValueListIterator<ShadowRegion> it;
TQValueListIterator<Client *> it2;
if (!options->shadowEnabled(false))
// No point in redrawing overlapping/overlapped shadows if only the
// active window has a shadow.
return;
region = shapeBoundingRegion;
// Generate list of Clients whose shadows need to be redrawn. That is,
// those that are currently intersecting or intersected by other windows or
// shadows.
for (it = shadowRegions.begin(); it != shadowRegions.end(); ++it)
if ((isOnAllDesktops() || (*it).client->isOnCurrentDesktop()) &&
!(*it).region.intersect(region).isEmpty())
reshadowClients.append((*it).client);
// Redraw shadows for each of the Clients in the list generated above
for (it2 = reshadowClients.begin(); it2 != reshadowClients.end();
++it2) {
(*it2)->removeShadow();
(*it2)->drawDelayedShadow();
}
}
/*!
Redraw shadows that are above the current window in the stacking order.
Furthermore, redraw them in the same order as they come in the stacking order
from bottom to top.
*/
void Client::drawOverlappingShadows(bool waitForMe)
{
Client *aClient;
TQRegion region;
TQValueList<Client *> reshadowClients;
ClientList stacking_order;
ClientList::ConstIterator it;
TQValueListIterator<ShadowRegion> it2;
TQValueListIterator<Client *> it3;
if (!options->shadowEnabled(false))
// No point in redrawing overlapping/overlapped shadows if only the
// active window has a shadow.
return;
region = shapeBoundingRegion;
stacking_order = workspace()->stackingOrder();
for (it = stacking_order.fromLast(); it != stacking_order.end(); --it) {
// Find the position of this window in the stacking order.
if ((*it) == this)
break;
}
++it;
while (it != stacking_order.end()) {
if ((*it)->windowType() == NET::Dock) {
// This function is only interested in windows whose shadows don't
// have weird stacking rules.
++it;
continue;
}
// Generate list of Clients whose shadows need to be redrawn. That is,
// those that are currently overlapping or overlapped by other windows
// or shadows. The list should be in order from bottom to top in the
// stacking order.
for (it2 = shadowRegions.begin(); it2 != shadowRegions.end(); ++it2) {
if ((*it2).client == (*it)) {
if ((isOnAllDesktops() || (*it2).client->isOnCurrentDesktop())
&& !(*it2).region.intersect(region).isEmpty())
reshadowClients.append((*it2).client);
}
}
++it;
}
// Redraw shadows for each of the Clients in the list generated above
for (it3 = reshadowClients.begin(); it3 != reshadowClients.end(); ++it3) {
(*it3)->removeShadow();
if (it3 == reshadowClients.begin()) {
if (waitForMe)
(*it3)->drawShadowAfter(this);
else
(*it3)->drawDelayedShadow();
}
else {
--it3;
aClient = (*it3);
++it3;
(*it3)->drawShadowAfter(aClient);
}
}
}
/*!
Draw shadow after some time has elapsed, to give recently exposed windows a
chance to repaint before a shadow gradient is drawn over them.
*/
void Client::drawDelayedShadow()
{
shadowDelayTimer->stop();
shadowDelayTimer->start(SHADOW_DELAY, true);
}
/*!
Draw shadow immediately after the specified Client's shadow finishes drawing.
*/
void Client::drawShadowAfter(Client *after)
{
shadowAfterClient = after;
connect(after, TQT_SIGNAL(shadowDrawn()), TQT_SLOT(drawShadow()));
}
/*!
Draw a shadow under this window and XShape the shadow accordingly.
*/
void Client::drawShadow()
{
Window shadows[2];
XRectangle *shapes;
int i, count, ordering;
// If we are waiting for another Client's shadow to be drawn, stop waiting now
if (shadowAfterClient != NULL) {
disconnect(shadowAfterClient, TQT_SIGNAL(shadowDrawn()), this, TQT_SLOT(drawShadow()));
shadowAfterClient = NULL;
}
if (!isOnCurrentDesktop())
return;
/* Store this window's ShapeBoundingRegion even if shadows aren't drawn for
* this type of window. Otherwise, drawIntersectingShadows() won't update
* properly when this window is moved/resized/hidden/closed.
*/
shapes = XShapeGetRectangles(tqt_xdisplay(), frameId(), ShapeBounding,
&count, &ordering);
if (!shapes)
// XShape extension not supported
shapeBoundingRegion = TQRegion(x(), y(), width(), height());
else {
shapeBoundingRegion = TQRegion();
for (i = 0; i < count; i++) {
// Translate XShaped window into a TQRegion
TQRegion shapeRectangle(shapes[i].x, shapes[i].y, shapes[i].width,
shapes[i].height);
shapeBoundingRegion += shapeRectangle;
}
if (isShade())
// Since XResize() doesn't change a window's XShape regions, ensure that
// shapeBoundingRegion is not taller than the window's shaded height,
// or the bottom shadow will appear to be missing
shapeBoundingRegion &= TQRegion(0, 0, width(), height());
shapeBoundingRegion.translate(x(), y());
}
if (!isShadowed() || hidden || isMinimized() ||
maximizeMode() == MaximizeFull ||
!options->shadowWindowType(windowType())) {
XFree(shapes);
// Tell whatever Clients are listening that this Client's shadow has been drawn.
// It hasn't, but there's no sense waiting for something that won't happen.
emit shadowDrawn();
return;
}
removeShadow();
TQMemArray<QRgb> pixelData;
TQPixmap shadowPixmap;
TQRect shadow;
TQRegion exposedRegion;
ShadowRegion shadowRegion;
int thickness, xOffset, yOffset;
thickness = options->shadowThickness(isActive());
xOffset = options->shadowXOffset(isActive());
yOffset = options->shadowYOffset(isActive());
opacityCache = active? &activeOpacityCache : &inactiveOpacityCache;
shadow.setRect(x() - thickness + xOffset, y() - thickness + yOffset,
width() + thickness * 2, height() + thickness * 2);
shadowPixmap.resize(shadow.size());
// Create a fake drop-down shadow effect via blended Xwindows
shadowWidget = new TQWidget(0, 0, (WFlags)(WStyle_Customize | WX11BypassWM));
shadowWidget->setGeometry(shadow);
XSelectInput(tqt_xdisplay(), shadowWidget->winId(),
ButtonPressMask | ButtonReleaseMask | StructureNotifyMask);
shadowWidget->installEventFilter(this);
if (!shapes) {
// XShape extension not supported
exposedRegion = getExposedRegion(shapeBoundingRegion, shadow.x(),
shadow.y(), shadow.width(), shadow.height(), thickness,
xOffset, yOffset);
shadowRegion.region = exposedRegion;
shadowRegion.client = this;
shadowRegions.append(shadowRegion);
if (opacityCache->isNull())
imposeRegionShadow(shadowPixmap, shapeBoundingRegion,
exposedRegion, thickness,
options->shadowOpacity(isActive()));
else
imposeCachedShadow(shadowPixmap, exposedRegion);
}
else {
TQMemArray<TQRect> exposedRects;
TQMemArray<TQRect>::Iterator it, itEnd;
XRectangle *shadowShapes;
exposedRegion = getExposedRegion(shapeBoundingRegion, shadow.x(),
shadow.y(), shadow.width(), shadow.height(), thickness,
xOffset, yOffset);
shadowRegion.region = exposedRegion;
shadowRegion.client = this;
shadowRegions.append(shadowRegion);
// XShape the shadow
exposedRects = exposedRegion.rects();
i = 0;
itEnd = exposedRects.end();
shadowShapes = new XRectangle[exposedRects.count()];
for (it = exposedRects.begin(); it != itEnd; ++it) {
shadowShapes[i].x = (*it).x();
shadowShapes[i].y = (*it).y();
shadowShapes[i].width = (*it).width();
shadowShapes[i].height = (*it).height();
i++;
}
XShapeCombineRectangles(tqt_xdisplay(), shadowWidget->winId(),
ShapeBounding, -x() + thickness - xOffset,
-y() + thickness - yOffset, shadowShapes, i, ShapeSet,
Unsorted);
delete [] shadowShapes;
if (opacityCache->isNull())
imposeRegionShadow(shadowPixmap, shapeBoundingRegion,
exposedRegion, thickness,
options->shadowOpacity(isActive()));
else
imposeCachedShadow(shadowPixmap, exposedRegion);
}
XFree(shapes);
// Set the background pixmap
//shadowPixmap.convertFromImage(shadowImage);
shadowWidget->setErasePixmap(shadowPixmap);
// Restack shadows under this window so that shadows drawn for a newly
// focused (but not raised) window don't overlap any windows above it.
if (isDock()) {
ClientList stacking_order = workspace()->stackingOrder();
for (ClientList::ConstIterator it = stacking_order.begin(); it != stacking_order.end(); ++it)
if ((*it)->isDesktop())
{
++it;
shadows[0] = (*it)->frameId();
shadows[1] = shadowWidget->winId();
}
}
else {
shadows[0] = frameId();
if (shadowWidget != NULL)
shadows[1] = shadowWidget->winId();
}
XRestackWindows(tqt_xdisplay(), shadows, 2);
// Don't use TQWidget::show() so we don't confuse QEffects, thus causing
// broken focus.
XMapWindow(tqt_xdisplay(), shadowWidget->winId());
// Tell whatever Clients are listening that this Client's shadow has been drawn.
emit shadowDrawn();
}
/*!
Remove shadow under this window.
*/
void Client::removeShadow()
{
TQValueList<ShadowRegion>::Iterator it;
shadowDelayTimer->stop();
if (shadowWidget != NULL) {
for (it = shadowRegions.begin(); it != shadowRegions.end(); ++it)
if ((*it).client == this) {
shadowRegions.remove(it);
break;
}
delete shadowWidget;
shadowWidget = NULL;
}
}
/*!
Calculate regions in which the shadow will be visible given the window's
origin, height and width and the shadow's thickness, and X- and Y-offsets.
*/
TQRegion Client::getExposedRegion(TQRegion occludedRegion, int x, int y, int w,
int h, int thickness, int xOffset, int yOffset)
{
TQRegion exposedRegion;
exposedRegion = TQRegion(x, y, w, h);
exposedRegion -= occludedRegion;
if (thickness > 0) {
// Limit exposedRegion to include only where a shadow of the specified
// thickness will be drawn
TQMemArray<TQRect> occludedRects;
TQMemArray<TQRect>::Iterator it, itEnd;
TQRegion shadowRegion;
occludedRects = occludedRegion.rects();
itEnd = occludedRects.end();
for (it = occludedRects.begin(); it != itEnd; ++it) {
// Expand each of the occluded region's shape rectangles to contain
// where a shadow of the specified thickness will be drawn. Create
// a new TQRegion that contains the expanded occluded region
it->setTop(it->top() - thickness + yOffset);
it->setLeft(it->left() - thickness + xOffset);
it->setRight(it->right() + thickness + xOffset);
it->setBottom(it->bottom() + thickness + yOffset);
shadowRegion += TQRegion(*it);
}
exposedRegion -= exposedRegion - shadowRegion;
}
return exposedRegion;
}
/*!
Draw shadow gradient around this window using cached opacity values.
*/
void Client::imposeCachedShadow(TQPixmap &pixmap, TQRegion exposed)
{
QRgb pixel;
double opacity;
int red, green, blue, pixelRed, pixelGreen, pixelBlue;
int subW, subH, w, h, x, y, zeroX, zeroY;
TQImage image;
TQMemArray<TQRect>::Iterator it, itEnd;
TQMemArray<TQRect> rectangles;
TQPixmap subPixmap;
Window rootWindow;
int thickness, windowX, windowY, xOffset, yOffset;
rectangles = exposed.rects();
rootWindow = tqt_xrootwin();
thickness = options->shadowThickness(isActive());
windowX = this->x();
windowY = this->y();
xOffset = options->shadowXOffset(isActive());
yOffset = options->shadowYOffset(isActive());
options->shadowColour(isActive()).rgb(&red, &green, &blue);
w = pixmap.width();
h = pixmap.height();
itEnd = rectangles.end();
for (it = rectangles.begin(); it != itEnd; ++it) {
subW = (*it).width();
subH = (*it).height();
subPixmap = TQPixmap::grabWindow(rootWindow, (*it).x(), (*it).y(),
subW, subH);
zeroX = (*it).x() - windowX + thickness - xOffset;
zeroY = (*it).y() - windowY + thickness - yOffset;
image = subPixmap.convertToImage();
for (x = 0; x < subW; x++) {
for (y = 0; y < subH; y++) {
opacity = (*(opacityCache))[(zeroY + y) * w + zeroX + x];
pixel = image.pixel(x, y);
pixelRed = tqRed(pixel);
pixelGreen = tqGreen(pixel);
pixelBlue = tqBlue(pixel);
image.setPixel(x, y,
tqRgb((int)(pixelRed + (red - pixelRed) * opacity),
(int)(pixelGreen + (green - pixelGreen) * opacity),
(int)(pixelBlue + (blue - pixelBlue) * opacity)));
}
}
subPixmap.convertFromImage(image);
bitBlt(&pixmap, zeroX, zeroY, &subPixmap);
}
}
/*!
Draw shadow around this window using calculated opacity values.
*/
void Client::imposeRegionShadow(TQPixmap &pixmap, TQRegion occluded,
TQRegion exposed, int thickness, double maxOpacity)
{
register int distance, intersectCount, i, j, x, y;
QRgb pixel;
double decay, factor, opacity;
int red, green, blue, pixelRed, pixelGreen, pixelBlue;
int halfMaxIntersects, lineIntersects, maxIntersects, maxY;
int irBottom, irLeft, irRight, irTop, yIncrement;
int subW, subH, w, h, zeroX, zeroY;
TQImage image;
TQMemArray<TQRect>::Iterator it, itEnd;
TQMemArray<TQRect> rectangles;
TQPixmap subPixmap;
Window rootWindow;
int windowX, windowY, xOffset, yOffset;
rectangles = exposed.rects();
rootWindow = tqt_xrootwin();
windowX = this->x();
windowY = this->y();
xOffset = options->shadowXOffset(isActive());
yOffset = options->shadowYOffset(isActive());
options->shadowColour(isActive()).rgb(&red, &green, &blue);
maxIntersects = thickness * thickness * 4 + (thickness * 4) + 1;
halfMaxIntersects = maxIntersects / 2;
lineIntersects = thickness * 2 + 1;
factor = maxIntersects / maxOpacity;
decay = (lineIntersects / 0.0125 - factor) / pow((double)maxIntersects, 3.0);
w = pixmap.width();
h = pixmap.height();
xOffset = options->shadowXOffset(isActive());
yOffset = options->shadowYOffset(isActive());
opacityCache->resize(0);
opacityCache->resize(w * h);
occluded.translate(-windowX + thickness, -windowY + thickness);
itEnd = rectangles.end();
for (it = rectangles.begin(); it != itEnd; ++it) {
subW = (*it).width();
subH = (*it).height();
subPixmap = TQPixmap::grabWindow(rootWindow, (*it).x(), (*it).y(),
subW, subH);
maxY = subH;
zeroX = (*it).x() - windowX + thickness - xOffset;
zeroY = (*it).y() - windowY + thickness - yOffset;
image = subPixmap.convertToImage();
intersectCount = 0;
opacity = -1;
y = 0;
yIncrement = 1;
for (x = 0; x < subW; x++) {
irLeft = zeroX + x - thickness;
irRight = zeroX + x + thickness;
while (y != maxY) {
// horizontal row about to leave the intersect region, not
// necessarily the top row
irTop = zeroY + y - thickness * yIncrement;
// horizontal row that just came into the intersect region,
// not necessarily the bottom row
irBottom = zeroY + y + thickness * yIncrement;
if (opacity == -1) {
// If occluded pixels caused an intersect count to be
// skipped, recount it
intersectCount = 0;
for (j = irTop; j != irBottom; j += yIncrement) {
// irTop is not necessarily larger than irBottom and
// yIncrement isn't necessarily positive
for (i = irLeft; i <= irRight; i++) {
if (occluded.contains(TQPoint(i, j)))
intersectCount++;
}
}
}
else {
if (intersectCount < 0)
intersectCount = 0;
for (i = irLeft; i <= irRight; i++) {
if (occluded.contains(TQPoint(i, irBottom)))
intersectCount++;
}
}
distance = maxIntersects - intersectCount;
opacity = intersectCount / (factor + pow((double)distance, 3.0) * decay);
(*(opacityCache))[(zeroY + y) * w + zeroX + x] = opacity;
pixel = image.pixel(x, y);
pixelRed = tqRed(pixel);
pixelGreen = tqGreen(pixel);
pixelBlue = tqBlue(pixel);
image.setPixel(x, y,
tqRgb((int)(pixelRed + (red - pixelRed) * opacity),
(int)(pixelGreen + (green - pixelGreen) * opacity),
(int)(pixelBlue + (blue - pixelBlue) * opacity)));
for (i = irLeft; i <= irRight; i++) {
if (occluded.contains(TQPoint(i, irTop)))
intersectCount--;
}
y += yIncrement;
}
y -= yIncrement;
irTop += yIncrement;
for (j = irTop; j != irBottom; j += yIncrement) {
if (occluded.contains(TQPoint(irLeft, j)))
intersectCount--;
}
irRight++;
for (j = irTop; j != irBottom; j += yIncrement) {
if (occluded.contains(TQPoint(irRight, j)))
intersectCount++;
}
yIncrement *= -1;
if (yIncrement < 0)
// Scan Y-axis bottom-up for next X-coordinate iteration
maxY = -1;
else
// Scan Y-axis top-down for next X-coordinate iteration
maxY = subH;
}
subPixmap.convertFromImage(image);
bitBlt(&pixmap, zeroX, zeroY, &subPixmap);
}
}
/*!
Sets the client window's mapping state. Possible values are
WithdrawnState, IconicState, NormalState.
*/
void Client::setMappingState(int s)
{
assert( client != None );
assert( !deleting || s == WithdrawnState );
if( mapping_state == s )
return;
bool was_unmanaged = ( mapping_state == WithdrawnState );
mapping_state = s;
if( mapping_state == WithdrawnState )
{
XDeleteProperty( tqt_xdisplay(), window(), tqt_wm_state );
return;
}
assert( s == NormalState || s == IconicState );
unsigned long data[2];
data[0] = (unsigned long) s;
data[1] = (unsigned long) None;
XChangeProperty(tqt_xdisplay(), window(), tqt_wm_state, tqt_wm_state, 32,
PropModeReplace, (unsigned char *)data, 2);
if( was_unmanaged ) // manage() did postpone_geometry_updates = 1, now it's ok to finally set the geometry
postponeGeometryUpdates( false );
}
/*!
Reimplemented to map the managed window in the window wrapper.
Proper mapping state should be set before showing the client.
*/
void Client::rawShow()
{
if( decoration != NULL )
decoration->widget()->show(); // not really necessary, but let it know the state
XMapWindow( tqt_xdisplay(), frame );
if( !isShade())
{
XMapWindow( tqt_xdisplay(), wrapper );
XMapWindow( tqt_xdisplay(), client );
}
if (options->shadowEnabled(isActive()))
drawDelayedShadow();
}
/*!
Reimplemented to unmap the managed window in the window wrapper.
Also informs the workspace.
Proper mapping state should be set before hiding the client.
*/
void Client::rawHide()
{
// Here it may look like a race condition, as some other client might try to unmap
// the window between these two XSelectInput() calls. However, they're supposed to
// use XWithdrawWindow(), which also sends a synthetic event to the root window,
// which won't be missed, so this shouldn't be a problem. The chance the real UnmapNotify
// will be missed is also very minimal, so I don't think it's needed to grab the server
// here.
removeShadow();
drawIntersectingShadows();
XSelectInput( tqt_xdisplay(), wrapper, ClientWinMask ); // avoid getting UnmapNotify
XUnmapWindow( tqt_xdisplay(), frame );
XUnmapWindow( tqt_xdisplay(), wrapper );
XUnmapWindow( tqt_xdisplay(), client );
XSelectInput( tqt_xdisplay(), wrapper, ClientWinMask | SubstructureNotifyMask );
if( decoration != NULL )
decoration->widget()->hide(); // not really necessary, but let it know the state
workspace()->clientHidden( this );
}
void Client::sendClientMessage(Window w, Atom a, Atom protocol, long data1, long data2, long data3)
{
XEvent ev;
long mask;
memset(&ev, 0, sizeof(ev));
ev.xclient.type = ClientMessage;
ev.xclient.window = w;
ev.xclient.message_type = a;
ev.xclient.format = 32;
ev.xclient.data.l[0] = protocol;
ev.xclient.data.l[1] = GET_QT_X_TIME();
ev.xclient.data.l[2] = data1;
ev.xclient.data.l[3] = data2;
ev.xclient.data.l[4] = data3;
mask = 0L;
if (w == tqt_xrootwin())
mask = SubstructureRedirectMask; /* magic! */
XSendEvent(tqt_xdisplay(), w, False, mask, &ev);
}
/*
Returns whether the window may be closed (have a close button)
*/
bool Client::isCloseable() const
{
if( isModalSystemNotification())
return false;
return rules()->checkCloseable( motif_may_close && !isSpecialWindow());
}
/*!
Closes the window by either sending a delete_window message or
using XKill.
*/
void Client::closeWindow()
{
if( !isCloseable())
return;
// Update user time, because the window may create a confirming dialog.
updateUserTime();
if ( Pdeletewindow )
{
Notify::raise( Notify::Close );
sendClientMessage( window(), atoms->wm_protocols, atoms->wm_delete_window);
pingWindow();
}
else
{
// client will not react on wm_delete_window. We have not choice
// but destroy his connection to the XServer.
killWindow();
}
}
/*!
Kills the window via XKill
*/
void Client::killWindow()
{
kdDebug( 1212 ) << "Client::killWindow():" << caption() << endl;
// not sure if we need an Notify::Kill or not.. until then, use
// Notify::Close
Notify::raise( Notify::Close );
if( isDialog())
Notify::raise( Notify::TransDelete );
if( isNormalWindow())
Notify::raise( Notify::Delete );
killProcess( false );
// always kill this client at the server
XKillClient(tqt_xdisplay(), window() );
destroyClient();
}
// send a ping to the window using _NET_WM_PING if possible
// if it doesn't respond within a reasonable time, it will be
// killed
void Client::pingWindow()
{
if( !Pping )
return; // can't ping :(
if( options->killPingTimeout == 0 )
return; // turned off
if( ping_timer != NULL )
return; // pinging already
ping_timer = new TQTimer( this );
connect( ping_timer, TQT_SIGNAL( timeout()), TQT_SLOT( pingTimeout()));
ping_timer->start( options->killPingTimeout, true );
ping_timestamp = GET_QT_X_TIME();
workspace()->sendPingToWindow( window(), ping_timestamp );
}
void Client::gotPing( Time timestamp )
{
// just plain compare is not good enough because of 64bit and truncating and whatnot
if( NET::timestampCompare( timestamp, ping_timestamp ) != 0 )
return;
delete ping_timer;
ping_timer = NULL;
if( process_killer != NULL )
{
process_killer->kill();
delete process_killer;
process_killer = NULL;
}
}
void Client::pingTimeout()
{
kdDebug( 1212 ) << "Ping timeout:" << caption() << endl;
delete ping_timer;
ping_timer = NULL;
killProcess( true, ping_timestamp );
}
void Client::killProcess( bool ask, Time timestamp )
{
if( process_killer != NULL )
return;
Q_ASSERT( !ask || timestamp != CurrentTime );
TQCString machine = wmClientMachine( true );
pid_t pid = info->pid();
if( pid <= 0 || machine.isEmpty()) // needed properties missing
return;
kdDebug( 1212 ) << "Kill process:" << pid << "(" << machine << ")" << endl;
if( !ask )
{
if( machine != "localhost" )
{
TDEProcess proc;
proc << "xon" << machine << "kill" << pid;
proc.start( TDEProcess::DontCare );
}
else
::kill( pid, SIGTERM );
}
else
{ // SELI TODO handle the window created by handler specially (on top,urgent?)
process_killer = new TDEProcess( this );
*process_killer << KStandardDirs::findExe( "twin_killer_helper" )
<< "--pid" << TQCString().setNum( pid ) << "--hostname" << machine
<< "--windowname" << caption().utf8()
<< "--applicationname" << resourceClass()
<< "--wid" << TQCString().setNum( window())
<< "--timestamp" << TQCString().setNum( timestamp );
connect( process_killer, TQT_SIGNAL( processExited( TDEProcess* )),
TQT_SLOT( processKillerExited()));
if( !process_killer->start( TDEProcess::NotifyOnExit ))
{
delete process_killer;
process_killer = NULL;
return;
}
}
}
bool Client::isSuspendable() const
{
bool cansuspend = true;
if( skipTaskbar() || skipPager() )
return false;
TQCString machine = wmClientMachine( true );
pid_t pid = info->pid();
if( pid <= 0 || machine.isEmpty()) // needed properties missing
return false;
kdDebug( 1212 ) << "Check suspendable process:" << pid << "(" << machine << ")" << endl;
if( machine != "localhost" )
{
return false;
}
else
{
TQFile procStatFile(TQString("/proc/%1/stat").arg(pid));
if (procStatFile.open(IO_ReadOnly))
{
TQByteArray statRaw = procStatFile.readAll();
procStatFile.close();
TQString statString(statRaw);
TQStringList statFields = TQStringList::split(" ", statString, TRUE);
TQString tcomm = statFields[1];
TQString state = statFields[2];
if( state != "T" )
{
// Make sure no windows of this process are special
for ( ClientList::ConstIterator it = workspace()->clients.begin(); it != workspace()->clients.end(); ++it)
{
Client* nextclient = *it;
pid_t nextpid = nextclient->info->pid();
TQCString nextmachine = nextclient->wmClientMachine( true );
if( nextpid > 0 && (!nextmachine.isEmpty()))
{
if( ( nextmachine == "localhost" ) && ( pid == nextpid ) )
{
if( nextclient->skipTaskbar() || nextclient->skipPager() )
cansuspend = false;
}
}
}
// Process exception list
TQString execname(tcomm);
execname.truncate(execname.length()-1);
execname = execname.remove(0,1);
// FIXME This list should not be hardcoded
if( (execname == "kdesktop") || (execname == "kicker") )
return false;
else
return cansuspend;
}
else
{
return false;
}
}
else
{
return false;
}
}
}
bool Client::isResumeable() const
{
TQCString machine = wmClientMachine( true );
pid_t pid = info->pid();
if( pid <= 0 || machine.isEmpty()) // needed properties missing
return false;
kdDebug( 1212 ) << "Check resumeable process:" << pid << "(" << machine << ")" << endl;
if( machine != "localhost" )
{
return false;
}
else
{
TQFile procStatFile(TQString("/proc/%1/stat").arg(pid));
if (procStatFile.open(IO_ReadOnly))
{
TQByteArray statRaw = procStatFile.readAll();
procStatFile.close();
TQString statString(statRaw);
TQStringList statFields = TQStringList::split(" ", statString, TRUE);
TQString tcomm = statFields[1];
TQString state = statFields[2];
if( state == "T" )
{
return true;
}
else
{
return false;
}
}
else
{
return false;
}
}
}
bool Client::queryUserSuspendedResume()
{
if (isResumeable())
{
if (process_resumer != NULL)
{
return false;
}
// FIXME We should display a busy cursor until twin_resumer_helper loads
process_resumer = new TDEProcess( this );
*process_resumer << KStandardDirs::findExe( "twin_resumer_helper" )
<< "--pid" << TQCString().setNum( info->pid() ) << "--hostname" << wmClientMachine( true )
<< "--windowname" << caption().utf8()
<< "--applicationname" << resourceClass()
<< "--wid" << TQCString().setNum( window());
connect( process_resumer, TQT_SIGNAL( processExited( TDEProcess* )),
TQT_SLOT( processResumerExited()));
if( !process_resumer->start( TDEProcess::NotifyOnExit ))
{
delete process_resumer;
process_resumer = NULL;
return true;
}
return false;
}
else
{
return true;
}
}
void Client::suspendWindow()
{
TQCString machine = wmClientMachine( true );
pid_t pid = info->pid();
if( pid <= 0 || machine.isEmpty()) // needed properties missing
return;
kdDebug( 1212 ) << "Suspend process:" << pid << "(" << machine << ")" << endl;
if( machine != "localhost" )
{
return;
}
else
{
for ( ClientList::ConstIterator it = workspace()->clients.begin(); it != workspace()->clients.end(); ++it)
{
Client* nextclient = *it;
pid_t nextpid = nextclient->info->pid();
TQCString nextmachine = nextclient->wmClientMachine( true );
if( nextpid > 0 && (!nextmachine.isEmpty()))
{
if( ( nextmachine == "localhost" ) && ( pid == nextpid ) )
{
TQString newCaption = TQString(readName()).append(" <").append(i18n("Suspended")).append(">");
nextclient->info->setVisibleName(newCaption.utf8());
nextclient->info->setVisibleIconName(newCaption.utf8());
nextclient->minimized_before_suspend = nextclient->isMinimized();
nextclient->minimize(true);
}
}
}
::kill( pid, SIGSTOP );
}
}
void Client::resumeWindow()
{
TQCString machine = wmClientMachine( true );
pid_t pid = info->pid();
if( pid <= 0 || machine.isEmpty()) // needed properties missing
return;
kdDebug( 1212 ) << "Resume process:" << pid << "(" << machine << ")" << endl;
if( machine != "localhost" )
{
return;
}
else
{
::kill( pid, SIGCONT );
for ( ClientList::ConstIterator it = workspace()->clients.begin(); it != workspace()->clients.end(); ++it)
{
Client* nextclient = *it;
pid_t nextpid = nextclient->info->pid();
TQCString nextmachine = nextclient->wmClientMachine( true );
if( nextpid > 0 && (!nextmachine.isEmpty()))
{
if( ( nextmachine == "localhost" ) && ( pid == nextpid ) )
{
if (!nextclient->minimized_before_suspend)
{
nextclient->unminimize(true);
}
nextclient->updateCaption();
}
}
}
}
}
void Client::processKillerExited()
{
kdDebug( 1212 ) << "Killer exited" << endl;
delete process_killer;
process_killer = NULL;
}
void Client::processResumerExited()
{
kdDebug( 1212 ) << "Resumer exited" << endl;
// 0 means the user clicked Resume; 2 means that the resumer dialog failed to launch somehow
if ((process_resumer->exitStatus() == 0) || (process_resumer->exitStatus() == 2))
{
resumeWindow();
takeFocus( Allowed );
}
delete process_resumer;
process_resumer = NULL;
}
void Client::setSkipTaskbar( bool b, bool from_outside )
{
int was_wants_tab_focus = wantsTabFocus();
if( from_outside )
{
b = rules()->checkSkipTaskbar( b );
original_skip_taskbar = b;
}
if ( b == skipTaskbar() )
return;
skip_taskbar = b;
info->setState( b?NET::SkipTaskbar:0, NET::SkipTaskbar );
updateWindowRules();
if( was_wants_tab_focus != wantsTabFocus())
workspace()->updateFocusChains( this,
isActive() ? Workspace::FocusChainMakeFirst : Workspace::FocusChainUpdate );
}
void Client::setSkipPager( bool b )
{
b = rules()->checkSkipPager( b );
if ( b == skipPager() )
return;
skip_pager = b;
info->setState( b?NET::SkipPager:0, NET::SkipPager );
updateWindowRules();
}
void Client::setModal( bool m )
{ // Qt-3.2 can have even modal normal windows :(
if( modal == m )
return;
modal = m;
if( !modal )
return;
// changing modality for a mapped window is weird (?)
// _NET_WM_STATE_MODAL should possibly rather be _NET_WM_WINDOW_TYPE_MODAL_DIALOG
}
void Client::setDesktop( int desktop )
{
if( desktop != NET::OnAllDesktops ) // do range check
desktop = KMAX( 1, KMIN( workspace()->numberOfDesktops(), desktop ));
desktop = rules()->checkDesktop( desktop );
if( desk == desktop )
return;
int was_desk = desk;
desk = desktop;
info->setDesktop( desktop );
if(( was_desk == NET::OnAllDesktops ) != ( desktop == NET::OnAllDesktops ))
{ // onAllDesktops changed
if ( isShown( true ))
Notify::raise( isOnAllDesktops() ? Notify::OnAllDesktops : Notify::NotOnAllDesktops );
workspace()->updateOnAllDesktopsOfTransients( this );
}
if( decoration != NULL )
decoration->desktopChange();
workspace()->updateFocusChains( this, Workspace::FocusChainMakeFirst );
updateVisibility();
updateWindowRules();
}
void Client::setOnAllDesktops( bool b )
{
if(( b && isOnAllDesktops())
|| ( !b && !isOnAllDesktops()))
return;
if( b )
setDesktop( NET::OnAllDesktops );
else
setDesktop( workspace()->currentDesktop());
}
bool Client::isOnCurrentDesktop() const
{
return isOnDesktop( workspace()->currentDesktop());
}
int Client::screen() const
{
if( !options->xineramaEnabled )
return 0;
return workspace()->screenNumber( geometry().center());
}
bool Client::isOnScreen( int screen ) const
{
if( !options->xineramaEnabled )
return screen == 0;
return workspace()->screenGeometry( screen ).intersects( geometry());
}
// performs activation and/or raising of the window
void Client::takeActivity( int flags, bool handled, allowed_t )
{
if( !handled || !Ptakeactivity )
{
if( flags & ActivityFocus )
takeFocus( Allowed );
if( flags & ActivityRaise )
workspace()->raiseClient( this );
return;
}
#ifndef NDEBUG
static Time previous_activity_timestamp;
static Client* previous_client;
if( previous_activity_timestamp == GET_QT_X_TIME() && previous_client != this )
{
kdDebug( 1212 ) << "Repeated use of the same X timestamp for activity" << endl;
kdDebug( 1212 ) << kdBacktrace() << endl;
}
previous_activity_timestamp = GET_QT_X_TIME();
previous_client = this;
#endif
workspace()->sendTakeActivity( this, GET_QT_X_TIME(), flags );
}
// performs the actual focusing of the window using XSetInputFocus and WM_TAKE_FOCUS
void Client::takeFocus( allowed_t )
{
#ifndef NDEBUG
static Time previous_focus_timestamp;
static Client* previous_client;
if( previous_focus_timestamp == GET_QT_X_TIME() && previous_client != this )
{
kdDebug( 1212 ) << "Repeated use of the same X timestamp for focus" << endl;
kdDebug( 1212 ) << kdBacktrace() << endl;
}
previous_focus_timestamp = GET_QT_X_TIME();
previous_client = this;
#endif
if ( rules()->checkAcceptFocus( input ))
{
XSetInputFocus( tqt_xdisplay(), window(), RevertToPointerRoot, GET_QT_X_TIME() );
}
if ( Ptakefocus )
sendClientMessage(window(), atoms->wm_protocols, atoms->wm_take_focus);
workspace()->setShouldGetFocus( this );
}
/*!
Returns whether the window provides context help or not. If it does,
you should show a help menu item or a help button like '?' and call
contextHelp() if this is invoked.
\sa contextHelp()
*/
bool Client::providesContextHelp() const
{
if (isModalSystemNotification())
return false;
return Pcontexthelp;
}
/*!
Invokes context help on the window. Only works if the window
actually provides context help.
\sa providesContextHelp()
*/
void Client::showContextHelp()
{
if ( Pcontexthelp )
{
sendClientMessage(window(), atoms->wm_protocols, atoms->net_wm_context_help);
TQWhatsThis::enterWhatsThisMode(); // SELI?
}
}
/*!
Fetches the window's caption (WM_NAME property). It will be
stored in the client's caption().
*/
void Client::fetchName()
{
setCaption( readName());
}
TQString Client::readName() const
{
if ( info->name() && info->name()[ 0 ] != '\0' )
return TQString::fromUtf8( info->name() );
else
return KWin::readNameProperty( window(), XA_WM_NAME );
}
KWIN_COMPARE_PREDICATE( FetchNameInternalPredicate, const Client*, (!cl->isSpecialWindow() || cl->isToolbar()) && cl != value && cl->caption() == value->caption());
void Client::setCaption( const TQString& s, bool force )
{
if ( s != cap_normal || force )
{
bool reset_name = force;
for( unsigned int i = 0;
i < s.length();
++i )
if( !s[ i ].isPrint())
s[ i ] = ' ';
cap_normal = s;
bool was_suffix = ( !cap_suffix.isEmpty());
TQString machine_suffix;
if( wmClientMachine( false ) != "localhost" && !isLocalMachine( wmClientMachine( false )))
machine_suffix = " <@" + wmClientMachine( true ) + ">";
TQString shortcut_suffix = !shortcut().isNull() ? ( " {" + shortcut().toString() + "}" ) : "";
cap_suffix = machine_suffix + shortcut_suffix;
if ( ( !isSpecialWindow() || isToolbar()) && workspace()->findClient( FetchNameInternalPredicate( this )))
{
int i = 2;
do
{
cap_suffix = machine_suffix + " <" + TQString::number(i) + ">" + shortcut_suffix;
i++;
} while ( workspace()->findClient( FetchNameInternalPredicate( this )));
info->setVisibleName( caption().utf8() );
reset_name = false;
}
if(( (was_suffix && cap_suffix.isEmpty())
|| reset_name )) // if it was new window, it may have old value still set, if the window is reused
{
info->setVisibleName( "" ); // remove
info->setVisibleIconName( "" ); // remove
}
else if( !cap_suffix.isEmpty() && !cap_iconic.isEmpty()) // keep the same suffix in iconic name if it's set
info->setVisibleIconName( ( cap_iconic + cap_suffix ).utf8() );
if( isManaged() && decoration != NULL )
decoration->captionChange();
}
}
void Client::updateCaption()
{
setCaption( cap_normal, true );
}
void Client::fetchIconicName()
{
TQString s;
if ( info->iconName() && info->iconName()[ 0 ] != '\0' )
s = TQString::fromUtf8( info->iconName() );
else
s = KWin::readNameProperty( window(), XA_WM_ICON_NAME );
if ( s != cap_iconic )
{
bool was_set = !cap_iconic.isEmpty();
cap_iconic = s;
if( !cap_suffix.isEmpty())
{
if( !cap_iconic.isEmpty()) // keep the same suffix in iconic name if it's set
info->setVisibleIconName( ( s + cap_suffix ).utf8() );
else if( was_set )
info->setVisibleIconName( "" ); //remove
}
}
}
/*!\reimp
*/
TQString Client::caption( bool full ) const
{
return full ? cap_normal + cap_suffix : cap_normal;
}
void Client::getWMHints()
{
XWMHints *hints = XGetWMHints(tqt_xdisplay(), window() );
input = true;
window_group = None;
urgency = false;
if ( hints )
{
if( hints->flags & InputHint )
input = hints->input;
if( hints->flags & WindowGroupHint )
window_group = hints->window_group;
urgency = ( hints->flags & UrgencyHint ) ? true : false; // true/false needed, it's uint bitfield
XFree( (char*)hints );
}
checkGroup();
updateUrgency();
updateAllowedActions(); // group affects isMinimizable()
}
void Client::getMotifHints()
{
bool mnoborder, mresize, mmove, mminimize, mmaximize, mclose;
Motif::readFlags( client, mnoborder, mresize, mmove, mminimize, mmaximize, mclose );
motif_noborder = mnoborder;
if( !hasNETSupport()) // NETWM apps should set type and size constraints
{
motif_may_resize = mresize; // this should be set using minsize==maxsize, but oh well
motif_may_move = mmove;
}
else
motif_may_resize = motif_may_move = true;
// mminimize; - ignore, bogus - e.g. shading or sending to another desktop is "minimizing" too
// mmaximize; - ignore, bogus - maximizing is basically just resizing
motif_may_close = mclose; // motif apps like to crash when they set this hint and WM closes them anyway
if( isManaged())
updateDecoration( true ); // check if noborder state has changed
}
void Client::readIcons( Window win, TQPixmap* icon, TQPixmap* miniicon )
{
// get the icons, allow scaling
if( icon != NULL )
*icon = KWin::icon( win, 32, 32, TRUE, KWin::NETWM | KWin::WMHints );
if( miniicon != NULL )
{
if( icon == NULL || !icon->isNull())
*miniicon = KWin::icon( win, 16, 16, TRUE, KWin::NETWM | KWin::WMHints );
else
*miniicon = TQPixmap();
}
}
void Client::getIcons()
{
// first read icons from the window itself
readIcons( window(), &icon_pix, &miniicon_pix );
if( icon_pix.isNull())
{ // then try window group
icon_pix = group()->icon();
miniicon_pix = group()->miniIcon();
}
if( icon_pix.isNull() && isTransient())
{ // then mainclients
ClientList mainclients = mainClients();
for( ClientList::ConstIterator it = mainclients.begin();
it != mainclients.end() && icon_pix.isNull();
++it )
{
icon_pix = (*it)->icon();
miniicon_pix = (*it)->miniIcon();
}
}
if( icon_pix.isNull())
{ // and if nothing else, load icon from classhint or xapp icon
icon_pix = KWin::icon( window(), 32, 32, TRUE, KWin::ClassHint | KWin::XApp );
miniicon_pix = KWin::icon( window(), 16, 16, TRUE, KWin::ClassHint | KWin::XApp );
}
if( isManaged() && decoration != NULL )
decoration->iconChange();
}
void Client::getWindowProtocols()
{
Atom *p;
int i,n;
Pdeletewindow = 0;
Ptakefocus = 0;
Ptakeactivity = 0;
Pcontexthelp = 0;
Pping = 0;
if (XGetWMProtocols(tqt_xdisplay(), window(), &p, &n))
{
for (i = 0; i < n; i++)
if (p[i] == atoms->wm_delete_window)
Pdeletewindow = 1;
else if (p[i] == atoms->wm_take_focus)
Ptakefocus = 1;
else if (p[i] == atoms->net_wm_take_activity)
Ptakeactivity = 1;
else if (p[i] == atoms->net_wm_context_help)
Pcontexthelp = 1;
else if (p[i] == atoms->net_wm_ping)
Pping = 1;
if (n>0)
XFree(p);
}
}
static int nullErrorHandler(Display *, XErrorEvent *)
{
return 0;
}
/*!
Returns WM_WINDOW_ROLE property for a given window.
*/
TQCString Client::staticWindowRole(WId w)
{
return getStringProperty(w, tqt_window_role).lower();
}
/*!
Returns SM_CLIENT_ID property for a given window.
*/
TQCString Client::staticSessionId(WId w)
{
return getStringProperty(w, tqt_sm_client_id);
}
/*!
Returns WM_COMMAND property for a given window.
*/
TQCString Client::staticWmCommand(WId w)
{
return getStringProperty(w, XA_WM_COMMAND, ' ');
}
/*!
Returns WM_CLIENT_LEADER property for a given window.
*/
Window Client::staticWmClientLeader(WId w)
{
Atom type;
int format, status;
unsigned long nitems = 0;
unsigned long extra = 0;
unsigned char *data = 0;
Window result = w;
XErrorHandler oldHandler = XSetErrorHandler(nullErrorHandler);
status = XGetWindowProperty( tqt_xdisplay(), w, atoms->wm_client_leader, 0, 10000,
FALSE, XA_WINDOW, &type, &format,
&nitems, &extra, &data );
XSetErrorHandler(oldHandler);
if (status == Success )
{
if (data && nitems > 0)
result = *((Window*) data);
XFree(data);
}
return result;
}
void Client::getWmClientLeader()
{
wmClientLeaderWin = staticWmClientLeader(window());
}
/*!
Returns sessionId for this client,
taken either from its window or from the leader window.
*/
TQCString Client::sessionId()
{
TQCString result = staticSessionId(window());
if (result.isEmpty() && wmClientLeaderWin && wmClientLeaderWin!=window())
result = staticSessionId(wmClientLeaderWin);
return result;
}
/*!
Returns command property for this client,
taken either from its window or from the leader window.
*/
TQCString Client::wmCommand()
{
TQCString result = staticWmCommand(window());
if (result.isEmpty() && wmClientLeaderWin && wmClientLeaderWin!=window())
result = staticWmCommand(wmClientLeaderWin);
return result;
}
void Client::getWmClientMachine()
{
client_machine = getStringProperty(window(), XA_WM_CLIENT_MACHINE);
if( client_machine.isEmpty() && wmClientLeaderWin && wmClientLeaderWin!=window())
client_machine = getStringProperty(wmClientLeaderWin, XA_WM_CLIENT_MACHINE);
if( client_machine.isEmpty())
client_machine = "localhost";
}
/*!
Returns client machine for this client,
taken either from its window or from the leader window.
*/
TQCString Client::wmClientMachine( bool use_localhost ) const
{
TQCString result = client_machine;
if( use_localhost )
{ // special name for the local machine (localhost)
if( result != "localhost" && isLocalMachine( result ))
result = "localhost";
}
return result;
}
/*!
Returns client leader window for this client.
Returns the client window itself if no leader window is defined.
*/
Window Client::wmClientLeader() const
{
if (wmClientLeaderWin)
return wmClientLeaderWin;
return window();
}
bool Client::wantsTabFocus() const
{
return ( isNormalWindow() || isDialog()) && wantsInput() && !skip_taskbar;
}
bool Client::wantsInput() const
{
return rules()->checkAcceptFocus( input || Ptakefocus );
}
bool Client::isDesktop() const
{
return windowType() == NET::Desktop;
}
bool Client::isDock() const
{
return windowType() == NET::Dock;
}
bool Client::isTopMenu() const
{
return windowType() == NET::TopMenu;
}
bool Client::isMenu() const
{
return windowType() == NET::Menu && !isTopMenu(); // because of backwards comp.
}
bool Client::isToolbar() const
{
return windowType() == NET::Toolbar;
}
bool Client::isSplash() const
{
return windowType() == NET::Splash;
}
bool Client::isUtility() const
{
return windowType() == NET::Utility;
}
bool Client::isDialog() const
{
return windowType() == NET::Dialog;
}
bool Client::isNormalWindow() const
{
return windowType() == NET::Normal;
}
bool Client::isSpecialWindow() const
{
return isDesktop() || isDock() || isSplash() || isTopMenu()
|| isToolbar(); // TODO
}
NET::WindowType Client::windowType( bool direct, int supported_types ) const
{
NET::WindowType wt = info->windowType( supported_types );
if( direct )
return wt;
NET::WindowType wt2 = rules()->checkType( wt );
if( wt != wt2 )
{
wt = wt2;
info->setWindowType( wt ); // force hint change
}
// hacks here
if( wt == NET::Menu )
{
// ugly hack to support the times when NET::Menu meant NET::TopMenu
// if it's as wide as the screen, not very high and has its upper-left
// corner a bit above the screen's upper-left cornet, it's a topmenu
if( x() == 0 && y() < 0 && y() > -10 && height() < 100
&& abs( width() - workspace()->clientArea( FullArea, this ).width()) < 10 )
wt = NET::TopMenu;
}
// TODO change this to rule
const char* const oo_prefix = "openoffice.org"; // TQCString has no startsWith()
// oo_prefix is lowercase, because resourceClass() is forced to be lowercase
if( tqstrncmp( resourceClass(), oo_prefix, strlen( oo_prefix )) == 0 && wt == NET::Dialog )
wt = NET::Normal; // see bug #66065
if( wt == NET::Unknown ) // this is more or less suggested in NETWM spec
wt = isTransient() ? NET::Dialog : NET::Normal;
return wt;
}
/*!
Sets an appropriate cursor shape for the logical mouse position \a m
*/
void Client::setCursor( Position m )
{
if( !isResizable() || isShade())
{
m = PositionCenter;
}
switch ( m )
{
case PositionTopLeft:
case PositionBottomRight:
setCursor( tqsizeFDiagCursor );
break;
case PositionBottomLeft:
case PositionTopRight:
setCursor( tqsizeBDiagCursor );
break;
case PositionTop:
case PositionBottom:
setCursor( tqsizeVerCursor );
break;
case PositionLeft:
case PositionRight:
setCursor( tqsizeHorCursor );
break;
default:
if( buttonDown && isMovable())
setCursor( tqsizeAllCursor );
else
setCursor( tqarrowCursor );
break;
}
}
// TODO mit nejake checkCursor(), ktere se zavola v manage() a pri vecech, kdy by se kurzor mohl zmenit?
// TRANSLATION: TODO: have a checkCursor() function, which is called both in manage() and in cases where the cursor might change
void Client::setCursor( const TQCursor& c )
{
if( c.handle() == cursor.handle())
return;
cursor = c;
if( decoration != NULL )
decoration->widget()->setCursor( cursor );
XDefineCursor( tqt_xdisplay(), frameId(), cursor.handle());
}
Client::Position Client::mousePosition( const TQPoint& p ) const
{
if( decoration != NULL )
return decoration->mousePosition( p );
return PositionCenter;
}
void Client::updateAllowedActions( bool force )
{
if( !isManaged() && !force )
return;
unsigned long old_allowed_actions = allowed_actions;
allowed_actions = 0;
if( isMovable())
allowed_actions |= NET::ActionMove;
if( isResizable())
allowed_actions |= NET::ActionResize;
if( isMinimizable())
allowed_actions |= NET::ActionMinimize;
if( isShadeable())
allowed_actions |= NET::ActionShade;
// sticky state not supported
if( isMaximizable())
allowed_actions |= NET::ActionMax;
if( userCanSetFullScreen())
allowed_actions |= NET::ActionFullScreen;
allowed_actions |= NET::ActionChangeDesktop; // always (pagers shouldn't show Docks etc.)
if( isCloseable())
allowed_actions |= NET::ActionClose;
if( old_allowed_actions == allowed_actions )
return;
// TODO this could be delayed and compressed - it's only for pagers etc. anyway
info->setAllowedActions( allowed_actions );
// TODO this should also tell the decoration, so that it can update the buttons
}
void Client::autoRaise()
{
workspace()->raiseClient( this );
cancelAutoRaise();
}
void Client::cancelAutoRaise()
{
delete autoRaiseTimer;
autoRaiseTimer = 0;
}
void Client::setOpacity(bool translucent, uint opacity)
{
if (isDesktop())
return; // xcompmgr does not like non solid desktops and the user could set it accidently by mouse scrolling
// tqWarning("setting opacity for %d",tqt_xdisplay());
//rule out activated translulcency with 100% opacity
if (!translucent || opacity == 0xFFFFFFFF)
{
opacity_ = 0xFFFFFFFF;
XDeleteProperty (tqt_xdisplay(), frameId(), atoms->net_wm_window_opacity);
XDeleteProperty (tqt_xdisplay(), window(), atoms->net_wm_window_opacity); // ??? frameId() is necessary for visible changes, window() is the winId() that would be set by apps - we set both to be sure the app knows what's currently displayd
}
else{
if(opacity == opacity_)
return;
opacity_ = opacity;
long data = opacity; // 32bit XChangeProperty needs long
XChangeProperty(tqt_xdisplay(), frameId(), atoms->net_wm_window_opacity, XA_CARDINAL, 32, PropModeReplace, (unsigned char *) &data, 1L);
XChangeProperty(tqt_xdisplay(), window(), atoms->net_wm_window_opacity, XA_CARDINAL, 32, PropModeReplace, (unsigned char *) &data, 1L);
}
}
void Client::setShadowSize(uint shadowSize)
{
// ignoring all individual settings - if we control a window, we control it's shadow
// TODO somehow handle individual settings for docks (besides custom sizes)
long data = shadowSize;
XChangeProperty(tqt_xdisplay(), frameId(), atoms->net_wm_window_shadow, XA_CARDINAL, 32, PropModeReplace, (unsigned char *) &data, 1L);
}
void Client::updateOpacity()
// extra syncscreen flag allows to avoid double syncs when active state changes (as it will usually change for two windows)
{
if (!(isNormalWindow() || isDialog() || isUtility() )|| custom_opacity)
return;
if (isActive())
{
if( ruleOpacityActive() )
setOpacity(rule_opacity_active < 0xFFFFFFFF, rule_opacity_active);
else
setOpacity(options->translucentActiveWindows, options->activeWindowOpacity);
if (isBMP())
// beep-media-player, only undecorated windows (gtk2 xmms, xmms doesn't work with compmgr at all - s.e.p. :P )
{
ClientList tmpGroupMembers = group()->members();
ClientList activeGroupMembers;
activeGroupMembers.append(this);
tmpGroupMembers.remove(this);
ClientList::Iterator it = tmpGroupMembers.begin();
while (it != tmpGroupMembers.end())
// search for next attached and not activated client and repeat if found
{
if ((*it) != this && (*it)->isBMP())
// potential "to activate" client found
{
// tqWarning("client found");
if ((*it)->touches(this)) // first test, if the new client touches the just activated one
{
// tqWarning("found client touches me");
if( ruleOpacityActive() )
(*it)->setOpacity(rule_opacity_active < 0xFFFFFFFF, rule_opacity_active);
else
(*it)->setOpacity(options->translucentActiveWindows, options->activeWindowOpacity);
// tqWarning("activated, search restarted (1)");
(*it)->setShadowSize(options->activeWindowShadowSize);
activeGroupMembers.append(*it);
tmpGroupMembers.remove(it);
it = tmpGroupMembers.begin(); // restart, search next client
continue;
}
else
{ // pot. client does not touch c, so we have to search if it touches some other activated client
bool found = false;
for( ClientList::ConstIterator it2 = activeGroupMembers.begin(); it2 != activeGroupMembers.end(); it2++ )
{
if ((*it2) != this && (*it2) != (*it) && (*it)->touches(*it2))
{
// tqWarning("found client touches other active client");
if( ruleOpacityActive() )
(*it)->setOpacity(rule_opacity_active < 0xFFFFFFFF, rule_opacity_active);
else
(*it)->setOpacity(options->translucentActiveWindows, options->activeWindowOpacity);
(*it)->setShadowSize(options->activeWindowShadowSize);
activeGroupMembers.append(*it);
tmpGroupMembers.remove(it);
it = tmpGroupMembers.begin(); // reset potential client search
found = true;
// tqWarning("activated, search restarted (2)");
break; // skip this loop
}
}
if (found) continue;
}
}
it++;
}
}
else if (isNormalWindow())
// activate dependend minor windows as well
{
for( ClientList::ConstIterator it = group()->members().begin(); it != group()->members().end(); it++ )
if ((*it)->isDialog() || (*it)->isUtility())
{
if( (*it)->ruleOpacityActive() )
(*it)->setOpacity((*it)->ruleOpacityActive() < 0xFFFFFFFF, (*it)->ruleOpacityActive());
else
(*it)->setOpacity(options->translucentActiveWindows, options->activeWindowOpacity);
}
}
}
else
{
if( ruleOpacityInactive() )
setOpacity(rule_opacity_inactive < 0xFFFFFFFF, rule_opacity_inactive);
else
setOpacity(options->translucentInactiveWindows && !(keepAbove() && options->keepAboveAsActive),
options->inactiveWindowOpacity);
// deactivate dependend minor windows as well
if (isBMP())
// beep-media-player, only undecorated windows (gtk2 xmms, xmms doesn't work with compmgr at all - s.e.p. :P )
{
ClientList tmpGroupMembers = group()->members();
ClientList inactiveGroupMembers;
inactiveGroupMembers.append(this);
tmpGroupMembers.remove(this);
ClientList::Iterator it = tmpGroupMembers.begin();
while ( it != tmpGroupMembers.end() )
// search for next attached and not activated client and repeat if found
{
if ((*it) != this && (*it)->isBMP())
// potential "to activate" client found
{
// tqWarning("client found");
if ((*it)->touches(this)) // first test, if the new client touches the just activated one
{
// tqWarning("found client touches me");
if( (*it)->ruleOpacityInactive() )
(*it)->setOpacity((*it)->ruleOpacityInactive() < 0xFFFFFFFF, (*it)->ruleOpacityInactive());
else
(*it)->setOpacity(options->translucentInactiveWindows && !((*it)->keepAbove() && options->keepAboveAsActive), options->inactiveWindowOpacity);
(*it)->setShadowSize(options->inactiveWindowShadowSize);
// tqWarning("deactivated, search restarted (1)");
inactiveGroupMembers.append(*it);
tmpGroupMembers.remove(it);
it = tmpGroupMembers.begin(); // restart, search next client
continue;
}
else // pot. client does not touch c, so we have to search if it touches some other activated client
{
bool found = false;
for( ClientList::ConstIterator it2 = inactiveGroupMembers.begin(); it2 != inactiveGroupMembers.end(); it2++ )
{
if ((*it2) != this && (*it2) != (*it) && (*it)->touches(*it2))
{
// tqWarning("found client touches other inactive client");
if( (*it)->ruleOpacityInactive() )
(*it)->setOpacity((*it)->ruleOpacityInactive() < 0xFFFFFFFF, (*it)->ruleOpacityInactive());
else
(*it)->setOpacity(options->translucentInactiveWindows && !((*it)->keepAbove() && options->keepAboveAsActive), options->inactiveWindowOpacity);
(*it)->setShadowSize(options->inactiveWindowShadowSize);
// tqWarning("deactivated, search restarted (2)");
inactiveGroupMembers.append(*it);
tmpGroupMembers.remove(it);
it = tmpGroupMembers.begin(); // reset potential client search
found = true;
break; // skip this loop
}
}
if (found) continue;
}
}
it++;
}
}
else if (isNormalWindow())
{
for( ClientList::ConstIterator it = group()->members().begin(); it != group()->members().end(); it++ )
if ((*it)->isUtility()) //don't deactivate dialogs...
{
if( (*it)->ruleOpacityInactive() )
(*it)->setOpacity((*it)->ruleOpacityInactive() < 0xFFFFFFFF, (*it)->ruleOpacityInactive());
else
(*it)->setOpacity(options->translucentInactiveWindows && !((*it)->keepAbove() && options->keepAboveAsActive), options->inactiveWindowOpacity);
}
}
}
}
void Client::updateShadowSize()
// extra syncscreen flag allows to avoid double syncs when active state changes (as it will usually change for two windows)
{
if (!(isNormalWindow() || isDialog() || isUtility() ))
return;
if (isActive())
setShadowSize(options->activeWindowShadowSize);
else
setShadowSize(options->inactiveWindowShadowSize);
}
uint Client::ruleOpacityInactive()
{
return rule_opacity_inactive;// != 0 ;
}
uint Client::ruleOpacityActive()
{
return rule_opacity_active;// != 0;
}
bool Client::getWindowOpacity() //query translucency settings from X, returns true if window opacity is set
{
unsigned char *data = 0;
Atom actual;
int format, result;
unsigned long n, left;
result = XGetWindowProperty(tqt_xdisplay(), window(), atoms->net_wm_window_opacity, 0L, 1L, False, XA_CARDINAL, &actual, &format, &n, &left, /*(unsigned char **)*/ &data);
if (result == Success && data != None && format == 32 )
{
opacity_ = *reinterpret_cast< long* >( data );
custom_opacity = true;
// setOpacity(opacity_ < 0xFFFFFFFF, opacity_);
XFree ((char*)data);
return TRUE;
}
return FALSE;
}
void Client::setCustomOpacityFlag(bool custom)
{
custom_opacity = custom;
}
uint Client::opacity()
{
return opacity_;
}
int Client::opacityPercentage()
{
return int(100*((double)opacity_/0xffffffff));
}
bool Client::touches(const Client* c)
// checks if this client borders c, needed to test beep media player window state
{
if (y() == c->y() + c->height()) // this bottom to c
return TRUE;
if (y() + height() == c->y()) // this top to c
return TRUE;
if (x() == c->x() + c->width()) // this right to c
return TRUE;
if (x() + width() == c->x()) // this left to c
return TRUE;
return FALSE;
}
void Client::setDecoHashProperty(uint topHeight, uint rightWidth, uint bottomHeight, uint leftWidth)
{
long data = (topHeight < 255 ? topHeight : 255) << 24 |
(rightWidth < 255 ? rightWidth : 255) << 16 |
(bottomHeight < 255 ? bottomHeight : 255) << 8 |
(leftWidth < 255 ? leftWidth : 255);
XChangeProperty(tqt_xdisplay(), frameId(), atoms->net_wm_window_decohash, XA_CARDINAL, 32, PropModeReplace, (unsigned char *) &data, 1L);
}
void Client::unsetDecoHashProperty()
{
XDeleteProperty( tqt_xdisplay(), frameId(), atoms->net_wm_window_decohash);
}
#ifndef NDEBUG
kdbgstream& operator<<( kdbgstream& stream, const Client* cl )
{
if( cl == NULL )
return stream << "\'NULL_CLIENT\'";
return stream << "\'ID:" << cl->window() << ";WMCLASS:" << cl->resourceClass() << ":" << cl->resourceName() << ";Caption:" << cl->caption() << "\'";
}
kdbgstream& operator<<( kdbgstream& stream, const ClientList& list )
{
stream << "LIST:(";
bool first = true;
for( ClientList::ConstIterator it = list.begin();
it != list.end();
++it )
{
if( !first )
stream << ":";
first = false;
stream << *it;
}
stream << ")";
return stream;
}
kdbgstream& operator<<( kdbgstream& stream, const ConstClientList& list )
{
stream << "LIST:(";
bool first = true;
for( ConstClientList::ConstIterator it = list.begin();
it != list.end();
++it )
{
if( !first )
stream << ":";
first = false;
stream << *it;
}
stream << ")";
return stream;
}
#endif
TQPixmap * twin_get_menu_pix_hack()
{
static TQPixmap p;
if ( p.isNull() )
p = SmallIcon( "bx2" );
return &p;
}
} // namespace
#include "client.moc"