/***************************************************************** 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. ******************************************************************/ /* This file contains things relevant to window grouping. */ //#define QT_CLEAN_NAMESPACE #include "group.h" #include "workspace.h" #include "client.h" #include <assert.h> #include <tdestartupinfo.h> /* TODO Rename as many uses of 'transient' as possible (hasTransient->hasSubwindow,etc.), or I'll get it backwards in half of the cases again. */ namespace KWinInternal { /* Consistency checks for window relations. Since transients are determinated using Client::transiency_list and main windows are determined using Client::transientFor() or the group for group transients, these have to match both ways. */ //#define ENABLE_TRANSIENCY_CHECK #ifdef NDEBUG #undef ENABLE_TRANSIENCY_CHECK #endif #ifdef ENABLE_TRANSIENCY_CHECK static bool transiencyCheckNonExistent = false; bool performTransiencyCheck() { bool ret = true; ClientList clients = Workspace::self()->clients; for( ClientList::ConstIterator it1 = clients.begin(); it1 != clients.end(); ++it1 ) { if( (*it1)->deleting ) continue; if( (*it1)->in_group == NULL ) { kdDebug() << "TC: " << *it1 << " in not in a group" << endl; ret = false; } else if( !(*it1)->in_group->members().contains( *it1 )) { kdDebug() << "TC: " << *it1 << " has a group " << (*it1)->in_group << " but group does not contain it" << endl; ret = false; } if( !(*it1)->isTransient()) { if( !(*it1)->mainClients().isEmpty()) { kdDebug() << "TC: " << *it1 << " is not transient, has main clients:" << (*it1)->mainClients() << endl; ret = false; } } else { ClientList mains = (*it1)->mainClients(); for( ClientList::ConstIterator it2 = mains.begin(); it2 != mains.end(); ++it2 ) { if( transiencyCheckNonExistent && !Workspace::self()->clients.contains( *it2 ) && !Workspace::self()->desktops.contains( *it2 )) { kdDebug() << "TC:" << *it1 << " has non-existent main client " << endl; kdDebug() << "TC2:" << *it2 << endl; // this may crash ret = false; continue; } if( !(*it2)->transients_list.contains( *it1 )) { kdDebug() << "TC:" << *it1 << " has main client " << *it2 << " but main client does not have it as a transient" << endl; ret = false; } } } ClientList trans = (*it1)->transients_list; for( ClientList::ConstIterator it2 = trans.begin(); it2 != trans.end(); ++it2 ) { if( transiencyCheckNonExistent && !Workspace::self()->clients.contains( *it2 ) && !Workspace::self()->desktops.contains( *it2 )) { kdDebug() << "TC:" << *it1 << " has non-existent transient " << endl; kdDebug() << "TC2:" << *it2 << endl; // this may crash ret = false; continue; } if( !(*it2)->mainClients().contains( *it1 )) { kdDebug() << "TC:" << *it1 << " has transient " << *it2 << " but transient does not have it as a main client" << endl; ret = false; } } } GroupList groups = Workspace::self()->groups; for( GroupList::ConstIterator it1 = groups.begin(); it1 != groups.end(); ++it1 ) { ClientList members = (*it1)->members(); for( ClientList::ConstIterator it2 = members.begin(); it2 != members.end(); ++it2 ) { if( (*it2)->in_group != *it1 ) { kdDebug() << "TC: Group " << *it1 << " contains client " << *it2 << " but client is not in that group" << endl; ret = false; } } } return ret; } static TQString transiencyCheckStartBt; static const Client* transiencyCheckClient; static int transiencyCheck = 0; static void startTransiencyCheck( const TQString& bt, const Client* c, bool ne ) { if( ++transiencyCheck == 1 ) { transiencyCheckStartBt = bt; transiencyCheckClient = c; } if( ne ) transiencyCheckNonExistent = true; } static void checkTransiency() { if( --transiencyCheck == 0 ) { if( !performTransiencyCheck()) { kdDebug() << "BT:" << transiencyCheckStartBt << endl; kdDebug() << "CLIENT:" << transiencyCheckClient << endl; assert( false ); } transiencyCheckNonExistent = false; } } class TransiencyChecker { public: TransiencyChecker( const TQString& bt, const Client*c ) { startTransiencyCheck( bt, c, false ); } ~TransiencyChecker() { checkTransiency(); } }; void checkNonExistentClients() { startTransiencyCheck( kdBacktrace(), NULL, true ); checkTransiency(); } #define TRANSIENCY_CHECK( c ) TransiencyChecker transiency_checker( kdBacktrace(), c ) #else #define TRANSIENCY_CHECK( c ) void checkNonExistentClients() { } #endif //******************************************** // Group //******************************************** Group::Group( Window leader_P, Workspace* workspace_P ) : leader_client( NULL ), leader_wid( leader_P ), _workspace( workspace_P ), leader_info( NULL ), user_time( -1U ), refcount( 0 ) { if( leader_P != None ) { leader_client = workspace_P->findClient( WindowMatchPredicate( leader_P )); unsigned long properties[ 2 ] = { 0, NET::WM2StartupId }; leader_info = new NETWinInfo( tqt_xdisplay(), leader_P, workspace()->rootWin(), properties, 2 ); } workspace()->addGroup( this, Allowed ); } Group::~Group() { delete leader_info; } TQPixmap Group::icon() const { if( leader_client != NULL ) return leader_client->icon(); else if( leader_wid != None ) { TQPixmap ic; Client::readIcons( leader_wid, &ic, NULL ); return ic; } return TQPixmap(); } TQPixmap Group::miniIcon() const { if( leader_client != NULL ) return leader_client->miniIcon(); else if( leader_wid != None ) { TQPixmap ic; Client::readIcons( leader_wid, NULL, &ic ); return ic; } return TQPixmap(); } void Group::addMember( Client* member_P ) { TRANSIENCY_CHECK( member_P ); _members.append( member_P ); // kdDebug() << "GROUPADD:" << this << ":" << member_P << endl; // kdDebug() << kdBacktrace() << endl; } void Group::removeMember( Client* member_P ) { TRANSIENCY_CHECK( member_P ); // kdDebug() << "GROUPREMOVE:" << this << ":" << member_P << endl; // kdDebug() << kdBacktrace() << endl; Q_ASSERT( _members.contains( member_P )); _members.remove( member_P ); // there are cases when automatic deleting of groups must be delayed, // e.g. when removing a member and doing some operation on the possibly // other members of the group (which would be however deleted already // if there were no other members) if( refcount == 0 && _members.isEmpty()) { workspace()->removeGroup( this, Allowed ); delete this; } } void Group::ref() { ++refcount; } void Group::deref() { if( --refcount == 0 && _members.isEmpty()) { workspace()->removeGroup( this, Allowed ); delete this; } } void Group::gotLeader( Client* leader_P ) { assert( leader_P->window() == leader_wid ); leader_client = leader_P; } void Group::lostLeader() { assert( !_members.contains( leader_client )); leader_client = NULL; if( _members.isEmpty()) { workspace()->removeGroup( this, Allowed ); delete this; } } void Group::getIcons() { // TODO - also needs adding the flag to NETWinInfo } //*************************************** // Workspace //*************************************** Group* Workspace::findGroup( Window leader ) const { assert( leader != None ); for( GroupList::ConstIterator it = groups.begin(); it != groups.end(); ++it ) if( (*it)->leader() == leader ) return *it; return NULL; } // Client is group transient, but has no group set. Try to find // group with windows with the same client leader. Group* Workspace::findClientLeaderGroup( const Client* c ) const { TRANSIENCY_CHECK( c ); Group* ret = NULL; for( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it ) { if( *it == c ) continue; if( (*it)->wmClientLeader() == c->wmClientLeader()) { if( ret == NULL || ret == (*it)->group()) ret = (*it)->group(); else { // There are already two groups with the same client leader. // This most probably means the app uses group transients without // setting group for its windows. Merging the two groups is a bad // hack, but there's no really good solution for this case. ClientList old_group = (*it)->group()->members(); // old_group autodeletes when being empty for( unsigned int pos = 0; pos < old_group.count(); ++pos ) { Client* tmp = old_group[ pos ]; if( tmp != c ) tmp->changeClientLeaderGroup( ret ); } } } } return ret; } void Workspace::updateMinimizedOfTransients( Client* c ) { // if mainwindow is minimized or shaded, minimize transients too if ( c->isMinimized() || c->isShade() ) { for( ClientList::ConstIterator it = c->transients().begin(); it != c->transients().end(); ++it ) { if( !(*it)->isMinimized() && !(*it)->isTopMenu() ) // topmenus are not minimized, they're hidden { (*it)->minimize( true ); // avoid animation updateMinimizedOfTransients( (*it) ); } } } else { // else unmiminize the transients for( ClientList::ConstIterator it = c->transients().begin(); it != c->transients().end(); ++it ) { if( (*it)->isMinimized() && !(*it)->isTopMenu()) { (*it)->unminimize( true ); // avoid animation updateMinimizedOfTransients( (*it) ); } } } } /*! Sets the client \a c's transient windows' on_all_desktops property to \a on_all_desktops. */ void Workspace::updateOnAllDesktopsOfTransients( Client* c ) { for( ClientList::ConstIterator it = c->transients().begin(); it != c->transients().end(); ++it) { if( (*it)->isOnAllDesktops() != c->isOnAllDesktops()) (*it)->setOnAllDesktops( c->isOnAllDesktops()); } } // A new window has been mapped. Check if it's not a mainwindow for some already existing transient window. void Workspace::checkTransients( Window w ) { TRANSIENCY_CHECK( NULL ); for( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it ) (*it)->checkTransient( w ); } //**************************************** // Client //**************************************** // hacks for broken apps here // all resource classes are forced to be lowercase bool Client::resourceMatch( const Client* c1, const Client* c2 ) { // xv has "xv" as resource name, and different strings starting with "XV" as resource class if( tqstrncmp( c1->resourceClass(), "xv", 2 ) == 0 && c1->resourceName() == "xv" ) return tqstrncmp( c2->resourceClass(), "xv", 2 ) == 0 && c2->resourceName() == "xv"; // Mozilla has "Mozilla" as resource name, and different strings as resource class if( c1->resourceName() == "mozilla" ) return c2->resourceName() == "mozilla"; return c1->resourceClass() == c2->resourceClass(); } bool Client::belongToSameApplication( const Client* c1, const Client* c2, bool active_hack ) { bool same_app = false; // tests that definitely mean they belong together if( c1 == c2 ) same_app = true; else if( c1->isTransient() && c2->hasTransient( c1, true )) same_app = true; // c1 has c2 as mainwindow else if( c2->isTransient() && c1->hasTransient( c2, true )) same_app = true; // c2 has c1 as mainwindow else if( c1->group() == c2->group()) same_app = true; // same group else if( c1->wmClientLeader() == c2->wmClientLeader() && c1->wmClientLeader() != c1->window() // if WM_CLIENT_LEADER is not set, it returns window(), && c2->wmClientLeader() != c2->window()) // don't use in this test then same_app = true; // same client leader // tests that mean they most probably don't belong together else if( c1->pid() != c2->pid() || c1->wmClientMachine( false ) != c2->wmClientMachine( false )) ; // different processes else if( c1->wmClientLeader() != c2->wmClientLeader() && c1->wmClientLeader() != c1->window() // if WM_CLIENT_LEADER is not set, it returns window(), && c2->wmClientLeader() != c2->window()) // don't use in this test then ; // different client leader else if( !resourceMatch( c1, c2 )) ; // different apps else if( !sameAppWindowRoleMatch( c1, c2, active_hack )) ; // "different" apps else if( c1->pid() == 0 || c2->pid() == 0 ) ; // old apps that don't have _NET_WM_PID, consider them different // if they weren't found to match above else same_app = true; // looks like it's the same app return same_app; } // Non-transient windows with window role containing '#' are always // considered belonging to different applications (unless // the window role is exactly the same). TDEMainWindow sets // window role this way by default, and different TDEMainWindow // usually "are" different application from user's point of view. // This help with no-focus-stealing for e.g. konqy reusing. // On the other hand, if one of the windows is active, they are // considered belonging to the same application. This is for // the cases when opening new mainwindow directly from the application, // e.g. 'Open New Window' in konqy ( active_hack == true ). bool Client::sameAppWindowRoleMatch( const Client* c1, const Client* c2, bool active_hack ) { if( c1->isTransient()) { while( c1->transientFor() != NULL ) c1 = c1->transientFor(); if( c1->groupTransient()) return c1->group() == c2->group(); #if 0 // if a group transient is in its own group, it didn't possibly have a group, // and therefore should be considered belonging to the same app like // all other windows from the same app || c1->group()->leaderClient() == c1 || c2->group()->leaderClient() == c2; #endif } if( c2->isTransient()) { while( c2->transientFor() != NULL ) c2 = c2->transientFor(); if( c2->groupTransient()) return c1->group() == c2->group(); #if 0 || c1->group()->leaderClient() == c1 || c2->group()->leaderClient() == c2; #endif } int pos1 = c1->windowRole().find( '#' ); int pos2 = c2->windowRole().find( '#' ); if(( pos1 >= 0 && pos2 >= 0 ) || // hacks here // Mozilla has resourceName() and resourceClass() swapped c1->resourceName() == "mozilla" && c2->resourceName() == "mozilla" ) { if( !active_hack ) // without the active hack for focus stealing prevention, return c1 == c2; // different mainwindows are always different apps if( !c1->isActive() && !c2->isActive()) return c1 == c2; else return true; } return true; } /* Transiency stuff: ICCCM 4.1.2.6, NETWM 7.3 WM_TRANSIENT_FOR is basically means "this is my mainwindow". For NET::Unknown windows, transient windows are considered to be NET::Dialog windows, for compatibility with non-NETWM clients. KWin may adjust the value of this property in some cases (window pointing to itself or creating a loop, keeping NET::Splash windows above other windows from the same app, etc.). Client::transient_for_id is the value of the WM_TRANSIENT_FOR property, after possibly being adjusted by KWin. Client::transient_for points to the Client this Client is transient for, or is NULL. If Client::transient_for_id is poiting to the root window, the window is considered to be transient for the whole window group, as suggested in NETWM 7.3. In the case of group transient window, Client::transient_for is NULL, and Client::groupTransient() returns true. Such window is treated as if it were transient for every window in its window group that has been mapped _before_ it (or, to be exact, was added to the same group before it). Otherwise two group transients can create loops, which can lead very very nasty things (bug #67914 and all its dupes). Client::original_transient_for_id is the value of the property, which may be different if Client::transient_for_id if e.g. forcing NET::Splash to be kept on top of its window group, or when the mainwindow is not mapped yet, in which case the window is temporarily made group transient, and when the mainwindow is mapped, transiency is re-evaluated. This can get a bit complicated with with e.g. two Konqueror windows created by the same process. They should ideally appear like two independent applications to the user. This should be accomplished by all windows in the same process having the same window group (needs to be changed in Qt at the moment), and using non-group transients poiting to their relevant mainwindow for toolwindows etc. KWin should handle both group and non-group transient dialogs well. In other words: - non-transient windows : isTransient() == false - normal transients : transientFor() != NULL - group transients : groupTransient() == true - list of mainwindows : mainClients() (call once and loop over the result) - list of transients : transients() - every window in the group : group()->members() */ void Client::readTransient() { TRANSIENCY_CHECK( this ); Window new_transient_for_id; if( XGetTransientForHint( tqt_xdisplay(), window(), &new_transient_for_id )) { original_transient_for_id = new_transient_for_id; new_transient_for_id = verifyTransientFor( new_transient_for_id, true ); } else { original_transient_for_id = None; new_transient_for_id = verifyTransientFor( None, false ); } setTransient( new_transient_for_id ); } void Client::setTransient( Window new_transient_for_id ) { TRANSIENCY_CHECK( this ); if( new_transient_for_id != transient_for_id ) { removeFromMainClients(); transient_for = NULL; transient_for_id = new_transient_for_id; if( transient_for_id != None && !groupTransient()) { transient_for = workspace()->findClient( WindowMatchPredicate( transient_for_id )); assert( transient_for != NULL ); // verifyTransient() had to check this transient_for->addTransient( this ); } // checkGroup() will check 'check_active_modal' checkGroup( NULL, true ); // force, because transiency has changed if( isTopMenu()) workspace()->updateCurrentTopMenu(); workspace()->updateClientLayer( this ); } } void Client::removeFromMainClients() { TRANSIENCY_CHECK( this ); if( transientFor() != NULL ) transientFor()->removeTransient( this ); if( groupTransient()) { for( ClientList::ConstIterator it = group()->members().begin(); it != group()->members().end(); ++it ) (*it)->removeTransient( this ); } } // *sigh* this transiency handling is madness :( // This one is called when destroying/releasing a window. // It makes sure this client is removed from all grouping // related lists. void Client::cleanGrouping() { TRANSIENCY_CHECK( this ); // kdDebug() << "CLEANGROUPING:" << this << endl; // for( ClientList::ConstIterator it = group()->members().begin(); // it != group()->members().end(); // ++it ) // kdDebug() << "CL:" << *it << endl; // ClientList mains; // mains = mainClients(); // for( ClientList::ConstIterator it = mains.begin(); // it != mains.end(); // ++it ) // kdDebug() << "MN:" << *it << endl; removeFromMainClients(); // kdDebug() << "CLEANGROUPING2:" << this << endl; // for( ClientList::ConstIterator it = group()->members().begin(); // it != group()->members().end(); // ++it ) // kdDebug() << "CL2:" << *it << endl; // mains = mainClients(); // for( ClientList::ConstIterator it = mains.begin(); // it != mains.end(); // ++it ) // kdDebug() << "MN2:" << *it << endl; for( ClientList::ConstIterator it = transients_list.begin(); it != transients_list.end(); ) { if( (*it)->transientFor() == this ) { ClientList::ConstIterator it2 = it++; removeTransient( *it2 ); } else ++it; } // kdDebug() << "CLEANGROUPING3:" << this << endl; // for( ClientList::ConstIterator it = group()->members().begin(); // it != group()->members().end(); // ++it ) // kdDebug() << "CL3:" << *it << endl; // mains = mainClients(); // for( ClientList::ConstIterator it = mains.begin(); // it != mains.end(); // ++it ) // kdDebug() << "MN3:" << *it << endl; // HACK // removeFromMainClients() did remove 'this' from transient // lists of all group members, but then made windows that // were transient for 'this' group transient, which again // added 'this' to those transient lists :( ClientList group_members = group()->members(); group()->removeMember( this ); in_group = NULL; for( ClientList::ConstIterator it = group_members.begin(); it != group_members.end(); ++it ) (*it)->removeTransient( this ); // kdDebug() << "CLEANGROUPING4:" << this << endl; // for( ClientList::ConstIterator it = group_members.begin(); // it != group_members.end(); // ++it ) // kdDebug() << "CL4:" << *it << endl; } // Make sure that no group transient is considered transient // for a window that is (directly or indirectly) transient for it // (including another group transients). // Non-group transients not causing loops are checked in verifyTransientFor(). void Client::checkGroupTransients() { TRANSIENCY_CHECK( this ); for( ClientList::ConstIterator it1 = group()->members().begin(); it1 != group()->members().end(); ++it1 ) { if( !(*it1)->groupTransient()) // check all group transients in the group continue; // TODO optimize to check only the changed ones? for( ClientList::ConstIterator it2 = group()->members().begin(); it2 != group()->members().end(); ++it2 ) // group transients can be transient only for others in the group, { // so don't make them transient for the ones that are transient for it if( *it1 == *it2 ) continue; for( Client* cl = (*it2)->transientFor(); cl != NULL; cl = cl->transientFor()) { if( cl == *it1 ) { // don't use removeTransient(), that would modify *it2 too (*it2)->transients_list.remove( *it1 ); continue; } } // if *it1 and *it2 are both group transients, and are transient for each other, // make only *it2 transient for *it1 (i.e. subwindow), as *it2 came later, // and should be therefore on top of *it1 // TODO This could possibly be optimized, it also requires hasTransient() to check for loops. if( (*it2)->groupTransient() && (*it1)->hasTransient( *it2, true ) && (*it2)->hasTransient( *it1, true )) (*it2)->transients_list.remove( *it1 ); // if there are already windows W1 and W2, W2 being transient for W1, and group transient W3 // is added, make it transient only for W2, not for W1, because it's already indirectly // transient for it - the indirect transiency actually shouldn't break anything, // but it can lead to exponentially expensive operations (#95231) // TODO this is pretty slow as well for( ClientList::ConstIterator it3 = group()->members().begin(); it3 != group()->members().end(); ++it3 ) { if( *it1 == *it2 || *it2 == *it3 || *it1 == *it3 ) continue; if( (*it2)->hasTransient( *it1, false ) && (*it3)->hasTransient( *it1, false )) { if( (*it2)->hasTransient( *it3, true )) (*it2)->transients_list.remove( *it1 ); if( (*it3)->hasTransient( *it2, true )) (*it3)->transients_list.remove( *it1 ); } } } } } /*! Check that the window is not transient for itself, and similar nonsense. */ Window Client::verifyTransientFor( Window new_transient_for, bool defined ) { Window new_property_value = new_transient_for; // make sure splashscreens are shown above all their app's windows, even though // they're in Normal layer if( isSplash() && new_transient_for == None ) new_transient_for = workspace()->rootWin(); if( new_transient_for == None ) if( defined ) // sometimes WM_TRANSIENT_FOR is set to None, instead of root window new_property_value = new_transient_for = workspace()->rootWin(); else return None; if( new_transient_for == window()) // pointing to self { // also fix the property itself kdWarning( 1216 ) << "Client " << this << " has WM_TRANSIENT_FOR poiting to itself." << endl; new_property_value = new_transient_for = workspace()->rootWin(); } // The transient_for window may be embedded in another application, // so twin cannot see it. Try to find the managed client for the // window and fix the transient_for property if possible. WId before_search = new_transient_for; while( new_transient_for != None && new_transient_for != workspace()->rootWin() && !workspace()->findClient( WindowMatchPredicate( new_transient_for ))) { Window root_return, parent_return; Window* wins = NULL; unsigned int nwins; int r = XQueryTree(tqt_xdisplay(), new_transient_for, &root_return, &parent_return, &wins, &nwins); if ( wins ) XFree((void *) wins); if ( r == 0) break; new_transient_for = parent_return; } if( Client* new_transient_for_client = workspace()->findClient( WindowMatchPredicate( new_transient_for ))) { if( new_transient_for != before_search ) { kdDebug( 1212 ) << "Client " << this << " has WM_TRANSIENT_FOR poiting to non-toplevel window " << before_search << ", child of " << new_transient_for_client << ", adjusting." << endl; new_property_value = new_transient_for; // also fix the property } } else new_transient_for = before_search; // nice try // loop detection // group transients cannot cause loops, because they're considered transient only for non-transient // windows in the group int count = 20; Window loop_pos = new_transient_for; while( loop_pos != None && loop_pos != workspace()->rootWin()) { Client* pos = workspace()->findClient( WindowMatchPredicate( loop_pos )); if( pos == NULL ) break; loop_pos = pos->transient_for_id; if( --count == 0 || pos == this ) { kdWarning( 1216 ) << "Client " << this << " caused WM_TRANSIENT_FOR loop." << endl; new_transient_for = workspace()->rootWin(); } } if( new_transient_for != workspace()->rootWin() && workspace()->findClient( WindowMatchPredicate( new_transient_for )) == NULL ) { // it's transient for a specific window, but that window is not mapped new_transient_for = workspace()->rootWin(); } if( new_property_value != original_transient_for_id ) XSetTransientForHint( tqt_xdisplay(), window(), new_property_value ); return new_transient_for; } void Client::addTransient( Client* cl ) { TRANSIENCY_CHECK( this ); assert( !transients_list.contains( cl )); // assert( !cl->hasTransient( this, true )); will be fixed in checkGroupTransients() assert( cl != this ); transients_list.append( cl ); if( workspace()->mostRecentlyActivatedClient() == this && cl->isModal()) check_active_modal = true; // kdDebug() << "ADDTRANS:" << this << ":" << cl << endl; // kdDebug() << kdBacktrace() << endl; // for( ClientList::ConstIterator it = transients_list.begin(); // it != transients_list.end(); // ++it ) // kdDebug() << "AT:" << (*it) << endl; } void Client::removeTransient( Client* cl ) { TRANSIENCY_CHECK( this ); // kdDebug() << "REMOVETRANS:" << this << ":" << cl << endl; // kdDebug() << kdBacktrace() << endl; transients_list.remove( cl ); // cl is transient for this, but this is going away // make cl group transient if( cl->transientFor() == this ) { cl->transient_for_id = None; cl->transient_for = NULL; // SELI // SELI cl->setTransient( workspace()->rootWin()); cl->setTransient( None ); } } // A new window has been mapped. Check if it's not a mainwindow for this already existing window. void Client::checkTransient( Window w ) { TRANSIENCY_CHECK( this ); if( original_transient_for_id != w ) return; w = verifyTransientFor( w, true ); setTransient( w ); } // returns true if cl is the transient_for window for this client, // or recursively the transient_for window bool Client::hasTransient( const Client* cl, bool indirect ) const { // checkGroupTransients() uses this to break loops, so hasTransient() must detect them ConstClientList set; return hasTransientInternal( cl, indirect, set ); } bool Client::hasTransientInternal( const Client* cl, bool indirect, ConstClientList& set ) const { if( cl->transientFor() != NULL ) { if( cl->transientFor() == this ) return true; if( !indirect ) return false; if( set.contains( cl )) return false; set.append( cl ); return hasTransientInternal( cl->transientFor(), indirect, set ); } if( !cl->isTransient()) return false; if( group() != cl->group()) return false; // cl is group transient, search from top if( transients().contains( const_cast< Client* >( cl ))) return true; if( !indirect ) return false; if( set.contains( this )) return false; set.append( this ); for( ClientList::ConstIterator it = transients().begin(); it != transients().end(); ++it ) if( (*it)->hasTransientInternal( cl, indirect, set )) return true; return false; } ClientList Client::mainClients() const { if( !isTransient()) return ClientList(); if( transientFor() != NULL ) return ClientList() << const_cast< Client* >( transientFor()); ClientList result; for( ClientList::ConstIterator it = group()->members().begin(); it != group()->members().end(); ++it ) if((*it)->hasTransient( this, false )) result.append( *it ); return result; } Client* Client::findModal() { for( ClientList::ConstIterator it = transients().begin(); it != transients().end(); ++it ) if( Client* ret = (*it)->findModal()) return ret; if( isModal()) return this; return NULL; } // Client::window_group only holds the contents of the hint, // but it should be used only to find the group, not for anything else // Argument is only when some specific group needs to be set. void Client::checkGroup( Group* set_group, bool force ) { TRANSIENCY_CHECK( this ); Group* old_group = in_group; if( old_group != NULL ) old_group->ref(); // turn off automatic deleting if( set_group != NULL ) { if( set_group != in_group ) { if( in_group != NULL ) in_group->removeMember( this ); in_group = set_group; in_group->addMember( this ); } } else if( window_group != None ) { Group* new_group = workspace()->findGroup( window_group ); if( transientFor() != NULL && transientFor()->group() != new_group ) { // move the window to the right group (e.g. a dialog provided // by different app, but transient for this one, so make it part of that group) new_group = transientFor()->group(); } if( new_group == NULL ) // doesn't exist yet new_group = new Group( window_group, workspace()); if( new_group != in_group ) { if( in_group != NULL ) in_group->removeMember( this ); in_group = new_group; in_group->addMember( this ); } } else { if( transientFor() != NULL ) { // doesn't have window group set, but is transient for something // so make it part of that group Group* new_group = transientFor()->group(); if( new_group != in_group ) { if( in_group != NULL ) in_group->removeMember( this ); in_group = transientFor()->group(); in_group->addMember( this ); } } else if( groupTransient()) { // group transient which actually doesn't have a group :( // try creating group with other windows with the same client leader Group* new_group = workspace()->findClientLeaderGroup( this ); if( new_group == NULL ) new_group = new Group( None, workspace()); if( new_group != in_group ) { if( in_group != NULL ) in_group->removeMember( this ); in_group = new_group; in_group->addMember( this ); } } else // Not transient without a group, put it in its client leader group. { // This might be stupid if grouping was used for e.g. taskbar grouping // or minimizing together the whole group, but as long as its used // only for dialogs it's better to keep windows from one app in one group. Group* new_group = workspace()->findClientLeaderGroup( this ); if( in_group != NULL && in_group != new_group ) { in_group->removeMember( this ); in_group = NULL; } if( new_group == NULL ) new_group = new Group( None, workspace() ); if( in_group != new_group ) { in_group = new_group; in_group->addMember( this ); } } } if( in_group != old_group || force ) { for( ClientList::Iterator it = transients_list.begin(); it != transients_list.end(); ) { // group transients in the old group are no longer transient for it if( (*it)->groupTransient() && (*it)->group() != group()) it = transients_list.remove( it ); else ++it; } if( groupTransient()) { // no longer transient for ones in the old group if( old_group != NULL ) { for( ClientList::ConstIterator it = old_group->members().begin(); it != old_group->members().end(); ++it ) (*it)->removeTransient( this ); } // and make transient for all in the new group for( ClientList::ConstIterator it = group()->members().begin(); it != group()->members().end(); ++it ) { if( *it == this ) break; // this means the window is only transient for windows mapped before it (*it)->addTransient( this ); } } // group transient splashscreens should be transient even for windows // in group mapped later for( ClientList::ConstIterator it = group()->members().begin(); it != group()->members().end(); ++it ) { if( !(*it)->isSplash()) continue; if( !(*it)->groupTransient()) continue; if( *it == this || hasTransient( *it, true )) // TODO indirect? continue; addTransient( *it ); } } if( old_group != NULL ) old_group->deref(); // can be now deleted if empty checkGroupTransients(); checkActiveModal(); workspace()->updateClientLayer( this ); } // used by Workspace::findClientLeaderGroup() void Client::changeClientLeaderGroup( Group* gr ) { // transientFor() != NULL are in the group of their mainwindow, so keep them there if( transientFor() != NULL ) return; // also don't change the group for window which have group set if( window_group ) return; checkGroup( gr ); // change group } bool Client::check_active_modal = false; void Client::checkActiveModal() { // if the active window got new modal transient, activate it. // cannot be done in AddTransient(), because there may temporarily // exist loops, breaking findModal Client* check_modal = workspace()->mostRecentlyActivatedClient(); if( check_modal != NULL && check_modal->check_active_modal ) { Client* new_modal = check_modal->findModal(); if( new_modal != NULL && new_modal != check_modal ) { if( !new_modal->isManaged()) return; // postpone check until end of manage() workspace()->activateClient( new_modal ); } check_modal->check_active_modal = false; } } } // namespace