/* * Copyright 2001-2020, Haiku. * Distributed under the terms of the MIT License. * * Authors: * Adrian Oanca, adioanca@cotty.iren.ro * Stephan Aßmus, superstippi@gmx.de * Axel Dörfler, axeld@pinc-software.de * Andrej Spielmann, andrej.spielmann@seh.ox.ac.uk * Brecht Machiels, brecht@mos6581.org * Clemens Zeidler, haiku@clemens-zeidler.de * Ingo Weinhold, ingo_weinhold@gmx.de * Joseph Groover, looncraz@looncraz.net * Tri-Edge AI * Jacob Secunda, secundja@gmail.com */ /*! Class used to encapsulate desktop management */ #include "Desktop.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "AppServer.h" #include "ClickTarget.h" #include "DecorManager.h" #include "DesktopSettingsPrivate.h" #include "DrawingEngine.h" #include "GlobalFontManager.h" #include "HWInterface.h" #include "InputManager.h" #include "Screen.h" #include "ScreenManager.h" #include "ServerApp.h" #include "ServerConfig.h" #include "ServerCursor.h" #include "ServerWindow.h" #include "SystemPalette.h" #include "WindowPrivate.h" #include "Window.h" #include "Workspace.h" #include "WorkspacesView.h" #if TEST_MODE # include "EventStream.h" #endif //#define DEBUG_DESKTOP #ifdef DEBUG_DESKTOP # define STRACE(a) printf a #else # define STRACE(a) ; #endif static inline float square_vector_length(float x, float y) { return x * x + y * y; } static inline float square_distance(const BPoint& a, const BPoint& b) { return square_vector_length(a.x - b.x, a.y - b.y); } class KeyboardFilter : public EventFilter { public: KeyboardFilter(Desktop* desktop); virtual filter_result Filter(BMessage* message, EventTarget** _target, int32* _viewToken, BMessage* latestMouseMoved); virtual void RemoveTarget(EventTarget* target); private: void _UpdateFocus(int32 key, uint32 modifiers, EventTarget** _target); Desktop* fDesktop; EventTarget* fLastFocus; bigtime_t fTimestamp; }; class MouseFilter : public EventFilter { public: MouseFilter(Desktop* desktop); virtual filter_result Filter(BMessage* message, EventTarget** _target, int32* _viewToken, BMessage* latestMouseMoved); private: Desktop* fDesktop; int32 fLastClickButtons; int32 fLastClickModifiers; int32 fResetClickCount; BPoint fLastClickPoint; ClickTarget fLastClickTarget; }; // #pragma mark - KeyboardFilter::KeyboardFilter(Desktop* desktop) : fDesktop(desktop), fLastFocus(NULL), fTimestamp(0) { } void KeyboardFilter::_UpdateFocus(int32 key, uint32 modifiers, EventTarget** _target) { if (!fDesktop->LockSingleWindow()) return; EventTarget* focus = fDesktop->KeyboardEventTarget(); #if 0 bigtime_t now = system_time(); // TODO: this is a try to not steal focus from the current window // in case you enter some text and a window pops up you haven't // triggered yourself (like a pop-up window in your browser while // you're typing a password in another window) - maybe this should // be done differently, though (using something like B_LOCK_WINDOW_FOCUS) // (at least B_WINDOW_ACTIVATED must be postponed) if (fLastFocus == NULL || (focus != fLastFocus && now - fTimestamp > 100000)) { // if the time span between the key presses is very short // we keep our previous focus alive - this is safe even // if the target doesn't exist anymore, as we don't reset // it, and the event focus passed in is always valid (or NULL) *_target = focus; fLastFocus = focus; } #endif *_target = focus; fLastFocus = focus; fDesktop->UnlockSingleWindow(); #if 0 // we always allow to switch focus after the enter key has pressed if (key == B_ENTER || modifiers == B_COMMAND_KEY || modifiers == B_CONTROL_KEY || modifiers == B_OPTION_KEY) fTimestamp = 0; else fTimestamp = now; #endif } filter_result KeyboardFilter::Filter(BMessage* message, EventTarget** _target, int32* /*_viewToken*/, BMessage* /*latestMouseMoved*/) { int32 key = 0; int32 modifiers = 0; message->FindInt32("key", &key); message->FindInt32("modifiers", &modifiers); if ((message->what == B_KEY_DOWN || message->what == B_UNMAPPED_KEY_DOWN)) { // Check for safe video mode (shift + cmd + ctrl + escape) if (key == 0x01 && (modifiers & B_COMMAND_KEY) != 0 && (modifiers & B_CONTROL_KEY) != 0 && (modifiers & B_SHIFT_KEY) != 0) { system("screenmode --fall-back &"); return B_SKIP_MESSAGE; } bool takeWindow = (modifiers & B_SHIFT_KEY) != 0 || fDesktop->MouseEventWindow() != NULL; if (key >= B_F1_KEY && key <= B_F12_KEY) { // workspace change #if !TEST_MODE if ((modifiers & (B_COMMAND_KEY | B_CONTROL_KEY | B_OPTION_KEY)) == B_COMMAND_KEY) #else if ((modifiers & B_CONTROL_KEY) != 0) #endif { STRACE(("Set Workspace %" B_PRId32 "\n", key - 1)); fDesktop->SetWorkspaceAsync(key - B_F1_KEY, takeWindow); return B_SKIP_MESSAGE; } } else if (key == 0x11 && (modifiers & (B_COMMAND_KEY | B_CONTROL_KEY | B_OPTION_KEY)) == B_COMMAND_KEY) { // switch to previous workspace (command + `) fDesktop->SetWorkspaceAsync(-1, takeWindow); return B_SKIP_MESSAGE; } } if (message->what == B_KEY_DOWN || message->what == B_MODIFIERS_CHANGED || message->what == B_UNMAPPED_KEY_DOWN || message->what == B_INPUT_METHOD_EVENT) _UpdateFocus(key, modifiers, _target); return fDesktop->KeyEvent(message->what, key, modifiers); } void KeyboardFilter::RemoveTarget(EventTarget* target) { if (target == fLastFocus) fLastFocus = NULL; } // #pragma mark - MouseFilter::MouseFilter(Desktop* desktop) : fDesktop(desktop), fLastClickButtons(0), fLastClickModifiers(0), fResetClickCount(0), fLastClickPoint(), fLastClickTarget() { } filter_result MouseFilter::Filter(BMessage* message, EventTarget** _target, int32* _viewToken, BMessage* latestMouseMoved) { BPoint where; if (message->FindPoint("where", &where) != B_OK) return B_DISPATCH_MESSAGE; int32 buttons; if (message->FindInt32("buttons", &buttons) != B_OK) buttons = 0; if (!fDesktop->LockAllWindows()) return B_DISPATCH_MESSAGE; int32 viewToken = B_NULL_TOKEN; Window* window = fDesktop->MouseEventWindow(); if (window == NULL) window = fDesktop->WindowAt(where); if (window != NULL) { // dispatch event to the window switch (message->what) { case B_MOUSE_DOWN: { int32 windowToken = window->ServerWindow()->ServerToken(); // First approximation of click count validation. We reset the // click count when modifiers or pressed buttons have changed // or when we've got a different click target, or when the // previous click location is too far from the new one. We can // only check the window of the click target here; we'll recheck // after asking the window. int32 modifiers = message->FindInt32("modifiers"); int32 originalClickCount = message->FindInt32("clicks"); if (originalClickCount <= 0) originalClickCount = 1; int32 clickCount = originalClickCount; if (clickCount > 1) { if (modifiers != fLastClickModifiers || buttons != fLastClickButtons || !fLastClickTarget.IsValid() || fLastClickTarget.WindowToken() != windowToken || square_distance(where, fLastClickPoint) >= 16 || clickCount - fResetClickCount < 1) { clickCount = 1; } else clickCount -= fResetClickCount; } // notify the window ClickTarget clickTarget; window->MouseDown(message, where, fLastClickTarget, clickCount, clickTarget); // If the click target changed, always reset the click count. if (clickCount != 1 && clickTarget != fLastClickTarget) clickCount = 1; // update our click count management attributes fResetClickCount = originalClickCount - clickCount; fLastClickTarget = clickTarget; fLastClickButtons = buttons; fLastClickModifiers = modifiers; fLastClickPoint = where; // get the view token from the click target if (clickTarget.GetType() == ClickTarget::TYPE_WINDOW_CONTENTS) viewToken = clickTarget.WindowElement(); // update the message's "clicks" field, if necessary if (clickCount != originalClickCount) { if (message->HasInt32("clicks")) message->ReplaceInt32("clicks", clickCount); else message->AddInt32("clicks", clickCount); } // notify desktop listeners fDesktop->NotifyMouseDown(window, message, where); break; } case B_MOUSE_UP: window->MouseUp(message, where, &viewToken); if (buttons == 0) fDesktop->SetMouseEventWindow(NULL); fDesktop->NotifyMouseUp(window, message, where); break; case B_MOUSE_MOVED: window->MouseMoved(message, where, &viewToken, latestMouseMoved == NULL || latestMouseMoved == message, false); fDesktop->NotifyMouseMoved(window, message, where); break; } if (viewToken != B_NULL_TOKEN) { fDesktop->SetViewUnderMouse(window, viewToken); *_viewToken = viewToken; *_target = &window->EventTarget(); } } else if (message->what == B_MOUSE_DOWN) { // the mouse-down didn't hit a window -- reset the click target fResetClickCount = 0; fLastClickTarget = ClickTarget(); fLastClickButtons = message->FindInt32("buttons"); fLastClickModifiers = message->FindInt32("modifiers"); fLastClickPoint = where; } if (window == NULL || viewToken == B_NULL_TOKEN) { // mouse is not over a window or over a decorator fDesktop->SetViewUnderMouse(window, B_NULL_TOKEN); fDesktop->SetCursor(NULL); *_target = NULL; } fDesktop->SetLastMouseState(where, buttons, window); fDesktop->NotifyMouseEvent(message); fDesktop->UnlockAllWindows(); return B_DISPATCH_MESSAGE; } // #pragma mark - static inline uint32 workspace_to_workspaces(int32 index) { return 1UL << index; } static inline bool workspace_in_workspaces(int32 index, uint32 workspaces) { return (workspaces & (1UL << index)) != 0; } // #pragma mark - Desktop::Desktop(uid_t userID, const char* targetScreen) : MessageLooper("desktop"), fUserID(userID), fTargetScreen(strdup(targetScreen)), fSettings(NULL), fSharedReadOnlyArea(-1), fApplicationsLock("application list"), fShutdownSemaphore(-1), fShutdownCount(0), fScreenLock("screen lock"), fDirectScreenLock("direct screen lock"), fDirectScreenTeam(-1), fCurrentWorkspace(0), fPreviousWorkspace(0), fAllWindows(kAllWindowList), fSubsetWindows(kSubsetList), fFocusList(kFocusList), fWorkspacesViews(false), fWorkspacesLock("workspaces list"), fWindowLock("window lock"), fMouseEventWindow(NULL), fWindowUnderMouse(NULL), fLockedFocusWindow(NULL), fViewUnderMouse(B_NULL_TOKEN), fLastMousePosition(B_ORIGIN), fLastMouseButtons(0), fFocus(NULL), fFront(NULL), fBack(NULL) { memset(fLastWorkspaceFocus, 0, sizeof(fLastWorkspaceFocus)); char name[B_OS_NAME_LENGTH]; Desktop::_GetLooperName(name, sizeof(name)); fMessagePort = create_port(DEFAULT_MONITOR_PORT_SIZE, name); if (fMessagePort < B_OK) return; fLink.SetReceiverPort(fMessagePort); // register listeners RegisterListener(&fStackAndTile); const DesktopListenerList& newListeners = gDecorManager.GetDesktopListeners(); for (int i = 0; i < newListeners.CountItems(); i++) RegisterListener(newListeners.ItemAt(i)); } Desktop::~Desktop() { delete_area(fSharedReadOnlyArea); delete_port(fMessagePort); gFontManager->DetachUser(fUserID); free(fTargetScreen); } void Desktop::RegisterListener(DesktopListener* listener) { DesktopObservable::RegisterListener(listener, this); } /*! This method is allowed to throw exceptions. */ status_t Desktop::Init() { if (fMessagePort < B_OK) return fMessagePort; // the system palette needs to be initialized before the // desktop settings, since it is used there already InitializeColorMap(); const size_t areaSize = B_PAGE_SIZE; char name[B_OS_NAME_LENGTH]; snprintf(name, sizeof(name), "d:%d:shared read only", fUserID); fSharedReadOnlyArea = create_area(name, (void **)&fServerReadOnlyMemory, B_ANY_ADDRESS, areaSize, B_NO_LOCK, B_READ_AREA | B_WRITE_AREA | B_CLONEABLE_AREA); if (fSharedReadOnlyArea < B_OK) return fSharedReadOnlyArea; gFontManager->AttachUser(fUserID); fSettings.SetTo(new DesktopSettingsPrivate(fServerReadOnlyMemory)); for (int32 i = 0; i < kMaxWorkspaces; i++) { _Windows(i).SetIndex(i); fWorkspaces[i].RestoreConfiguration(*fSettings->WorkspacesMessage(i)); } status_t status = fVirtualScreen.SetConfiguration(*this, fWorkspaces[0].CurrentScreenConfiguration()); if (status != B_OK) { debug_printf("app_server: Failed to initialize virtual screen configuration: %s\n", strerror(status)); return status; } if (fVirtualScreen.HWInterface() == NULL) { debug_printf("Could not initialize graphics output. Exiting.\n"); return B_ERROR; } // now that the mode is set, see if we should increase the default font size if (fSettings->DefaultPlainFont() == *gFontManager->DefaultPlainFont() && !fSettings->DidLoadFontSettings()) { float fontSize = fSettings->DefaultPlainFont().Size(); gScreenManager->Lock(); Screen* screen = gScreenManager->ScreenAt(0); if (screen != NULL) { display_mode mode; screen->GetMode(mode); if (mode.virtual_width > 3840 && mode.virtual_height > 2160) fontSize *= 2.0f; else if (mode.virtual_width > 1920 && mode.virtual_height > 1080) fontSize *= 1.5f; } gScreenManager->Unlock(); // modify settings without saving them const_cast(fSettings->DefaultPlainFont()).SetSize(fontSize); const_cast(fSettings->DefaultBoldFont()).SetSize(fontSize); const_cast(fSettings->DefaultFixedFont()).SetSize(fontSize); const_cast(fSettings->MenuInfo()).font_size = fontSize; } HWInterface()->SetDPMSMode(B_DPMS_ON); float brightness = fWorkspaces[0].StoredScreenConfiguration().Brightness(0); if (brightness > 0) HWInterface()->SetBrightness(brightness); fVirtualScreen.HWInterface()->MoveCursorTo( fVirtualScreen.Frame().Width() / 2, fVirtualScreen.Frame().Height() / 2); #if TEST_MODE gInputManager->AddStream(new InputServerStream); #endif EventStream* stream = fVirtualScreen.HWInterface()->CreateEventStream(); if (stream == NULL) stream = gInputManager->GetStream(); fEventDispatcher.SetDesktop(this); fEventDispatcher.SetTo(stream); if (fEventDispatcher.InitCheck() != B_OK) _LaunchInputServer(); fEventDispatcher.SetHWInterface(fVirtualScreen.HWInterface()); fEventDispatcher.SetMouseFilter(new MouseFilter(this)); fEventDispatcher.SetKeyboardFilter(new KeyboardFilter(this)); // draw the background fScreenRegion = fVirtualScreen.Frame(); BRegion stillAvailableOnScreen; _RebuildClippingForAllWindows(stillAvailableOnScreen); _SetBackground(stillAvailableOnScreen); SetCursor(NULL); // this will set the default cursor fVirtualScreen.HWInterface()->SetCursorVisible(true); return B_OK; } /*! \brief Send a quick (no attachments) message to all applications. Quite useful for notification for things like server shutdown, system color changes, etc. */ void Desktop::BroadcastToAllApps(int32 code) { BAutolock locker(fApplicationsLock); for (int32 i = fApplications.CountItems(); i-- > 0;) { fApplications.ItemAt(i)->PostMessage(code); } } /*! \brief Send a quick (no attachments) message to all windows. */ void Desktop::BroadcastToAllWindows(int32 code) { AutoReadLocker _(fWindowLock); for (Window* window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { window->ServerWindow()->PostMessage(code); } } int32 Desktop::GetAllWindowTargets(DelayedMessage& message) { AutoReadLocker _(fWindowLock); int32 count = 0; for (Window* window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { message.AddTarget(window->ServerWindow()->MessagePort()); ++count; } return count; } int32 Desktop::GetAllAppTargets(DelayedMessage& message) { BAutolock _(fApplicationsLock); for (int32 index = 0; index < fApplications.CountItems(); ++index) message.AddTarget(fApplications.ItemAt(index)->MessagePort()); return fApplications.CountItems(); } filter_result Desktop::KeyEvent(uint32 what, int32 key, int32 modifiers) { filter_result result = B_DISPATCH_MESSAGE; if (LockAllWindows()) { Window* window = MouseEventWindow(); if (window == NULL) window = WindowAt(fLastMousePosition); if (window != NULL) { if (what == B_MODIFIERS_CHANGED) window->ModifiersChanged(modifiers); } if (NotifyKeyPressed(what, key, modifiers)) result = B_SKIP_MESSAGE; UnlockAllWindows(); } return result; } // #pragma mark - Mouse and cursor methods void Desktop::SetCursor(ServerCursor* newCursor) { if (newCursor == NULL) newCursor = fCursorManager.GetCursor(B_CURSOR_ID_SYSTEM_DEFAULT); if (newCursor == fCursor) return; fCursor = newCursor; if (!fManagementCursor.IsSet()) HWInterface()->SetCursor(newCursor); } ServerCursorReference Desktop::Cursor() const { return fCursor; } void Desktop::SetManagementCursor(ServerCursor* newCursor) { if (newCursor == fManagementCursor) return; fManagementCursor = newCursor; HWInterface()->SetCursor(newCursor != NULL ? newCursor : fCursor.Get()); } void Desktop::SetLastMouseState(const BPoint& position, int32 buttons, Window* windowUnderMouse) { // The all-window-lock is write-locked. fLastMousePosition = position; fLastMouseButtons = buttons; if (fLastMouseButtons == 0 && fLockedFocusWindow) { fLockedFocusWindow = NULL; if (fSettings->FocusFollowsMouse()) SetFocusWindow(windowUnderMouse); } } void Desktop::GetLastMouseState(BPoint* position, int32* buttons) const { *position = fLastMousePosition; *buttons = fLastMouseButtons; } // #pragma mark - Screen methods status_t Desktop::SetScreenMode(int32 workspace, int32 id, const display_mode& mode, bool makeDefault) { AutoWriteLocker _(fWindowLock); if (workspace == B_CURRENT_WORKSPACE_INDEX) workspace = fCurrentWorkspace; if (workspace < 0 || workspace >= kMaxWorkspaces) return B_BAD_VALUE; Screen* screen = fVirtualScreen.ScreenByID(id); if (screen == NULL) return B_NAME_NOT_FOUND; // Check if the mode has actually changed if (workspace == fCurrentWorkspace) { // retrieve from current screen display_mode oldMode; screen->GetMode(oldMode); if (!memcmp(&oldMode, &mode, sizeof(display_mode))) return B_OK; // Set the new one _SuspendDirectFrameBufferAccess(); AutoWriteLocker locker(fScreenLock); status_t status = screen->SetMode(mode); if (status != B_OK) { locker.Unlock(); _ResumeDirectFrameBufferAccess(); return status; } } else { // retrieve from settings screen_configuration* configuration = fWorkspaces[workspace].CurrentScreenConfiguration().CurrentByID( screen->ID()); if (configuration != NULL && !memcmp(&configuration->mode, &mode, sizeof(display_mode))) return B_OK; } // Update our configurations monitor_info info; bool hasInfo = screen->GetMonitorInfo(info) == B_OK; fWorkspaces[workspace].CurrentScreenConfiguration().Set(id, hasInfo ? &info : NULL, screen->Frame(), mode); if (makeDefault) { fWorkspaces[workspace].StoredScreenConfiguration().Set(id, hasInfo ? &info : NULL, screen->Frame(), mode); StoreWorkspaceConfiguration(workspace); } _ScreenChanged(screen); if (workspace == fCurrentWorkspace) _ResumeDirectFrameBufferAccess(); return B_OK; } status_t Desktop::GetScreenMode(int32 workspace, int32 id, display_mode& mode) { AutoReadLocker _(fScreenLock); if (workspace == B_CURRENT_WORKSPACE_INDEX) workspace = fCurrentWorkspace; if (workspace < 0 || workspace >= kMaxWorkspaces) return B_BAD_VALUE; if (workspace == fCurrentWorkspace) { // retrieve from current screen Screen* screen = fVirtualScreen.ScreenByID(id); if (screen == NULL) return B_NAME_NOT_FOUND; screen->GetMode(mode); return B_OK; } // retrieve from settings screen_configuration* configuration = fWorkspaces[workspace].CurrentScreenConfiguration().CurrentByID(id); if (configuration == NULL) return B_NAME_NOT_FOUND; mode = configuration->mode; return B_OK; } status_t Desktop::GetScreenFrame(int32 workspace, int32 id, BRect& frame) { AutoReadLocker _(fScreenLock); if (workspace == B_CURRENT_WORKSPACE_INDEX) workspace = fCurrentWorkspace; if (workspace < 0 || workspace >= kMaxWorkspaces) return B_BAD_VALUE; if (workspace == fCurrentWorkspace) { // retrieve from current screen Screen* screen = fVirtualScreen.ScreenByID(id); if (screen == NULL) return B_NAME_NOT_FOUND; frame = screen->Frame(); return B_OK; } // retrieve from settings screen_configuration* configuration = fWorkspaces[workspace].CurrentScreenConfiguration().CurrentByID(id); if (configuration == NULL) return B_NAME_NOT_FOUND; frame = configuration->frame; return B_OK; } void Desktop::RevertScreenModes(uint32 workspaces) { if (workspaces == 0) return; AutoWriteLocker _(fWindowLock); for (int32 workspace = 0; workspace < kMaxWorkspaces; workspace++) { if ((workspaces & (1U << workspace)) == 0) continue; // Revert all screens on this workspace // TODO: ideally, we would know which screens to revert - this way, too // many of them could be reverted for (int32 index = 0; index < fVirtualScreen.CountScreens(); index++) { Screen* screen = fVirtualScreen.ScreenAt(index); // retrieve configurations screen_configuration* stored = fWorkspaces[workspace] .StoredScreenConfiguration().CurrentByID(screen->ID()); screen_configuration* current = fWorkspaces[workspace] .CurrentScreenConfiguration().CurrentByID(screen->ID()); if ((stored != NULL && current != NULL && !memcmp(&stored->mode, ¤t->mode, sizeof(display_mode))) || (stored == NULL && current == NULL)) continue; if (stored == NULL) { fWorkspaces[workspace].CurrentScreenConfiguration() .Remove(current); if (workspace == fCurrentWorkspace) { _SuspendDirectFrameBufferAccess(); _SetCurrentWorkspaceConfiguration(); _ResumeDirectFrameBufferAccess(); } } else SetScreenMode(workspace, screen->ID(), stored->mode, false); } } } status_t Desktop::SetBrightness(int32 id, float brightness) { status_t result = HWInterface()->SetBrightness(brightness); if (result == B_OK) { if (fWorkspaces[0].StoredScreenConfiguration().CurrentByID(id) == NULL) { // store the current configuration if empty screen_configuration* current = fWorkspaces[0].CurrentScreenConfiguration().CurrentByID(id); fWorkspaces[0].StoredScreenConfiguration().Set(id, current->has_info ? ¤t->info : NULL, current->frame, current->mode); } fWorkspaces[0].StoredScreenConfiguration().SetBrightness(id, brightness); // Save brightness for next boot StoreWorkspaceConfiguration(0); } return result; } status_t Desktop::LockDirectScreen(team_id team) { // TODO: BWindowScreens should use the same mechanism as BDirectWindow, // which would make this method superfluous. status_t status = fDirectScreenLock.LockWithTimeout(1000000L); if (status == B_OK) fDirectScreenTeam = team; return status; } status_t Desktop::UnlockDirectScreen(team_id team) { if (fDirectScreenTeam == team) { fDirectScreenLock.Unlock(); fDirectScreenTeam = -1; return B_OK; } return B_PERMISSION_DENIED; } // #pragma mark - Workspaces methods /*! Changes the current workspace to the one specified by \a index. */ void Desktop::SetWorkspaceAsync(int32 index, bool moveFocusWindow) { BPrivate::LinkSender link(MessagePort()); link.StartMessage(AS_ACTIVATE_WORKSPACE); link.Attach(index); link.Attach(moveFocusWindow); link.Flush(); } /*! Changes the current workspace to the one specified by \a index. You must not hold any window lock when calling this method. */ void Desktop::SetWorkspace(int32 index, bool moveFocusWindow) { LockAllWindows(); DesktopSettings settings(this); if (index < 0 || index >= settings.WorkspacesCount() || index == fCurrentWorkspace) { UnlockAllWindows(); return; } _SetWorkspace(index, moveFocusWindow); UnlockAllWindows(); _SendFakeMouseMoved(); } status_t Desktop::SetWorkspacesLayout(int32 newColumns, int32 newRows) { int32 newCount = newColumns * newRows; if (newCount < 1 || newCount > kMaxWorkspaces) return B_BAD_VALUE; if (!LockAllWindows()) return B_ERROR; fSettings->SetWorkspacesLayout(newColumns, newRows); // either update the workspaces window, or switch to // the last available workspace - which will update // the workspaces window automatically bool workspaceChanged = CurrentWorkspace() >= newCount; if (workspaceChanged) _SetWorkspace(newCount - 1); else _WindowChanged(NULL); UnlockAllWindows(); if (workspaceChanged) _SendFakeMouseMoved(); return B_OK; } /*! Returns the virtual screen frame of the workspace specified by \a index. */ BRect Desktop::WorkspaceFrame(int32 index) const { BRect frame; if (index == fCurrentWorkspace) frame = fVirtualScreen.Frame(); else if (index >= 0 && index < fSettings->WorkspacesCount()) { BMessage screenData; if (fSettings->WorkspacesMessage(index)->FindMessage("screen", &screenData) != B_OK || screenData.FindRect("frame", &frame) != B_OK) { frame = fVirtualScreen.Frame(); } } return frame; } /*! \brief Stores the workspace configuration. You must hold the window lock when calling this method. */ void Desktop::StoreWorkspaceConfiguration(int32 index) { // Retrieve settings BMessage settings; fWorkspaces[index].StoreConfiguration(settings); // and store them fSettings->SetWorkspacesMessage(index, settings); fSettings->Save(kWorkspacesSettings); } void Desktop::AddWorkspacesView(WorkspacesView* view) { if (view->Window() == NULL || view->Window()->IsHidden()) return; BAutolock _(fWorkspacesLock); if (!fWorkspacesViews.HasItem(view)) fWorkspacesViews.AddItem(view); } void Desktop::RemoveWorkspacesView(WorkspacesView* view) { BAutolock _(fWorkspacesLock); fWorkspacesViews.RemoveItem(view); } // #pragma mark - Methods for Window manipulation /*! \brief Activates or focusses the window based on the pointer position. */ void Desktop::SelectWindow(Window* window) { if (fSettings->ClickToFocusMouse()) { // Only bring the window to front when it is not the window under the // mouse pointer. This should result in sensible behaviour. if (window != fWindowUnderMouse || (window == fWindowUnderMouse && window != FocusWindow())) ActivateWindow(window); else SetFocusWindow(window); } else ActivateWindow(window); } /*! \brief Tries to move the specified window to the front of the screen, and make it the focus window. If there are any modal windows on this screen, it might not actually become the frontmost window, though, as modal windows stay in front of their subset. */ void Desktop::ActivateWindow(Window* window) { STRACE(("ActivateWindow(%p, %s)\n", window, window ? window->Title() : "")); if (window == NULL) { fBack = NULL; fFront = NULL; return; } if (window->Workspaces() == 0 && window->IsNormal()) return; AutoWriteLocker allWindowLocker(fWindowLock); NotifyWindowActivated(window); bool windowOnOtherWorkspace = !window->InWorkspace(fCurrentWorkspace); if (windowOnOtherWorkspace && (window->Flags() & B_NOT_ANCHORED_ON_ACTIVATE) == 0) { if ((window->Flags() & B_NO_WORKSPACE_ACTIVATION) == 0) { // Switch to the workspace on which this window is // (we'll take the first one that the window is on) uint32 workspaces = window->Workspaces(); for (int32 i = 0; i < fSettings->WorkspacesCount(); i++) { uint32 workspace = workspace_to_workspaces(i); if (workspaces & workspace) { SetWorkspace(i); windowOnOtherWorkspace = false; break; } } } else return; } if (windowOnOtherWorkspace) { if (!window->IsNormal()) { // Bring a window to front that this floating window belongs to Window* front = _LastFocusSubsetWindow(window); if (front == NULL) { // We can't do anything about those. return; } ActivateWindow(front); if (!window->InWorkspace(fCurrentWorkspace)) { // This window can't be made active return; } } else { // Bring the window to the current workspace // TODO: what if this window is on multiple workspaces?!? uint32 workspaces = workspace_to_workspaces(fCurrentWorkspace); SetWindowWorkspaces(window, workspaces); } } if (window->IsMinimized()) { // Unlike WindowAction(), this is called from the application itself, // so we will just unminimize the window here. window->SetMinimized(false); ShowWindow(window); } if (window == FrontWindow()) { // see if there is a normal B_AVOID_FRONT window still in front of us Window* avoidsFront = window->NextWindow(fCurrentWorkspace); while (avoidsFront && avoidsFront->IsNormal() && (avoidsFront->Flags() & B_AVOID_FRONT) == 0) { avoidsFront = avoidsFront->NextWindow(fCurrentWorkspace); } if (avoidsFront == NULL) { // we're already the frontmost window, we might just not have focus // yet if ((window->Flags() & B_AVOID_FOCUS) == 0) SetFocusWindow(window); return; } } WindowList windows(kWorkingList); Window* frontmost = window->Frontmost(); const Window* lastWindowUnderMouse = fWindowUnderMouse; CurrentWindows().RemoveWindow(window); windows.AddWindow(window); window->MoveToTopStackLayer(); if (frontmost != NULL && frontmost->IsModal()) { // all modal windows follow their subsets to the front // (ie. they are staying in front of them, but they are // not supposed to change their order because of that) Window* nextModal; for (Window* modal = frontmost; modal != NULL; modal = nextModal) { // get the next modal window nextModal = modal->NextWindow(fCurrentWorkspace); while (nextModal != NULL && !nextModal->IsModal()) { nextModal = nextModal->NextWindow(fCurrentWorkspace); } if (nextModal != NULL && !nextModal->HasInSubset(window)) nextModal = NULL; CurrentWindows().RemoveWindow(modal); windows.AddWindow(modal); } } _BringWindowsToFront(windows, kWorkingList, true); if ((window->Flags() & B_AVOID_FOCUS) == 0) SetFocusWindow(window); bool sendFakeMouseMoved = _CheckSendFakeMouseMoved(lastWindowUnderMouse); allWindowLocker.Unlock(); if (sendFakeMouseMoved) _SendFakeMouseMoved(); } void Desktop::SendWindowBehind(Window* window, Window* behindOf, bool sendStack) { if (!LockAllWindows()) return; Window* orgWindow = window; WindowStack* stack = window->GetWindowStack(); if (sendStack && stack != NULL) window = stack->TopLayerWindow(); // TODO: should the "not in current workspace" be handled anyway? // (the code below would have to be changed then, though) if (window == BackWindow() || !window->InWorkspace(fCurrentWorkspace) || (behindOf != NULL && !behindOf->InWorkspace(fCurrentWorkspace))) { UnlockAllWindows(); return; } // Is this a valid behindOf window? if (behindOf != NULL && window->HasInSubset(behindOf)) behindOf = NULL; // what is currently visible of the window // might be dirty after the window is send to back BRegion dirty(window->VisibleRegion()); Window* backmost = window->Backmost(behindOf); const Window* lastWindowUnderMouse = fWindowUnderMouse; CurrentWindows().RemoveWindow(window); CurrentWindows().AddWindow(window, backmost ? backmost->NextWindow(fCurrentWorkspace) : BackWindow()); BRegion dummy; _RebuildClippingForAllWindows(dummy); // only redraw the top layer window to avoid flicker if (sendStack) { // mark everything dirty that is no longer visible BRegion clean(window->VisibleRegion()); dirty.Exclude(&clean); MarkDirty(dirty); } _UpdateFronts(); if (fSettings->FocusFollowsMouse()) SetFocusWindow(WindowAt(fLastMousePosition)); else if (fSettings->NormalMouse()) SetFocusWindow(NULL); _WindowChanged(window); if (sendStack && stack != NULL) { for (int32 i = 0; i < stack->CountWindows(); i++) { Window* stackWindow = stack->LayerOrder().ItemAt(i); if (stackWindow == window) continue; SendWindowBehind(stackWindow, behindOf, false); } } bool sendFakeMouseMoved = _CheckSendFakeMouseMoved(lastWindowUnderMouse); NotifyWindowSentBehind(orgWindow, behindOf); UnlockAllWindows(); if (sendFakeMouseMoved) _SendFakeMouseMoved(); } void Desktop::ShowWindow(Window* window) { if (!window->IsHidden()) return; AutoWriteLocker locker(fWindowLock); window->SetHidden(false); fFocusList.AddWindow(window); // If the window is on the current workspace, we'll show it. Special // handling for floating windows, as they can only be shown if their // subset is. if (window->InWorkspace(fCurrentWorkspace) || (window->IsFloating() && _LastFocusSubsetWindow(window) != NULL)) { _ShowWindow(window, true); _UpdateSubsetWorkspaces(window); ActivateWindow(window); } else { // then we don't need to send the fake mouse event either _WindowChanged(window); return; } if (window->HasWorkspacesViews()) { // find workspaces views in view hierarchy BAutolock _(fWorkspacesLock); window->FindWorkspacesViews(fWorkspacesViews); } // If the mouse cursor is directly over the newly visible window, // we'll send a fake mouse moved message to the window, so that // it knows the mouse is over it. _SendFakeMouseMoved(window); } void Desktop::HideWindow(Window* window, bool fromMinimize) { if (window->IsHidden()) return; if (!LockAllWindows()) return; window->SetHidden(true); fFocusList.RemoveWindow(window); if (fMouseEventWindow == window) { // Make its decorator lose the current mouse action BMessage message; int32 viewToken; window->MouseUp(&message, fLastMousePosition, &viewToken); fMouseEventWindow = NULL; } if (fLockedFocusWindow == window) { // Remove the focus lock so the focus can be changed below fLockedFocusWindow = NULL; } if (window->InWorkspace(fCurrentWorkspace)) { _UpdateSubsetWorkspaces(window); _HideWindow(window); _UpdateFronts(); } else _WindowChanged(window); if (FocusWindow() == window) SetFocusWindow(); _WindowRemoved(window); if (window->HasWorkspacesViews()) { // remove workspaces views from this window BObjectList list(false); window->FindWorkspacesViews(list); BAutolock _(fWorkspacesLock); while (WorkspacesView* view = list.RemoveItemAt(0)) { fWorkspacesViews.RemoveItem(view); } } NotifyWindowHidden(window, fromMinimize); UnlockAllWindows(); if (window == fWindowUnderMouse) _SendFakeMouseMoved(); } void Desktop::MinimizeWindow(Window* window, bool minimize) { if (!LockAllWindows()) return; if (minimize && !window->IsHidden()) { HideWindow(window, true); window->SetMinimized(minimize); NotifyWindowMinimized(window, minimize); } else if (!minimize && window->IsHidden()) { ActivateWindow(window); // this will unminimize the window for us NotifyWindowMinimized(window, minimize); } UnlockAllWindows(); } void Desktop::MoveWindowBy(Window* window, float x, float y, int32 workspace) { if (x == 0 && y == 0) return; AutoWriteLocker _(fWindowLock); Window* topWindow = window->TopLayerStackWindow(); if (topWindow != NULL) window = topWindow; if (workspace == -1) workspace = fCurrentWorkspace; if (!window->IsVisible() || workspace != fCurrentWorkspace) { if (workspace != fCurrentWorkspace) { WindowStack* stack = window->GetWindowStack(); if (stack != NULL) { for (int32 s = 0; s < stack->CountWindows(); s++) { Window* stackWindow = stack->WindowAt(s); // move the window on another workspace - this doesn't // change it's current position if (stackWindow->Anchor(workspace).position == kInvalidWindowPosition) { stackWindow->Anchor(workspace).position = stackWindow->Frame().LeftTop(); } stackWindow->Anchor(workspace).position += BPoint(x, y); stackWindow->SetCurrentWorkspace(workspace); _WindowChanged(stackWindow); } } } else window->MoveBy((int32)x, (int32)y); NotifyWindowMoved(window); return; } // the dirty region starts with the visible area of the window being moved BRegion newDirtyRegion(window->VisibleRegion()); // stop direct frame buffer access bool direct = false; if (window->ServerWindow()->IsDirectlyAccessing()) { window->ServerWindow()->HandleDirectConnection(B_DIRECT_STOP); direct = true; } window->MoveBy((int32)x, (int32)y); BRegion background; _RebuildClippingForAllWindows(background); // construct the region that is possible to be blitted // to move the contents of the window BRegion copyRegion(window->VisibleRegion()); copyRegion.OffsetBy((int32)-x, (int32)-y); copyRegion.IntersectWith(&newDirtyRegion); // newDirtyRegion == the windows old visible region // include the the new visible region of the window being // moved into the dirty region (for now) newDirtyRegion.Include(&window->VisibleRegion()); // NOTE: Having all windows locked should prevent any // problems with locking the drawing engine here. if (GetDrawingEngine()->LockParallelAccess()) { GetDrawingEngine()->CopyRegion(©Region, (int32)x, (int32)y); GetDrawingEngine()->UnlockParallelAccess(); } // in the dirty region, exclude the parts that we // could move by blitting copyRegion.OffsetBy((int32)x, (int32)y); newDirtyRegion.Exclude(©Region); MarkDirty(newDirtyRegion); _SetBackground(background); _WindowChanged(window); // resume direct frame buffer access if (direct) { // TODO: the clipping actually only changes when we move our window // off screen, or behind some other window window->ServerWindow()->HandleDirectConnection( B_DIRECT_START | B_BUFFER_MOVED | B_CLIPPING_MODIFIED); } NotifyWindowMoved(window); } void Desktop::ResizeWindowBy(Window* window, float x, float y) { if (x == 0 && y == 0) return; AutoWriteLocker _(fWindowLock); Window* topWindow = window->TopLayerStackWindow(); if (topWindow) window = topWindow; if (!window->IsVisible()) { window->ResizeBy((int32)x, (int32)y, NULL); NotifyWindowResized(window); return; } // The dirty region for the inside of the window is constructed by the window itself in // ResizeBy() BRegion newDirtyRegion; // Track the dirty region outside the window in case it is shrunk in "previouslyOccupiedRegion" BRegion previouslyOccupiedRegion(window->VisibleRegion()); // Track the region that was drawn in previous update sessions, so we can compute the newly // exposed areas by excluding this from the update region. BRegion previousVisibleContentRegion(window->VisibleContentRegion()); // stop direct frame buffer access bool direct = false; if (window->ServerWindow()->IsDirectlyAccessing()) { window->ServerWindow()->HandleDirectConnection(B_DIRECT_STOP); direct = true; } window->ResizeBy((int32)x, (int32)y, &newDirtyRegion); BRegion background; _RebuildClippingForAllWindows(background); // we just care for the region outside the window previouslyOccupiedRegion.Exclude(&window->VisibleRegion()); // make sure the window cannot mark stuff dirty outside // its visible region... newDirtyRegion.IntersectWith(&window->VisibleRegion()); // ...because we do this ourselves newDirtyRegion.Include(&previouslyOccupiedRegion); // calculate old expose region as window visible region difference BRegion exposeRegion(previouslyOccupiedRegion); exposeRegion.Exclude(&window->VisibleRegion()); // ...and new expose region as window content visible region difference BRegion tmp(window->VisibleContentRegion()); tmp.Exclude(&previousVisibleContentRegion); exposeRegion.Include(&tmp); MarkDirty(newDirtyRegion, exposeRegion); _SetBackground(background); _WindowChanged(window); // resume direct frame buffer access if (direct) { window->ServerWindow()->HandleDirectConnection( B_DIRECT_START | B_BUFFER_RESIZED | B_CLIPPING_MODIFIED); } NotifyWindowResized(window); } void Desktop::SetWindowOutlinesDelta(Window* window, BPoint delta) { AutoWriteLocker _(fWindowLock); if (!window->IsVisible()) return; BRegion newDirtyRegion; window->SetOutlinesDelta(delta, &newDirtyRegion); BRegion background; _RebuildClippingForAllWindows(background); MarkDirty(newDirtyRegion); _SetBackground(background); } bool Desktop::SetWindowTabLocation(Window* window, float location, bool isShifting) { AutoWriteLocker _(fWindowLock); BRegion dirty; bool changed = window->SetTabLocation(location, isShifting, dirty); if (changed) RebuildAndRedrawAfterWindowChange(window, dirty); NotifyWindowTabLocationChanged(window, location, isShifting); return changed; } bool Desktop::SetWindowDecoratorSettings(Window* window, const BMessage& settings) { AutoWriteLocker _(fWindowLock); BRegion dirty; bool changed = window->SetDecoratorSettings(settings, dirty); bool listenerChanged = SetDecoratorSettings(window, settings); if (changed || listenerChanged) RebuildAndRedrawAfterWindowChange(window, dirty); return changed; } void Desktop::SetWindowWorkspaces(Window* window, uint32 workspaces) { LockAllWindows(); if (window->IsNormal() && workspaces == B_CURRENT_WORKSPACE) workspaces = workspace_to_workspaces(CurrentWorkspace()); WindowStack* stack = window->GetWindowStack(); if (stack != NULL) { for (int32 s = 0; s < stack->CountWindows(); s++) { window = stack->LayerOrder().ItemAt(s); uint32 oldWorkspaces = window->Workspaces(); window->WorkspacesChanged(oldWorkspaces, workspaces); _ChangeWindowWorkspaces(window, oldWorkspaces, workspaces); } } UnlockAllWindows(); } /*! \brief Adds the window to the desktop. At this point, the window is still hidden and must be shown explicitly via ShowWindow(). */ void Desktop::AddWindow(Window *window) { LockAllWindows(); fAllWindows.AddWindow(window); if (!window->IsNormal()) fSubsetWindows.AddWindow(window); if (window->IsNormal()) { if (window->Workspaces() == B_CURRENT_WORKSPACE) window->SetWorkspaces(workspace_to_workspaces(CurrentWorkspace())); } else { // subset windows are visible on all workspaces their subset is on window->SetWorkspaces(window->SubsetWorkspaces()); } _ChangeWindowWorkspaces(window, 0, window->Workspaces()); NotifyWindowAdded(window); UnlockAllWindows(); } void Desktop::RemoveWindow(Window *window) { LockAllWindows(); if (!window->IsHidden()) HideWindow(window); fAllWindows.RemoveWindow(window); if (!window->IsNormal()) fSubsetWindows.RemoveWindow(window); _ChangeWindowWorkspaces(window, window->Workspaces(), 0); NotifyWindowRemoved(window); UnlockAllWindows(); // make sure this window won't get any events anymore EventDispatcher().RemoveTarget(window->EventTarget()); } bool Desktop::AddWindowToSubset(Window* subset, Window* window) { if (!subset->AddToSubset(window)) return false; _ChangeWindowWorkspaces(subset, subset->Workspaces(), subset->SubsetWorkspaces()); return true; } void Desktop::RemoveWindowFromSubset(Window* subset, Window* window) { subset->RemoveFromSubset(window); _ChangeWindowWorkspaces(subset, subset->Workspaces(), subset->SubsetWorkspaces()); } void Desktop::FontsChanged(Window* window) { AutoWriteLocker _(fWindowLock); BRegion dirty; window->FontsChanged(&dirty); RebuildAndRedrawAfterWindowChange(window, dirty); } void Desktop::ColorUpdated(Window* window, color_which which, rgb_color color) { AutoWriteLocker _(fWindowLock); window->TopView()->ColorUpdated(which, color); switch (which) { case B_WINDOW_TAB_COLOR: case B_WINDOW_TEXT_COLOR: case B_WINDOW_INACTIVE_TAB_COLOR: case B_WINDOW_INACTIVE_TEXT_COLOR: case B_WINDOW_BORDER_COLOR: case B_WINDOW_INACTIVE_BORDER_COLOR: break; default: return; } BRegion dirty; window->ColorsChanged(&dirty); RebuildAndRedrawAfterWindowChange(window, dirty); } void Desktop::SetWindowLook(Window* window, window_look newLook) { if (window->Look() == newLook) return; AutoWriteLocker _(fWindowLock); BRegion dirty; window->SetLook(newLook, &dirty); // TODO: test what happens when the window // finds out it needs to resize itself... RebuildAndRedrawAfterWindowChange(window, dirty); NotifyWindowLookChanged(window, newLook); } void Desktop::SetWindowFeel(Window* window, window_feel newFeel) { if (window->Feel() == newFeel) return; LockAllWindows(); bool wasNormal = window->IsNormal(); window->SetFeel(newFeel); // move the window out of or into the subset window list as needed if (window->IsNormal() && !wasNormal) fSubsetWindows.RemoveWindow(window); else if (!window->IsNormal() && wasNormal) fSubsetWindows.AddWindow(window); // A normal window that was once a floating or modal window will // adopt the window's current workspaces if (!window->IsNormal()) { _ChangeWindowWorkspaces(window, window->Workspaces(), window->SubsetWorkspaces()); } // make sure the window has the correct position in the window lists // (ie. all floating windows have to be on the top, ...) for (int32 i = 0; i < kMaxWorkspaces; i++) { if (!workspace_in_workspaces(i, window->Workspaces())) continue; bool changed = false; BRegion visibleBefore; if (i == fCurrentWorkspace && window->IsVisible()) visibleBefore = window->VisibleRegion(); Window* backmost = window->Backmost(_Windows(i).LastWindow(), i); if (backmost != NULL) { // check if the backmost window is really behind it Window* previous = window->PreviousWindow(i); while (previous != NULL) { if (previous == backmost) break; previous = previous->PreviousWindow(i); } if (previous == NULL) { // need to reinsert window before its backmost window _Windows(i).RemoveWindow(window); _Windows(i).AddWindow(window, backmost->NextWindow(i)); changed = true; } } Window* frontmost = window->Frontmost(_Windows(i).FirstWindow(), i); if (frontmost != NULL) { // check if the frontmost window is really in front of it Window* next = window->NextWindow(i); while (next != NULL) { if (next == frontmost) break; next = next->NextWindow(i); } if (next == NULL) { // need to reinsert window behind its frontmost window _Windows(i).RemoveWindow(window); _Windows(i).AddWindow(window, frontmost); changed = true; } } if (i == fCurrentWorkspace && changed) { BRegion dummy; _RebuildClippingForAllWindows(dummy); // mark everything dirty that is no longer visible, or // is now visible and wasn't before BRegion visibleAfter(window->VisibleRegion()); BRegion dirty(visibleAfter); dirty.Exclude(&visibleBefore); visibleBefore.Exclude(&visibleAfter); dirty.Include(&visibleBefore); MarkDirty(dirty); } } _UpdateFronts(); if (window == FocusWindow() && !window->IsVisible()) SetFocusWindow(); NotifyWindowFeelChanged(window, newFeel); UnlockAllWindows(); } void Desktop::SetWindowFlags(Window *window, uint32 newFlags) { if (window->Flags() == newFlags) return; AutoWriteLocker _(fWindowLock); BRegion dirty; window->SetFlags(newFlags, &dirty); // TODO: test what happens when the window // finds out it needs to resize itself... RebuildAndRedrawAfterWindowChange(window, dirty); } void Desktop::SetWindowTitle(Window *window, const char* title) { AutoWriteLocker _(fWindowLock); BRegion dirty; window->SetTitle(title, dirty); RebuildAndRedrawAfterWindowChange(window, dirty); } /*! Returns the window under the mouse cursor. You need to have acquired the All Windows lock when calling this method. */ Window* Desktop::WindowAt(BPoint where) { for (Window* window = CurrentWindows().LastWindow(); window; window = window->PreviousWindow(fCurrentWorkspace)) { if (window->IsVisible() && window->VisibleRegion().Contains(where)) return window->StackedWindowAt(where); } return NULL; } void Desktop::SetMouseEventWindow(Window* window) { fMouseEventWindow = window; } void Desktop::SetViewUnderMouse(const Window* window, int32 viewToken) { fWindowUnderMouse = window; fViewUnderMouse = viewToken; } int32 Desktop::ViewUnderMouse(const Window* window) { if (window != NULL && fWindowUnderMouse == window) return fViewUnderMouse; return B_NULL_TOKEN; } /*! Returns the current keyboard event target candidate - which is either the top-most window (in case it has the kAcceptKeyboardFocusFlag flag set), or the one having focus. The window lock must be held when calling this function. */ EventTarget* Desktop::KeyboardEventTarget() { // Get the top most non-hidden window Window* window = CurrentWindows().LastWindow(); while (window != NULL && window->IsHidden()) { window = window->PreviousWindow(fCurrentWorkspace); } if (window != NULL && (window->Flags() & kAcceptKeyboardFocusFlag) != 0) return &window->EventTarget(); if (FocusWindow() != NULL) return &FocusWindow()->EventTarget(); return NULL; } /*! Tries to set the focus to the specified \a focus window. It will make sure, however, that the window actually can have focus. You are allowed to pass in a NULL pointer for \a focus. Besides the B_AVOID_FOCUS flag, a modal window, or a BWindowScreen can both prevent it from getting focus. In any case, this method makes sure that there is a focus window, if there is any window at all, that is. */ void Desktop::SetFocusWindow(Window* nextFocus) { if (!LockAllWindows()) return; // test for B_LOCK_WINDOW_FOCUS if (fLockedFocusWindow && nextFocus != fLockedFocusWindow) { UnlockAllWindows(); return; } bool hasModal = _WindowHasModal(nextFocus); bool hasWindowScreen = false; if (!hasModal && nextFocus != NULL) { // Check whether or not a window screen is in front of the window // (if it has a modal, the right thing is done, anyway) Window* window = nextFocus; while (true) { window = window->NextWindow(fCurrentWorkspace); if (window == NULL || window->Feel() == kWindowScreenFeel) break; } if (window != NULL) hasWindowScreen = true; } if (nextFocus == fFocus && nextFocus != NULL && !nextFocus->IsHidden() && (nextFocus->Flags() & B_AVOID_FOCUS) == 0 && !hasModal && !hasWindowScreen) { // the window that is supposed to get focus already has focus UnlockAllWindows(); return; } uint32 listIndex = fCurrentWorkspace; WindowList* list = &_Windows(fCurrentWorkspace); if (!fSettings->NormalMouse()) { listIndex = kFocusList; list = &fFocusList; } if (nextFocus == NULL || hasModal || hasWindowScreen) { nextFocus = list->LastWindow(); if (fSettings->NormalMouse()) { // If the last window having focus is a window that cannot make it // to the front, we use that as the next focus Window* lastFocus = fFocusList.LastWindow(); if (lastFocus != NULL && !lastFocus->SupportsFront() && _WindowCanHaveFocus(lastFocus)) { nextFocus = lastFocus; } } } // make sure no window is chosen that doesn't want focus or cannot have it while (nextFocus != NULL && !_WindowCanHaveFocus(nextFocus)) { nextFocus = nextFocus->PreviousWindow(listIndex); } if (fFocus == nextFocus) { // turns out the window that is supposed to get focus now already has it UnlockAllWindows(); return; } team_id oldActiveApp = -1; team_id newActiveApp = -1; if (fFocus != NULL) { fFocus->SetFocus(false); oldActiveApp = fFocus->ServerWindow()->App()->ClientTeam(); } fFocus = nextFocus; if (fFocus != NULL) { fFocus->SetFocus(true); newActiveApp = fFocus->ServerWindow()->App()->ClientTeam(); // move current focus to the end of the focus list fFocusList.RemoveWindow(fFocus); fFocusList.AddWindow(fFocus); } if (newActiveApp == -1) { // make sure the cursor is visible HWInterface()->SetCursorVisible(true); } UnlockAllWindows(); // change the "active" app if appropriate if (oldActiveApp == newActiveApp) return; BAutolock locker(fApplicationsLock); for (int32 i = 0; i < fApplications.CountItems(); i++) { ServerApp* app = fApplications.ItemAt(i); if (oldActiveApp != -1 && app->ClientTeam() == oldActiveApp) app->Activate(false); else if (newActiveApp != -1 && app->ClientTeam() == newActiveApp) app->Activate(true); } } void Desktop::SetFocusLocked(const Window* window) { AutoWriteLocker _(fWindowLock); if (window != NULL) { // Don't allow this to be set when no mouse buttons // are pressed. (BView::SetMouseEventMask() should only be called // from mouse hooks.) if (fLastMouseButtons == 0) return; } fLockedFocusWindow = window; } Window* Desktop::FindWindowByClientToken(int32 token, team_id teamID) { for (Window *window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if (window->ServerWindow()->ClientToken() == token && window->ServerWindow()->ClientTeam() == teamID) { return window; } } return NULL; } ::EventTarget* Desktop::FindTarget(BMessenger& messenger) { for (Window *window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if (window->EventTarget().Messenger() == messenger) return &window->EventTarget(); } return NULL; } void Desktop::MarkDirty(BRegion& dirtyRegion, BRegion& exposeRegion) { if (dirtyRegion.CountRects() == 0) return; if (LockAllWindows()) { // send redraw messages to all windows intersecting the dirty region _TriggerWindowRedrawing(dirtyRegion, exposeRegion); UnlockAllWindows(); } } void Desktop::Redraw() { BRegion dirty(fVirtualScreen.Frame()); MarkDirty(dirty); } /*! \brief Redraws the background (ie. the desktop window, if any). */ void Desktop::RedrawBackground() { LockAllWindows(); BRegion redraw; Window* window = CurrentWindows().FirstWindow(); if (window != NULL && window->Feel() == kDesktopWindowFeel) { redraw = window->VisibleContentRegion(); // look for desktop background view, and update its background color // TODO: is there a better way to do this? View* view = window->TopView(); if (view != NULL) view = view->FirstChild(); while (view != NULL) { if (view->IsDesktopBackground()) { view->SetViewColor(fWorkspaces[fCurrentWorkspace].Color()); break; } view = view->NextSibling(); } window->ProcessDirtyRegion(redraw); } else { redraw = BackgroundRegion(); fBackgroundRegion.MakeEmpty(); _SetBackground(redraw); } _WindowChanged(NULL); // update workspaces view as well UnlockAllWindows(); } bool Desktop::ReloadDecor(DecorAddOn* oldDecor) { AutoWriteLocker _(fWindowLock); bool returnValue = true; if (oldDecor != NULL) { const DesktopListenerList* oldListeners = &oldDecor->GetDesktopListeners(); for (int i = 0; i < oldListeners->CountItems(); i++) UnregisterListener(oldListeners->ItemAt(i)); } for (Window* window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { BRegion oldBorder; window->GetBorderRegion(&oldBorder); if (!window->ReloadDecor()) { // prevent unloading previous add-on returnValue = false; } BRegion border; window->GetBorderRegion(&border); border.Include(&oldBorder); RebuildAndRedrawAfterWindowChange(window, border); } // register new listeners const DesktopListenerList& newListeners = gDecorManager.GetDesktopListeners(); for (int i = 0; i < newListeners.CountItems(); i++) RegisterListener(newListeners.ItemAt(i)); return returnValue; } void Desktop::MinimizeApplication(team_id team) { AutoWriteLocker locker(fWindowLock); // Just minimize all windows of that application for (Window *window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if (window->ServerWindow()->ClientTeam() != team) continue; window->ServerWindow()->NotifyMinimize(true); } } void Desktop::BringApplicationToFront(team_id team) { AutoWriteLocker locker(fWindowLock); // TODO: for now, just maximize all windows of that application // TODO: have the ability to lock the current workspace for (Window *window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if (window->ServerWindow()->ClientTeam() != team) continue; window->ServerWindow()->NotifyMinimize(false); } } void Desktop::WindowAction(int32 windowToken, int32 action) { if (action != B_MINIMIZE_WINDOW && action != B_BRING_TO_FRONT) return; LockAllWindows(); ::ServerWindow* serverWindow; Window* window; if (BPrivate::gDefaultTokens.GetToken(windowToken, B_SERVER_TOKEN, (void**)&serverWindow) != B_OK || (window = serverWindow->Window()) == NULL) { UnlockAllWindows(); return; } if (action == B_BRING_TO_FRONT && !window->IsMinimized()) { // the window is visible, we just need to make it the front window ActivateWindow(window); } else { // if not, ask the window if it wants to be unminimized serverWindow->NotifyMinimize(action == B_MINIMIZE_WINDOW); } UnlockAllWindows(); } void Desktop::WriteWindowList(team_id team, BPrivate::LinkSender& sender) { AutoWriteLocker locker(fWindowLock); // compute the number of windows int32 count = 0; for (Window *window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if (team < B_OK || window->ServerWindow()->ClientTeam() == team) count++; } // write list sender.StartMessage(B_OK); sender.Attach(count); // first write the windows of the current workspace correctly ordered for (Window *window = CurrentWindows().LastWindow(); window != NULL; window = window->PreviousWindow(fCurrentWorkspace)) { if (team >= B_OK && window->ServerWindow()->ClientTeam() != team) continue; sender.Attach(window->ServerWindow()->ServerToken()); } // then write all the other windows for (Window *window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if ((team >= B_OK && window->ServerWindow()->ClientTeam() != team) || window->InWorkspace(fCurrentWorkspace)) continue; sender.Attach(window->ServerWindow()->ServerToken()); } sender.Flush(); } void Desktop::WriteWindowInfo(int32 serverToken, BPrivate::LinkSender& sender) { AutoWriteLocker locker(fWindowLock); BAutolock tokenLocker(BPrivate::gDefaultTokens); ::ServerWindow* window; if (BPrivate::gDefaultTokens.GetToken(serverToken, B_SERVER_TOKEN, (void**)&window) != B_OK) { sender.StartMessage(B_ENTRY_NOT_FOUND); sender.Flush(); return; } window_info info; window->GetInfo(info); float tabSize = 0.0; float borderSize = 0.0; ::Window* tmp = window->Window(); if (tmp) { BMessage message; if (tmp->GetDecoratorSettings(&message)) { BRect tabFrame; message.FindRect("tab frame", &tabFrame); tabSize = tabFrame.bottom - tabFrame.top; message.FindFloat("border width", &borderSize); } } int32 length = window->Title() ? strlen(window->Title()) : 0; sender.StartMessage(B_OK); sender.Attach(sizeof(client_window_info) + length + 1); sender.Attach(&info, sizeof(window_info)); sender.Attach(tabSize); sender.Attach(borderSize); if (length > 0) sender.Attach(window->Title(), length + 1); else sender.Attach('\0'); sender.Flush(); } void Desktop::WriteWindowOrder(int32 workspace, BPrivate::LinkSender& sender) { LockSingleWindow(); if (workspace < 0) workspace = fCurrentWorkspace; else if (workspace >= kMaxWorkspaces) { sender.StartMessage(B_BAD_VALUE); sender.Flush(); UnlockSingleWindow(); return; } int32 count = _Windows(workspace).Count(); // write list sender.StartMessage(B_OK); sender.Attach(count); for (Window *window = _Windows(workspace).LastWindow(); window != NULL; window = window->PreviousWindow(workspace)) { sender.Attach(window->ServerWindow()->ServerToken()); } sender.Flush(); UnlockSingleWindow(); } void Desktop::WriteApplicationOrder(int32 workspace, BPrivate::LinkSender& sender) { fApplicationsLock.Lock(); LockSingleWindow(); int32 maxCount = fApplications.CountItems(); fApplicationsLock.Unlock(); // as long as we hold the window lock, no new window can appear if (workspace < 0) workspace = fCurrentWorkspace; else if (workspace >= kMaxWorkspaces) { sender.StartMessage(B_BAD_VALUE); sender.Flush(); UnlockSingleWindow(); return; } // compute the list of applications on this workspace team_id* teams = (team_id*)malloc(maxCount * sizeof(team_id)); if (teams == NULL) { sender.StartMessage(B_NO_MEMORY); sender.Flush(); UnlockSingleWindow(); return; } int32 count = 0; for (Window *window = _Windows(workspace).LastWindow(); window != NULL; window = window->PreviousWindow(workspace)) { team_id team = window->ServerWindow()->ClientTeam(); if (count > 1) { // see if we already have this team bool found = false; for (int32 i = 0; i < count; i++) { if (teams[i] == team) { found = true; break; } } if (found) continue; } ASSERT(count < maxCount); teams[count++] = team; } UnlockSingleWindow(); // write list sender.StartMessage(B_OK); sender.Attach(count); for (int32 i = 0; i < count; i++) { sender.Attach(teams[i]); } sender.Flush(); free(teams); } void Desktop::_LaunchInputServer() { BRoster roster; status_t status = roster.Launch("application/x-vnd.Be-input_server"); if (status == B_OK || status == B_ALREADY_RUNNING) return; // Could not load input_server by signature, try well-known location BEntry entry; BPath inputServerPath; if (find_directory(B_SYSTEM_SERVERS_DIRECTORY, &inputServerPath) == B_OK && inputServerPath.Append("input_server") == B_OK) { entry.SetTo(inputServerPath.Path()); } else entry.SetTo("/system/servers/input_server"); entry_ref ref; status_t entryStatus = entry.GetRef(&ref); if (entryStatus == B_OK) entryStatus = roster.Launch(&ref); if (entryStatus == B_OK || entryStatus == B_ALREADY_RUNNING) { syslog(LOG_ERR, "Failed to launch the input server by signature: %s!\n", strerror(status)); return; } syslog(LOG_ERR, "Failed to launch the input server: %s!\n", strerror(entryStatus)); } void Desktop::_GetLooperName(char* name, size_t length) { snprintf(name, length, "d:%d:%s", fUserID, fTargetScreen == NULL ? "baron" : fTargetScreen); } void Desktop::_PrepareQuit() { // let's kill all remaining applications fApplicationsLock.Lock(); int32 count = fApplications.CountItems(); for (int32 i = 0; i < count; i++) { ServerApp *app = fApplications.ItemAt(i); team_id clientTeam = app->ClientTeam(); app->Quit(); kill_team(clientTeam); } // wait for the last app to die if (count > 0) { acquire_sem_etc(fShutdownSemaphore, fShutdownCount, B_RELATIVE_TIMEOUT, 250000); } fApplicationsLock.Unlock(); } void Desktop::_DispatchMessage(int32 code, BPrivate::LinkReceiver& link) { switch (code) { case AS_CREATE_APP: { // Create the ServerApp to node monitor a new BApplication // Attached data: // 1) port_id - receiver port of a regular app // 2) port_id - client looper port - for sending messages to the // client // 2) team_id - app's team ID // 3) int32 - handler token of the regular app // 4) char * - signature of the regular app // Find the necessary data team_id clientTeamID = -1; port_id clientLooperPort = -1; port_id clientReplyPort = -1; int32 htoken = B_NULL_TOKEN; char* appSignature = NULL; link.Read(&clientReplyPort); link.Read(&clientLooperPort); link.Read(&clientTeamID); link.Read(&htoken); if (link.ReadString(&appSignature) != B_OK) break; ObjectDeleter app(new (std::nothrow) ServerApp(this, clientReplyPort, clientLooperPort, clientTeamID, htoken, appSignature)); status_t status = B_OK; if (!app.IsSet()) status = B_NO_MEMORY; if (status == B_OK) status = app->InitCheck(); if (status == B_OK) status = app->Run(); if (status == B_OK) { // add the new ServerApp to the known list of ServerApps fApplicationsLock.Lock(); fApplications.AddItem(app.Detach()); fApplicationsLock.Unlock(); } else { // if everything went well, ServerApp::Run() will notify // the client - but since it didn't, we do it here BPrivate::LinkSender reply(clientReplyPort); reply.StartMessage(status); reply.Flush(); } // This is necessary because BPortLink::ReadString allocates memory free(appSignature); break; } case AS_DELETE_APP: { // Delete a ServerApp. Received only from the respective ServerApp // when a BApplication asks it to quit. // Attached Data: // 1) thread_id - thread ID of the ServerApp to be deleted thread_id thread = -1; if (link.Read(&thread) < B_OK) break; fApplicationsLock.Lock(); // Run through the list of apps and nuke the proper one int32 count = fApplications.CountItems(); ServerApp* removeApp = NULL; for (int32 i = 0; i < count; i++) { ServerApp* app = fApplications.ItemAt(i); if (app->Thread() == thread) { fApplications.RemoveItemAt(i); removeApp = app; break; } } fApplicationsLock.Unlock(); if (removeApp != NULL) removeApp->Quit(fShutdownSemaphore); if (fQuitting && count <= 1) { // wait for the last app to die acquire_sem_etc(fShutdownSemaphore, fShutdownCount, B_RELATIVE_TIMEOUT, 500000); PostMessage(kMsgQuitLooper); } break; } case AS_ACTIVATE_APP: { // Someone is requesting to activation of a certain app. // Attached data: // 1) port_id reply port // 2) team_id team status_t status; // get the parameters port_id replyPort; team_id team; if (link.Read(&replyPort) == B_OK && link.Read(&team) == B_OK) status = _ActivateApp(team); else status = B_ERROR; // send the reply BPrivate::PortLink replyLink(replyPort); replyLink.StartMessage(status); replyLink.Flush(); break; } case AS_APP_CRASHED: case AS_DUMP_ALLOCATOR: case AS_DUMP_BITMAPS: { BAutolock locker(fApplicationsLock); team_id team; if (link.Read(&team) != B_OK) break; for (int32 i = 0; i < fApplications.CountItems(); i++) { ServerApp* app = fApplications.ItemAt(i); if (app->ClientTeam() == team) app->PostMessage(code); } break; } case AS_EVENT_STREAM_CLOSED: _LaunchInputServer(); break; case B_QUIT_REQUESTED: // We've been asked to quit, so (for now) broadcast to all // test apps to quit. This situation will occur only when the // server is compiled as a regular Be application. fApplicationsLock.Lock(); fShutdownSemaphore = create_sem(0, "desktop shutdown"); fShutdownCount = fApplications.CountItems(); fApplicationsLock.Unlock(); fQuitting = true; BroadcastToAllApps(AS_QUIT_APP); // We now need to process the remaining AS_DELETE_APP messages. // We quit the looper when the last app is deleted. // if there are no apps to quit, shutdown directly if (fShutdownCount == 0) PostMessage(kMsgQuitLooper); break; case AS_ACTIVATE_WORKSPACE: { int32 index; link.Read(&index); if (index == -1) index = fPreviousWorkspace; bool moveFocusWindow; link.Read(&moveFocusWindow); SetWorkspace(index, moveFocusWindow); break; } case AS_TALK_TO_DESKTOP_LISTENER: { port_id clientReplyPort; if (link.Read(&clientReplyPort) != B_OK) break; BPrivate::LinkSender reply(clientReplyPort); AutoWriteLocker locker(fWindowLock); if (MessageForListener(NULL, link, reply) != true) { // unhandled message, at least send an error if needed if (link.NeedsReply()) { reply.StartMessage(B_ERROR); reply.Flush(); } } break; } case AS_SET_UI_COLOR: { color_which which; rgb_color color; if (link.Read(&which) == B_OK && link.Read(&color) == B_OK) { const char* colorName = ui_color_name(which); fPendingColors.SetColor(colorName, color); DelayedMessage delayed(AS_SET_UI_COLORS, DM_60HZ_DELAY); delayed.AddTarget(MessagePort()); delayed.SetMerge(DM_MERGE_CANCEL); delayed.Attach(true); delayed.Flush(); } break; } case AS_SET_UI_COLORS: { bool flushPendingOnly = false; if (link.Read(&flushPendingOnly) != B_OK || (flushPendingOnly && fPendingColors.CountNames(B_RGB_32_BIT_TYPE) == 0)) { break; } if (!flushPendingOnly) { // Client wants to set a color map color_which which = B_NO_COLOR; rgb_color color; do { if (link.Read(&which) != B_OK || link.Read(&color) != B_OK) break; fPendingColors.SetColor(ui_color_name(which), color); } while (which != B_NO_COLOR); } _FlushPendingColors(); break; } // ToDo: Remove this again. It is a message sent by the // invalidate_on_exit kernel debugger add-on to trigger a redraw // after exiting a kernel debugger session. case 'KDLE': { BRegion dirty; dirty.Include(fVirtualScreen.Frame()); MarkDirty(dirty); break; } default: printf("Desktop %d:%s received unexpected code %" B_PRId32 "\n", 0, "baron", code); if (link.NeedsReply()) { // the client is now blocking and waiting for a reply! fLink.StartMessage(B_ERROR); fLink.Flush(); } break; } } WindowList& Desktop::CurrentWindows() { return fWorkspaces[fCurrentWorkspace].Windows(); } WindowList& Desktop::AllWindows() { return fAllWindows; } Window* Desktop::WindowForClientLooperPort(port_id port) { ASSERT_MULTI_LOCKED(fWindowLock); for (Window* window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if (window->ServerWindow()->ClientLooperPort() == port) return window; } return NULL; } WindowList& Desktop::_Windows(int32 index) { ASSERT(index >= 0 && index < kMaxWorkspaces); return fWorkspaces[index].Windows(); } void Desktop::_FlushPendingColors() { // Update all windows while we are holding the write lock. int32 count = fPendingColors.CountNames(B_RGB_32_BIT_TYPE); if (count == 0) return; bool changed[count]; LockedDesktopSettings settings(this); settings.SetUIColors(fPendingColors, &changed[0]); int32 index = 0; char* name = NULL; type_code type = B_RGB_32_BIT_TYPE; rgb_color color; color_which which = B_NO_COLOR; BMessage clientMessage(B_COLORS_UPDATED); while (fPendingColors.GetInfo(type, index, &name, &type) == B_OK) { which = which_ui_color(name); if (which == B_NO_COLOR || fPendingColors.FindColor(name, &color) != B_OK || !changed[index]) { ++index; continue; } for (Window* window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { ColorUpdated(window, which, color); } // Ensure client only gets list of changed colors clientMessage.AddColor(name, color); ++index; } // Notify client applications BAutolock appListLock(fApplicationsLock); for (int32 index = 0; index < fApplications.CountItems(); ++index) { fApplications.ItemAt(index)->SendMessageToClient(&clientMessage); } fPendingColors.MakeEmpty(); } void Desktop::_UpdateFloating(int32 previousWorkspace, int32 nextWorkspace, Window* mouseEventWindow) { if (previousWorkspace == -1) previousWorkspace = fCurrentWorkspace; if (nextWorkspace == -1) nextWorkspace = previousWorkspace; for (Window* floating = fSubsetWindows.FirstWindow(); floating != NULL; floating = floating->NextWindow(kSubsetList)) { // we only care about app/subset floating windows if (floating->Feel() != B_FLOATING_SUBSET_WINDOW_FEEL && floating->Feel() != B_FLOATING_APP_WINDOW_FEEL) continue; if (fFront != NULL && fFront->IsNormal() && floating->HasInSubset(fFront)) { // is now visible if (_Windows(previousWorkspace).HasWindow(floating) && previousWorkspace != nextWorkspace && !floating->InSubsetWorkspace(previousWorkspace)) { // but no longer on the previous workspace _Windows(previousWorkspace).RemoveWindow(floating); floating->SetCurrentWorkspace(-1); } if (!_Windows(nextWorkspace).HasWindow(floating)) { // but wasn't before _Windows(nextWorkspace).AddWindow(floating, floating->Frontmost(_Windows(nextWorkspace).FirstWindow(), nextWorkspace)); floating->SetCurrentWorkspace(nextWorkspace); if (mouseEventWindow != fFront) _ShowWindow(floating); // TODO: put the floating last in the floating window list to // preserve the on screen window order } } else if (_Windows(previousWorkspace).HasWindow(floating) && !floating->InSubsetWorkspace(previousWorkspace)) { // was visible, but is no longer _Windows(previousWorkspace).RemoveWindow(floating); floating->SetCurrentWorkspace(-1); _HideWindow(floating); if (FocusWindow() == floating) SetFocusWindow(); } } } /*! Search the visible windows for a valid back window (only desktop windows can't be back windows) */ void Desktop::_UpdateBack() { fBack = NULL; for (Window* window = CurrentWindows().FirstWindow(); window != NULL; window = window->NextWindow(fCurrentWorkspace)) { if (window->IsHidden() || window->Feel() == kDesktopWindowFeel) continue; fBack = window; break; } } /*! Search the visible windows for a valid front window (only normal and modal windows can be front windows) The only place where you don't want to update floating windows is during a workspace change - because then you'll call _UpdateFloating() yourself. */ void Desktop::_UpdateFront(bool updateFloating) { fFront = NULL; for (Window* window = CurrentWindows().LastWindow(); window != NULL; window = window->PreviousWindow(fCurrentWorkspace)) { if (window->IsHidden() || window->IsFloating() || !window->SupportsFront()) continue; fFront = window; break; } if (updateFloating) _UpdateFloating(); } void Desktop::_UpdateFronts(bool updateFloating) { _UpdateBack(); _UpdateFront(updateFloating); } bool Desktop::_WindowHasModal(Window* window) const { if (window == NULL) return false; for (Window* modal = fSubsetWindows.FirstWindow(); modal != NULL; modal = modal->NextWindow(kSubsetList)) { // only visible modal windows count if (!modal->IsModal() || modal->IsHidden()) continue; if (modal->HasInSubset(window)) return true; } return false; } /*! Determines whether or not the specified \a window can have focus at all. */ bool Desktop::_WindowCanHaveFocus(Window* window) const { return window != NULL && window->InWorkspace(fCurrentWorkspace) && (window->Flags() & B_AVOID_FOCUS) == 0 && !_WindowHasModal(window) && !window->IsHidden(); } /*! You must at least hold a single window lock when calling this method. */ void Desktop::_WindowChanged(Window* window) { ASSERT_MULTI_LOCKED(fWindowLock); BAutolock _(fWorkspacesLock); for (uint32 i = fWorkspacesViews.CountItems(); i-- > 0;) { WorkspacesView* view = fWorkspacesViews.ItemAt(i); view->WindowChanged(window); } } /*! You must at least hold a single window lock when calling this method. */ void Desktop::_WindowRemoved(Window* window) { ASSERT_MULTI_LOCKED(fWindowLock); BAutolock _(fWorkspacesLock); for (uint32 i = fWorkspacesViews.CountItems(); i-- > 0;) { WorkspacesView* view = fWorkspacesViews.ItemAt(i); view->WindowRemoved(window); } } /*! Shows the window on the screen - it does this independently of the Window::IsHidden() state. */ void Desktop::_ShowWindow(Window* window, bool affectsOtherWindows) { BRegion background; _RebuildClippingForAllWindows(background); _SetBackground(background); _WindowChanged(window); BRegion dirty(window->VisibleRegion()); if (!affectsOtherWindows) { // everything that is now visible in the // window needs a redraw, but other windows // are not affected, we can call ProcessDirtyRegion() // of the window, and don't have to use MarkDirty() window->ProcessDirtyRegion(dirty); } else MarkDirty(dirty); if (window->ServerWindow()->HasDirectFrameBufferAccess()) { window->ServerWindow()->HandleDirectConnection( B_DIRECT_START | B_BUFFER_RESET); } } /*! Hides the window from the screen - it does this independently of the Window::IsHidden() state. */ void Desktop::_HideWindow(Window* window) { if (window->ServerWindow()->IsDirectlyAccessing()) window->ServerWindow()->HandleDirectConnection(B_DIRECT_STOP); // after rebuilding the clipping, // this window will not have a visible // region anymore, so we need to remember // it now // (actually that's not true, since // hidden windows are excluded from the // clipping calculation, but anyways) BRegion dirty(window->VisibleRegion()); BRegion background; _RebuildClippingForAllWindows(background); _SetBackground(background); _WindowChanged(window); MarkDirty(dirty); } /*! Updates the workspaces of all subset windows with regard to the specifed window. If newIndex is not -1, it will move all subset windows that belong to the specifed window to the new workspace; this form is only called by SetWorkspace(). */ void Desktop::_UpdateSubsetWorkspaces(Window* window, int32 previousIndex, int32 newIndex) { STRACE(("_UpdateSubsetWorkspaces(window %p, %s)\n", window, window->Title())); // if the window is hidden, the subset windows are up-to-date already if (!window->IsNormal() || window->IsHidden()) return; for (Window* subset = fSubsetWindows.FirstWindow(); subset != NULL; subset = subset->NextWindow(kSubsetList)) { if (subset->Feel() == B_MODAL_ALL_WINDOW_FEEL || subset->Feel() == B_FLOATING_ALL_WINDOW_FEEL) { // These windows are always visible on all workspaces, // no need to update them. continue; } if (subset->IsFloating()) { // Floating windows are inserted and removed to the current // workspace as the need arises - they are not handled here // but in _UpdateFront() continue; } if (subset->HasInSubset(window)) { // adopt the workspace change SetWindowWorkspaces(subset, subset->SubsetWorkspaces()); } } } /*! \brief Adds or removes the window to or from the workspaces it's on. */ void Desktop::_ChangeWindowWorkspaces(Window* window, uint32 oldWorkspaces, uint32 newWorkspaces) { if (oldWorkspaces == newWorkspaces) return; // apply changes to the workspaces' window lists LockAllWindows(); // NOTE: we bypass the anchor-mechanism by intention when switching // the workspace programmatically. for (int32 i = 0; i < kMaxWorkspaces; i++) { if (workspace_in_workspaces(i, oldWorkspaces)) { // window is on this workspace, is it anymore? if (!workspace_in_workspaces(i, newWorkspaces)) { _Windows(i).RemoveWindow(window); if (fLastWorkspaceFocus[i] == window) fLastWorkspaceFocus[i] = NULL; if (i == CurrentWorkspace()) { // remove its appearance from the current workspace window->SetCurrentWorkspace(-1); if (!window->IsHidden()) _HideWindow(window); } } } else { // window was not on this workspace, is it now? if (workspace_in_workspaces(i, newWorkspaces)) { _Windows(i).AddWindow(window, window->Frontmost(_Windows(i).FirstWindow(), i)); if (i == CurrentWorkspace()) { // make the window visible in current workspace window->SetCurrentWorkspace(fCurrentWorkspace); if (!window->IsHidden()) { // This only affects other windows if this window has // floating or modal windows that need to be shown as // well // TODO: take care of this _ShowWindow(window, FrontWindow() == window); } } } } } // If the window is visible only on one workspace, we set it's current // position in that workspace (so that WorkspacesView will find us). int32 firstWorkspace = -1; for (int32 i = 0; i < kMaxWorkspaces; i++) { if ((newWorkspaces & (1L << i)) != 0) { if (firstWorkspace != -1) { firstWorkspace = -1; break; } firstWorkspace = i; } } if (firstWorkspace >= 0) window->Anchor(firstWorkspace).position = window->Frame().LeftTop(); // take care about modals and floating windows _UpdateSubsetWorkspaces(window); NotifyWindowWorkspacesChanged(window, newWorkspaces); UnlockAllWindows(); } void Desktop::_BringWindowsToFront(WindowList& windows, int32 list, bool wereVisible) { // we don't need to redraw what is currently // visible of the window BRegion clean; for (Window* window = windows.FirstWindow(); window != NULL; window = window->NextWindow(list)) { if (wereVisible) clean.Include(&window->VisibleRegion()); CurrentWindows().AddWindow(window, window->Frontmost(CurrentWindows().FirstWindow(), fCurrentWorkspace)); _WindowChanged(window); } BRegion dummy; _RebuildClippingForAllWindows(dummy); // redraw what became visible of the window(s) BRegion dirty; for (Window* window = windows.FirstWindow(); window != NULL; window = window->NextWindow(list)) { dirty.Include(&window->VisibleRegion()); } dirty.Exclude(&clean); MarkDirty(dirty); _UpdateFront(); if (windows.FirstWindow() == fBack || fBack == NULL) _UpdateBack(); } /*! Returns the last focussed non-hidden subset window belonging to the specified \a window. */ Window* Desktop::_LastFocusSubsetWindow(Window* window) { if (window == NULL) return NULL; for (Window* front = fFocusList.LastWindow(); front != NULL; front = front->PreviousWindow(kFocusList)) { if (front != window && !front->IsHidden() && window->HasInSubset(front)) return front; } return NULL; } /*! \brief Checks whether or not a fake mouse moved message needs to be sent to the previous mouse window. You need to have the all window lock held when calling this method. */ bool Desktop::_CheckSendFakeMouseMoved(const Window* lastWindowUnderMouse) { Window* window = WindowAt(fLastMousePosition); return window != lastWindowUnderMouse; } /*! \brief Sends a fake B_MOUSE_MOVED event to the window under the mouse, and also updates the current view under the mouse. This has only to be done in case the view changed without mouse movement, ie. because of a workspace change, a closing window, or programmatic window movement. You must not have locked any windows when calling this method. */ void Desktop::_SendFakeMouseMoved(Window* window) { int32 viewToken = B_NULL_TOKEN; EventTarget* target = NULL; LockAllWindows(); if (window == NULL) window = WindowAt(fLastMousePosition); if (window != NULL) { BMessage message; window->MouseMoved(&message, fLastMousePosition, &viewToken, true, true); if (viewToken != B_NULL_TOKEN) target = &window->EventTarget(); } if (viewToken != B_NULL_TOKEN) SetViewUnderMouse(window, viewToken); else { SetViewUnderMouse(NULL, B_NULL_TOKEN); SetCursor(NULL); } UnlockAllWindows(); if (target != NULL) EventDispatcher().SendFakeMouseMoved(*target, viewToken); } Screen* Desktop::_DetermineScreenFor(BRect frame) { AutoReadLocker _(fScreenLock); // TODO: choose the screen depending on where most of the area is return fVirtualScreen.ScreenAt(0); } void Desktop::_RebuildClippingForAllWindows(BRegion& stillAvailableOnScreen) { // the available region on screen starts with the entire screen area // each window on the screen will take a portion from that area // figure out what the entire screen area is stillAvailableOnScreen = fScreenRegion; // set clipping of each window for (Window* window = CurrentWindows().LastWindow(); window != NULL; window = window->PreviousWindow(fCurrentWorkspace)) { if (!window->IsHidden()) { window->SetClipping(&stillAvailableOnScreen); window->SetScreen(_DetermineScreenFor(window->Frame())); if (window->ServerWindow()->IsDirectlyAccessing()) { window->ServerWindow()->HandleDirectConnection( B_DIRECT_MODIFY | B_CLIPPING_MODIFIED); } // that windows region is not available on screen anymore stillAvailableOnScreen.Exclude(&window->VisibleRegion()); } } } void Desktop::_TriggerWindowRedrawing(BRegion& dirtyRegion, BRegion& exposeRegion) { // send redraw messages to all windows intersecting the dirty region for (Window* window = CurrentWindows().LastWindow(); window != NULL; window = window->PreviousWindow(fCurrentWorkspace)) { if (!window->IsHidden() && dirtyRegion.Intersects(window->VisibleRegion().Frame())) window->ProcessDirtyRegion(dirtyRegion, exposeRegion); } } void Desktop::_SetBackground(BRegion& background) { // NOTE: the drawing operation is caried out // in the clipping region rebuild, but it is // ok actually, because it also avoids trails on // moving windows // remember the region not covered by any windows // and redraw the dirty background BRegion dirtyBackground(background); dirtyBackground.Exclude(&fBackgroundRegion); dirtyBackground.IntersectWith(&background); fBackgroundRegion = background; if (dirtyBackground.Frame().IsValid()) { if (GetDrawingEngine()->LockParallelAccess()) { GetDrawingEngine()->FillRegion(dirtyBackground, fWorkspaces[fCurrentWorkspace].Color()); GetDrawingEngine()->UnlockParallelAccess(); } } } //! The all window lock must be held when calling this function. void Desktop::RebuildAndRedrawAfterWindowChange(Window* changedWindow, BRegion& dirty) { ASSERT_MULTI_WRITE_LOCKED(fWindowLock); if (!changedWindow->IsVisible() || dirty.CountRects() == 0) return; // The following loop is pretty much a copy of // _RebuildClippingForAllWindows(), but will also // take care about restricting our dirty region. // figure out what the entire screen area is BRegion stillAvailableOnScreen(fScreenRegion); // set clipping of each window for (Window* window = CurrentWindows().LastWindow(); window != NULL; window = window->PreviousWindow(fCurrentWorkspace)) { if (!window->IsHidden()) { if (window == changedWindow) dirty.IntersectWith(&stillAvailableOnScreen); window->SetClipping(&stillAvailableOnScreen); window->SetScreen(_DetermineScreenFor(window->Frame())); if (window->ServerWindow()->IsDirectlyAccessing()) { window->ServerWindow()->HandleDirectConnection( B_DIRECT_MODIFY | B_CLIPPING_MODIFIED); } // that windows region is not available on screen anymore stillAvailableOnScreen.Exclude(&window->VisibleRegion()); } } _SetBackground(stillAvailableOnScreen); _WindowChanged(changedWindow); _TriggerWindowRedrawing(dirty, dirty); } //! Suspend all windows with direct access to the frame buffer void Desktop::_SuspendDirectFrameBufferAccess() { ASSERT_MULTI_LOCKED(fWindowLock); for (Window* window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if (window->ServerWindow()->IsDirectlyAccessing()) window->ServerWindow()->HandleDirectConnection(B_DIRECT_STOP); } } //! Resume all windows with direct access to the frame buffer void Desktop::_ResumeDirectFrameBufferAccess() { ASSERT_MULTI_LOCKED(fWindowLock); for (Window* window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if (window->IsHidden() || !window->InWorkspace(fCurrentWorkspace)) continue; if (window->ServerWindow()->HasDirectFrameBufferAccess()) { window->ServerWindow()->HandleDirectConnection( B_DIRECT_START | B_BUFFER_RESET, B_MODE_CHANGED); } } } void Desktop::ScreenChanged(Screen* screen) { AutoWriteLocker windowLocker(fWindowLock); AutoWriteLocker screenLocker(fScreenLock); screen->SetPreferredMode(); screenLocker.Unlock(); _ScreenChanged(screen); } void Desktop::_ScreenChanged(Screen* screen) { ASSERT_MULTI_WRITE_LOCKED(fWindowLock); // the entire screen is dirty, because we're actually // operating on an all new buffer in memory BRegion dirty(screen->Frame()); // update our cached screen region fScreenRegion.Set(screen->Frame()); gInputManager->UpdateScreenBounds(screen->Frame()); BRegion background; _RebuildClippingForAllWindows(background); fBackgroundRegion.MakeEmpty(); // makes sure that the complete background is redrawn _SetBackground(background); // figure out dirty region dirty.Exclude(&background); _TriggerWindowRedrawing(dirty, dirty); // send B_SCREEN_CHANGED to windows on that screen BMessage update(B_SCREEN_CHANGED); update.AddInt64("when", real_time_clock_usecs()); update.AddRect("frame", screen->Frame()); update.AddInt32("mode", screen->ColorSpace()); fVirtualScreen.UpdateFrame(); for (Window* window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { if (window->Screen() == screen) window->ServerWindow()->ScreenChanged(&update); } } /*! \brief activate one of the app's windows. */ status_t Desktop::_ActivateApp(team_id team) { // search for an unhidden window in the current workspace AutoWriteLocker locker(fWindowLock); for (Window* window = CurrentWindows().LastWindow(); window != NULL; window = window->PreviousWindow(fCurrentWorkspace)) { if (!window->IsHidden() && window->IsNormal() && window->ServerWindow()->ClientTeam() == team) { ActivateWindow(window); return B_OK; } } // search for an unhidden window to give focus to for (Window* window = fAllWindows.FirstWindow(); window != NULL; window = window->NextWindow(kAllWindowList)) { // if window is a normal window of the team, and not hidden, // we've found our target if (!window->IsHidden() && window->IsNormal() && window->ServerWindow()->ClientTeam() == team) { ActivateWindow(window); return B_OK; } } // TODO: we cannot maximize minimized windows here (with the window lock // write locked). To work-around this, we could forward the request to // the ServerApp of this team - it maintains its own window list, and can // therefore call ActivateWindow() without holding the window lock. return B_BAD_VALUE; } void Desktop::_SetCurrentWorkspaceConfiguration() { ASSERT_MULTI_WRITE_LOCKED(fWindowLock); status_t status = fDirectScreenLock.LockWithTimeout(1000000L); if (status != B_OK) { // The application having the direct screen lock didn't give it up in // time, make it crash syslog(LOG_ERR, "Team %" B_PRId32 " did not give up its direct screen " "lock.\n", fDirectScreenTeam); debug_thread(fDirectScreenTeam); fDirectScreenTeam = -1; } else fDirectScreenLock.Unlock(); AutoWriteLocker _(fScreenLock); uint32 changedScreens; fVirtualScreen.SetConfiguration(*this, fWorkspaces[fCurrentWorkspace].CurrentScreenConfiguration(), &changedScreens); for (int32 i = 0; changedScreens != 0; i++, changedScreens /= 2) { if ((changedScreens & (1 << i)) != 0) _ScreenChanged(fVirtualScreen.ScreenAt(i)); } } /*! Changes the current workspace to the one specified by \a index. You must hold the all window lock when calling this method. */ void Desktop::_SetWorkspace(int32 index, bool moveFocusWindow) { ASSERT_MULTI_WRITE_LOCKED(fWindowLock); int32 previousIndex = fCurrentWorkspace; rgb_color previousColor = fWorkspaces[fCurrentWorkspace].Color(); bool movedMouseEventWindow = false; Window* movedWindow = NULL; if (moveFocusWindow) { if (fMouseEventWindow != NULL) movedWindow = fMouseEventWindow; else movedWindow = FocusWindow(); } if (movedWindow != NULL) { if (movedWindow->IsNormal()) { if (!movedWindow->InWorkspace(index)) { // The window currently being dragged will follow us to this // workspace if it's not already on it. // But only normal windows are following uint32 oldWorkspaces = movedWindow->Workspaces(); WindowStack* stack = movedWindow->GetWindowStack(); if (stack != NULL) { for (int32 s = 0; s < stack->CountWindows(); s++) { Window* stackWindow = stack->LayerOrder().ItemAt(s); _Windows(previousIndex).RemoveWindow(stackWindow); _Windows(index).AddWindow(stackWindow, stackWindow->Frontmost( _Windows(index).FirstWindow(), index)); // send B_WORKSPACES_CHANGED message stackWindow->WorkspacesChanged(oldWorkspaces, stackWindow->Workspaces()); } } // TODO: subset windows will always flicker this way movedMouseEventWindow = true; NotifyWindowWorkspacesChanged(movedWindow, movedWindow->Workspaces()); } else { // make sure it's frontmost _Windows(index).RemoveWindow(movedWindow); _Windows(index).AddWindow(movedWindow, movedWindow->Frontmost(_Windows(index).FirstWindow(), index)); } } movedWindow->Anchor(index).position = movedWindow->Frame().LeftTop(); } if (movedWindow == NULL || movedWindow->InWorkspace(previousIndex)) fLastWorkspaceFocus[previousIndex] = FocusWindow(); else fLastWorkspaceFocus[previousIndex] = NULL; // build region of windows that are no longer visible in the new workspace BRegion dirty; for (Window* window = CurrentWindows().FirstWindow(); window != NULL; window = window->NextWindow(previousIndex)) { // store current position in Workspace anchor window->Anchor(previousIndex).position = window->Frame().LeftTop(); if (!window->IsHidden() && window->ServerWindow()->IsDirectlyAccessing()) window->ServerWindow()->HandleDirectConnection(B_DIRECT_STOP); window->WorkspaceActivated(previousIndex, false); if (window->InWorkspace(index)) continue; if (!window->IsHidden()) { // this window will no longer be visible dirty.Include(&window->VisibleRegion()); } window->SetCurrentWorkspace(-1); } fPreviousWorkspace = fCurrentWorkspace; fCurrentWorkspace = index; // Change the display modes, if needed _SetCurrentWorkspaceConfiguration(); // Show windows, and include them in the changed region - but only // those that were not visible before (or whose position changed) WindowList windows(kWorkingList); BList previousRegions; for (Window* window = _Windows(index).FirstWindow(); window != NULL; window = window->NextWindow(index)) { BPoint position = window->Anchor(index).position; window->SetCurrentWorkspace(index); if (window->IsHidden()) continue; if (position == kInvalidWindowPosition) { // if you enter a workspace for the first time, the position // of the window in the previous workspace is adopted position = window->Frame().LeftTop(); // TODO: make sure the window is still on-screen if it // was before! } if (!window->InWorkspace(previousIndex)) { // This window was not visible before, make sure its frame // is up-to-date if (window->Frame().LeftTop() != position) { BPoint offset = position - window->Frame().LeftTop(); window->MoveBy((int32)offset.x, (int32)offset.y); } continue; } if (window->Frame().LeftTop() != position) { // the window was visible before, but its on-screen location changed BPoint offset = position - window->Frame().LeftTop(); MoveWindowBy(window, offset.x, offset.y); // TODO: be a bit smarter than this... } else { // We need to remember the previous visible region of the // window if they changed their order ObjectDeleter region(new (std::nothrow) BRegion(window->VisibleRegion())); if (region.IsSet()) { if (previousRegions.AddItem(region.Detach())) windows.AddWindow(window); } } } _UpdateFronts(false); _UpdateFloating(previousIndex, index, movedMouseEventWindow ? movedWindow : NULL); BRegion stillAvailableOnScreen; _RebuildClippingForAllWindows(stillAvailableOnScreen); _SetBackground(stillAvailableOnScreen); for (Window* window = _Windows(index).FirstWindow(); window != NULL; window = window->NextWindow(index)) { // send B_WORKSPACE_ACTIVATED message window->WorkspaceActivated(index, true); if (!window->IsHidden() && window->ServerWindow()->HasDirectFrameBufferAccess()) { window->ServerWindow()->HandleDirectConnection( B_DIRECT_START | B_BUFFER_RESET, B_MODE_CHANGED); } if (window->InWorkspace(previousIndex) || window->IsHidden() || (window == movedWindow && movedWindow->IsNormal()) || (!window->IsNormal() && window->HasInSubset(movedWindow))) { // This window was visible before, and is already handled in the // above loop continue; } dirty.Include(&window->VisibleRegion()); } // Catch order changes in the new workspaces window list int32 i = 0; for (Window* window = windows.FirstWindow(); window != NULL; window = window->NextWindow(kWorkingList), i++) { BRegion* region = (BRegion*)previousRegions.ItemAt(i); region->ExclusiveInclude(&window->VisibleRegion()); dirty.Include(region); delete region; } // Set new focus, but keep focus to a floating window if still visible if (movedWindow != NULL) SetFocusWindow(movedWindow); else if (!_Windows(index).HasWindow(FocusWindow()) || (FocusWindow() != NULL && !FocusWindow()->IsFloating())) SetFocusWindow(fLastWorkspaceFocus[index]); _WindowChanged(NULL); MarkDirty(dirty); #if 0 // Show the dirty regions of this workspace switch if (GetDrawingEngine()->LockParallelAccess()) { GetDrawingEngine()->FillRegion(dirty, (rgb_color){255, 0, 0}); GetDrawingEngine()->UnlockParallelAccess(); snooze(100000); } #endif if (previousColor != fWorkspaces[fCurrentWorkspace].Color()) RedrawBackground(); }