// Copyright (c) 2009 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "chrome/browser/gtk/browser_window_gtk.h" #include #include "app/resource_bundle.h" #include "base/base_paths_linux.h" #include "base/gfx/gtk_util.h" #include "base/logging.h" #include "base/message_loop.h" #include "base/path_service.h" #include "base/string_util.h" #include "base/time.h" #include "chrome/app/chrome_dll_resource.h" #include "chrome/browser/bookmarks/bookmark_utils.h" #include "chrome/browser/browser.h" #include "chrome/browser/browser_list.h" #include "chrome/browser/browser_process.h" #include "chrome/browser/download/download_item_model.h" #include "chrome/browser/download/download_manager.h" #include "chrome/browser/gtk/about_chrome_dialog.h" #include "chrome/browser/gtk/bookmark_bar_gtk.h" #include "chrome/browser/gtk/browser_titlebar.h" #include "chrome/browser/gtk/browser_toolbar_gtk.h" #include "chrome/browser/gtk/clear_browsing_data_dialog_gtk.h" #include "chrome/browser/gtk/download_shelf_gtk.h" #include "chrome/browser/gtk/go_button_gtk.h" #include "chrome/browser/gtk/import_dialog_gtk.h" #include "chrome/browser/gtk/infobar_container_gtk.h" #include "chrome/browser/gtk/find_bar_gtk.h" #include "chrome/browser/gtk/status_bubble_gtk.h" #include "chrome/browser/gtk/tab_contents_container_gtk.h" #include "chrome/browser/gtk/tabs/tab_strip_gtk.h" #include "chrome/browser/gtk/toolbar_star_toggle_gtk.h" #include "chrome/browser/location_bar.h" #include "chrome/browser/renderer_host/render_widget_host_view_gtk.h" #include "chrome/browser/tab_contents/tab_contents.h" #include "chrome/browser/tab_contents/tab_contents_view.h" #include "chrome/common/notification_service.h" #include "chrome/common/pref_names.h" #include "chrome/common/pref_service.h" #include "grit/theme_resources.h" namespace { // The number of milliseconds between loading animation frames. const int kLoadingAnimationFrameTimeMs = 30; const GdkColor kBorderColor = GDK_COLOR_RGB(0xbe, 0xc8, 0xd4); const char* kBrowserWindowKey = "__BROWSER_WINDOW_GTK__"; // The width of the custom frame. const int kCustomFrameWidth = 3; gboolean MainWindowConfigured(GtkWindow* window, GdkEventConfigure* event, BrowserWindowGtk* browser_win) { gfx::Rect bounds = gfx::Rect(event->x, event->y, event->width, event->height); browser_win->OnBoundsChanged(bounds); return FALSE; } gboolean MainWindowStateChanged(GtkWindow* window, GdkEventWindowState* event, BrowserWindowGtk* browser_win) { browser_win->OnStateChanged(event->new_window_state); return FALSE; } // Callback for the delete event. This event is fired when the user tries to // close the window (e.g., clicking on the X in the window manager title bar). gboolean MainWindowDeleteEvent(GtkWidget* widget, GdkEvent* event, BrowserWindowGtk* window) { window->Close(); // Return true to prevent the gtk window from being destroyed. Close will // destroy it for us. return TRUE; } void MainWindowDestroy(GtkWidget* widget, BrowserWindowGtk* window) { // BUG 8712. When we gtk_widget_destroy() in Close(), this will emit the // signal right away, and we will be here (while Close() is still in the // call stack). In order to not reenter Close(), and to also follow the // expectations of BrowserList, we should run the BrowserWindowGtk destructor // not now, but after the run loop goes back to process messages. Otherwise // we will remove ourself from BrowserList while it's being iterated. // Additionally, now that we know the window is gone, we need to make sure to // set window_ to NULL, otherwise we will try to close the window again when // we call Close() in the destructor. MessageLoop::current()->DeleteSoon(FROM_HERE, window); } // Using gtk_window_get_position/size creates a race condition, so only use // this to get the initial bounds. After window creation, we pick up the // normal bounds by connecting to the configure-event signal. gfx::Rect GetInitialWindowBounds(GtkWindow* window) { gint x, y, width, height; gtk_window_get_position(window, &x, &y); gtk_window_get_size(window, &width, &height); return gfx::Rect(x, y, width, height); } const struct AcceleratorMapping { guint keyval; int command_id; GdkModifierType modifier_type; } kAcceleratorMap[] = { // Focus. { GDK_k, IDC_FOCUS_SEARCH, GDK_CONTROL_MASK }, { GDK_l, IDC_FOCUS_LOCATION, GDK_CONTROL_MASK }, { GDK_d, IDC_FOCUS_LOCATION, GDK_MOD1_MASK }, { GDK_F6, IDC_FOCUS_LOCATION, GdkModifierType(0) }, // Tab/window controls. { GDK_Page_Down, IDC_SELECT_NEXT_TAB, GDK_CONTROL_MASK }, { GDK_Page_Up, IDC_SELECT_PREVIOUS_TAB, GDK_CONTROL_MASK }, { GDK_w, IDC_CLOSE_TAB, GDK_CONTROL_MASK }, { GDK_t, IDC_RESTORE_TAB, GdkModifierType(GDK_CONTROL_MASK | GDK_SHIFT_MASK) }, { GDK_1, IDC_SELECT_TAB_0, GDK_CONTROL_MASK }, { GDK_2, IDC_SELECT_TAB_1, GDK_CONTROL_MASK }, { GDK_3, IDC_SELECT_TAB_2, GDK_CONTROL_MASK }, { GDK_4, IDC_SELECT_TAB_3, GDK_CONTROL_MASK }, { GDK_5, IDC_SELECT_TAB_4, GDK_CONTROL_MASK }, { GDK_6, IDC_SELECT_TAB_5, GDK_CONTROL_MASK }, { GDK_7, IDC_SELECT_TAB_6, GDK_CONTROL_MASK }, { GDK_8, IDC_SELECT_TAB_7, GDK_CONTROL_MASK }, { GDK_9, IDC_SELECT_LAST_TAB, GDK_CONTROL_MASK }, { GDK_F4, IDC_CLOSE_TAB, GDK_CONTROL_MASK }, { GDK_F4, IDC_CLOSE_WINDOW, GDK_MOD1_MASK }, // Zoom level. { GDK_plus, IDC_ZOOM_PLUS, GdkModifierType(GDK_CONTROL_MASK | GDK_SHIFT_MASK) }, { GDK_equal, IDC_ZOOM_PLUS, GDK_CONTROL_MASK }, { GDK_0, IDC_ZOOM_NORMAL, GDK_CONTROL_MASK }, { GDK_minus, IDC_ZOOM_MINUS, GDK_CONTROL_MASK }, { GDK_underscore, IDC_ZOOM_MINUS, GdkModifierType(GDK_CONTROL_MASK | GDK_SHIFT_MASK) }, // Find in page. { GDK_g, IDC_FIND_NEXT, GDK_CONTROL_MASK }, { GDK_F3, IDC_FIND_NEXT, GdkModifierType(0) }, { GDK_g, IDC_FIND_PREVIOUS, GdkModifierType(GDK_CONTROL_MASK | GDK_SHIFT_MASK) }, { GDK_F3, IDC_FIND_PREVIOUS, GDK_SHIFT_MASK }, // Navigation. { GDK_Home, IDC_HOME, GDK_MOD1_MASK }, { GDK_Escape, IDC_STOP, GdkModifierType(0) }, // Miscellany. { GDK_d, IDC_STAR, GDK_CONTROL_MASK }, { GDK_o, IDC_OPEN_FILE, GDK_CONTROL_MASK }, { GDK_F11, IDC_FULLSCREEN, GdkModifierType(0) }, { GDK_u, IDC_VIEW_SOURCE, GDK_CONTROL_MASK }, { GDK_p, IDC_PRINT, GDK_CONTROL_MASK }, { GDK_Escape, IDC_TASK_MANAGER, GDK_SHIFT_MASK }, }; int GetCommandId(guint accel_key, GdkModifierType modifier) { // Bug 9806: If capslock is on, we will get a capital letter as accel_key. accel_key = gdk_keyval_to_lower(accel_key); // Filter modifier to only include accelerator modifiers. modifier = static_cast( modifier & gtk_accelerator_get_default_mod_mask()); for (size_t i = 0; i < arraysize(kAcceleratorMap); ++i) { if (kAcceleratorMap[i].keyval == accel_key && kAcceleratorMap[i].modifier_type == modifier) return kAcceleratorMap[i].command_id; } NOTREACHED(); return 0; } // An event handler for key press events. We need to special case key // combinations that are not valid gtk accelerators. This function returns // TRUE if it can handle the key press. gboolean HandleCustomAccelerator(guint keyval, GdkModifierType modifier, Browser* browser) { // Filter modifier to only include accelerator modifiers. modifier = static_cast( modifier & gtk_accelerator_get_default_mod_mask()); switch (keyval) { // Gtk doesn't allow GDK_Tab or GDK_ISO_Left_Tab to be an accelerator (see // gtk_accelerator_valid), so we need to handle these accelerators // manually. case GDK_Tab: if (GDK_CONTROL_MASK == modifier) { browser->ExecuteCommand(IDC_SELECT_NEXT_TAB); return TRUE; } break; case GDK_ISO_Left_Tab: if ((GDK_CONTROL_MASK | GDK_SHIFT_MASK) == modifier) { browser->ExecuteCommand(IDC_SELECT_PREVIOUS_TAB); return TRUE; } break; default: break; } return FALSE; } // Handle accelerators that we don't want the native widget to be able to // override. gboolean PreHandleAccelerator(guint keyval, GdkModifierType modifier, Browser* browser) { // Filter modifier to only include accelerator modifiers. modifier = static_cast( modifier & gtk_accelerator_get_default_mod_mask()); switch (keyval) { case GDK_Page_Down: if (GDK_CONTROL_MASK == modifier) { browser->ExecuteCommand(IDC_SELECT_NEXT_TAB); return TRUE; } break; case GDK_Page_Up: if (GDK_CONTROL_MASK == modifier) { browser->ExecuteCommand(IDC_SELECT_PREVIOUS_TAB); return TRUE; } break; default: break; } return FALSE; } // Let the focused widget have first crack at the key event so we don't // override their accelerators. gboolean OnKeyPress(GtkWindow* window, GdkEventKey* event, Browser* browser) { // If a widget besides the native view is focused, we have to try to handle // the custom accelerators before letting it handle them. TabContents* current_tab_contents = browser->tabstrip_model()->GetSelectedTabContents(); // The current tab might not have a render view if it crashed. if (!current_tab_contents || !current_tab_contents->GetContentNativeView() || !gtk_widget_is_focus(current_tab_contents->GetContentNativeView())) { if (HandleCustomAccelerator(event->keyval, GdkModifierType(event->state), browser) || PreHandleAccelerator(event->keyval, GdkModifierType(event->state), browser)) { return TRUE; } return gtk_window_propagate_key_event(window, event); } else { bool rv = gtk_window_propagate_key_event(window, event); DCHECK(rv); return TRUE; } } gboolean OnButtonPressEvent(GtkWidget* widget, GdkEventButton* event, Browser* browser) { // TODO(jhawkins): Investigate the possibility of the button numbers being // different for other mice. if (event->button == 8) { browser->GoBack(CURRENT_TAB); return TRUE; } else if (event->button == 9) { browser->GoForward(CURRENT_TAB); return TRUE; } return FALSE; } gboolean OnFocusIn(GtkWidget* widget, GdkEventFocus* event, Browser* browser) { BrowserList::SetLastActive(browser); return FALSE; } } // namespace std::map BrowserWindowGtk::xid_map_; // TODO(estade): Break up this constructor into helper functions to improve // readability. BrowserWindowGtk::BrowserWindowGtk(Browser* browser) : browser_(browser), full_screen_(false), drag_active_(false) { use_custom_frame_.Init(prefs::kUseCustomChromeFrame, browser_->profile()->GetPrefs(), this); window_ = GTK_WINDOW(gtk_window_new(GTK_WINDOW_TOPLEVEL)); SetWindowIcon(); SetGeometryHints(); g_signal_connect(window_, "delete-event", G_CALLBACK(MainWindowDeleteEvent), this); g_signal_connect(window_, "destroy", G_CALLBACK(MainWindowDestroy), this); g_signal_connect(window_, "configure-event", G_CALLBACK(MainWindowConfigured), this); g_signal_connect(window_, "window-state-event", G_CALLBACK(MainWindowStateChanged), this); g_signal_connect(window_, "map", G_CALLBACK(MainWindowMapped), this); g_signal_connect(window_, "unmap", G_CALLBACK(MainWindowUnMapped), this); g_signal_connect(window_, "key-press-event", G_CALLBACK(OnKeyPress), browser_.get()); g_signal_connect(window_, "button-press-event", G_CALLBACK(OnButtonPressEvent), browser_.get()); g_signal_connect(window_, "focus-in-event", G_CALLBACK(OnFocusIn), browser_.get()); g_object_set_data(G_OBJECT(window_), kBrowserWindowKey, this); ConnectAccelerators(); bounds_ = GetInitialWindowBounds(window_); // This vbox encompasses all of the widgets within the browser, including the // tabstrip and the content vbox. The vbox is put in a floating container // (see gtk_floating_container.h) so we can position the // minimize/maximize/close buttons. The floating container is then put in an // alignment so we can do custom frame drawing if the user turns of window // manager decorations. GtkWidget* window_vbox = gtk_vbox_new(FALSE, 0); gtk_widget_show(window_vbox); window_container_ = gtk_alignment_new(0.0, 0.0, 1.0, 1.0); gtk_container_add(GTK_CONTAINER(window_container_), window_vbox); tabstrip_.reset(new TabStripGtk(browser_->tabstrip_model())); tabstrip_->Init(browser_->profile()); // Build the titlebar (tabstrip + header space + min/max/close buttons). titlebar_.reset(new BrowserTitlebar(this, window_)); gtk_box_pack_start(GTK_BOX(window_vbox), titlebar_->widget(), FALSE, FALSE, 0); // The content_vbox_ surrounds the "content": toolbar+bookmarks bar+page. content_vbox_ = gtk_vbox_new(FALSE, 0); gtk_widget_set_app_paintable(content_vbox_, TRUE); gtk_widget_set_double_buffered(content_vbox_, FALSE); g_signal_connect(G_OBJECT(content_vbox_), "expose-event", G_CALLBACK(&OnContentAreaExpose), this); gtk_widget_show(content_vbox_); toolbar_.reset(new BrowserToolbarGtk(browser_.get(), this)); toolbar_->Init(browser_->profile(), window_); toolbar_->AddToolbarToBox(content_vbox_); bookmark_bar_.reset(new BookmarkBarGtk(browser_->profile(), browser_.get(), this)); bookmark_bar_->AddBookmarkbarToBox(content_vbox_); // This vbox surrounds the render area: find bar, info bars and render view. // The reason is that this area as a whole needs to be grouped in its own // GdkWindow hierarchy so that animations originating inside it (infobar, // download shelf, find bar) are all clipped to that area. This is why // |render_area_vbox_| is packed in |event_box|. render_area_vbox_ = gtk_vbox_new(FALSE, 0); infobar_container_.reset(new InfoBarContainerGtk(this)); gtk_box_pack_start(GTK_BOX(render_area_vbox_), infobar_container_->widget(), FALSE, FALSE, 0); status_bubble_.reset(new StatusBubbleGtk()); contents_container_.reset(new TabContentsContainerGtk(status_bubble_.get())); contents_container_->AddContainerToBox(render_area_vbox_); gtk_widget_show_all(render_area_vbox_); // Note that calling this the first time is necessary to get the // proper control layout. UpdateCustomFrame(); GtkWidget* event_box = gtk_event_box_new(); gtk_container_add(GTK_CONTAINER(event_box), render_area_vbox_); gtk_widget_show(event_box); gtk_container_add(GTK_CONTAINER(content_vbox_), event_box); gtk_container_add(GTK_CONTAINER(window_vbox), content_vbox_); gtk_container_add(GTK_CONTAINER(window_), window_container_); gtk_widget_show(window_container_); browser_->tabstrip_model()->AddObserver(this); HideUnsupportedWindowFeatures(); registrar_.Add(this, NotificationType::BOOKMARK_BAR_VISIBILITY_PREF_CHANGED, NotificationService::AllSources()); } BrowserWindowGtk::~BrowserWindowGtk() { browser_->tabstrip_model()->RemoveObserver(this); } void BrowserWindowGtk::HandleAccelerator(guint keyval, GdkModifierType modifier) { if (!HandleCustomAccelerator(keyval, modifier, browser_.get())) { // Pass the accelerator on to GTK. gtk_accel_groups_activate(G_OBJECT(window_), keyval, modifier); } } gboolean BrowserWindowGtk::OnContentAreaExpose(GtkWidget* widget, GdkEventExpose* e, BrowserWindowGtk* window) { if (window->use_custom_frame_.GetValue()) { // http://code.google.com/p/chromium/issues/detail?id=13430 return FALSE; } return FALSE; // Allow subwidgets to paint. } void BrowserWindowGtk::Show() { gtk_widget_show(GTK_WIDGET(window_)); } void BrowserWindowGtk::SetBounds(const gfx::Rect& bounds) { gint x = static_cast(bounds.x()); gint y = static_cast(bounds.y()); gint width = static_cast(bounds.width()); gint height = static_cast(bounds.height()); gtk_window_move(window_, x, y); gtk_window_resize(window_, width, height); } void BrowserWindowGtk::Close() { // We're already closing. Do nothing. if (!window_) return; if (!CanClose()) return; SaveWindowPosition(); GtkWidget* window = GTK_WIDGET(window_); // To help catch bugs in any event handlers that might get fired during the // destruction, set window_ to NULL before any handlers will run. window_ = NULL; gtk_widget_destroy(window); } void BrowserWindowGtk::Activate() { gtk_window_present(window_); } bool BrowserWindowGtk::IsActive() const { NOTIMPLEMENTED(); return true; } void BrowserWindowGtk::FlashFrame() { // May not be respected by all window managers. gtk_window_set_urgency_hint(window_, TRUE); } gfx::NativeWindow BrowserWindowGtk::GetNativeHandle() { return window_; } BrowserWindowTesting* BrowserWindowGtk::GetBrowserWindowTesting() { NOTIMPLEMENTED(); return NULL; } StatusBubble* BrowserWindowGtk::GetStatusBubble() { return status_bubble_.get(); } void BrowserWindowGtk::SelectedTabToolbarSizeChanged(bool is_animating) { // On Windows, this is used for a performance optimization. // http://code.google.com/p/chromium/issues/detail?id=12291 } void BrowserWindowGtk::UpdateTitleBar() { std::wstring title = browser_->GetCurrentPageTitle(); gtk_window_set_title(window_, WideToUTF8(title).c_str()); if (ShouldShowWindowIcon()) { // If we're showing a title bar, we should update the app icon. NOTIMPLEMENTED(); } } void BrowserWindowGtk::UpdateLoadingAnimations(bool should_animate) { if (should_animate) { if (!loading_animation_timer_.IsRunning()) { // Loads are happening, and the timer isn't running, so start it. loading_animation_timer_.Start( base::TimeDelta::FromMilliseconds(kLoadingAnimationFrameTimeMs), this, &BrowserWindowGtk::LoadingAnimationCallback); } } else { if (loading_animation_timer_.IsRunning()) { loading_animation_timer_.Stop(); // Loads are now complete, update the state if a task was scheduled. LoadingAnimationCallback(); } } } void BrowserWindowGtk::LoadingAnimationCallback() { if (browser_->type() == Browser::TYPE_NORMAL) { // Loading animations are shown in the tab for tabbed windows. We check the // browser type instead of calling IsTabStripVisible() because the latter // will return false for fullscreen windows, but we still need to update // their animations (so that when they come out of fullscreen mode they'll // be correct). tabstrip_->UpdateLoadingAnimations(); } else if (ShouldShowWindowIcon()) { // ... or in the window icon area for popups and app windows. // http://code.google.com/p/chromium/issues/detail?id=9380 NOTIMPLEMENTED(); } } void BrowserWindowGtk::SetStarredState(bool is_starred) { toolbar_->star()->SetStarred(is_starred); } gfx::Rect BrowserWindowGtk::GetNormalBounds() const { return bounds_; } bool BrowserWindowGtk::IsMaximized() const { return (state_ & GDK_WINDOW_STATE_MAXIMIZED); } void BrowserWindowGtk::SetFullscreen(bool fullscreen) { if (fullscreen) { full_screen_ = true; tabstrip_->Hide(); toolbar_->Hide(); gtk_window_fullscreen(window_); } else { full_screen_ = false; gtk_window_unfullscreen(window_); ShowSupportedWindowFeatures(); } } bool BrowserWindowGtk::IsFullscreen() const { return full_screen_; } LocationBar* BrowserWindowGtk::GetLocationBar() const { return toolbar_->GetLocationBar(); } void BrowserWindowGtk::SetFocusToLocationBar() { GetLocationBar()->FocusLocation(); } void BrowserWindowGtk::UpdateStopGoState(bool is_loading, bool force) { toolbar_->GetGoButton()->ChangeMode( is_loading ? GoButtonGtk::MODE_STOP : GoButtonGtk::MODE_GO, force); } void BrowserWindowGtk::UpdateToolbar(TabContents* contents, bool should_restore_state) { toolbar_->UpdateTabContents(contents, should_restore_state); } void BrowserWindowGtk::FocusToolbar() { NOTIMPLEMENTED(); } bool BrowserWindowGtk::IsBookmarkBarVisible() const { return browser_->SupportsWindowFeature(Browser::FEATURE_BOOKMARKBAR) && bookmark_bar_.get(); } gfx::Rect BrowserWindowGtk::GetRootWindowResizerRect() const { return gfx::Rect(); } void BrowserWindowGtk::ToggleBookmarkBar() { bookmark_utils::ToggleWhenVisible(browser_->profile()); } void BrowserWindowGtk::ShowAboutChromeDialog() { ShowAboutDialogForProfile(window_, browser_->profile()); } void BrowserWindowGtk::ShowBookmarkManager() { NOTIMPLEMENTED(); } void BrowserWindowGtk::ShowBookmarkBubble(const GURL& url, bool already_bookmarked) { toolbar_->star()->ShowStarBubble(url, !already_bookmarked); } bool BrowserWindowGtk::IsDownloadShelfVisible() const { return download_shelf_.get() && download_shelf_->IsShowing(); } DownloadShelf* BrowserWindowGtk::GetDownloadShelf() { if (!download_shelf_.get()) download_shelf_.reset(new DownloadShelfGtk(browser_.get(), render_area_vbox_)); return download_shelf_.get(); } void BrowserWindowGtk::ShowReportBugDialog() { NOTIMPLEMENTED(); } void BrowserWindowGtk::ShowClearBrowsingDataDialog() { ClearBrowsingDataDialogGtk::Show(window_, browser_->profile()); } void BrowserWindowGtk::ShowImportDialog() { ImportDialogGtk::Show(window_, browser_->profile()); } void BrowserWindowGtk::ShowSearchEnginesDialog() { NOTIMPLEMENTED(); } void BrowserWindowGtk::ShowPasswordManager() { NOTIMPLEMENTED(); } void BrowserWindowGtk::ShowSelectProfileDialog() { NOTIMPLEMENTED(); } void BrowserWindowGtk::ShowNewProfileDialog() { NOTIMPLEMENTED(); } void BrowserWindowGtk::ShowHTMLDialog(HtmlDialogUIDelegate* delegate, gfx::NativeWindow parent_window) { NOTIMPLEMENTED(); } void BrowserWindowGtk::UserChangedTheme() { NOTIMPLEMENTED(); } int BrowserWindowGtk::GetExtraRenderViewHeight() const { int sum = infobar_container_->TotalHeightOfClosingBars(); if (bookmark_bar_->IsClosing()) sum += bookmark_bar_->GetHeight(); if (download_shelf_.get() && download_shelf_->IsClosing()) { sum += download_shelf_->GetHeight(); } return sum; } void BrowserWindowGtk::TabContentsFocused(TabContents* tab_contents) { NOTIMPLEMENTED(); } void BrowserWindowGtk::ConfirmBrowserCloseWithPendingDownloads() { NOTIMPLEMENTED(); browser_->InProgressDownloadResponse(false); } void BrowserWindowGtk::Observe(NotificationType type, const NotificationSource& source, const NotificationDetails& details) { if (type == NotificationType::BOOKMARK_BAR_VISIBILITY_PREF_CHANGED) { MaybeShowBookmarkBar(browser_->GetSelectedTabContents()); } else if (type == NotificationType::PREF_CHANGED) { std::wstring* pref_name = Details(details).ptr(); if (*pref_name == prefs::kUseCustomChromeFrame) { UpdateCustomFrame(); } else { NOTREACHED() << "Got a pref change notification we didn't register for!"; } } else { NOTREACHED() << "Got a notification we didn't register for!"; } } void BrowserWindowGtk::TabDetachedAt(TabContents* contents, int index) { // We use index here rather than comparing |contents| because by this time // the model has already removed |contents| from its list, so // browser_->GetSelectedTabContents() will return NULL or something else. if (index == browser_->tabstrip_model()->selected_index()) infobar_container_->ChangeTabContents(NULL); contents_container_->DetachTabContents(contents); } // TODO(estade): this function should probably be unforked from the BrowserView // function of the same name by having a shared partial BrowserWindow // implementation. void BrowserWindowGtk::TabSelectedAt(TabContents* old_contents, TabContents* new_contents, int index, bool user_gesture) { DCHECK(old_contents != new_contents); if (old_contents && !old_contents->is_being_destroyed()) old_contents->view()->StoreFocus(); // Update various elements that are interested in knowing the current // TabContents. infobar_container_->ChangeTabContents(new_contents); contents_container_->SetTabContents(new_contents); new_contents->DidBecomeSelected(); // TODO(estade): after we manage browser activation, add a check to make sure // we are the active browser before calling RestoreFocus(). if (!browser_->tabstrip_model()->closing_all()) new_contents->view()->RestoreFocus(); // Update all the UI bits. UpdateTitleBar(); toolbar_->SetProfile(new_contents->profile()); UpdateToolbar(new_contents, true); UpdateUIForContents(new_contents); } void BrowserWindowGtk::TabStripEmpty() { UpdateUIForContents(NULL); } void BrowserWindowGtk::MaybeShowBookmarkBar(TabContents* contents) { bool show_bar = false; if (browser_->SupportsWindowFeature(Browser::FEATURE_BOOKMARKBAR) && contents) { bookmark_bar_->SetProfile(contents->profile()); bookmark_bar_->SetPageNavigator(contents); show_bar = true; } if (show_bar) { PrefService* prefs = contents->profile()->GetPrefs(); show_bar = prefs->GetBoolean(prefs::kShowBookmarkBar); } if (show_bar) { bookmark_bar_->Show(); } else { bookmark_bar_->Hide(); } } void BrowserWindowGtk::UpdateUIForContents(TabContents* contents) { MaybeShowBookmarkBar(contents); } void BrowserWindowGtk::DestroyBrowser() { browser_.reset(); } void BrowserWindowGtk::OnBoundsChanged(const gfx::Rect& bounds) { bounds_ = bounds; SaveWindowPosition(); } void BrowserWindowGtk::OnStateChanged(GdkWindowState state) { state_ = state; SaveWindowPosition(); } bool BrowserWindowGtk::CanClose() const { if (drag_active_) return false; // TODO(tc): We don't have tab dragging yet. // You cannot close a frame for which there is an active originating drag // session. // if (tabstrip_->IsDragSessionActive()) // return false; // Give beforeunload handlers the chance to cancel the close before we hide // the window below. if (!browser_->ShouldCloseWindow()) return false; if (!browser_->tabstrip_model()->empty()) { // Tab strip isn't empty. Hide the window (so it appears to have closed // immediately) and close all the tabs, allowing the renderers to shut // down. When the tab strip is empty we'll be called back again. gtk_widget_hide(GTK_WIDGET(window_)); browser_->OnWindowClosing(); return false; } // Empty TabStripModel, it's now safe to allow the Window to be closed. NotificationService::current()->Notify( NotificationType::WINDOW_CLOSED, Source(window_), NotificationService::NoDetails()); return true; } bool BrowserWindowGtk::ShouldShowWindowIcon() const { return browser_->SupportsWindowFeature(Browser::FEATURE_TITLEBAR); } void BrowserWindowGtk::AddFindBar(FindBarGtk* findbar) { gtk_box_pack_start(GTK_BOX(render_area_vbox_), findbar->widget(), FALSE, FALSE, 0); gtk_box_reorder_child(GTK_BOX(render_area_vbox_), findbar->widget(), 0); } // static BrowserWindowGtk* BrowserWindowGtk::GetBrowserWindowForNativeWindow( gfx::NativeWindow window) { if (window) { return static_cast( g_object_get_data(G_OBJECT(window), kBrowserWindowKey)); } return NULL; } // static GtkWindow* BrowserWindowGtk::GetBrowserWindowForXID(XID xid) { return BrowserWindowGtk::xid_map_.find(xid)->second; } void BrowserWindowGtk::SetGeometryHints() { // Allow the user to resize us arbitrarily small. GdkGeometry geometry; geometry.min_width = 1; geometry.min_height = 1; gtk_window_set_geometry_hints(window_, NULL, &geometry, GDK_HINT_MIN_SIZE); if (browser_->GetSavedMaximizedState()) gtk_window_maximize(window_); else gtk_window_unmaximize(window_); gfx::Rect bounds = browser_->GetSavedWindowBounds(); // Note that calling SetBounds() here is incorrect, as that sets a forced // position on the window and we intentionally *don't* do that. We tested // many programs and none of them restored their position on Linux. gtk_window_resize(window_, bounds.width(), bounds.height()); } void BrowserWindowGtk::SetWindowIcon() { ResourceBundle& rb = ResourceBundle::GetSharedInstance(); GList* icon_list = NULL; icon_list = g_list_append(icon_list, rb.GetPixbufNamed(IDR_PRODUCT_ICON_32)); icon_list = g_list_append(icon_list, rb.GetPixbufNamed(IDR_PRODUCT_LOGO_16)); gtk_window_set_icon_list(window_, icon_list); g_list_free(icon_list); } void BrowserWindowGtk::ConnectAccelerators() { GtkAccelGroup* accel_group = gtk_accel_group_new(); gtk_window_add_accel_group(window_, accel_group); // Drop the initial ref on |accel_group| so |window_| will own it. g_object_unref(accel_group); for (size_t i = 0; i < arraysize(kAcceleratorMap); ++i) { gtk_accel_group_connect( accel_group, kAcceleratorMap[i].keyval, kAcceleratorMap[i].modifier_type, GtkAccelFlags(0), g_cclosure_new(G_CALLBACK(OnGtkAccelerator), this, NULL)); } } void BrowserWindowGtk::UpdateCustomFrame() { gtk_window_set_decorated(window_, !use_custom_frame_.GetValue()); titlebar_->UpdateCustomFrame(use_custom_frame_.GetValue()); if (use_custom_frame_.GetValue()) { gtk_alignment_set_padding(GTK_ALIGNMENT(window_container_), 0, kCustomFrameWidth, kCustomFrameWidth, kCustomFrameWidth); } else { gtk_alignment_set_padding(GTK_ALIGNMENT(window_container_), 0, 0, 0, 0); } } void BrowserWindowGtk::SaveWindowPosition() { // Browser::SaveWindowPlacement is used for session restore. if (browser_->ShouldSaveWindowPlacement()) browser_->SaveWindowPlacement(bounds_, IsMaximized()); // We also need to save the placement for startup. // This is a web of calls between views and delegates on Windows, but the // crux of the logic follows. See also cocoa/browser_window_controller.mm. if (!g_browser_process->local_state()) return; std::wstring window_name = browser_->GetWindowPlacementKey(); DictionaryValue* window_preferences = g_browser_process->local_state()->GetMutableDictionary( window_name.c_str()); // Note that we store left/top for consistency with Windows, but that we // *don't* obey them; we only use them for computing width/height. See // comments in SetGeometryHints(). window_preferences->SetInteger(L"left", bounds_.x()); window_preferences->SetInteger(L"top", bounds_.y()); window_preferences->SetInteger(L"right", bounds_.right()); window_preferences->SetInteger(L"bottom", bounds_.bottom()); window_preferences->SetBoolean(L"maximized", IsMaximized()); } // static gboolean BrowserWindowGtk::OnGtkAccelerator(GtkAccelGroup* accel_group, GObject* acceleratable, guint keyval, GdkModifierType modifier, BrowserWindowGtk* browser_window) { int command_id = GetCommandId(keyval, modifier); browser_window->ExecuteBrowserCommand(command_id); return TRUE; } // static void BrowserWindowGtk::MainWindowMapped(GtkWidget* widget, BrowserWindowGtk* window) { // Map the X Window ID of the window to our window. XID xid = x11_util::GetX11WindowFromGtkWidget(widget); BrowserWindowGtk::xid_map_.insert( std::pair(xid, GTK_WINDOW(widget))); } // static void BrowserWindowGtk::MainWindowUnMapped(GtkWidget* widget, BrowserWindowGtk* window) { // Unmap the X Window ID. XID xid = x11_util::GetX11WindowFromGtkWidget(widget); BrowserWindowGtk::xid_map_.erase(xid); } void BrowserWindowGtk::ExecuteBrowserCommand(int id) { if (browser_->command_updater()->IsCommandEnabled(id)) browser_->ExecuteCommand(id); } void BrowserWindowGtk::ShowSupportedWindowFeatures() { if (IsTabStripSupported()) tabstrip_->Show(); if (IsToolbarSupported()) toolbar_->Show(); } void BrowserWindowGtk::HideUnsupportedWindowFeatures() { if (!IsTabStripSupported()) tabstrip_->Hide(); if (!IsToolbarSupported()) toolbar_->Hide(); } bool BrowserWindowGtk::IsTabStripSupported() { return browser_->SupportsWindowFeature(Browser::FEATURE_TABSTRIP); } bool BrowserWindowGtk::IsToolbarSupported() { return browser_->SupportsWindowFeature(Browser::FEATURE_TOOLBAR) || browser_->SupportsWindowFeature(Browser::FEATURE_LOCATIONBAR); }