// Copyright (c) 2012 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/ui/libgtk2ui/gtk2_ui.h" #include #include #include #include #include "base/command_line.h" #include "base/debug/leak_annotations.h" #include "base/environment.h" #include "base/i18n/rtl.h" #include "base/logging.h" #include "base/nix/mime_util_xdg.h" #include "base/nix/xdg_util.h" #include "base/stl_util.h" #include "base/strings/string_split.h" #include "base/strings/stringprintf.h" #include "chrome/browser/themes/theme_properties.h" #include "chrome/browser/ui/libgtk2ui/app_indicator_icon.h" #include "chrome/browser/ui/libgtk2ui/chrome_gtk_frame.h" #include "chrome/browser/ui/libgtk2ui/gtk2_border.h" #include "chrome/browser/ui/libgtk2ui/gtk2_event_loop.h" #include "chrome/browser/ui/libgtk2ui/gtk2_key_bindings_handler.h" #include "chrome/browser/ui/libgtk2ui/gtk2_signal_registrar.h" #include "chrome/browser/ui/libgtk2ui/gtk2_status_icon.h" #include "chrome/browser/ui/libgtk2ui/gtk2_util.h" #include "chrome/browser/ui/libgtk2ui/native_theme_gtk2.h" #include "chrome/browser/ui/libgtk2ui/print_dialog_gtk2.h" #include "chrome/browser/ui/libgtk2ui/printing_gtk2_util.h" #include "chrome/browser/ui/libgtk2ui/select_file_dialog_impl.h" #include "chrome/browser/ui/libgtk2ui/skia_utils_gtk2.h" #include "chrome/browser/ui/libgtk2ui/unity_service.h" #include "chrome/browser/ui/libgtk2ui/x11_input_method_context_impl_gtk2.h" #include "grit/components_scaled_resources.h" #include "grit/theme_resources.h" #include "printing/printing_context_linux.h" #include "third_party/skia/include/core/SkBitmap.h" #include "third_party/skia/include/core/SkCanvas.h" #include "third_party/skia/include/core/SkColor.h" #include "third_party/skia/include/core/SkShader.h" #include "ui/base/resource/resource_bundle.h" #include "ui/gfx/canvas.h" #include "ui/gfx/geometry/rect.h" #include "ui/gfx/geometry/size.h" #include "ui/gfx/image/image.h" #include "ui/gfx/skbitmap_operations.h" #include "ui/gfx/skia_util.h" #include "ui/gfx/x/x11_types.h" #include "ui/resources/grit/ui_resources.h" #include "ui/views/controls/button/label_button.h" #include "ui/views/controls/button/label_button_border.h" #include "ui/views/linux_ui/window_button_order_observer.h" #if defined(USE_GCONF) #include "chrome/browser/ui/libgtk2ui/gconf_listener.h" #endif // A minimized port of GtkThemeService into something that can provide colors // and images for aura. // // TODO(erg): There's still a lot that needs ported or done for the first time: // // - Render and inject the omnibox background. // - Make sure to test with a light on dark theme, too. // Work around a header bug: // linux/debian_wheezy_i386-sysroot/usr/include/linux/stddef.h redefines NULL // to 0, which breaks -Wsentinel. Get back the normal definition of NULL. // TODO(thakis): Remove this once we update sysroots. #define __need_NULL #include namespace libgtk2ui { namespace { struct GObjectDeleter { void operator()(void* ptr) { g_object_unref(ptr); } }; struct GtkIconInfoDeleter { void operator()(GtkIconInfo* ptr) { gtk_icon_info_free(ptr); } }; typedef scoped_ptr ScopedGIcon; typedef scoped_ptr ScopedGtkIconInfo; typedef scoped_ptr ScopedGdkPixbuf; // Prefix for app indicator ids const char kAppIndicatorIdPrefix[] = "chrome_app_indicator_"; // Number of app indicators used (used as part of app-indicator id). int indicators_count; // The unknown content type. const char* kUnknownContentType = "application/octet-stream"; // The size of the rendered toolbar image. const int kToolbarImageWidth = 64; const int kToolbarImageHeight = 128; // How much to tint the GTK+ color lighter at the top of the window. const color_utils::HSL kGtkFrameShift = { -1, -1, 0.58 }; // How much to tint the GTK+ color when an explicit frame color hasn't been // specified. const color_utils::HSL kDefaultFrameShift = { -1, -1, 0.4 }; // Values used as the new luminance and saturation values in the inactive tab // text color. const double kDarkInactiveLuminance = 0.85; const double kLightInactiveLuminance = 0.15; const double kHeavyInactiveSaturation = 0.7; const double kLightInactiveSaturation = 0.3; // Default color for links on the NTP when the GTK+ theme doesn't define a // link color. Constant taken from gtklinkbutton.c. const GdkColor kDefaultLinkColor = { 0, 0, 0, 0xeeee }; const int kSkiaToGDKMultiplier = 257; // TODO(erg): ThemeService has a whole interface just for reading default // constants. Figure out what to do with that more long term; for now, just // copy the constants themselves here. // // Default tints. const color_utils::HSL kDefaultTintButtons = { -1, -1, -1 }; const color_utils::HSL kDefaultTintFrame = { -1, -1, -1 }; const color_utils::HSL kDefaultTintFrameInactive = { -1, -1, 0.75f }; const color_utils::HSL kDefaultTintFrameIncognito = { -1, 0.2f, 0.35f }; const color_utils::HSL kDefaultTintFrameIncognitoInactive = { -1, 0.3f, 0.6f }; const color_utils::HSL kDefaultTintBackgroundTab = { -1, 0.5, 0.75 }; // A list of images that we provide while in gtk mode. // // TODO(erg): We list both the normal and *_DESKTOP versions of some of these // images because in some contexts, we don't go through the // chrome::MapThemeImage interface. That should be fixed, but tracking that // down is Hard. const int kThemeImages[] = { IDR_THEME_TOOLBAR, IDR_THEME_TAB_BACKGROUND, IDR_THEME_TAB_BACKGROUND_DESKTOP, IDR_THEME_TAB_BACKGROUND_INCOGNITO, IDR_THEME_TAB_BACKGROUND_INCOGNITO_DESKTOP, IDR_FRAME, IDR_FRAME_INACTIVE, IDR_THEME_FRAME, IDR_THEME_FRAME_INACTIVE, IDR_THEME_FRAME_INCOGNITO, IDR_THEME_FRAME_INCOGNITO_INACTIVE, }; // A list of icons used in the autocomplete view that should be tinted to the // current gtk theme selection color so they stand out against the GtkEntry's // base color. // TODO(erg): Decide what to do about other icons that appear in the omnibox, // e.g. content settings icons. const int kAutocompleteImages[] = { IDR_OMNIBOX_CALCULATOR, IDR_OMNIBOX_EXTENSION_APP, IDR_OMNIBOX_HTTP, IDR_OMNIBOX_HTTP_DARK, IDR_OMNIBOX_SEARCH, IDR_OMNIBOX_SEARCH_DARK, IDR_OMNIBOX_STAR, IDR_OMNIBOX_STAR_DARK, IDR_OMNIBOX_TTS, IDR_OMNIBOX_TTS_DARK, }; // This table converts button ids into a pair of gtk-stock id and state. struct IDRGtkMapping { int idr; const char* stock_id; GtkStateType gtk_state; } const kGtkIcons[] = { { IDR_BACK, GTK_STOCK_GO_BACK, GTK_STATE_NORMAL }, { IDR_BACK_D, GTK_STOCK_GO_BACK, GTK_STATE_INSENSITIVE }, { IDR_FORWARD, GTK_STOCK_GO_FORWARD, GTK_STATE_NORMAL }, { IDR_FORWARD_D, GTK_STOCK_GO_FORWARD, GTK_STATE_INSENSITIVE }, { IDR_HOME, GTK_STOCK_HOME, GTK_STATE_NORMAL }, { IDR_RELOAD, GTK_STOCK_REFRESH, GTK_STATE_NORMAL }, { IDR_RELOAD_D, GTK_STOCK_REFRESH, GTK_STATE_INSENSITIVE }, { IDR_STOP, GTK_STOCK_STOP, GTK_STATE_NORMAL }, { IDR_STOP_D, GTK_STOCK_STOP, GTK_STATE_INSENSITIVE }, }; // The image resources that will be tinted by the 'button' tint value. const int kOtherToolbarButtonIDs[] = { IDR_TOOLBAR_BEZEL_HOVER, IDR_TOOLBAR_BEZEL_PRESSED, IDR_BROWSER_ACTIONS_OVERFLOW, // TODO(erg): The dropdown arrow should be tinted because we're injecting // various background GTK colors, but the code that accesses them needs to be // modified so that they ask their ui::ThemeProvider instead of the // ResourceBundle. (i.e. in a light on dark theme, the dropdown arrow will be // dark on dark) IDR_MENU_DROPARROW }; bool IsOverridableImage(int id) { CR_DEFINE_STATIC_LOCAL(std::set, images, ()); if (images.empty()) { images.insert(kThemeImages, kThemeImages + arraysize(kThemeImages)); images.insert(kAutocompleteImages, kAutocompleteImages + arraysize(kAutocompleteImages)); for (unsigned int i = 0; i < arraysize(kGtkIcons); ++i) images.insert(kGtkIcons[i].idr); images.insert(kOtherToolbarButtonIDs, kOtherToolbarButtonIDs + arraysize(kOtherToolbarButtonIDs)); } return images.count(id) > 0; } // Picks a button tint from a set of background colors. While // |accent_gdk_color| will usually be the same color through a theme, this // function will get called with the normal GtkLabel |text_color|/GtkWindow // |background_color| pair and the GtkEntry |text_color|/|background_color| // pair. While 3/4 of the time the resulting tint will be the same, themes that // have a dark window background (with light text) and a light text entry (with // dark text) will get better icons with this separated out. void PickButtonTintFromColors(const GdkColor& accent_gdk_color, const GdkColor& text_color, const GdkColor& background_color, color_utils::HSL* tint) { SkColor accent_color = GdkColorToSkColor(accent_gdk_color); color_utils::HSL accent_tint; color_utils::SkColorToHSL(accent_color, &accent_tint); color_utils::HSL text_tint; color_utils::SkColorToHSL(GdkColorToSkColor(text_color), &text_tint); color_utils::HSL background_tint; color_utils::SkColorToHSL(GdkColorToSkColor(background_color), &background_tint); // If the accent color is gray, then our normal HSL tomfoolery will bring out // whatever color is oddly dominant (for example, in rgb space [125, 128, // 125] will tint green instead of gray). Slight differences (+/-10 (4%) to // all color components) should be interpreted as this color being gray and // we should switch into a special grayscale mode. int rb_diff = abs(static_cast(SkColorGetR(accent_color)) - static_cast(SkColorGetB(accent_color))); int rg_diff = abs(static_cast(SkColorGetR(accent_color)) - static_cast(SkColorGetG(accent_color))); int bg_diff = abs(static_cast(SkColorGetB(accent_color)) - static_cast(SkColorGetG(accent_color))); if (rb_diff < 10 && rg_diff < 10 && bg_diff < 10) { // Our accent is white/gray/black. Only the luminance of the accent color // matters. tint->h = -1; // Use the saturation of the text. tint->s = text_tint.s; // Use the luminance of the accent color UNLESS there isn't enough // luminance contrast between the accent color and the base color. if (fabs(accent_tint.l - background_tint.l) > 0.3) tint->l = accent_tint.l; else tint->l = text_tint.l; } else { // Our accent is a color. tint->h = accent_tint.h; // Don't modify the saturation; the amount of color doesn't matter. tint->s = -1; // If the text wants us to darken the icon, don't change the luminance (the // icons are already dark enough). Otherwise, lighten the icon by no more // than 0.9 since we don't want a pure-white icon even if the text is pure // white. if (text_tint.l < 0.5) tint->l = -1; else if (text_tint.l <= 0.9) tint->l = text_tint.l; else tint->l = 0.9; } } // Applies an HSL shift to a GdkColor (instead of an SkColor) void GdkColorHSLShift(const color_utils::HSL& shift, GdkColor* frame_color) { SkColor shifted = color_utils::HSLShift( GdkColorToSkColor(*frame_color), shift); frame_color->pixel = 0; frame_color->red = SkColorGetR(shifted) * kSkiaToGDKMultiplier; frame_color->green = SkColorGetG(shifted) * kSkiaToGDKMultiplier; frame_color->blue = SkColorGetB(shifted) * kSkiaToGDKMultiplier; } // Copied Default blah sections from ThemeService. color_utils::HSL GetDefaultTint(int id) { switch (id) { case ThemeProperties::TINT_FRAME: return kDefaultTintFrame; case ThemeProperties::TINT_FRAME_INACTIVE: return kDefaultTintFrameInactive; case ThemeProperties::TINT_FRAME_INCOGNITO: return kDefaultTintFrameIncognito; case ThemeProperties::TINT_FRAME_INCOGNITO_INACTIVE: return kDefaultTintFrameIncognitoInactive; case ThemeProperties::TINT_BUTTONS: return kDefaultTintButtons; case ThemeProperties::TINT_BACKGROUND_TAB: return kDefaultTintBackgroundTab; default: color_utils::HSL result = {-1, -1, -1}; return result; } } // Returns a gfx::FontRenderParams corresponding to GTK's configuration. gfx::FontRenderParams GetGtkFontRenderParams() { GtkSettings* gtk_settings = gtk_settings_get_default(); CHECK(gtk_settings); gint antialias = 0; gint hinting = 0; gchar* hint_style = NULL; gchar* rgba = NULL; g_object_get(gtk_settings, "gtk-xft-antialias", &antialias, "gtk-xft-hinting", &hinting, "gtk-xft-hintstyle", &hint_style, "gtk-xft-rgba", &rgba, NULL); gfx::FontRenderParams params; params.antialiasing = antialias != 0; if (hinting == 0 || !hint_style || strcmp(hint_style, "hintnone") == 0) { params.hinting = gfx::FontRenderParams::HINTING_NONE; } else if (strcmp(hint_style, "hintslight") == 0) { params.hinting = gfx::FontRenderParams::HINTING_SLIGHT; } else if (strcmp(hint_style, "hintmedium") == 0) { params.hinting = gfx::FontRenderParams::HINTING_MEDIUM; } else if (strcmp(hint_style, "hintfull") == 0) { params.hinting = gfx::FontRenderParams::HINTING_FULL; } else { LOG(WARNING) << "Unexpected gtk-xft-hintstyle \"" << hint_style << "\""; params.hinting = gfx::FontRenderParams::HINTING_NONE; } if (!rgba || strcmp(rgba, "none") == 0) { params.subpixel_rendering = gfx::FontRenderParams::SUBPIXEL_RENDERING_NONE; } else if (strcmp(rgba, "rgb") == 0) { params.subpixel_rendering = gfx::FontRenderParams::SUBPIXEL_RENDERING_RGB; } else if (strcmp(rgba, "bgr") == 0) { params.subpixel_rendering = gfx::FontRenderParams::SUBPIXEL_RENDERING_BGR; } else if (strcmp(rgba, "vrgb") == 0) { params.subpixel_rendering = gfx::FontRenderParams::SUBPIXEL_RENDERING_VRGB; } else if (strcmp(rgba, "vbgr") == 0) { params.subpixel_rendering = gfx::FontRenderParams::SUBPIXEL_RENDERING_VBGR; } else { LOG(WARNING) << "Unexpected gtk-xft-rgba \"" << rgba << "\""; params.subpixel_rendering = gfx::FontRenderParams::SUBPIXEL_RENDERING_NONE; } g_free(hint_style); g_free(rgba); return params; } double GetBaseDPI() { XDisplay* xdisplay = gfx::GetXDisplay(); int xscreen = DefaultScreen(xdisplay); return (DisplayHeight(xdisplay, xscreen) * 25.4) / DisplayHeightMM(xdisplay, xscreen); } double GetFontDPI() { GtkSettings* gtk_settings = gtk_settings_get_default(); CHECK(gtk_settings); gint gtk_dpi = -1; g_object_get(gtk_settings, "gtk-xft-dpi", >k_dpi, NULL); // GTK multiplies the DPI by 1024 before storing it. return (gtk_dpi > 0) ? gtk_dpi / 1024.0 : GetBaseDPI(); } // Queries GTK for its font DPI setting and returns the number of pixels in a // point. double GetPixelsInPoint(float device_scale_factor) { double dpi = GetFontDPI(); // Take device_scale_factor into account — if Chrome already scales the // entire UI up by 2x, we should not also scale up. dpi /= device_scale_factor; // There are 72 points in an inch. return dpi / 72.0; } views::LinuxUI::NonClientMiddleClickAction GetDefaultMiddleClickAction() { scoped_ptr env(base::Environment::Create()); switch (base::nix::GetDesktopEnvironment(env.get())) { case base::nix::DESKTOP_ENVIRONMENT_KDE4: // Starting with KDE 4.4, windows' titlebars can be dragged with the // middle mouse button to create tab groups. We don't support that in // Chrome, but at least avoid lowering windows in response to middle // clicks to avoid surprising users who expect the KDE behavior. return views::LinuxUI::MIDDLE_CLICK_ACTION_NONE; default: return views::LinuxUI::MIDDLE_CLICK_ACTION_LOWER; } } } // namespace Gtk2UI::Gtk2UI() : default_font_size_pixels_(0), default_font_style_(gfx::Font::NORMAL), middle_click_action_(GetDefaultMiddleClickAction()), device_scale_factor_(1.0) { GtkInitFromCommandLine(*base::CommandLine::ForCurrentProcess()); } void Gtk2UI::Initialize() { signals_.reset(new Gtk2SignalRegistrar); // Create our fake widgets. fake_window_ = gtk_window_new(GTK_WINDOW_TOPLEVEL); fake_frame_ = chrome_gtk_frame_new(); fake_label_.Own(gtk_label_new("")); fake_entry_.Own(gtk_entry_new()); // Only realized widgets receive style-set notifications, which we need to // broadcast new theme images and colors. Only realized widgets have style // properties, too, which we query for some colors. gtk_widget_realize(fake_frame_); gtk_widget_realize(fake_window_); signals_->Connect(fake_frame_, "style-set", G_CALLBACK(&OnStyleSetThunk), this); LoadGtkValues(); printing::PrintingContextLinux::SetCreatePrintDialogFunction( &PrintDialogGtk2::CreatePrintDialog); printing::PrintingContextLinux::SetPdfPaperSizeFunction( &GetPdfPaperSizeDeviceUnitsGtk); #if defined(USE_GCONF) // We must build this after GTK gets initialized. gconf_listener_.reset(new GConfListener(this)); #endif // defined(USE_GCONF) indicators_count = 0; // Instantiate the singleton instance of Gtk2EventLoop. Gtk2EventLoop::GetInstance(); } Gtk2UI::~Gtk2UI() { gtk_widget_destroy(fake_window_); gtk_widget_destroy(fake_frame_); fake_label_.Destroy(); fake_entry_.Destroy(); ClearAllThemeData(); } gfx::Image Gtk2UI::GetThemeImageNamed(int id) const { // Try to get our cached version: ImageCache::const_iterator it = gtk_images_.find(id); if (it != gtk_images_.end()) return it->second; if (IsOverridableImage(id)) { gfx::Image image = gfx::Image( gfx::ImageSkia::CreateFrom1xBitmap(GenerateGtkThemeBitmap(id))); gtk_images_[id] = image; return image; } return gfx::Image(); } bool Gtk2UI::GetColor(int id, SkColor* color) const { ColorMap::const_iterator it = colors_.find(id); if (it != colors_.end()) { *color = it->second; return true; } return false; } bool Gtk2UI::HasCustomImage(int id) const { return IsOverridableImage(id); } SkColor Gtk2UI::GetFocusRingColor() const { return focus_ring_color_; } SkColor Gtk2UI::GetThumbActiveColor() const { return thumb_active_color_; } SkColor Gtk2UI::GetThumbInactiveColor() const { return thumb_inactive_color_; } SkColor Gtk2UI::GetTrackColor() const { return track_color_; } SkColor Gtk2UI::GetActiveSelectionBgColor() const { return active_selection_bg_color_; } SkColor Gtk2UI::GetActiveSelectionFgColor() const { return active_selection_fg_color_; } SkColor Gtk2UI::GetInactiveSelectionBgColor() const { return inactive_selection_bg_color_; } SkColor Gtk2UI::GetInactiveSelectionFgColor() const { return inactive_selection_fg_color_; } double Gtk2UI::GetCursorBlinkInterval() const { // From http://library.gnome.org/devel/gtk/unstable/GtkSettings.html, this is // the default value for gtk-cursor-blink-time. static const gint kGtkDefaultCursorBlinkTime = 1200; // Dividing GTK's cursor blink cycle time (in milliseconds) by this value // yields an appropriate value for // content::RendererPreferences::caret_blink_interval. This matches the // logic in the WebKit GTK port. static const double kGtkCursorBlinkCycleFactor = 2000.0; gint cursor_blink_time = kGtkDefaultCursorBlinkTime; gboolean cursor_blink = TRUE; g_object_get(gtk_settings_get_default(), "gtk-cursor-blink-time", &cursor_blink_time, "gtk-cursor-blink", &cursor_blink, NULL); return cursor_blink ? (cursor_blink_time / kGtkCursorBlinkCycleFactor) : 0.0; } ui::NativeTheme* Gtk2UI::GetNativeTheme(aura::Window* window) const { ui::NativeTheme* native_theme_override = NULL; if (!native_theme_overrider_.is_null()) native_theme_override = native_theme_overrider_.Run(window); if (native_theme_override) return native_theme_override; return NativeThemeGtk2::instance(); } void Gtk2UI::SetNativeThemeOverride(const NativeThemeGetter& callback) { native_theme_overrider_ = callback; } bool Gtk2UI::GetDefaultUsesSystemTheme() const { scoped_ptr env(base::Environment::Create()); switch (base::nix::GetDesktopEnvironment(env.get())) { case base::nix::DESKTOP_ENVIRONMENT_GNOME: case base::nix::DESKTOP_ENVIRONMENT_UNITY: case base::nix::DESKTOP_ENVIRONMENT_XFCE: return true; case base::nix::DESKTOP_ENVIRONMENT_KDE3: case base::nix::DESKTOP_ENVIRONMENT_KDE4: case base::nix::DESKTOP_ENVIRONMENT_OTHER: return false; } // Unless GetDesktopEnvironment() badly misbehaves, this should never happen. NOTREACHED(); return false; } void Gtk2UI::SetDownloadCount(int count) const { if (unity::IsRunning()) unity::SetDownloadCount(count); } void Gtk2UI::SetProgressFraction(float percentage) const { if (unity::IsRunning()) unity::SetProgressFraction(percentage); } bool Gtk2UI::IsStatusIconSupported() const { return true; } scoped_ptr Gtk2UI::CreateLinuxStatusIcon( const gfx::ImageSkia& image, const base::string16& tool_tip) const { if (AppIndicatorIcon::CouldOpen()) { ++indicators_count; return scoped_ptr(new AppIndicatorIcon( base::StringPrintf("%s%d", kAppIndicatorIdPrefix, indicators_count), image, tool_tip)); } else { return scoped_ptr(new Gtk2StatusIcon( image, tool_tip)); } } gfx::Image Gtk2UI::GetIconForContentType( const std::string& content_type, int size) const { // This call doesn't take a reference. GtkIconTheme* theme = gtk_icon_theme_get_default(); std::string content_types[] = { content_type, kUnknownContentType }; for (size_t i = 0; i < arraysize(content_types); ++i) { ScopedGIcon icon(g_content_type_get_icon(content_types[i].c_str())); ScopedGtkIconInfo icon_info( gtk_icon_theme_lookup_by_gicon( theme, icon.get(), size, static_cast(GTK_ICON_LOOKUP_FORCE_SIZE))); if (!icon_info) continue; ScopedGdkPixbuf pixbuf(gtk_icon_info_load_icon(icon_info.get(), NULL)); if (!pixbuf) continue; SkBitmap bitmap = GdkPixbufToImageSkia(pixbuf.get()); DCHECK_EQ(size, bitmap.width()); DCHECK_EQ(size, bitmap.height()); gfx::ImageSkia image_skia = gfx::ImageSkia::CreateFrom1xBitmap(bitmap); image_skia.MakeThreadSafe(); return gfx::Image(image_skia); } return gfx::Image(); } scoped_ptr Gtk2UI::CreateNativeBorder( views::LabelButton* owning_button, scoped_ptr border) { if (owning_button->GetNativeTheme() != NativeThemeGtk2::instance()) return border.Pass(); return make_scoped_ptr(new Gtk2Border(this, owning_button, border.Pass())); } void Gtk2UI::AddWindowButtonOrderObserver( views::WindowButtonOrderObserver* observer) { if (!leading_buttons_.empty() || !trailing_buttons_.empty()) { observer->OnWindowButtonOrderingChange(leading_buttons_, trailing_buttons_); } observer_list_.AddObserver(observer); } void Gtk2UI::RemoveWindowButtonOrderObserver( views::WindowButtonOrderObserver* observer) { observer_list_.RemoveObserver(observer); } void Gtk2UI::SetWindowButtonOrdering( const std::vector& leading_buttons, const std::vector& trailing_buttons) { leading_buttons_ = leading_buttons; trailing_buttons_ = trailing_buttons; FOR_EACH_OBSERVER(views::WindowButtonOrderObserver, observer_list_, OnWindowButtonOrderingChange(leading_buttons_, trailing_buttons_)); } void Gtk2UI::SetNonClientMiddleClickAction(NonClientMiddleClickAction action) { middle_click_action_ = action; } scoped_ptr Gtk2UI::CreateInputMethodContext( ui::LinuxInputMethodContextDelegate* delegate, bool is_simple) const { return scoped_ptr( new X11InputMethodContextImplGtk2(delegate, is_simple)); } gfx::FontRenderParams Gtk2UI::GetDefaultFontRenderParams() const { static gfx::FontRenderParams params = GetGtkFontRenderParams(); return params; } void Gtk2UI::GetDefaultFontDescription( std::string* family_out, int* size_pixels_out, int* style_out, gfx::FontRenderParams* params_out) const { *family_out = default_font_family_; *size_pixels_out = default_font_size_pixels_; *style_out = default_font_style_; *params_out = default_font_render_params_; } ui::SelectFileDialog* Gtk2UI::CreateSelectFileDialog( ui::SelectFileDialog::Listener* listener, ui::SelectFilePolicy* policy) const { return SelectFileDialogImpl::Create(listener, policy); } bool Gtk2UI::UnityIsRunning() { return unity::IsRunning(); } views::LinuxUI::NonClientMiddleClickAction Gtk2UI::GetNonClientMiddleClickAction() { return middle_click_action_; } void Gtk2UI::NotifyWindowManagerStartupComplete() { // TODO(port) Implement this using _NET_STARTUP_INFO_BEGIN/_NET_STARTUP_INFO // from http://standards.freedesktop.org/startup-notification-spec/ instead. gdk_notify_startup_complete(); } bool Gtk2UI::MatchEvent(const ui::Event& event, std::vector* commands) { // Ensure that we have a keyboard handler. if (!key_bindings_handler_) key_bindings_handler_.reset(new Gtk2KeyBindingsHandler); return key_bindings_handler_->MatchEvent(event, commands); } void Gtk2UI::GetScrollbarColors(GdkColor* thumb_active_color, GdkColor* thumb_inactive_color, GdkColor* track_color) { GdkColor* theme_thumb_active = NULL; GdkColor* theme_thumb_inactive = NULL; GdkColor* theme_trough_color = NULL; gtk_widget_style_get(GTK_WIDGET(fake_frame_), "scrollbar-slider-prelight-color", &theme_thumb_active, "scrollbar-slider-normal-color", &theme_thumb_inactive, "scrollbar-trough-color", &theme_trough_color, NULL); // Ask the theme if the theme specifies all the scrollbar colors and short // circuit the expensive painting/compositing if we have all of them. if (theme_thumb_active && theme_thumb_inactive && theme_trough_color) { *thumb_active_color = *theme_thumb_active; *thumb_inactive_color = *theme_thumb_inactive; *track_color = *theme_trough_color; gdk_color_free(theme_thumb_active); gdk_color_free(theme_thumb_inactive); gdk_color_free(theme_trough_color); return; } // Create window containing scrollbar elements GtkWidget* window = gtk_window_new(GTK_WINDOW_POPUP); GtkWidget* fixed = gtk_fixed_new(); GtkWidget* scrollbar = gtk_hscrollbar_new(NULL); gtk_container_add(GTK_CONTAINER(window), fixed); gtk_container_add(GTK_CONTAINER(fixed), scrollbar); gtk_widget_realize(window); gtk_widget_realize(scrollbar); // Draw scrollbar thumb part and track into offscreen image const int kWidth = 100; const int kHeight = 20; GtkStyle* style = gtk_rc_get_style(scrollbar); GdkWindow* gdk_window = gtk_widget_get_window(window); GdkPixmap* pm = gdk_pixmap_new(gdk_window, kWidth, kHeight, -1); GdkRectangle rect = { 0, 0, kWidth, kHeight }; unsigned char data[3 * kWidth * kHeight]; for (int i = 0; i < 3; ++i) { if (i < 2) { // Thumb part gtk_paint_slider(style, pm, i == 0 ? GTK_STATE_PRELIGHT : GTK_STATE_NORMAL, GTK_SHADOW_OUT, &rect, scrollbar, "slider", 0, 0, kWidth, kHeight, GTK_ORIENTATION_HORIZONTAL); } else { // Track gtk_paint_box(style, pm, GTK_STATE_ACTIVE, GTK_SHADOW_IN, &rect, scrollbar, "trough-upper", 0, 0, kWidth, kHeight); } GdkPixbuf* pb = gdk_pixbuf_new_from_data(data, GDK_COLORSPACE_RGB, FALSE, 8, kWidth, kHeight, 3 * kWidth, 0, 0); gdk_pixbuf_get_from_drawable(pb, pm, NULL, 0, 0, 0, 0, kWidth, kHeight); // Sample pixels int components[3] = { 0 }; for (int y = 2; y < kHeight - 2; ++y) { for (int c = 0; c < 3; ++c) { // Sample a vertical slice of pixels at about one-thirds from the // left edge. This allows us to avoid any fixed graphics that might be // located at the edges or in the center of the scrollbar. // Each pixel is made up of a red, green, and blue component; taking up // a total of three bytes. components[c] += data[3 * (kWidth / 3 + y * kWidth) + c]; } } GdkColor* color = i == 0 ? thumb_active_color : i == 1 ? thumb_inactive_color : track_color; color->pixel = 0; // We sampled pixels across the full height of the image, ignoring a two // pixel border. In some themes, the border has a completely different // color which we do not want to factor into our average color computation. // // We now need to scale the colors from the 0..255 range, to the wider // 0..65535 range, and we need to actually compute the average color; so, // we divide by the total number of pixels in the sample. color->red = components[0] * 65535 / (255 * (kHeight - 4)); color->green = components[1] * 65535 / (255 * (kHeight - 4)); color->blue = components[2] * 65535 / (255 * (kHeight - 4)); g_object_unref(pb); } g_object_unref(pm); gtk_widget_destroy(window); // Override any of the default colors with ones that were specified by the // theme. if (theme_thumb_active) { *thumb_active_color = *theme_thumb_active; gdk_color_free(theme_thumb_active); } if (theme_thumb_inactive) { *thumb_inactive_color = *theme_thumb_inactive; gdk_color_free(theme_thumb_inactive); } if (theme_trough_color) { *track_color = *theme_trough_color; gdk_color_free(theme_trough_color); } } void Gtk2UI::LoadGtkValues() { // TODO(erg): GtkThemeService had a comment here about having to muck with // the raw Prefs object to remove prefs::kCurrentThemeImages or else we'd // regress startup time. Figure out how to do that when we can't access the // prefs system from here. GtkStyle* frame_style = gtk_rc_get_style(fake_frame_); GtkStyle* window_style = gtk_rc_get_style(fake_window_); SetThemeColorFromGtk(ThemeProperties::COLOR_CONTROL_BACKGROUND, &window_style->bg[GTK_STATE_NORMAL]); GdkColor toolbar_color = window_style->bg[GTK_STATE_NORMAL]; SetThemeColorFromGtk(ThemeProperties::COLOR_TOOLBAR, &toolbar_color); GdkColor button_color = window_style->bg[GTK_STATE_SELECTED]; SetThemeTintFromGtk(ThemeProperties::TINT_BUTTONS, &button_color); GtkStyle* label_style = gtk_rc_get_style(fake_label_.get()); GdkColor label_color = label_style->fg[GTK_STATE_NORMAL]; SetThemeColorFromGtk(ThemeProperties::COLOR_TAB_TEXT, &label_color); SetThemeColorFromGtk(ThemeProperties::COLOR_BOOKMARK_TEXT, &label_color); SetThemeColorFromGtk(ThemeProperties::COLOR_STATUS_BAR_TEXT, &label_color); UpdateDefaultFont(label_style->font_desc); // Build the various icon tints. GetNormalButtonTintHSL(&button_tint_); GetNormalEntryForegroundHSL(&entry_tint_); GetSelectedEntryForegroundHSL(&selected_entry_tint_); GdkColor frame_color = BuildFrameColors(frame_style); // The inactive frame color never occurs naturally in the theme, as it is a // tinted version of |frame_color|. We generate another color based on the // background tab color, with the lightness and saturation moved in the // opposite direction. (We don't touch the hue, since there should be subtle // hints of the color in the text.) color_utils::HSL inactive_tab_text_hsl = tints_[ThemeProperties::TINT_BACKGROUND_TAB]; if (inactive_tab_text_hsl.l < 0.5) inactive_tab_text_hsl.l = kDarkInactiveLuminance; else inactive_tab_text_hsl.l = kLightInactiveLuminance; if (inactive_tab_text_hsl.s < 0.5) inactive_tab_text_hsl.s = kHeavyInactiveSaturation; else inactive_tab_text_hsl.s = kLightInactiveSaturation; colors_[ThemeProperties::COLOR_BACKGROUND_TAB_TEXT] = color_utils::HSLToSkColor(inactive_tab_text_hsl, 255); // We pick the text and background colors for the NTP out of the colors for a // GtkEntry. We do this because GtkEntries background color is never the same // as |toolbar_color|, is usually a white, and when it isn't a white, // provides sufficient contrast to |toolbar_color|. Try this out with // Darklooks, HighContrastInverse or ThinIce. GtkStyle* entry_style = gtk_rc_get_style(fake_entry_.get()); GdkColor ntp_background = entry_style->base[GTK_STATE_NORMAL]; GdkColor ntp_foreground = entry_style->text[GTK_STATE_NORMAL]; SetThemeColorFromGtk(ThemeProperties::COLOR_NTP_BACKGROUND, &ntp_background); SetThemeColorFromGtk(ThemeProperties::COLOR_NTP_TEXT, &ntp_foreground); // The NTP header is the color that surrounds the current active thumbnail on // the NTP, and acts as the border of the "Recent Links" box. It would be // awesome if they were separated so we could use GetBorderColor() for the // border around the "Recent Links" section, but matching the frame color is // more important. SetThemeColorFromGtk(ThemeProperties::COLOR_NTP_HEADER, &frame_color); SetThemeColorFromGtk(ThemeProperties::COLOR_NTP_SECTION, &toolbar_color); SetThemeColorFromGtk(ThemeProperties::COLOR_NTP_SECTION_TEXT, &label_color); // Override the link color if the theme provides it. const GdkColor* link_color = NULL; gtk_widget_style_get(GTK_WIDGET(fake_window_), "link-color", &link_color, NULL); bool is_default_link_color = false; if (!link_color) { link_color = &kDefaultLinkColor; is_default_link_color = true; } SetThemeColorFromGtk(ThemeProperties::COLOR_NTP_LINK, link_color); SetThemeColorFromGtk(ThemeProperties::COLOR_NTP_LINK_UNDERLINE, link_color); SetThemeColorFromGtk(ThemeProperties::COLOR_NTP_SECTION_LINK, link_color); SetThemeColorFromGtk(ThemeProperties::COLOR_NTP_SECTION_LINK_UNDERLINE, link_color); if (!is_default_link_color) gdk_color_free(const_cast(link_color)); // Generate the colors that we pass to WebKit. focus_ring_color_ = GdkColorToSkColor(frame_color); GdkColor thumb_active_color, thumb_inactive_color, track_color; Gtk2UI::GetScrollbarColors(&thumb_active_color, &thumb_inactive_color, &track_color); thumb_active_color_ = GdkColorToSkColor(thumb_active_color); thumb_inactive_color_ = GdkColorToSkColor(thumb_inactive_color); track_color_ = GdkColorToSkColor(track_color); // Some GTK themes only define the text selection colors on the GtkEntry // class, so we need to use that for getting selection colors. active_selection_bg_color_ = GdkColorToSkColor(entry_style->base[GTK_STATE_SELECTED]); active_selection_fg_color_ = GdkColorToSkColor(entry_style->text[GTK_STATE_SELECTED]); inactive_selection_bg_color_ = GdkColorToSkColor(entry_style->base[GTK_STATE_ACTIVE]); inactive_selection_fg_color_ = GdkColorToSkColor(entry_style->text[GTK_STATE_ACTIVE]); } GdkColor Gtk2UI::BuildFrameColors(GtkStyle* frame_style) { GdkColor* theme_frame = NULL; GdkColor* theme_inactive_frame = NULL; GdkColor* theme_incognito_frame = NULL; GdkColor* theme_incognito_inactive_frame = NULL; gtk_widget_style_get(GTK_WIDGET(fake_frame_), "frame-color", &theme_frame, "inactive-frame-color", &theme_inactive_frame, "incognito-frame-color", &theme_incognito_frame, "incognito-inactive-frame-color", &theme_incognito_inactive_frame, NULL); GdkColor frame_color = BuildAndSetFrameColor( &frame_style->bg[GTK_STATE_SELECTED], theme_frame, kDefaultFrameShift, ThemeProperties::COLOR_FRAME, ThemeProperties::TINT_FRAME); if (theme_frame) gdk_color_free(theme_frame); SetThemeTintFromGtk(ThemeProperties::TINT_BACKGROUND_TAB, &frame_color); BuildAndSetFrameColor( &frame_style->bg[GTK_STATE_INSENSITIVE], theme_inactive_frame, kDefaultFrameShift, ThemeProperties::COLOR_FRAME_INACTIVE, ThemeProperties::TINT_FRAME_INACTIVE); if (theme_inactive_frame) gdk_color_free(theme_inactive_frame); BuildAndSetFrameColor( &frame_color, theme_incognito_frame, GetDefaultTint(ThemeProperties::TINT_FRAME_INCOGNITO), ThemeProperties::COLOR_FRAME_INCOGNITO, ThemeProperties::TINT_FRAME_INCOGNITO); if (theme_incognito_frame) gdk_color_free(theme_incognito_frame); BuildAndSetFrameColor( &frame_color, theme_incognito_inactive_frame, GetDefaultTint(ThemeProperties::TINT_FRAME_INCOGNITO_INACTIVE), ThemeProperties::COLOR_FRAME_INCOGNITO_INACTIVE, ThemeProperties::TINT_FRAME_INCOGNITO_INACTIVE); if (theme_incognito_inactive_frame) gdk_color_free(theme_incognito_inactive_frame); return frame_color; } void Gtk2UI::SetThemeColorFromGtk(int id, const GdkColor* color) { colors_[id] = GdkColorToSkColor(*color); } void Gtk2UI::SetThemeTintFromGtk(int id, const GdkColor* color) { color_utils::HSL default_tint = GetDefaultTint(id); color_utils::HSL hsl; color_utils::SkColorToHSL(GdkColorToSkColor(*color), &hsl); if (default_tint.s != -1) hsl.s = default_tint.s; if (default_tint.l != -1) hsl.l = default_tint.l; tints_[id] = hsl; } GdkColor Gtk2UI::BuildAndSetFrameColor(const GdkColor* base, const GdkColor* gtk_base, const color_utils::HSL& tint, int color_id, int tint_id) { GdkColor out_color = *base; if (gtk_base) { // The theme author specified a color to use, use it without modification. out_color = *gtk_base; } else { // Tint the basic color since this is a heuristic color instead of one // specified by the theme author. GdkColorHSLShift(tint, &out_color); } SetThemeColorFromGtk(color_id, &out_color); SetThemeTintFromGtk(tint_id, &out_color); return out_color; } SkBitmap Gtk2UI::GenerateGtkThemeBitmap(int id) const { switch (id) { case IDR_THEME_TOOLBAR: { GtkStyle* style = gtk_rc_get_style(fake_window_); GdkColor* color = &style->bg[GTK_STATE_NORMAL]; SkBitmap bitmap; bitmap.allocN32Pixels(kToolbarImageWidth, kToolbarImageHeight); bitmap.eraseARGB(0xff, color->red >> 8, color->green >> 8, color->blue >> 8); return bitmap; } case IDR_THEME_TAB_BACKGROUND: case IDR_THEME_TAB_BACKGROUND_DESKTOP: return GenerateTabImage(IDR_THEME_FRAME); case IDR_THEME_TAB_BACKGROUND_INCOGNITO: case IDR_THEME_TAB_BACKGROUND_INCOGNITO_DESKTOP: return GenerateTabImage(IDR_THEME_FRAME_INCOGNITO); case IDR_FRAME: case IDR_THEME_FRAME: return GenerateFrameImage(ThemeProperties::COLOR_FRAME, "frame-gradient-color"); case IDR_FRAME_INACTIVE: case IDR_THEME_FRAME_INACTIVE: return GenerateFrameImage(ThemeProperties::COLOR_FRAME_INACTIVE, "inactive-frame-gradient-color"); case IDR_THEME_FRAME_INCOGNITO: return GenerateFrameImage(ThemeProperties::COLOR_FRAME_INCOGNITO, "incognito-frame-gradient-color"); case IDR_THEME_FRAME_INCOGNITO_INACTIVE: { return GenerateFrameImage( ThemeProperties::COLOR_FRAME_INCOGNITO_INACTIVE, "incognito-inactive-frame-gradient-color"); } // Icons that sit inside the omnibox shouldn't receive TINT_BUTTONS and // instead should tint based on the foreground text entry color in GTK+ // mode because some themes that try to be dark *and* light have very // different colors between the omnibox and the normal background area. // TODO(erg): Decide what to do about other icons that appear in the // omnibox, e.g. content settings icons. case IDR_OMNIBOX_CALCULATOR: case IDR_OMNIBOX_EXTENSION_APP: case IDR_OMNIBOX_HTTP: case IDR_OMNIBOX_SEARCH: case IDR_OMNIBOX_STAR: case IDR_OMNIBOX_TTS: { return GenerateTintedIcon(id, entry_tint_); } // In GTK mode, the dark versions of the omnibox icons only ever appear in // the autocomplete popup and only against the current theme's GtkEntry // base[GTK_STATE_SELECTED] color, so tint the icons so they won't collide // with the selected color. case IDR_OMNIBOX_EXTENSION_APP_DARK: case IDR_OMNIBOX_HTTP_DARK: case IDR_OMNIBOX_SEARCH_DARK: case IDR_OMNIBOX_STAR_DARK: case IDR_OMNIBOX_TTS_DARK: { return GenerateTintedIcon(id, selected_entry_tint_); } // In GTK mode, we need to manually render several icons. case IDR_BACK: case IDR_BACK_D: case IDR_FORWARD: case IDR_FORWARD_D: case IDR_HOME: case IDR_RELOAD: case IDR_RELOAD_D: case IDR_STOP: case IDR_STOP_D: { return GenerateGTKIcon(id); } case IDR_TOOLBAR_BEZEL_HOVER: return GenerateToolbarBezel(GTK_STATE_PRELIGHT, IDR_TOOLBAR_BEZEL_HOVER); case IDR_TOOLBAR_BEZEL_PRESSED: return GenerateToolbarBezel(GTK_STATE_ACTIVE, IDR_TOOLBAR_BEZEL_PRESSED); default: { return GenerateTintedIcon(id, button_tint_); } } return SkBitmap(); } SkBitmap Gtk2UI::GenerateFrameImage( int color_id, const char* gradient_name) const { // We use two colors: the main color (passed in) and a lightened version of // that color (which is supposed to match the light gradient at the top of // several GTK+ themes, such as Ambiance, Clearlooks or Bluebird). ColorMap::const_iterator it = colors_.find(color_id); DCHECK(it != colors_.end()); SkColor base = it->second; gfx::Canvas canvas(gfx::Size(kToolbarImageWidth, kToolbarImageHeight), 1.0f, true); int gradient_size; GdkColor* gradient_top_color = NULL; gtk_widget_style_get(GTK_WIDGET(fake_frame_), "frame-gradient-size", &gradient_size, gradient_name, &gradient_top_color, NULL); if (gradient_size) { SkColor lighter = gradient_top_color ? GdkColorToSkColor(*gradient_top_color) : color_utils::HSLShift(base, kGtkFrameShift); skia::RefPtr shader = gfx::CreateGradientShader( 0, gradient_size, lighter, base); SkPaint paint; paint.setStyle(SkPaint::kFill_Style); paint.setAntiAlias(true); paint.setShader(shader.get()); canvas.DrawRect(gfx::Rect(0, 0, kToolbarImageWidth, gradient_size), paint); } if (gradient_top_color) gdk_color_free(gradient_top_color); canvas.FillRect(gfx::Rect(0, gradient_size, kToolbarImageWidth, kToolbarImageHeight - gradient_size), base); return canvas.ExtractImageRep().sk_bitmap(); } SkBitmap Gtk2UI::GenerateTabImage(int base_id) const { const SkBitmap* base_image = GetThemeImageNamed(base_id).ToSkBitmap(); SkBitmap bg_tint = SkBitmapOperations::CreateHSLShiftedBitmap( *base_image, GetDefaultTint(ThemeProperties::TINT_BACKGROUND_TAB)); return SkBitmapOperations::CreateTiledBitmap( bg_tint, 0, 0, bg_tint.width(), bg_tint.height()); } SkBitmap Gtk2UI::GenerateTintedIcon( int base_id, const color_utils::HSL& tint) const { ui::ResourceBundle& rb = ui::ResourceBundle::GetSharedInstance(); return SkBitmapOperations::CreateHSLShiftedBitmap( rb.GetImageNamed(base_id).AsBitmap(), tint); } SkBitmap Gtk2UI::GenerateGTKIcon(int base_id) const { const char* stock_id = NULL; GtkStateType gtk_state = GTK_STATE_NORMAL; for (unsigned int i = 0; i < arraysize(kGtkIcons); ++i) { if (kGtkIcons[i].idr == base_id) { stock_id = kGtkIcons[i].stock_id; gtk_state = kGtkIcons[i].gtk_state; break; } } DCHECK(stock_id); ui::ResourceBundle& rb = ui::ResourceBundle::GetSharedInstance(); SkBitmap default_bitmap = rb.GetImageNamed(base_id).AsBitmap(); gtk_widget_ensure_style(fake_frame_); GtkStyle* style = gtk_widget_get_style(fake_frame_); GtkIconSet* icon_set = gtk_style_lookup_icon_set(style, stock_id); if (!icon_set) return default_bitmap; // Ask GTK to render the icon to a buffer, which we will steal from. GdkPixbuf* gdk_icon = gtk_icon_set_render_icon( icon_set, style, base::i18n::IsRTL() ? GTK_TEXT_DIR_RTL : GTK_TEXT_DIR_LTR, gtk_state, GTK_ICON_SIZE_SMALL_TOOLBAR, fake_frame_, NULL); if (!gdk_icon) { // This can theoretically happen if an icon theme doesn't provide a // specific image. This should realistically never happen, but I bet there // are some theme authors who don't reliably provide all icons. return default_bitmap; } SkBitmap retval; retval.allocN32Pixels(default_bitmap.width(), default_bitmap.height()); retval.eraseColor(0); const SkBitmap icon = GdkPixbufToImageSkia(gdk_icon); g_object_unref(gdk_icon); SkCanvas canvas(retval); if (gtk_state == GTK_STATE_ACTIVE || gtk_state == GTK_STATE_PRELIGHT) { SkBitmap border = DrawGtkButtonBorder(gtk_state, false, false, default_bitmap.width(), default_bitmap.height()); canvas.drawBitmap(border, 0, 0); } canvas.drawBitmap(icon, (default_bitmap.width() / 2) - (icon.width() / 2), (default_bitmap.height() / 2) - (icon.height() / 2)); return retval; } SkBitmap Gtk2UI::GenerateToolbarBezel(int gtk_state, int sizing_idr) const { ui::ResourceBundle& rb = ui::ResourceBundle::GetSharedInstance(); SkBitmap default_bitmap = rb.GetImageNamed(sizing_idr).AsBitmap(); SkBitmap retval; retval.allocN32Pixels(default_bitmap.width(), default_bitmap.height()); retval.eraseColor(0); SkCanvas canvas(retval); SkBitmap border = DrawGtkButtonBorder( gtk_state, false, false, default_bitmap.width(), default_bitmap.height()); canvas.drawBitmap(border, 0, 0); return retval; } void Gtk2UI::GetNormalButtonTintHSL(color_utils::HSL* tint) const { GtkStyle* window_style = gtk_rc_get_style(fake_window_); const GdkColor accent_gdk_color = window_style->bg[GTK_STATE_SELECTED]; const GdkColor base_color = window_style->base[GTK_STATE_NORMAL]; GtkStyle* label_style = gtk_rc_get_style(fake_label_.get()); const GdkColor text_color = label_style->fg[GTK_STATE_NORMAL]; PickButtonTintFromColors(accent_gdk_color, text_color, base_color, tint); } void Gtk2UI::GetNormalEntryForegroundHSL(color_utils::HSL* tint) const { GtkStyle* window_style = gtk_rc_get_style(fake_window_); const GdkColor accent_gdk_color = window_style->bg[GTK_STATE_SELECTED]; GtkStyle* style = gtk_rc_get_style(fake_entry_.get()); const GdkColor text_color = style->text[GTK_STATE_NORMAL]; const GdkColor base_color = style->base[GTK_STATE_NORMAL]; PickButtonTintFromColors(accent_gdk_color, text_color, base_color, tint); } void Gtk2UI::GetSelectedEntryForegroundHSL(color_utils::HSL* tint) const { // The simplest of all the tints. We just use the selected text in the entry // since the icons tinted this way will only be displayed against // base[GTK_STATE_SELECTED]. GtkStyle* style = gtk_rc_get_style(fake_entry_.get()); const GdkColor color = style->text[GTK_STATE_SELECTED]; color_utils::SkColorToHSL(GdkColorToSkColor(color), tint); } SkBitmap Gtk2UI::DrawGtkButtonBorder(int gtk_state, bool focused, bool call_to_action, int width, int height) const { // Create a temporary GTK button to snapshot GtkWidget* window = gtk_offscreen_window_new(); GtkWidget* button = gtk_button_new(); gtk_widget_set_size_request(button, width, height); gtk_container_add(GTK_CONTAINER(window), button); gtk_widget_realize(window); gtk_widget_realize(button); gtk_widget_show(button); gtk_widget_show(window); if (call_to_action) GTK_WIDGET_SET_FLAGS(button, GTK_HAS_DEFAULT); if (focused) { // We can't just use gtk_widget_grab_focus() here because that sets // gtk_widget_is_focus(), but not gtk_widget_has_focus(), which is what the // GtkButton's paint checks. GTK_WIDGET_SET_FLAGS(button, GTK_HAS_FOCUS); } gtk_widget_set_state(button, static_cast(gtk_state)); GdkPixmap* pixmap; { // http://crbug.com/346740 ANNOTATE_SCOPED_MEMORY_LEAK; pixmap = gtk_widget_get_snapshot(button, NULL); } int w, h; gdk_drawable_get_size(GDK_DRAWABLE(pixmap), &w, &h); DCHECK_EQ(w, width); DCHECK_EQ(h, height); // We render the Pixmap to a Pixbuf. This can be slow, as we're scrapping // bits from X. GdkColormap* colormap = gdk_drawable_get_colormap(pixmap); GdkPixbuf* pixbuf = gdk_pixbuf_get_from_drawable(NULL, GDK_DRAWABLE(pixmap), colormap, 0, 0, 0, 0, w, h); // Finally, we convert our pixbuf into a type we can use. SkBitmap border = GdkPixbufToImageSkia(pixbuf); g_object_unref(pixbuf); g_object_unref(pixmap); gtk_widget_destroy(window); return border; } void Gtk2UI::ClearAllThemeData() { gtk_images_.clear(); } void Gtk2UI::UpdateDefaultFont(const PangoFontDescription* desc) { // Use gfx::FontRenderParams to select a family and determine the rendering // settings. gfx::FontRenderParamsQuery query; base::SplitString(pango_font_description_get_family(desc), ',', &query.families); if (pango_font_description_get_size_is_absolute(desc)) { // If the size is absolute, it's specified in Pango units. There are // PANGO_SCALE Pango units in a device unit (pixel). const int size_pixels = pango_font_description_get_size(desc) / PANGO_SCALE; default_font_size_pixels_ = size_pixels; query.pixel_size = size_pixels; } else { // Non-absolute sizes are in points (again scaled by PANGO_SIZE). // Round the value when converting to pixels to match GTK's logic. const double size_points = pango_font_description_get_size(desc) / static_cast(PANGO_SCALE); default_font_size_pixels_ = static_cast( GetPixelsInPoint(device_scale_factor_) * size_points + 0.5); query.point_size = static_cast(size_points); } query.style = gfx::Font::NORMAL; // TODO(davemoore): Support weights other than bold? if (pango_font_description_get_weight(desc) == PANGO_WEIGHT_BOLD) query.style |= gfx::Font::BOLD; // TODO(davemoore): What about PANGO_STYLE_OBLIQUE? if (pango_font_description_get_style(desc) == PANGO_STYLE_ITALIC) query.style |= gfx::Font::ITALIC; default_font_render_params_ = gfx::GetFontRenderParams(query, &default_font_family_); default_font_style_ = query.style; } void Gtk2UI::OnStyleSet(GtkWidget* widget, GtkStyle* previous_style) { ClearAllThemeData(); LoadGtkValues(); NativeThemeGtk2::instance()->NotifyObservers(); } void Gtk2UI::UpdateDeviceScaleFactor(float device_scale_factor) { device_scale_factor_ = device_scale_factor; GtkStyle* label_style = gtk_rc_get_style(fake_label_.get()); UpdateDefaultFont(label_style->font_desc); } float Gtk2UI::GetDeviceScaleFactor() const { float scale = GetFontDPI() / GetBaseDPI(); // Round to 1 decimal, e.g. to 1.4. return roundf(scale * 10) / 10; } } // namespace libgtk2ui views::LinuxUI* BuildGtk2UI() { return new libgtk2ui::Gtk2UI; }