// 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/tabs/tab_renderer_gtk.h"
#include "app/l10n_util.h"
#include "app/resource_bundle.h"
#include "chrome/browser/browser.h"
#include "chrome/browser/browser_theme_provider.h"
#include "chrome/browser/gtk/custom_button.h"
#include "chrome/browser/profile.h"
#include "chrome/browser/tab_contents/tab_contents.h"
#include "grit/generated_resources.h"
#include "grit/theme_resources.h"
#include "skia/ext/image_operations.h"
namespace {
const int kLeftPadding = 16;
const int kTopPadding = 6;
const int kRightPadding = 15;
const int kBottomPadding = 5;
const int kFavIconTitleSpacing = 4;
const int kTitleCloseButtonSpacing = 5;
const int kStandardTitleWidth = 175;
const int kFavIconSize = 16;
const int kDropShadowOffset = 2;
const int kSelectedTitleColor = SK_ColorBLACK;
const int kUnselectedTitleColor = SkColorSetRGB(64, 64, 64);
// How long the hover state takes.
const int kHoverDurationMs = 90;
// How opaque to make the hover state (out of 1).
const double kHoverOpacity = 0.33;
const SkScalar kTabCapWidth = 15;
const SkScalar kTabTopCurveWidth = 4;
const SkScalar kTabBottomCurveWidth = 3;
// The vertical and horizontal offset used to position the close button
// in the tab. TODO(jhawkins): Ask pkasting what the Fuzz is about.
const int kCloseButtonVertFuzz = 0;
const int kCloseButtonHorzFuzz = 5;
SkBitmap* crashed_fav_icon = NULL;
TabRendererGtk::LoadingAnimation::Data loading_animation_data;
// Loads the loading animation images and data.
void InitializeLoadingAnimationData(
ResourceBundle* rb, TabRendererGtk::LoadingAnimation::Data* data) {
// The loading animation image is a strip of states. Each state must be
// square, so the height must divide the width evenly.
data->loading_animation_frames = rb->GetBitmapNamed(IDR_THROBBER);
DCHECK(data->loading_animation_frames);
DCHECK_EQ(data->loading_animation_frames->width() %
data->loading_animation_frames->height(), 0);
data->loading_animation_frame_count =
data->loading_animation_frames->width() /
data->loading_animation_frames->height();
data->waiting_animation_frames =
rb->GetBitmapNamed(IDR_THROBBER_WAITING);
DCHECK(data->waiting_animation_frames);
DCHECK_EQ(data->waiting_animation_frames->width() %
data->waiting_animation_frames->height(), 0);
data->waiting_animation_frame_count =
data->waiting_animation_frames->width() /
data->waiting_animation_frames->height();
data->waiting_to_loading_frame_count_ratio =
data->waiting_animation_frame_count /
data->loading_animation_frame_count;
// TODO(beng): eventually remove this when we have a proper themeing system.
// themes not supporting IDR_THROBBER_WAITING are causing this
// value to be 0 which causes DIV0 crashes. The value of 5
// matches the current bitmaps in our source.
if (data->waiting_to_loading_frame_count_ratio == 0)
data->waiting_to_loading_frame_count_ratio = 5;
}
} // namespace
bool TabRendererGtk::initialized_ = false;
TabRendererGtk::TabImage TabRendererGtk::tab_active_ = {0};
TabRendererGtk::TabImage TabRendererGtk::tab_inactive_ = {0};
TabRendererGtk::TabImage TabRendererGtk::tab_alpha = {0};
TabRendererGtk::TabImage TabRendererGtk::tab_hover_ = {0};
gfx::Font* TabRendererGtk::title_font_ = NULL;
int TabRendererGtk::title_font_height_ = 0;
SkBitmap* TabRendererGtk::download_icon_ = NULL;
int TabRendererGtk::download_icon_width_ = 0;
int TabRendererGtk::download_icon_height_ = 0;
int TabRendererGtk::close_button_width_ = 0;
int TabRendererGtk::close_button_height_ = 0;
////////////////////////////////////////////////////////////////////////////////
// TabRendererGtk::LoadingAnimation, public:
//
TabRendererGtk::LoadingAnimation::LoadingAnimation(const Data* data)
: data_(data), animation_state_(ANIMATION_NONE), animation_frame_(0) {
}
void TabRendererGtk::LoadingAnimation::ValidateLoadingAnimation(
AnimationState animation_state) {
if (animation_state_ != animation_state) {
// The waiting animation is the reverse of the loading animation, but at a
// different rate - the following reverses and scales the animation_frame_
// so that the frame is at an equivalent position when going from one
// animation to the other.
if (animation_state_ == ANIMATION_WAITING &&
animation_state == ANIMATION_LOADING) {
animation_frame_ = data_->loading_animation_frame_count -
(animation_frame_ / data_->waiting_to_loading_frame_count_ratio);
}
animation_state_ = animation_state;
}
if (animation_state_ != ANIMATION_NONE) {
animation_frame_ = ++animation_frame_ %
((animation_state_ == ANIMATION_WAITING) ?
data_->waiting_animation_frame_count :
data_->loading_animation_frame_count);
} else {
animation_frame_ = 0;
}
}
////////////////////////////////////////////////////////////////////////////////
// FaviconCrashAnimation
//
// A custom animation subclass to manage the favicon crash animation.
class TabRendererGtk::FavIconCrashAnimation : public Animation,
public AnimationDelegate {
public:
explicit FavIconCrashAnimation(TabRendererGtk* target)
: ALLOW_THIS_IN_INITIALIZER_LIST(Animation(1000, 25, this)),
target_(target) {
}
virtual ~FavIconCrashAnimation() {}
// Animation overrides:
virtual void AnimateToState(double state) {
const double kHidingOffset = 27;
if (state < .5) {
target_->SetFavIconHidingOffset(
static_cast<int>(floor(kHidingOffset * 2.0 * state)));
} else {
target_->DisplayCrashedFavIcon();
target_->SetFavIconHidingOffset(
static_cast<int>(
floor(kHidingOffset - ((state - .5) * 2.0 * kHidingOffset))));
}
}
// AnimationDelegate overrides:
virtual void AnimationCanceled(const Animation* animation) {
target_->SetFavIconHidingOffset(0);
}
private:
TabRendererGtk* target_;
DISALLOW_COPY_AND_ASSIGN(FavIconCrashAnimation);
};
////////////////////////////////////////////////////////////////////////////////
// TabRendererGtk, public:
TabRendererGtk::TabRendererGtk()
: showing_icon_(false),
showing_download_icon_(false),
showing_close_button_(false),
fav_icon_hiding_offset_(0),
should_display_crashed_favicon_(false),
loading_animation_(&loading_animation_data) {
InitResources();
tab_.Own(gtk_fixed_new());
gtk_widget_set_app_paintable(tab_.get(), TRUE);
g_signal_connect(G_OBJECT(tab_.get()), "expose-event",
G_CALLBACK(OnExpose), this);
close_button_.reset(MakeCloseButton());
gtk_widget_show(tab_.get());
hover_animation_.reset(new SlideAnimation(this));
hover_animation_->SetSlideDuration(kHoverDurationMs);
}
TabRendererGtk::~TabRendererGtk() {
tab_.Destroy();
}
void TabRendererGtk::UpdateData(TabContents* contents, bool loading_only) {
DCHECK(contents);
if (!loading_only) {
data_.title = UTF16ToWideHack(contents->GetTitle());
data_.off_the_record = contents->profile()->IsOffTheRecord();
data_.show_download_icon = contents->IsDownloadShelfVisible();
data_.crashed = contents->is_crashed();
data_.favicon = contents->GetFavIcon();
}
// Loading state also involves whether we show the favicon, since that's where
// we display the throbber.
data_.loading = contents->is_loading();
data_.show_icon = contents->ShouldDisplayFavIcon();
theme_provider_ = contents->profile()->GetThemeProvider();
}
void TabRendererGtk::UpdateFromModel() {
// Force a layout, since the tab may have grown a favicon.
Layout();
SchedulePaint();
if (data_.crashed) {
if (!should_display_crashed_favicon_ && !IsPerformingCrashAnimation())
StartCrashAnimation();
} else {
if (IsPerformingCrashAnimation())
StopCrashAnimation();
ResetCrashedFavIcon();
}
}
bool TabRendererGtk::IsSelected() const {
return true;
}
bool TabRendererGtk::IsVisible() const {
return GTK_WIDGET_FLAGS(tab_.get()) & GTK_VISIBLE;
}
void TabRendererGtk::SetVisible(bool visible) const {
if (visible) {
gtk_widget_show(tab_.get());
} else {
gtk_widget_hide(tab_.get());
}
}
void TabRendererGtk::ValidateLoadingAnimation(AnimationState animation_state) {
loading_animation_.ValidateLoadingAnimation(animation_state);
}
// static
gfx::Size TabRendererGtk::GetMinimumUnselectedSize() {
InitResources();
gfx::Size minimum_size;
minimum_size.set_width(kLeftPadding + kRightPadding);
// Since we use bitmap images, the real minimum height of the image is
// defined most accurately by the height of the end cap images.
minimum_size.set_height(tab_active_.image_l->height());
return minimum_size;
}
// static
gfx::Size TabRendererGtk::GetMinimumSelectedSize() {
gfx::Size minimum_size = GetMinimumUnselectedSize();
minimum_size.set_width(kLeftPadding + kFavIconSize + kRightPadding);
return minimum_size;
}
// static
gfx::Size TabRendererGtk::GetStandardSize() {
gfx::Size standard_size = GetMinimumUnselectedSize();
standard_size.Enlarge(kFavIconTitleSpacing + kStandardTitleWidth, 0);
return standard_size;
}
// static
int TabRendererGtk::GetContentHeight() {
// The height of the content of the Tab is the largest of the favicon,
// the title text and the close button graphic.
int content_height = std::max(kFavIconSize, title_font_height_);
return std::max(content_height, close_button_height_);
}
// static
void TabRendererGtk::LoadTabImages() {
ResourceBundle& rb = ResourceBundle::GetSharedInstance();
tab_alpha.image_l = rb.GetBitmapNamed(IDR_TAB_ALPHA_LEFT);
tab_alpha.image_r = rb.GetBitmapNamed(IDR_TAB_ALPHA_RIGHT);
tab_active_.image_l = rb.GetBitmapNamed(IDR_TAB_ACTIVE_LEFT);
tab_active_.image_c = rb.GetBitmapNamed(IDR_TAB_ACTIVE_CENTER);
tab_active_.image_r = rb.GetBitmapNamed(IDR_TAB_ACTIVE_RIGHT);
tab_active_.l_width = tab_active_.image_l->width();
tab_active_.r_width = tab_active_.image_r->width();
tab_inactive_.image_l = rb.GetBitmapNamed(IDR_TAB_INACTIVE_LEFT);
tab_inactive_.image_c = rb.GetBitmapNamed(IDR_TAB_INACTIVE_CENTER);
tab_inactive_.image_r = rb.GetBitmapNamed(IDR_TAB_INACTIVE_RIGHT);
tab_inactive_.l_width = tab_inactive_.image_l->width();
tab_inactive_.r_width = tab_inactive_.image_r->width();
close_button_width_ = rb.GetBitmapNamed(IDR_TAB_CLOSE)->width();
close_button_height_ = rb.GetBitmapNamed(IDR_TAB_CLOSE)->height();
download_icon_ = rb.GetBitmapNamed(IDR_DOWNLOAD_ICON);
download_icon_width_ = download_icon_->width();
download_icon_height_ = download_icon_->height();
}
void TabRendererGtk::SetBounds(const gfx::Rect& bounds) {
gtk_widget_set_size_request(tab_.get(), bounds.width(), bounds.height());
bounds_ = bounds;
Layout();
}
////////////////////////////////////////////////////////////////////////////////
// TabRendererGtk, protected:
std::wstring TabRendererGtk::GetTitle() const {
return data_.title;
}
///////////////////////////////////////////////////////////////////////////////
// TabRendererGtk, AnimationDelegate implementation:
void TabRendererGtk::AnimationProgressed(const Animation* animation) {
gtk_widget_queue_draw(tab_.get());
}
void TabRendererGtk::AnimationCanceled(const Animation* animation) {
AnimationEnded(animation);
}
void TabRendererGtk::AnimationEnded(const Animation* animation) {
gtk_widget_queue_draw(tab_.get());
}
////////////////////////////////////////////////////////////////////////////////
// TabRendererGtk, private:
void TabRendererGtk::StartCrashAnimation() {
if (!crash_animation_.get())
crash_animation_.reset(new FavIconCrashAnimation(this));
crash_animation_->Reset();
crash_animation_->Start();
}
void TabRendererGtk::StopCrashAnimation() {
if (!crash_animation_.get())
return;
crash_animation_->Stop();
}
bool TabRendererGtk::IsPerformingCrashAnimation() const {
return crash_animation_.get() && crash_animation_->IsAnimating();
}
void TabRendererGtk::SetFavIconHidingOffset(int offset) {
fav_icon_hiding_offset_ = offset;
SchedulePaint();
}
void TabRendererGtk::DisplayCrashedFavIcon() {
should_display_crashed_favicon_ = true;
}
void TabRendererGtk::ResetCrashedFavIcon() {
should_display_crashed_favicon_ = false;
}
void TabRendererGtk::Paint(gfx::Canvas* canvas) {
// Don't paint if we're narrower than we can render correctly. (This should
// only happen during animations).
if (width() < GetMinimumUnselectedSize().width())
return;
// See if the model changes whether the icons should be painted.
const bool show_icon = ShouldShowIcon();
const bool show_download_icon = data_.show_download_icon;
const bool show_close_button = ShouldShowCloseBox();
if (show_icon != showing_icon_ ||
show_download_icon != showing_download_icon_ ||
show_close_button != showing_close_button_)
Layout();
PaintTabBackground(canvas);
if (show_icon) {
if (loading_animation_.animation_state() != ANIMATION_NONE) {
PaintLoadingAnimation(canvas);
} else {
canvas->save();
canvas->ClipRectInt(0, 0, width(), height() - kFavIconTitleSpacing);
if (should_display_crashed_favicon_) {
canvas->DrawBitmapInt(*crashed_fav_icon, 0, 0,
crashed_fav_icon->width(),
crashed_fav_icon->height(),
favicon_bounds_.x(),
favicon_bounds_.y() + fav_icon_hiding_offset_,
kFavIconSize, kFavIconSize,
true);
} else {
if (!data_.favicon.isNull()) {
// TODO(pkasting): Use code in tab_icon_view.cc:PaintIcon() (or switch
// to using that class to render the favicon).
canvas->DrawBitmapInt(data_.favicon, 0, 0,
data_.favicon.width(),
data_.favicon.height(),
favicon_bounds_.x(),
favicon_bounds_.y() + fav_icon_hiding_offset_,
kFavIconSize, kFavIconSize,
true);
}
}
canvas->restore();
}
}
if (show_download_icon) {
canvas->DrawBitmapInt(*download_icon_,
download_icon_bounds_.x(), download_icon_bounds_.y());
}
// Paint the Title.
std::wstring title = data_.title;
if (title.empty()) {
if (data_.loading) {
title = l10n_util::GetString(IDS_TAB_LOADING_TITLE);
} else {
title = l10n_util::GetString(IDS_TAB_UNTITLED_TITLE);
}
} else {
Browser::FormatTitleForDisplay(&title);
}
SkColor title_color = IsSelected() ? kSelectedTitleColor
: kUnselectedTitleColor;
canvas->DrawStringInt(title, *title_font_, title_color, title_bounds_.x(),
title_bounds_.y(), title_bounds_.width(),
title_bounds_.height());
}
SkBitmap TabRendererGtk::PaintBitmap() {
gfx::Canvas canvas(width(), height(), false);
Paint(&canvas);
return canvas.ExtractBitmap();
}
void TabRendererGtk::SchedulePaint() {
gtk_widget_queue_draw(tab_.get());
}
gfx::Rect TabRendererGtk::GetLocalBounds() {
return gfx::Rect(0, 0, bounds_.width(), bounds_.height());
}
void TabRendererGtk::Layout() {
gfx::Rect local_bounds = GetLocalBounds();
if (local_bounds.IsEmpty())
return;
local_bounds.Inset(kLeftPadding, kTopPadding, kRightPadding, kBottomPadding);
// Figure out who is tallest.
int content_height = GetContentHeight();
// Size the Favicon.
showing_icon_ = ShouldShowIcon();
if (showing_icon_) {
int favicon_top = kTopPadding + (content_height - kFavIconSize) / 2;
favicon_bounds_.SetRect(local_bounds.x(), favicon_top,
kFavIconSize, kFavIconSize);
} else {
favicon_bounds_.SetRect(local_bounds.x(), local_bounds.y(), 0, 0);
}
// Size the download icon.
showing_download_icon_ = data_.show_download_icon;
if (showing_download_icon_) {
int icon_top = kTopPadding + (content_height - download_icon_height_) / 2;
download_icon_bounds_.SetRect(local_bounds.width() - download_icon_width_,
icon_top, download_icon_width_,
download_icon_height_);
}
// Size the Close button.
showing_close_button_ = ShouldShowCloseBox();
if (showing_close_button_) {
int close_button_top =
kTopPadding + kCloseButtonVertFuzz +
(content_height - close_button_height_) / 2;
close_button_bounds_.SetRect(local_bounds.width() + kCloseButtonHorzFuzz,
close_button_top, close_button_width_,
close_button_height_);
} else {
close_button_bounds_.SetRect(0, 0, 0, 0);
}
MoveCloseButtonWidget();
// Size the Title text to fill the remaining space.
int title_left = favicon_bounds_.right() + kFavIconTitleSpacing;
int title_top = kTopPadding + (content_height - title_font_height_) / 2;
// If the user has big fonts, the title will appear rendered too far down on
// the y-axis if we use the regular top padding, so we need to adjust it so
// that the text appears centered.
gfx::Size minimum_size = GetMinimumUnselectedSize();
int text_height = title_top + title_font_height_ + kBottomPadding;
if (text_height > minimum_size.height())
title_top -= (text_height - minimum_size.height()) / 2;
int title_width;
if (close_button_bounds_.width() && close_button_bounds_.height()) {
title_width = std::max(close_button_bounds_.x() -
kTitleCloseButtonSpacing - title_left, 0);
} else {
title_width = std::max(local_bounds.width() - title_left, 0);
}
if (data_.show_download_icon)
title_width = std::max(title_width - download_icon_width_, 0);
title_bounds_.SetRect(title_left, title_top, title_width, title_font_height_);
// TODO(jhawkins): Handle RTL layout.
}
void TabRendererGtk::MoveCloseButtonWidget() {
if (!close_button_bounds_.IsEmpty()) {
gtk_fixed_move(GTK_FIXED(tab_.get()), close_button_.get()->widget(),
close_button_bounds_.x(), close_button_bounds_.y());
gtk_widget_show(close_button_.get()->widget());
} else {
gtk_widget_hide(close_button_.get()->widget());
}
}
void TabRendererGtk::PaintTab(GdkEventExpose* event) {
gfx::CanvasPaint canvas(event, false);
if (canvas.isEmpty())
return;
// The tab is rendered into a windowless widget whose offset is at the
// coordinate [x(), y()]. Translate by that offset so we can render at (0,0)
// to match windows rendering metrics.
canvas.TranslateInt(x(), y());
Paint(&canvas);
}
void TabRendererGtk::PaintTabBackground(gfx::Canvas* canvas) {
if (IsSelected()) {
// Sometimes detaching a tab quickly can result in the model reporting it
// as not being selected, so is_drag_clone_ ensures that we always paint
// the active representation for the dragged tab.
PaintActiveTabBackground(canvas);
} else {
// Draw our hover state.
Animation* animation = hover_animation_.get();
PaintInactiveTabBackground(canvas);
if (animation->GetCurrentValue() > 0) {
SkRect bounds;
// TODO(jhawkins): This will only work for the first tab, because
// saveLayerAlpha only uses bounds as the size and not the location. In
// our situation, canvas spans the entire tabstrip, so saving the layer
// at (0,0)x(w,h) will always save the first tab.
bounds.set(0, 0,
SkIntToScalar(width()), SkIntToScalar(height()));
canvas->saveLayerAlpha(&bounds,
static_cast<int>(animation->GetCurrentValue() * kHoverOpacity * 0xff),
SkCanvas::kARGB_ClipLayer_SaveFlag);
canvas->drawARGB(0, 255, 255, 255, SkPorterDuff::kClear_Mode);
PaintActiveTabBackground(canvas);
canvas->restore();
}
}
}
void TabRendererGtk::PaintInactiveTabBackground(gfx::Canvas* canvas) {
bool is_otr = data_.off_the_record;
// The tab image needs to be lined up with the background image
// so that it feels partially transparent.
int offset = 1;
int offset_y = 20;
int tab_id = is_otr ?
IDR_THEME_TAB_BACKGROUND_INCOGNITO : IDR_THEME_TAB_BACKGROUND;
SkBitmap* tab_bg = theme_provider_->GetBitmapNamed(tab_id);
// Draw left edge.
SkBitmap tab_l = skia::ImageOperations::CreateTiledBitmap(
*tab_bg, offset, offset_y,
tab_active_.l_width, height());
SkBitmap theme_l = skia::ImageOperations::CreateMaskedBitmap(
tab_l, *tab_alpha.image_l);
canvas->DrawBitmapInt(theme_l,
0, 0, theme_l.width(), theme_l.height() - 1,
0, 0, theme_l.width(), theme_l.height() - 1,
false);
// Draw right edge.
SkBitmap tab_r = skia::ImageOperations::CreateTiledBitmap(
*tab_bg,
offset + width() - tab_active_.r_width, offset_y,
tab_active_.r_width, height());
SkBitmap theme_r = skia::ImageOperations::CreateMaskedBitmap(
tab_r, *tab_alpha.image_r);
canvas->DrawBitmapInt(theme_r,
0, 0, theme_r.width(), theme_r.height() - 1,
width() - theme_r.width(), 0, theme_r.width(), theme_r.height() - 1,
false);
// Draw center.
canvas->TileImageInt(*tab_bg,
offset + tab_active_.l_width, kDropShadowOffset + offset_y,
tab_active_.l_width, 2,
width() - tab_active_.l_width - tab_active_.r_width, height() - 3);
canvas->DrawBitmapInt(*tab_inactive_.image_l, 0, 0);
canvas->TileImageInt(*tab_inactive_.image_c, tab_inactive_.l_width, 0,
width() - tab_inactive_.l_width - tab_inactive_.r_width, height());
canvas->DrawBitmapInt(*tab_inactive_.image_r,
width() - tab_inactive_.r_width, 0);
}
void TabRendererGtk::PaintActiveTabBackground(gfx::Canvas* canvas) {
int offset = 1;
SkBitmap* tab_bg = theme_provider_->GetBitmapNamed(IDR_THEME_TOOLBAR);
// Draw left edge.
SkBitmap tab_l = skia::ImageOperations::CreateTiledBitmap(
*tab_bg, offset, 0, tab_active_.l_width, height());
SkBitmap theme_l = skia::ImageOperations::CreateMaskedBitmap(
tab_l, *tab_alpha.image_l);
canvas->DrawBitmapInt(theme_l, 0, 0);
// Draw right edge.
SkBitmap tab_r = skia::ImageOperations::CreateTiledBitmap(
*tab_bg,
offset + width() - tab_active_.r_width, 0,
tab_active_.r_width, height());
SkBitmap theme_r = skia::ImageOperations::CreateMaskedBitmap(
tab_r, *tab_alpha.image_r);
canvas->DrawBitmapInt(theme_r, width() - tab_active_.r_width, 0);
// Draw center.
canvas->TileImageInt(*tab_bg,
offset + tab_active_.l_width, 2,
tab_active_.l_width, 2,
width() - tab_active_.l_width - tab_active_.r_width, height() - 2);
canvas->DrawBitmapInt(*tab_active_.image_l, 0, 0);
canvas->TileImageInt(*tab_active_.image_c, tab_active_.l_width, 0,
width() - tab_active_.l_width - tab_active_.r_width, height());
canvas->DrawBitmapInt(*tab_active_.image_r, width() - tab_active_.r_width, 0);
}
void TabRendererGtk::PaintLoadingAnimation(gfx::Canvas* canvas) {
const SkBitmap* frames =
(loading_animation_.animation_state() == ANIMATION_WAITING) ?
loading_animation_.waiting_animation_frames() :
loading_animation_.loading_animation_frames();
const int image_size = frames->height();
const int image_offset = loading_animation_.animation_frame() * image_size;
const int dst_y = (height() - image_size) / 2;
// Just like with the Tab's title and favicon, the position for the page
// loading animation also needs to be mirrored if the UI layout is RTL.
// TODO(willchan): Handle RTL.
// dst_x = width() - kLeftPadding - image_size;
int dst_x = kLeftPadding;
canvas->DrawBitmapInt(*frames, image_offset, 0, image_size,
image_size, dst_x, dst_y, image_size, image_size,
false);
}
int TabRendererGtk::IconCapacity() const {
if (height() < GetMinimumUnselectedSize().height())
return 0;
return (width() - kLeftPadding - kRightPadding) / kFavIconSize;
}
bool TabRendererGtk::ShouldShowIcon() const {
if (!data_.show_icon) {
return false;
} else if (IsSelected()) {
// The selected tab clips favicon before close button.
return IconCapacity() >= 2;
}
// Non-selected tabs clip close button before favicon.
return IconCapacity() >= 1;
}
bool TabRendererGtk::ShouldShowCloseBox() const {
// The selected tab never clips close button.
return IsSelected() || IconCapacity() >= 3;
}
CustomDrawButton* TabRendererGtk::MakeCloseButton() {
CustomDrawButton* button = new CustomDrawButton(IDR_TAB_CLOSE,
IDR_TAB_CLOSE_P, IDR_TAB_CLOSE_H, IDR_TAB_CLOSE);
g_signal_connect(G_OBJECT(button->widget()), "clicked",
G_CALLBACK(OnCloseButtonClicked), this);
GTK_WIDGET_UNSET_FLAGS(button->widget(), GTK_CAN_FOCUS);
gtk_fixed_put(GTK_FIXED(tab_.get()), button->widget(), 0, 0);
return button;
}
void TabRendererGtk::CloseButtonClicked() {
// Nothing to do.
}
// static
void TabRendererGtk::OnCloseButtonClicked(GtkWidget* widget,
TabRendererGtk* tab) {
tab->CloseButtonClicked();
}
// static
gboolean TabRendererGtk::OnExpose(GtkWidget* widget, GdkEventExpose* event,
TabRendererGtk* tab) {
tab->PaintTab(event);
gtk_container_propagate_expose(GTK_CONTAINER(tab->tab_.get()),
tab->close_button_.get()->widget(), event);
return TRUE;
}
void TabRendererGtk::OnMouseEntered() {
hover_animation_->SetTweenType(SlideAnimation::EASE_OUT);
hover_animation_->Show();
}
void TabRendererGtk::OnMouseExited() {
hover_animation_->SetTweenType(SlideAnimation::EASE_IN);
hover_animation_->Hide();
}
// static
void TabRendererGtk::InitResources() {
if (initialized_)
return;
LoadTabImages();
ResourceBundle& rb = ResourceBundle::GetSharedInstance();
// Force the font size to 10pt.
gfx::Font base_font = rb.GetFont(ResourceBundle::BaseFont);
title_font_ = new gfx::Font(gfx::Font::CreateFont(base_font.FontName(), 10));
title_font_height_ = title_font_->height();
InitializeLoadingAnimationData(&rb, &loading_animation_data);
crashed_fav_icon = rb.GetBitmapNamed(IDR_SAD_FAVICON);
initialized_ = true;
}