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chromium / chromium / src / 88d2338d3823744245e9f94ecd94ce4fb3eb97ae / . / chrome / browser / tabs / tab_strip_model.cc
blob: 31349831f7ea831c58fbf61e5d675391076c45ee [file] [log] [blame]
// Copyright (c) 2011 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/tabs/tab_strip_model.h"
#include <algorithm>
#include <map>
#include "base/command_line.h"
#include "base/stl_util.h"
#include "base/string_util.h"
#include "build/build_config.h"
#include "chrome/app/chrome_command_ids.h"
#include "chrome/browser/bookmarks/bookmark_model.h"
#include "chrome/browser/browser_shutdown.h"
#include "chrome/browser/defaults.h"
#include "chrome/browser/extensions/extension_service.h"
#include "chrome/browser/extensions/extension_tab_helper.h"
#include "chrome/browser/profiles/profile.h"
#include "chrome/browser/sessions/tab_restore_service.h"
#include "chrome/browser/tabs/tab_strip_model_delegate.h"
#include "chrome/browser/tabs/tab_strip_model_order_controller.h"
#include "chrome/browser/ui/tab_contents/tab_contents_wrapper.h"
#include "chrome/common/chrome_notification_types.h"
#include "chrome/common/extensions/extension.h"
#include "chrome/common/url_constants.h"
#include "content/browser/renderer_host/render_process_host.h"
#include "content/browser/tab_contents/navigation_controller.h"
#include "content/browser/tab_contents/tab_contents.h"
#include "content/browser/tab_contents/tab_contents_delegate.h"
#include "content/browser/tab_contents/tab_contents_view.h"
#include "content/browser/user_metrics.h"
#include "content/common/notification_service.h"
namespace {
// Returns true if the specified transition is one of the types that cause the
// opener relationships for the tab in which the transition occured to be
// forgotten. This is generally any navigation that isn't a link click (i.e.
// any navigation that can be considered to be the start of a new task distinct
// from what had previously occurred in that tab).
bool ShouldForgetOpenersForTransition(PageTransition::Type transition) {
return transition == PageTransition::TYPED ||
transition == PageTransition::AUTO_BOOKMARK ||
transition == PageTransition::GENERATED ||
transition == PageTransition::KEYWORD ||
transition == PageTransition::START_PAGE;
}
} // namespace
///////////////////////////////////////////////////////////////////////////////
// TabStripModelDelegate, public:
bool TabStripModelDelegate::CanCloseTab() const {
return true;
}
///////////////////////////////////////////////////////////////////////////////
// TabStripModel, public:
TabStripModel::TabStripModel(TabStripModelDelegate* delegate, Profile* profile)
: delegate_(delegate),
profile_(profile),
closing_all_(false),
order_controller_(NULL) {
DCHECK(delegate_);
registrar_.Add(this,
content::NOTIFICATION_TAB_CONTENTS_DESTROYED,
NotificationService::AllBrowserContextsAndSources());
registrar_.Add(this,
chrome::NOTIFICATION_EXTENSION_UNLOADED,
Source<Profile>(profile_));
order_controller_ = new TabStripModelOrderController(this);
}
TabStripModel::~TabStripModel() {
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabStripModelDeleted());
STLDeleteContainerPointers(contents_data_.begin(), contents_data_.end());
delete order_controller_;
}
void TabStripModel::AddObserver(TabStripModelObserver* observer) {
observers_.AddObserver(observer);
}
void TabStripModel::RemoveObserver(TabStripModelObserver* observer) {
observers_.RemoveObserver(observer);
}
void TabStripModel::SetInsertionPolicy(InsertionPolicy policy) {
order_controller_->set_insertion_policy(policy);
}
TabStripModel::InsertionPolicy TabStripModel::insertion_policy() const {
return order_controller_->insertion_policy();
}
bool TabStripModel::HasObserver(TabStripModelObserver* observer) {
return observers_.HasObserver(observer);
}
bool TabStripModel::ContainsIndex(int index) const {
return index >= 0 && index < count();
}
void TabStripModel::AppendTabContents(TabContentsWrapper* contents,
bool foreground) {
int index = order_controller_->DetermineInsertionIndexForAppending();
InsertTabContentsAt(index, contents,
foreground ? (ADD_INHERIT_GROUP | ADD_ACTIVE) :
ADD_NONE);
}
void TabStripModel::InsertTabContentsAt(int index,
TabContentsWrapper* contents,
int add_types) {
bool active = add_types & ADD_ACTIVE;
// Force app tabs to be pinned.
bool pin =
contents->extension_tab_helper()->is_app() || add_types & ADD_PINNED;
index = ConstrainInsertionIndex(index, pin);
// In tab dragging situations, if the last tab in the window was detached
// then the user aborted the drag, we will have the |closing_all_| member
// set (see DetachTabContentsAt) which will mess with our mojo here. We need
// to clear this bit.
closing_all_ = false;
// Have to get the active contents before we monkey with |contents_|
// otherwise we run into problems when we try to change the active contents
// since the old contents and the new contents will be the same...
TabContentsWrapper* selected_contents = GetActiveTabContents();
TabContentsData* data = new TabContentsData(contents);
data->pinned = pin;
if ((add_types & ADD_INHERIT_GROUP) && selected_contents) {
if (active) {
// Forget any existing relationships, we don't want to make things too
// confusing by having multiple groups active at the same time.
ForgetAllOpeners();
}
// Anything opened by a link we deem to have an opener.
data->SetGroup(&selected_contents->controller());
} else if ((add_types & ADD_INHERIT_OPENER) && selected_contents) {
if (active) {
// Forget any existing relationships, we don't want to make things too
// confusing by having multiple groups active at the same time.
ForgetAllOpeners();
}
data->opener = &selected_contents->controller();
}
contents_data_.insert(contents_data_.begin() + index, data);
selection_model_.IncrementFrom(index);
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabInsertedAt(contents, index, active));
TabStripSelectionModel old_model;
old_model.Copy(selection_model_);
if (active) {
selection_model_.SetSelectedIndex(index);
NotifyIfActiveOrSelectionChanged(selected_contents, false, old_model);
}
}
TabContentsWrapper* TabStripModel::ReplaceTabContentsAt(
int index,
TabContentsWrapper* new_contents) {
DCHECK(ContainsIndex(index));
TabContentsWrapper* old_contents = GetContentsAt(index);
ForgetOpenersAndGroupsReferencing(&(old_contents->controller()));
contents_data_[index]->contents = new_contents;
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabReplacedAt(this, old_contents, new_contents, index));
// When the active tab contents is replaced send out selected notification
// too. We do this as nearly all observers need to treat a replace of the
// selected contents as selection changing.
if (active_index() == index) {
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
ActiveTabChanged(old_contents, new_contents,
active_index(), false));
}
return old_contents;
}
void TabStripModel::ReplaceNavigationControllerAt(
int index, TabContentsWrapper* contents) {
// This appears to be OK with no flicker since no redraw event
// occurs between the call to add an aditional tab and one to close
// the previous tab.
InsertTabContentsAt(index + 1, contents, ADD_ACTIVE | ADD_INHERIT_GROUP);
std::vector<int> closing_tabs;
closing_tabs.push_back(index);
InternalCloseTabs(closing_tabs, CLOSE_NONE);
}
TabContentsWrapper* TabStripModel::DetachTabContentsAt(int index) {
if (contents_data_.empty())
return NULL;
DCHECK(ContainsIndex(index));
TabContentsWrapper* removed_contents = GetContentsAt(index);
bool was_selected = IsTabSelected(index);
int next_selected_index = order_controller_->DetermineNewSelectedIndex(index);
delete contents_data_.at(index);
contents_data_.erase(contents_data_.begin() + index);
ForgetOpenersAndGroupsReferencing(&(removed_contents->controller()));
if (empty())
closing_all_ = true;
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabDetachedAt(removed_contents, index));
if (empty()) {
selection_model_.Clear();
// TabDetachedAt() might unregister observers, so send |TabStripEmtpy()| in
// a second pass.
FOR_EACH_OBSERVER(TabStripModelObserver, observers_, TabStripEmpty());
} else {
int old_active = active_index();
selection_model_.DecrementFrom(index);
TabStripSelectionModel old_model;
old_model.Copy(selection_model_);
if (index == old_active) {
if (!selection_model_.empty()) {
// The active tab was removed, but there is still something selected.
// Move the active and anchor to the first selected index.
selection_model_.set_active(selection_model_.selected_indices()[0]);
selection_model_.set_anchor(selection_model_.active());
} else {
// The active tab was removed and nothing is selected. Reset the
// selection and send out notification.
selection_model_.SetSelectedIndex(next_selected_index);
}
NotifyIfActiveTabChanged(removed_contents, false);
}
// Sending notification in case the detached tab was selected. Using
// NotifyIfActiveOrSelectionChanged() here would not guarantee that a
// notification is sent even though the tab selection has changed because
// |old_model| is stored after calling DecrementFrom().
if (was_selected) {
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabSelectionChanged(old_model));
}
}
return removed_contents;
}
void TabStripModel::ActivateTabAt(int index, bool user_gesture) {
DCHECK(ContainsIndex(index));
TabContentsWrapper* old_contents = GetActiveTabContents();
TabStripSelectionModel old_model;
old_model.Copy(selection_model_);
selection_model_.SetSelectedIndex(index);
NotifyIfActiveOrSelectionChanged(old_contents, user_gesture, old_model);
}
void TabStripModel::MoveTabContentsAt(int index,
int to_position,
bool select_after_move) {
DCHECK(ContainsIndex(index));
if (index == to_position)
return;
int first_non_mini_tab = IndexOfFirstNonMiniTab();
if ((index < first_non_mini_tab && to_position >= first_non_mini_tab) ||
(to_position < first_non_mini_tab && index >= first_non_mini_tab)) {
// This would result in mini tabs mixed with non-mini tabs. We don't allow
// that.
return;
}
MoveTabContentsAtImpl(index, to_position, select_after_move);
}
void TabStripModel::MoveSelectedTabsTo(int index) {
int total_mini_count = IndexOfFirstNonMiniTab();
int selected_mini_count = 0;
int selected_count =
static_cast<int>(selection_model_.selected_indices().size());
for (int i = 0; i < selected_count &&
IsMiniTab(selection_model_.selected_indices()[i]); ++i) {
selected_mini_count++;
}
// To maintain that all mini-tabs occur before non-mini-tabs we move them
// first.
if (selected_mini_count > 0) {
MoveSelectedTabsToImpl(
std::min(total_mini_count - selected_mini_count, index), 0u,
selected_mini_count);
if (index > total_mini_count - selected_mini_count) {
// We're being told to drag mini-tabs to an invalid location. Adjust the
// index such that non-mini-tabs end up at a location as though we could
// move the mini-tabs to index. See description in header for more
// details.
index += selected_mini_count;
}
}
if (selected_mini_count == selected_count)
return;
// Then move the non-pinned tabs.
MoveSelectedTabsToImpl(std::max(index, total_mini_count),
selected_mini_count,
selected_count - selected_mini_count);
}
TabContentsWrapper* TabStripModel::GetActiveTabContents() const {
return GetTabContentsAt(active_index());
}
TabContentsWrapper* TabStripModel::GetTabContentsAt(int index) const {
if (ContainsIndex(index))
return GetContentsAt(index);
return NULL;
}
int TabStripModel::GetIndexOfTabContents(
const TabContentsWrapper* contents) const {
int index = 0;
TabContentsDataVector::const_iterator iter = contents_data_.begin();
for (; iter != contents_data_.end(); ++iter, ++index) {
if ((*iter)->contents == contents)
return index;
}
return kNoTab;
}
int TabStripModel::GetWrapperIndex(const TabContents* contents) const {
int index = 0;
TabContentsDataVector::const_iterator iter = contents_data_.begin();
for (; iter != contents_data_.end(); ++iter, ++index) {
if ((*iter)->contents->tab_contents() == contents)
return index;
}
return kNoTab;
}
int TabStripModel::GetIndexOfController(
const NavigationController* controller) const {
int index = 0;
TabContentsDataVector::const_iterator iter = contents_data_.begin();
for (; iter != contents_data_.end(); ++iter, ++index) {
if (&(*iter)->contents->controller() == controller)
return index;
}
return kNoTab;
}
void TabStripModel::UpdateTabContentsStateAt(int index,
TabStripModelObserver::TabChangeType change_type) {
DCHECK(ContainsIndex(index));
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabChangedAt(GetContentsAt(index), index, change_type));
}
void TabStripModel::CloseAllTabs() {
// Set state so that observers can adjust their behavior to suit this
// specific condition when CloseTabContentsAt causes a flurry of
// Close/Detach/Select notifications to be sent.
closing_all_ = true;
std::vector<int> closing_tabs;
for (int i = count() - 1; i >= 0; --i)
closing_tabs.push_back(i);
InternalCloseTabs(closing_tabs, CLOSE_CREATE_HISTORICAL_TAB);
}
bool TabStripModel::CloseTabContentsAt(int index, uint32 close_types) {
std::vector<int> closing_tabs;
closing_tabs.push_back(index);
return InternalCloseTabs(closing_tabs, close_types);
}
bool TabStripModel::TabsAreLoading() const {
TabContentsDataVector::const_iterator iter = contents_data_.begin();
for (; iter != contents_data_.end(); ++iter) {
if ((*iter)->contents->tab_contents()->IsLoading())
return true;
}
return false;
}
NavigationController* TabStripModel::GetOpenerOfTabContentsAt(int index) {
DCHECK(ContainsIndex(index));
return contents_data_.at(index)->opener;
}
int TabStripModel::GetIndexOfNextTabContentsOpenedBy(
const NavigationController* opener, int start_index, bool use_group) const {
DCHECK(opener);
DCHECK(ContainsIndex(start_index));
// Check tabs after start_index first.
for (int i = start_index + 1; i < count(); ++i) {
if (OpenerMatches(contents_data_[i], opener, use_group))
return i;
}
// Then check tabs before start_index, iterating backwards.
for (int i = start_index - 1; i >= 0; --i) {
if (OpenerMatches(contents_data_[i], opener, use_group))
return i;
}
return kNoTab;
}
int TabStripModel::GetIndexOfFirstTabContentsOpenedBy(
const NavigationController* opener,
int start_index) const {
DCHECK(opener);
DCHECK(ContainsIndex(start_index));
for (int i = 0; i < start_index; ++i) {
if (contents_data_[i]->opener == opener)
return i;
}
return kNoTab;
}
int TabStripModel::GetIndexOfLastTabContentsOpenedBy(
const NavigationController* opener, int start_index) const {
DCHECK(opener);
DCHECK(ContainsIndex(start_index));
TabContentsDataVector::const_iterator end =
contents_data_.begin() + start_index;
TabContentsDataVector::const_iterator iter = contents_data_.end();
TabContentsDataVector::const_iterator next;
for (; iter != end; --iter) {
next = iter - 1;
if (next == end)
break;
if ((*next)->opener == opener)
return static_cast<int>(next - contents_data_.begin());
}
return kNoTab;
}
void TabStripModel::TabNavigating(TabContentsWrapper* contents,
PageTransition::Type transition) {
if (ShouldForgetOpenersForTransition(transition)) {
// Don't forget the openers if this tab is a New Tab page opened at the
// end of the TabStrip (e.g. by pressing Ctrl+T). Give the user one
// navigation of one of these transition types before resetting the
// opener relationships (this allows for the use case of opening a new
// tab to do a quick look-up of something while viewing a tab earlier in
// the strip). We can make this heuristic more permissive if need be.
if (!IsNewTabAtEndOfTabStrip(contents)) {
// If the user navigates the current tab to another page in any way
// other than by clicking a link, we want to pro-actively forget all
// TabStrip opener relationships since we assume they're beginning a
// different task by reusing the current tab.
ForgetAllOpeners();
// In this specific case we also want to reset the group relationship,
// since it is now technically invalid.
ForgetGroup(contents);
}
}
}
void TabStripModel::ForgetAllOpeners() {
// Forget all opener memories so we don't do anything weird with tab
// re-selection ordering.
TabContentsDataVector::const_iterator iter = contents_data_.begin();
for (; iter != contents_data_.end(); ++iter)
(*iter)->ForgetOpener();
}
void TabStripModel::ForgetGroup(TabContentsWrapper* contents) {
int index = GetIndexOfTabContents(contents);
DCHECK(ContainsIndex(index));
contents_data_.at(index)->SetGroup(NULL);
contents_data_.at(index)->ForgetOpener();
}
bool TabStripModel::ShouldResetGroupOnSelect(
TabContentsWrapper* contents) const {
int index = GetIndexOfTabContents(contents);
DCHECK(ContainsIndex(index));
return contents_data_.at(index)->reset_group_on_select;
}
void TabStripModel::SetTabBlocked(int index, bool blocked) {
DCHECK(ContainsIndex(index));
if (contents_data_[index]->blocked == blocked)
return;
contents_data_[index]->blocked = blocked;
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabBlockedStateChanged(contents_data_[index]->contents,
index));
}
void TabStripModel::SetTabPinned(int index, bool pinned) {
DCHECK(ContainsIndex(index));
if (contents_data_[index]->pinned == pinned)
return;
if (IsAppTab(index)) {
if (!pinned) {
// App tabs should always be pinned.
NOTREACHED();
return;
}
// Changing the pinned state of an app tab doesn't effect it's mini-tab
// status.
contents_data_[index]->pinned = pinned;
} else {
// The tab is not an app tab, it's position may have to change as the
// mini-tab state is changing.
int non_mini_tab_index = IndexOfFirstNonMiniTab();
contents_data_[index]->pinned = pinned;
if (pinned && index != non_mini_tab_index) {
MoveTabContentsAtImpl(index, non_mini_tab_index, false);
index = non_mini_tab_index;
} else if (!pinned && index + 1 != non_mini_tab_index) {
MoveTabContentsAtImpl(index, non_mini_tab_index - 1, false);
index = non_mini_tab_index - 1;
}
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabMiniStateChanged(contents_data_[index]->contents,
index));
}
// else: the tab was at the boundary and it's position doesn't need to
// change.
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabPinnedStateChanged(contents_data_[index]->contents,
index));
}
bool TabStripModel::IsTabPinned(int index) const {
DCHECK(ContainsIndex(index));
return contents_data_[index]->pinned;
}
bool TabStripModel::IsMiniTab(int index) const {
return IsTabPinned(index) || IsAppTab(index);
}
bool TabStripModel::IsAppTab(int index) const {
TabContentsWrapper* contents = GetTabContentsAt(index);
return contents && contents->extension_tab_helper()->is_app();
}
bool TabStripModel::IsTabBlocked(int index) const {
return contents_data_[index]->blocked;
}
int TabStripModel::IndexOfFirstNonMiniTab() const {
for (size_t i = 0; i < contents_data_.size(); ++i) {
if (!IsMiniTab(static_cast<int>(i)))
return static_cast<int>(i);
}
// No mini-tabs.
return count();
}
int TabStripModel::ConstrainInsertionIndex(int index, bool mini_tab) {
return mini_tab ? std::min(std::max(0, index), IndexOfFirstNonMiniTab()) :
std::min(count(), std::max(index, IndexOfFirstNonMiniTab()));
}
void TabStripModel::ExtendSelectionTo(int index) {
DCHECK(ContainsIndex(index));
TabContentsWrapper* old_contents = GetActiveTabContents();
TabStripSelectionModel old_model;
old_model.Copy(selection_model());
selection_model_.SetSelectionFromAnchorTo(index);
NotifyIfActiveOrSelectionChanged(old_contents, false, old_model);
}
void TabStripModel::ToggleSelectionAt(int index) {
DCHECK(ContainsIndex(index));
TabContentsWrapper* old_contents = GetActiveTabContents();
TabStripSelectionModel old_model;
old_model.Copy(selection_model());
if (selection_model_.IsSelected(index)) {
if (selection_model_.size() == 1) {
// One tab must be selected and this tab is currently selected so we can't
// unselect it.
return;
}
selection_model_.RemoveIndexFromSelection(index);
selection_model_.set_anchor(index);
if (selection_model_.active() == TabStripSelectionModel::kUnselectedIndex)
selection_model_.set_active(selection_model_.selected_indices()[0]);
} else {
selection_model_.AddIndexToSelection(index);
selection_model_.set_anchor(index);
selection_model_.set_active(index);
}
NotifyIfActiveOrSelectionChanged(old_contents, false, old_model);
}
void TabStripModel::AddSelectionFromAnchorTo(int index) {
TabContentsWrapper* old_contents = GetActiveTabContents();
TabStripSelectionModel old_model;
old_model.Copy(selection_model());
selection_model_.AddSelectionFromAnchorTo(index);
NotifyIfActiveOrSelectionChanged(old_contents, false, old_model);
}
bool TabStripModel::IsTabSelected(int index) const {
DCHECK(ContainsIndex(index));
return selection_model_.IsSelected(index);
}
void TabStripModel::SetSelectionFromModel(
const TabStripSelectionModel& source) {
DCHECK_NE(TabStripSelectionModel::kUnselectedIndex, source.active());
TabContentsWrapper* old_contents = GetActiveTabContents();
TabStripSelectionModel old_model;
old_model.Copy(selection_model());
selection_model_.Copy(source);
NotifyIfActiveOrSelectionChanged(old_contents, false, old_model);
}
void TabStripModel::AddTabContents(TabContentsWrapper* contents,
int index,
PageTransition::Type transition,
int add_types) {
// If the newly-opened tab is part of the same task as the parent tab, we want
// to inherit the parent's "group" attribute, so that if this tab is then
// closed we'll jump back to the parent tab.
bool inherit_group = (add_types & ADD_INHERIT_GROUP) == ADD_INHERIT_GROUP;
if (transition == PageTransition::LINK &&
(add_types & ADD_FORCE_INDEX) == 0) {
// We assume tabs opened via link clicks are part of the same task as their
// parent. Note that when |force_index| is true (e.g. when the user
// drag-and-drops a link to the tab strip), callers aren't really handling
// link clicks, they just want to score the navigation like a link click in
// the history backend, so we don't inherit the group in this case.
index = order_controller_->DetermineInsertionIndex(
contents, transition, add_types & ADD_ACTIVE);
inherit_group = true;
} else {
// For all other types, respect what was passed to us, normalizing -1s and
// values that are too large.
if (index < 0 || index > count())
index = order_controller_->DetermineInsertionIndexForAppending();
}
if (transition == PageTransition::TYPED && index == count()) {
// Also, any tab opened at the end of the TabStrip with a "TYPED"
// transition inherit group as well. This covers the cases where the user
// creates a New Tab (e.g. Ctrl+T, or clicks the New Tab button), or types
// in the address bar and presses Alt+Enter. This allows for opening a new
// Tab to quickly look up something. When this Tab is closed, the old one
// is re-selected, not the next-adjacent.
inherit_group = true;
}
InsertTabContentsAt(
index, contents,
add_types | (inherit_group ? ADD_INHERIT_GROUP : 0));
// Reset the index, just in case insert ended up moving it on us.
index = GetIndexOfTabContents(contents);
if (inherit_group && transition == PageTransition::TYPED)
contents_data_.at(index)->reset_group_on_select = true;
// TODO(sky): figure out why this is here and not in InsertTabContentsAt. When
// here we seem to get failures in startup perf tests.
// Ensure that the new TabContentsView begins at the same size as the
// previous TabContentsView if it existed. Otherwise, the initial WebKit
// layout will be performed based on a width of 0 pixels, causing a
// very long, narrow, inaccurate layout. Because some scripts on pages (as
// well as WebKit's anchor link location calculation) are run on the
// initial layout and not recalculated later, we need to ensure the first
// layout is performed with sane view dimensions even when we're opening a
// new background tab.
if (TabContentsWrapper* old_contents = GetActiveTabContents()) {
if ((add_types & ADD_ACTIVE) == 0) {
contents->tab_contents()->view()->
SizeContents(old_contents->tab_contents()->
view()->GetContainerSize());
// We need to hide the contents or else we get and execute paints for
// background tabs. With enough background tabs they will steal the
// backing store of the visible tab causing flashing. See bug 20831.
contents->tab_contents()->HideContents();
}
}
}
void TabStripModel::CloseSelectedTabs() {
InternalCloseTabs(selection_model_.selected_indices(),
CLOSE_CREATE_HISTORICAL_TAB | CLOSE_USER_GESTURE);
}
void TabStripModel::SelectNextTab() {
SelectRelativeTab(true);
}
void TabStripModel::SelectPreviousTab() {
SelectRelativeTab(false);
}
void TabStripModel::SelectLastTab() {
ActivateTabAt(count() - 1, true);
}
void TabStripModel::MoveTabNext() {
// TODO: this likely needs to be updated for multi-selection.
int new_index = std::min(active_index() + 1, count() - 1);
MoveTabContentsAt(active_index(), new_index, true);
}
void TabStripModel::MoveTabPrevious() {
// TODO: this likely needs to be updated for multi-selection.
int new_index = std::max(active_index() - 1, 0);
MoveTabContentsAt(active_index(), new_index, true);
}
void TabStripModel::ActiveTabClicked(int index) {
FOR_EACH_OBSERVER(TabStripModelObserver, observers_, ActiveTabClicked(index));
}
// Context menu functions.
bool TabStripModel::IsContextMenuCommandEnabled(
int context_index, ContextMenuCommand command_id) const {
DCHECK(command_id > CommandFirst && command_id < CommandLast);
switch (command_id) {
case CommandNewTab:
return true;
case CommandCloseTab:
return delegate_->CanCloseTab();
case CommandReload: {
std::vector<int> indices = GetIndicesForCommand(context_index);
for (size_t i = 0; i < indices.size(); ++i) {
TabContentsWrapper* tab = GetTabContentsAt(indices[i]);
if (tab && tab->tab_contents()->delegate()->CanReloadContents(
tab->tab_contents())) {
return true;
}
}
return false;
}
case CommandCloseOtherTabs:
case CommandCloseTabsToRight:
return !GetIndicesClosedByCommand(context_index, command_id).empty();
case CommandDuplicate: {
std::vector<int> indices = GetIndicesForCommand(context_index);
for (size_t i = 0; i < indices.size(); ++i) {
if (delegate_->CanDuplicateContentsAt(indices[i]))
return true;
}
return false;
}
case CommandRestoreTab:
return delegate_->CanRestoreTab();
case CommandTogglePinned: {
std::vector<int> indices = GetIndicesForCommand(context_index);
for (size_t i = 0; i < indices.size(); ++i) {
if (!IsAppTab(indices[i]))
return true;
}
return false;
}
case CommandBookmarkAllTabs:
return browser_defaults::bookmarks_enabled &&
delegate_->CanBookmarkAllTabs();
case CommandUseVerticalTabs:
case CommandUseCompactNavigationBar:
return true;
case CommandSelectByDomain:
case CommandSelectByOpener:
return true;
default:
NOTREACHED();
}
return false;
}
bool TabStripModel::IsContextMenuCommandChecked(
int context_index,
ContextMenuCommand command_id) const {
switch (command_id) {
case CommandUseVerticalTabs:
return delegate()->UseVerticalTabs();
case CommandUseCompactNavigationBar:
return delegate()->UseCompactNavigationBar();
default:
NOTREACHED();
break;
}
return false;
}
void TabStripModel::ExecuteContextMenuCommand(
int context_index, ContextMenuCommand command_id) {
DCHECK(command_id > CommandFirst && command_id < CommandLast);
switch (command_id) {
case CommandNewTab:
UserMetrics::RecordAction(UserMetricsAction("TabContextMenu_NewTab"));
delegate()->AddBlankTabAt(context_index + 1, true);
break;
case CommandReload: {
UserMetrics::RecordAction(UserMetricsAction("TabContextMenu_Reload"));
std::vector<int> indices = GetIndicesForCommand(context_index);
for (size_t i = 0; i < indices.size(); ++i) {
TabContentsWrapper* tab = GetTabContentsAt(indices[i]);
if (tab && tab->tab_contents()->delegate()->CanReloadContents(
tab->tab_contents())) {
tab->controller().Reload(true);
}
}
break;
}
case CommandDuplicate: {
UserMetrics::RecordAction(UserMetricsAction("TabContextMenu_Duplicate"));
std::vector<int> indices = GetIndicesForCommand(context_index);
// Copy the TabContents off as the indices will change as tabs are
// duplicated.
std::vector<TabContentsWrapper*> tabs;
for (size_t i = 0; i < indices.size(); ++i)
tabs.push_back(GetTabContentsAt(indices[i]));
for (size_t i = 0; i < tabs.size(); ++i) {
int index = GetIndexOfTabContents(tabs[i]);
if (index != -1 && delegate_->CanDuplicateContentsAt(index))
delegate_->DuplicateContentsAt(index);
}
break;
}
case CommandCloseTab: {
UserMetrics::RecordAction(UserMetricsAction("TabContextMenu_CloseTab"));
std::vector<int> indices = GetIndicesForCommand(context_index);
// Copy the TabContents off as the indices will change as we remove
// things.
std::vector<TabContentsWrapper*> tabs;
for (size_t i = 0; i < indices.size(); ++i)
tabs.push_back(GetTabContentsAt(indices[i]));
for (size_t i = 0; i < tabs.size() && delegate_->CanCloseTab(); ++i) {
int index = GetIndexOfTabContents(tabs[i]);
if (index != -1) {
CloseTabContentsAt(index,
CLOSE_CREATE_HISTORICAL_TAB | CLOSE_USER_GESTURE);
}
}
break;
}
case CommandCloseOtherTabs: {
UserMetrics::RecordAction(
UserMetricsAction("TabContextMenu_CloseOtherTabs"));
InternalCloseTabs(GetIndicesClosedByCommand(context_index, command_id),
CLOSE_CREATE_HISTORICAL_TAB);
break;
}
case CommandCloseTabsToRight: {
UserMetrics::RecordAction(
UserMetricsAction("TabContextMenu_CloseTabsToRight"));
InternalCloseTabs(GetIndicesClosedByCommand(context_index, command_id),
CLOSE_CREATE_HISTORICAL_TAB);
break;
}
case CommandRestoreTab: {
UserMetrics::RecordAction(UserMetricsAction("TabContextMenu_RestoreTab"));
delegate_->RestoreTab();
break;
}
case CommandTogglePinned: {
UserMetrics::RecordAction(
UserMetricsAction("TabContextMenu_TogglePinned"));
std::vector<int> indices = GetIndicesForCommand(context_index);
bool pin = WillContextMenuPin(context_index);
if (pin) {
for (size_t i = 0; i < indices.size(); ++i) {
if (!IsAppTab(indices[i]))
SetTabPinned(indices[i], true);
}
} else {
// Unpin from the back so that the order is maintained (unpinning can
// trigger moving a tab).
for (size_t i = indices.size(); i > 0; --i) {
if (!IsAppTab(indices[i - 1]))
SetTabPinned(indices[i - 1], false);
}
}
break;
}
case CommandBookmarkAllTabs: {
UserMetrics::RecordAction(
UserMetricsAction("TabContextMenu_BookmarkAllTabs"));
delegate_->BookmarkAllTabs();
break;
}
case CommandUseVerticalTabs: {
UserMetrics::RecordAction(
UserMetricsAction("TabContextMenu_UseVerticalTabs"));
delegate()->ToggleUseVerticalTabs();
break;
}
case CommandUseCompactNavigationBar: {
UserMetrics::RecordAction(
UserMetricsAction("TabContextMenu_CompactNavigationBar"));
delegate()->ToggleUseCompactNavigationBar();
break;
}
case CommandSelectByDomain:
case CommandSelectByOpener: {
std::vector<int> indices;
if (command_id == CommandSelectByDomain)
GetIndicesWithSameDomain(context_index, &indices);
else
GetIndicesWithSameOpener(context_index, &indices);
TabStripSelectionModel selection_model;
selection_model.SetSelectedIndex(context_index);
for (size_t i = 0; i < indices.size(); ++i)
selection_model.AddIndexToSelection(indices[i]);
SetSelectionFromModel(selection_model);
break;
}
default:
NOTREACHED();
}
}
std::vector<int> TabStripModel::GetIndicesClosedByCommand(
int index,
ContextMenuCommand id) const {
DCHECK(ContainsIndex(index));
DCHECK(id == CommandCloseTabsToRight || id == CommandCloseOtherTabs);
bool is_selected = IsTabSelected(index);
int start;
if (id == CommandCloseTabsToRight) {
if (is_selected) {
start = selection_model_.selected_indices()[
selection_model_.selected_indices().size() - 1] + 1;
} else {
start = index + 1;
}
} else {
start = 0;
}
// NOTE: callers expect the vector to be sorted in descending order.
std::vector<int> indices;
for (int i = count() - 1; i >= start; --i) {
if (i != index && !IsMiniTab(i) && (!is_selected || !IsTabSelected(i)))
indices.push_back(i);
}
return indices;
}
bool TabStripModel::WillContextMenuPin(int index) {
std::vector<int> indices = GetIndicesForCommand(index);
// If all tabs are pinned, then we unpin, otherwise we pin.
bool all_pinned = true;
for (size_t i = 0; i < indices.size() && all_pinned; ++i) {
if (!IsAppTab(index)) // We never change app tabs.
all_pinned = IsTabPinned(indices[i]);
}
return !all_pinned;
}
///////////////////////////////////////////////////////////////////////////////
// TabStripModel, NotificationObserver implementation:
void TabStripModel::Observe(int type,
const NotificationSource& source,
const NotificationDetails& details) {
switch (type) {
case content::NOTIFICATION_TAB_CONTENTS_DESTROYED: {
// Sometimes, on qemu, it seems like a TabContents object can be destroyed
// while we still have a reference to it. We need to break this reference
// here so we don't crash later.
int index = GetWrapperIndex(Source<TabContents>(source).ptr());
if (index != TabStripModel::kNoTab) {
// Note that we only detach the contents here, not close it - it's
// already been closed. We just want to undo our bookkeeping.
DetachTabContentsAt(index);
}
break;
}
case chrome::NOTIFICATION_EXTENSION_UNLOADED: {
const Extension* extension =
Details<UnloadedExtensionInfo>(details)->extension;
// Iterate backwards as we may remove items while iterating.
for (int i = count() - 1; i >= 0; i--) {
TabContentsWrapper* contents = GetTabContentsAt(i);
if (contents->extension_tab_helper()->extension_app() == extension) {
// The extension an app tab was created from has been nuked. Delete
// the TabContents. Deleting a TabContents results in a notification
// of type TAB_CONTENTS_DESTROYED; we do the necessary cleanup in
// handling that notification.
InternalCloseTab(contents, i, false);
}
}
break;
}
default:
NOTREACHED();
}
}
// static
bool TabStripModel::ContextMenuCommandToBrowserCommand(int cmd_id,
int* browser_cmd) {
switch (cmd_id) {
case CommandNewTab:
*browser_cmd = IDC_NEW_TAB;
break;
case CommandReload:
*browser_cmd = IDC_RELOAD;
break;
case CommandDuplicate:
*browser_cmd = IDC_DUPLICATE_TAB;
break;
case CommandCloseTab:
*browser_cmd = IDC_CLOSE_TAB;
break;
case CommandRestoreTab:
*browser_cmd = IDC_RESTORE_TAB;
break;
case CommandBookmarkAllTabs:
*browser_cmd = IDC_BOOKMARK_ALL_TABS;
break;
case CommandUseVerticalTabs:
*browser_cmd = IDC_TOGGLE_VERTICAL_TABS;
break;
case CommandUseCompactNavigationBar:
*browser_cmd = IDC_COMPACT_NAVBAR;
break;
default:
*browser_cmd = 0;
return false;
}
return true;
}
///////////////////////////////////////////////////////////////////////////////
// TabStripModel, private:
void TabStripModel::GetIndicesWithSameDomain(int index,
std::vector<int>* indices) {
TabContentsWrapper* tab = GetTabContentsAt(index);
std::string domain = tab->tab_contents()->GetURL().host();
if (domain.empty())
return;
for (int i = 0; i < count(); ++i) {
if (i == index)
continue;
if (GetTabContentsAt(i)->tab_contents()->GetURL().host() == domain)
indices->push_back(i);
}
}
void TabStripModel::GetIndicesWithSameOpener(int index,
std::vector<int>* indices) {
NavigationController* opener = contents_data_[index]->group;
if (!opener) {
// If there is no group, find all tabs with the selected tab as the opener.
opener = &(GetTabContentsAt(index)->controller());
if (!opener)
return;
}
for (int i = 0; i < count(); ++i) {
if (i == index)
continue;
if (contents_data_[i]->group == opener ||
&(GetTabContentsAt(i)->controller()) == opener) {
indices->push_back(i);
}
}
}
std::vector<int> TabStripModel::GetIndicesForCommand(int index) const {
if (!IsTabSelected(index)) {
std::vector<int> indices;
indices.push_back(index);
return indices;
}
return selection_model_.selected_indices();
}
bool TabStripModel::IsNewTabAtEndOfTabStrip(
TabContentsWrapper* contents) const {
const GURL& url = contents->tab_contents()->GetURL();
return url.SchemeIs(chrome::kChromeUIScheme) &&
url.host() == chrome::kChromeUINewTabHost &&
contents == GetContentsAt(count() - 1) &&
contents->controller().entry_count() == 1;
}
bool TabStripModel::InternalCloseTabs(const std::vector<int>& in_indices,
uint32 close_types) {
if (in_indices.empty())
return true;
std::vector<int> indices(in_indices);
bool retval = delegate_->CanCloseContents(&indices);
if (indices.empty())
return retval;
// Map the indices to TabContents, that way if deleting a tab deletes other
// tabs we're ok. Crashes seem to indicate during tab deletion other tabs are
// getting removed.
std::vector<TabContentsWrapper*> tabs;
for (size_t i = 0; i < indices.size(); ++i)
tabs.push_back(GetContentsAt(indices[i]));
// We only try the fast shutdown path if the whole browser process is *not*
// shutting down. Fast shutdown during browser termination is handled in
// BrowserShutdown.
if (browser_shutdown::GetShutdownType() == browser_shutdown::NOT_VALID) {
// Construct a map of processes to the number of associated tabs that are
// closing.
std::map<RenderProcessHost*, size_t> processes;
for (size_t i = 0; i < indices.size(); ++i) {
TabContentsWrapper* detached_contents = GetContentsAt(indices[i]);
RenderProcessHost* process =
detached_contents->tab_contents()->GetRenderProcessHost();
std::map<RenderProcessHost*, size_t>::iterator iter =
processes.find(process);
if (iter == processes.end()) {
processes[process] = 1;
} else {
iter->second++;
}
}
// Try to fast shutdown the tabs that can close.
for (std::map<RenderProcessHost*, size_t>::iterator iter =
processes.begin();
iter != processes.end(); ++iter) {
iter->first->FastShutdownForPageCount(iter->second);
}
}
// We now return to our regularly scheduled shutdown procedure.
for (size_t i = 0; i < tabs.size(); ++i) {
TabContentsWrapper* detached_contents = tabs[i];
int index = GetIndexOfTabContents(detached_contents);
// Make sure we still contain the tab.
if (index == kNoTab)
continue;
detached_contents->tab_contents()->OnCloseStarted();
// Update the explicitly closed state. If the unload handlers cancel the
// close the state is reset in Browser. We don't update the explicitly
// closed state if already marked as explicitly closed as unload handlers
// call back to this if the close is allowed.
if (!detached_contents->tab_contents()->closed_by_user_gesture()) {
detached_contents->tab_contents()->set_closed_by_user_gesture(
close_types & CLOSE_USER_GESTURE);
}
if (delegate_->RunUnloadListenerBeforeClosing(detached_contents)) {
retval = false;
continue;
}
InternalCloseTab(detached_contents, index,
(close_types & CLOSE_CREATE_HISTORICAL_TAB) != 0);
}
return retval;
}
void TabStripModel::InternalCloseTab(TabContentsWrapper* contents,
int index,
bool create_historical_tabs) {
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabClosingAt(this, contents, index));
// Ask the delegate to save an entry for this tab in the historical tab
// database if applicable.
if (create_historical_tabs)
delegate_->CreateHistoricalTab(contents);
// Deleting the TabContents will call back to us via NotificationObserver
// and detach it.
delete contents;
}
TabContentsWrapper* TabStripModel::GetContentsAt(int index) const {
CHECK(ContainsIndex(index)) <<
"Failed to find: " << index << " in: " << count() << " entries.";
return contents_data_.at(index)->contents;
}
void TabStripModel::NotifyIfActiveTabChanged(
TabContentsWrapper* old_contents,
bool user_gesture) {
TabContentsWrapper* new_contents = GetContentsAt(active_index());
if (old_contents != new_contents) {
if (old_contents) {
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabDeactivated(old_contents));
}
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
ActiveTabChanged(old_contents, new_contents,
active_index(), user_gesture));
}
}
void TabStripModel::NotifyIfActiveOrSelectionChanged(
TabContentsWrapper* old_contents,
bool user_gesture,
const TabStripSelectionModel& old_model) {
NotifyIfActiveTabChanged(old_contents, user_gesture);
if (!selection_model().Equals(old_model)) {
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabSelectionChanged(old_model));
}
}
void TabStripModel::SelectRelativeTab(bool next) {
// This may happen during automated testing or if a user somehow buffers
// many key accelerators.
if (contents_data_.empty())
return;
int index = active_index();
int delta = next ? 1 : -1;
index = (index + count() + delta) % count();
ActivateTabAt(index, true);
}
void TabStripModel::MoveTabContentsAtImpl(int index,
int to_position,
bool select_after_move) {
TabContentsData* moved_data = contents_data_.at(index);
contents_data_.erase(contents_data_.begin() + index);
contents_data_.insert(contents_data_.begin() + to_position, moved_data);
selection_model_.Move(index, to_position);
if (!selection_model_.IsSelected(select_after_move) && select_after_move) {
// TODO(sky): why doesn't this code notify observers?
selection_model_.SetSelectedIndex(to_position);
}
FOR_EACH_OBSERVER(TabStripModelObserver, observers_,
TabMoved(moved_data->contents, index, to_position));
}
void TabStripModel::MoveSelectedTabsToImpl(int index,
size_t start,
size_t length) {
DCHECK(start < selection_model_.selected_indices().size() &&
start + length <= selection_model_.selected_indices().size());
size_t end = start + length;
int count_before_index = 0;
for (size_t i = start; i < end &&
selection_model_.selected_indices()[i] < index + count_before_index;
++i) {
count_before_index++;
}
// First move those before index. Any tabs before index end up moving in the
// selection model so we use start each time through.
int target_index = index + count_before_index;
size_t tab_index = start;
while (tab_index < end &&
selection_model_.selected_indices()[start] < index) {
MoveTabContentsAt(selection_model_.selected_indices()[start],
target_index - 1, false);
tab_index++;
}
// Then move those after the index. These don't result in reordering the
// selection.
while (tab_index < end) {
if (selection_model_.selected_indices()[tab_index] != target_index) {
MoveTabContentsAt(selection_model_.selected_indices()[tab_index],
target_index, false);
}
tab_index++;
target_index++;
}
}
// static
bool TabStripModel::OpenerMatches(const TabContentsData* data,
const NavigationController* opener,
bool use_group) {
return data->opener == opener || (use_group && data->group == opener);
}
void TabStripModel::ForgetOpenersAndGroupsReferencing(
const NavigationController* tab) {
for (TabContentsDataVector::const_iterator i = contents_data_.begin();
i != contents_data_.end(); ++i) {
if ((*i)->group == tab)
(*i)->group = NULL;
if ((*i)->opener == tab)
(*i)->opener = NULL;
}
}