// 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 "ash/display/display_controller.h"
#include <algorithm>
#include <cmath>
#include <map>
#include "ash/ash_switches.h"
#include "ash/display/cursor_window_controller.h"
#include "ash/display/display_layout_store.h"
#include "ash/display/display_manager.h"
#include "ash/display/mirror_window_controller.h"
#include "ash/display/root_window_transformers.h"
#include "ash/host/ash_window_tree_host.h"
#include "ash/host/ash_window_tree_host_init_params.h"
#include "ash/host/root_window_transformer.h"
#include "ash/root_window_controller.h"
#include "ash/root_window_settings.h"
#include "ash/screen_util.h"
#include "ash/shell.h"
#include "ash/shell_delegate.h"
#include "ash/wm/coordinate_conversion.h"
#include "base/command_line.h"
#include "base/stl_util.h"
#include "base/strings/stringprintf.h"
#include "base/strings/utf_string_conversions.h"
#include "ui/aura/client/capture_client.h"
#include "ui/aura/client/focus_client.h"
#include "ui/aura/client/screen_position_client.h"
#include "ui/aura/window.h"
#include "ui/aura/window_event_dispatcher.h"
#include "ui/aura/window_property.h"
#include "ui/aura/window_tracker.h"
#include "ui/aura/window_tree_host.h"
#include "ui/compositor/compositor.h"
#include "ui/compositor/compositor_vsync_manager.h"
#include "ui/gfx/display.h"
#include "ui/gfx/screen.h"
#include "ui/wm/public/activation_client.h"
#if defined(OS_CHROMEOS)
#include "ash/display/display_configurator_animation.h"
#include "base/sys_info.h"
#include "base/time/time.h"
#endif // defined(OS_CHROMEOS)
#if defined(USE_X11)
#include "ui/base/x/x11_util.h"
#include "ui/gfx/x/x11_types.h"
// Including this at the bottom to avoid other
// potential conflict with chrome headers.
#include <X11/extensions/Xrandr.h>
#undef RootWindow
#endif // defined(USE_X11)
namespace ash {
namespace {
// Primary display stored in global object as it can be
// accessed after Shell is deleted. A separate display instance is created
// during the shutdown instead of always keeping two display instances
// (one here and another one in display_manager) in sync, which is error prone.
// This is initialized in the constructor, and then in CreatePrimaryHost().
int64 primary_display_id = -1;
// Specifies how long the display change should have been disabled
// after each display change operations.
// |kCycleDisplayThrottleTimeoutMs| is set to be longer to avoid
// changing the settings while the system is still configurating
// displays. It will be overriden by |kAfterDisplayChangeThrottleTimeoutMs|
// when the display change happens, so the actual timeout is much shorter.
const int64 kAfterDisplayChangeThrottleTimeoutMs = 500;
const int64 kCycleDisplayThrottleTimeoutMs = 4000;
const int64 kSwapDisplayThrottleTimeoutMs = 500;
DisplayManager* GetDisplayManager() {
return Shell::GetInstance()->display_manager();
}
void SetDisplayPropertiesOnHost(AshWindowTreeHost* ash_host,
const gfx::Display& display) {
DisplayInfo info = GetDisplayManager()->GetDisplayInfo(display.id());
aura::WindowTreeHost* host = ash_host->AsWindowTreeHost();
#if defined(OS_CHROMEOS) && defined(USE_X11)
// Native window property (Atom in X11) that specifies the display's
// rotation, scale factor and if it's internal display. They are
// read and used by touchpad/mouse driver directly on X (contact
// adlr@ for more details on touchpad/mouse driver side). The value
// of the rotation is one of 0 (normal), 1 (90 degrees clockwise), 2
// (180 degree) or 3 (270 degrees clockwise). The value of the
// scale factor is in percent (100, 140, 200 etc).
const char kRotationProp[] = "_CHROME_DISPLAY_ROTATION";
const char kScaleFactorProp[] = "_CHROME_DISPLAY_SCALE_FACTOR";
const char kInternalProp[] = "_CHROME_DISPLAY_INTERNAL";
const char kCARDINAL[] = "CARDINAL";
int xrandr_rotation = RR_Rotate_0;
switch (info.rotation()) {
case gfx::Display::ROTATE_0:
xrandr_rotation = RR_Rotate_0;
break;
case gfx::Display::ROTATE_90:
xrandr_rotation = RR_Rotate_90;
break;
case gfx::Display::ROTATE_180:
xrandr_rotation = RR_Rotate_180;
break;
case gfx::Display::ROTATE_270:
xrandr_rotation = RR_Rotate_270;
break;
}
int internal = display.IsInternal() ? 1 : 0;
gfx::AcceleratedWidget xwindow = host->GetAcceleratedWidget();
ui::SetIntProperty(xwindow, kInternalProp, kCARDINAL, internal);
ui::SetIntProperty(xwindow, kRotationProp, kCARDINAL, xrandr_rotation);
ui::SetIntProperty(xwindow,
kScaleFactorProp,
kCARDINAL,
100 * display.device_scale_factor());
#endif
scoped_ptr<RootWindowTransformer> transformer(
CreateRootWindowTransformerForDisplay(host->window(), display));
ash_host->SetRootWindowTransformer(transformer.Pass());
DisplayMode mode =
GetDisplayManager()->GetActiveModeForDisplayId(display.id());
if (mode.refresh_rate > 0.0f) {
host->compositor()->vsync_manager()->SetAuthoritativeVSyncInterval(
base::TimeDelta::FromMicroseconds(
base::Time::kMicrosecondsPerSecond / mode.refresh_rate));
}
}
aura::Window* GetWindow(AshWindowTreeHost* ash_host) {
CHECK(ash_host->AsWindowTreeHost());
return ash_host->AsWindowTreeHost()->window();
}
} // namespace
// A utility class to store/restore focused/active window
// when the display configuration has changed.
class FocusActivationStore {
public:
FocusActivationStore()
: activation_client_(NULL),
capture_client_(NULL),
focus_client_(NULL),
focused_(NULL),
active_(NULL) {
}
void Store(bool clear_focus) {
if (!activation_client_) {
aura::Window* root = Shell::GetPrimaryRootWindow();
activation_client_ = aura::client::GetActivationClient(root);
capture_client_ = aura::client::GetCaptureClient(root);
focus_client_ = aura::client::GetFocusClient(root);
}
focused_ = focus_client_->GetFocusedWindow();
if (focused_)
tracker_.Add(focused_);
active_ = activation_client_->GetActiveWindow();
if (active_ && focused_ != active_)
tracker_.Add(active_);
// Deactivate the window to close menu / bubble windows.
if (clear_focus)
activation_client_->DeactivateWindow(active_);
// Release capture if any.
capture_client_->SetCapture(NULL);
// Clear the focused window if any. This is necessary because a
// window may be deleted when losing focus (fullscreen flash for
// example). If the focused window is still alive after move, it'll
// be re-focused below.
if (clear_focus)
focus_client_->FocusWindow(NULL);
}
void Restore() {
// Restore focused or active window if it's still alive.
if (focused_ && tracker_.Contains(focused_)) {
focus_client_->FocusWindow(focused_);
} else if (active_ && tracker_.Contains(active_)) {
activation_client_->ActivateWindow(active_);
}
if (focused_)
tracker_.Remove(focused_);
if (active_)
tracker_.Remove(active_);
focused_ = NULL;
active_ = NULL;
}
private:
aura::client::ActivationClient* activation_client_;
aura::client::CaptureClient* capture_client_;
aura::client::FocusClient* focus_client_;
aura::WindowTracker tracker_;
aura::Window* focused_;
aura::Window* active_;
DISALLOW_COPY_AND_ASSIGN(FocusActivationStore);
};
////////////////////////////////////////////////////////////////////////////////
// DisplayChangeLimiter
DisplayController::DisplayChangeLimiter::DisplayChangeLimiter()
: throttle_timeout_(base::Time::Now()) {
}
void DisplayController::DisplayChangeLimiter::SetThrottleTimeout(
int64 throttle_ms) {
throttle_timeout_ =
base::Time::Now() + base::TimeDelta::FromMilliseconds(throttle_ms);
}
bool DisplayController::DisplayChangeLimiter::IsThrottled() const {
return base::Time::Now() < throttle_timeout_;
}
////////////////////////////////////////////////////////////////////////////////
// DisplayController
DisplayController::DisplayController()
: primary_tree_host_for_replace_(NULL),
focus_activation_store_(new FocusActivationStore()),
cursor_window_controller_(new CursorWindowController()),
mirror_window_controller_(new MirrorWindowController()),
weak_ptr_factory_(this) {
#if defined(OS_CHROMEOS)
if (base::SysInfo::IsRunningOnChromeOS())
limiter_.reset(new DisplayChangeLimiter);
#endif
// Reset primary display to make sure that tests don't use
// stale display info from previous tests.
primary_display_id = gfx::Display::kInvalidDisplayID;
}
DisplayController::~DisplayController() {
}
void DisplayController::Start() {
Shell::GetScreen()->AddObserver(this);
Shell::GetInstance()->display_manager()->set_delegate(this);
}
void DisplayController::Shutdown() {
// Unset the display manager's delegate here because
// DisplayManager outlives DisplayController.
Shell::GetInstance()->display_manager()->set_delegate(NULL);
cursor_window_controller_.reset();
mirror_window_controller_.reset();
Shell::GetScreen()->RemoveObserver(this);
int64 primary_id = Shell::GetScreen()->GetPrimaryDisplay().id();
// Delete non primary root window controllers first, then
// delete the primary root window controller.
aura::Window::Windows root_windows = DisplayController::GetAllRootWindows();
std::vector<RootWindowController*> to_delete;
RootWindowController* primary_rwc = NULL;
for (aura::Window::Windows::iterator iter = root_windows.begin();
iter != root_windows.end();
++iter) {
RootWindowController* rwc = GetRootWindowController(*iter);
if (GetRootWindowSettings(*iter)->display_id == primary_id)
primary_rwc = rwc;
else
to_delete.push_back(rwc);
}
CHECK(primary_rwc);
STLDeleteElements(&to_delete);
delete primary_rwc;
}
void DisplayController::CreatePrimaryHost(
const AshWindowTreeHostInitParams& init_params) {
const gfx::Display& primary_candidate =
GetDisplayManager()->GetPrimaryDisplayCandidate();
primary_display_id = primary_candidate.id();
CHECK_NE(gfx::Display::kInvalidDisplayID, primary_display_id);
AddWindowTreeHostForDisplay(primary_candidate, init_params);
}
void DisplayController::InitDisplays() {
RootWindowController::CreateForPrimaryDisplay(
window_tree_hosts_[primary_display_id]);
DisplayManager* display_manager = GetDisplayManager();
for (size_t i = 0; i < display_manager->GetNumDisplays(); ++i) {
const gfx::Display& display = display_manager->GetDisplayAt(i);
if (primary_display_id != display.id()) {
AshWindowTreeHost* ash_host = AddWindowTreeHostForDisplay(
display, AshWindowTreeHostInitParams());
RootWindowController::CreateForSecondaryDisplay(ash_host);
}
}
UpdateHostWindowNames();
FOR_EACH_OBSERVER(Observer, observers_, OnDisplaysInitialized());
}
void DisplayController::AddObserver(Observer* observer) {
observers_.AddObserver(observer);
}
void DisplayController::RemoveObserver(Observer* observer) {
observers_.RemoveObserver(observer);
}
// static
int64 DisplayController::GetPrimaryDisplayId() {
CHECK_NE(gfx::Display::kInvalidDisplayID, primary_display_id);
return primary_display_id;
}
aura::Window* DisplayController::GetPrimaryRootWindow() {
return GetRootWindowForDisplayId(primary_display_id);
}
aura::Window* DisplayController::GetRootWindowForDisplayId(int64 id) {
CHECK_EQ(1u, window_tree_hosts_.count(id));
AshWindowTreeHost* host = window_tree_hosts_[id];
CHECK(host);
return GetWindow(host);
}
void DisplayController::CloseChildWindows() {
for (WindowTreeHostMap::const_iterator it = window_tree_hosts_.begin();
it != window_tree_hosts_.end();
++it) {
aura::Window* root_window = GetWindow(it->second);
RootWindowController* controller = GetRootWindowController(root_window);
if (controller) {
controller->CloseChildWindows();
} else {
while (!root_window->children().empty()) {
aura::Window* child = root_window->children()[0];
delete child;
}
}
}
}
aura::Window::Windows DisplayController::GetAllRootWindows() {
aura::Window::Windows windows;
for (WindowTreeHostMap::const_iterator it = window_tree_hosts_.begin();
it != window_tree_hosts_.end();
++it) {
DCHECK(it->second);
if (GetRootWindowController(GetWindow(it->second)))
windows.push_back(GetWindow(it->second));
}
return windows;
}
gfx::Insets DisplayController::GetOverscanInsets(int64 display_id) const {
return GetDisplayManager()->GetOverscanInsets(display_id);
}
void DisplayController::SetOverscanInsets(int64 display_id,
const gfx::Insets& insets_in_dip) {
GetDisplayManager()->SetOverscanInsets(display_id, insets_in_dip);
}
std::vector<RootWindowController*>
DisplayController::GetAllRootWindowControllers() {
std::vector<RootWindowController*> controllers;
for (WindowTreeHostMap::const_iterator it = window_tree_hosts_.begin();
it != window_tree_hosts_.end();
++it) {
RootWindowController* controller =
GetRootWindowController(GetWindow(it->second));
if (controller)
controllers.push_back(controller);
}
return controllers;
}
void DisplayController::ToggleMirrorMode() {
DisplayManager* display_manager = GetDisplayManager();
if (display_manager->num_connected_displays() <= 1)
return;
if (limiter_) {
if (limiter_->IsThrottled())
return;
limiter_->SetThrottleTimeout(kCycleDisplayThrottleTimeoutMs);
}
#if defined(OS_CHROMEOS)
Shell* shell = Shell::GetInstance();
DisplayConfiguratorAnimation* animation =
shell->display_configurator_animation();
animation->StartFadeOutAnimation(
base::Bind(&DisplayController::SetMirrorModeAfterAnimation,
weak_ptr_factory_.GetWeakPtr(),
!display_manager->IsMirrored()));
#endif
}
void DisplayController::SwapPrimaryDisplay() {
if (limiter_) {
if (limiter_->IsThrottled())
return;
limiter_->SetThrottleTimeout(kSwapDisplayThrottleTimeoutMs);
}
if (Shell::GetScreen()->GetNumDisplays() > 1) {
#if defined(OS_CHROMEOS)
DisplayConfiguratorAnimation* animation =
Shell::GetInstance()->display_configurator_animation();
if (animation) {
animation->StartFadeOutAnimation(base::Bind(
&DisplayController::OnFadeOutForSwapDisplayFinished,
weak_ptr_factory_.GetWeakPtr()));
} else {
SetPrimaryDisplay(ScreenUtil::GetSecondaryDisplay());
}
#else
SetPrimaryDisplay(ScreenUtil::GetSecondaryDisplay());
#endif
}
}
void DisplayController::SetPrimaryDisplayId(int64 id) {
DCHECK_NE(gfx::Display::kInvalidDisplayID, id);
if (id == gfx::Display::kInvalidDisplayID || primary_display_id == id)
return;
const gfx::Display& display = GetDisplayManager()->GetDisplayForId(id);
if (display.is_valid())
SetPrimaryDisplay(display);
}
void DisplayController::SetPrimaryDisplay(
const gfx::Display& new_primary_display) {
DisplayManager* display_manager = GetDisplayManager();
DCHECK(new_primary_display.is_valid());
DCHECK(display_manager->IsActiveDisplay(new_primary_display));
if (!new_primary_display.is_valid() ||
!display_manager->IsActiveDisplay(new_primary_display)) {
LOG(ERROR) << "Invalid or non-existent display is requested:"
<< new_primary_display.ToString();
return;
}
if (primary_display_id == new_primary_display.id() ||
window_tree_hosts_.size() < 2) {
return;
}
AshWindowTreeHost* non_primary_host =
window_tree_hosts_[new_primary_display.id()];
LOG_IF(ERROR, !non_primary_host)
<< "Unknown display is requested in SetPrimaryDisplay: id="
<< new_primary_display.id();
if (!non_primary_host)
return;
gfx::Display old_primary_display = Shell::GetScreen()->GetPrimaryDisplay();
// Swap root windows between current and new primary display.
AshWindowTreeHost* primary_host = window_tree_hosts_[primary_display_id];
CHECK(primary_host);
CHECK_NE(primary_host, non_primary_host);
window_tree_hosts_[new_primary_display.id()] = primary_host;
GetRootWindowSettings(GetWindow(primary_host))->display_id =
new_primary_display.id();
window_tree_hosts_[old_primary_display.id()] = non_primary_host;
GetRootWindowSettings(GetWindow(non_primary_host))->display_id =
old_primary_display.id();
primary_display_id = new_primary_display.id();
GetDisplayManager()->layout_store()->UpdatePrimaryDisplayId(
display_manager->GetCurrentDisplayIdPair(), primary_display_id);
UpdateWorkAreaOfDisplayNearestWindow(GetWindow(primary_host),
old_primary_display.GetWorkAreaInsets());
UpdateWorkAreaOfDisplayNearestWindow(GetWindow(non_primary_host),
new_primary_display.GetWorkAreaInsets());
// Update the dispay manager with new display info.
std::vector<DisplayInfo> display_info_list;
display_info_list.push_back(display_manager->GetDisplayInfo(
primary_display_id));
display_info_list.push_back(display_manager->GetDisplayInfo(
ScreenUtil::GetSecondaryDisplay().id()));
GetDisplayManager()->set_force_bounds_changed(true);
GetDisplayManager()->UpdateDisplays(display_info_list);
GetDisplayManager()->set_force_bounds_changed(false);
}
void DisplayController::EnsurePointerInDisplays() {
// If the mouse is currently on a display in native location,
// use the same native location. Otherwise find the display closest
// to the current cursor location in screen coordinates.
gfx::Point point_in_screen = Shell::GetScreen()->GetCursorScreenPoint();
gfx::Point target_location_in_native;
int64 closest_distance_squared = -1;
DisplayManager* display_manager = GetDisplayManager();
aura::Window* dst_root_window = NULL;
for (size_t i = 0; i < display_manager->GetNumDisplays(); ++i) {
const gfx::Display& display = display_manager->GetDisplayAt(i);
const DisplayInfo display_info =
display_manager->GetDisplayInfo(display.id());
aura::Window* root_window = GetRootWindowForDisplayId(display.id());
if (display_info.bounds_in_native().Contains(
cursor_location_in_native_coords_for_restore_)) {
dst_root_window = root_window;
target_location_in_native = cursor_location_in_native_coords_for_restore_;
break;
}
gfx::Point center = display.bounds().CenterPoint();
// Use the distance squared from the center of the dislay. This is not
// exactly "closest" display, but good enough to pick one
// appropriate (and there are at most two displays).
// We don't care about actual distance, only relative to other displays, so
// using the LengthSquared() is cheaper than Length().
int64 distance_squared = (center - point_in_screen).LengthSquared();
if (closest_distance_squared < 0 ||
closest_distance_squared > distance_squared) {
aura::Window* root_window = GetRootWindowForDisplayId(display.id());
aura::client::ScreenPositionClient* client =
aura::client::GetScreenPositionClient(root_window);
client->ConvertPointFromScreen(root_window, ¢er);
root_window->GetHost()->ConvertPointToNativeScreen(¢er);
dst_root_window = root_window;
target_location_in_native = center;
closest_distance_squared = distance_squared;
}
}
dst_root_window->GetHost()->ConvertPointFromNativeScreen(
&target_location_in_native);
dst_root_window->MoveCursorTo(target_location_in_native);
}
bool DisplayController::UpdateWorkAreaOfDisplayNearestWindow(
const aura::Window* window,
const gfx::Insets& insets) {
const aura::Window* root_window = window->GetRootWindow();
int64 id = GetRootWindowSettings(root_window)->display_id;
// if id is |kInvaildDisplayID|, it's being deleted.
DCHECK(id != gfx::Display::kInvalidDisplayID);
return GetDisplayManager()->UpdateWorkAreaOfDisplay(id, insets);
}
void DisplayController::OnDisplayAdded(const gfx::Display& display) {
if (primary_tree_host_for_replace_) {
DCHECK(window_tree_hosts_.empty());
primary_display_id = display.id();
window_tree_hosts_[display.id()] = primary_tree_host_for_replace_;
GetRootWindowSettings(GetWindow(primary_tree_host_for_replace_))
->display_id = display.id();
primary_tree_host_for_replace_ = NULL;
const DisplayInfo& display_info =
GetDisplayManager()->GetDisplayInfo(display.id());
AshWindowTreeHost* ash_host = window_tree_hosts_[display.id()];
ash_host->AsWindowTreeHost()->SetBounds(display_info.bounds_in_native());
SetDisplayPropertiesOnHost(ash_host, display);
} else {
if (primary_display_id == gfx::Display::kInvalidDisplayID)
primary_display_id = display.id();
DCHECK(!window_tree_hosts_.empty());
AshWindowTreeHost* ash_host = AddWindowTreeHostForDisplay(
display, AshWindowTreeHostInitParams());
RootWindowController::CreateForSecondaryDisplay(ash_host);
}
}
void DisplayController::OnDisplayRemoved(const gfx::Display& display) {
AshWindowTreeHost* host_to_delete = window_tree_hosts_[display.id()];
CHECK(host_to_delete) << display.ToString();
// Display for root window will be deleted when the Primary RootWindow
// is deleted by the Shell.
window_tree_hosts_.erase(display.id());
// When the primary root window's display is removed, move the primary
// root to the other display.
if (primary_display_id == display.id()) {
// Temporarily store the primary root window in
// |primary_root_window_for_replace_| when replacing the display.
if (window_tree_hosts_.size() == 0) {
primary_display_id = gfx::Display::kInvalidDisplayID;
primary_tree_host_for_replace_ = host_to_delete;
return;
}
DCHECK_EQ(1U, window_tree_hosts_.size());
primary_display_id = ScreenUtil::GetSecondaryDisplay().id();
AshWindowTreeHost* primary_host = host_to_delete;
// Delete the other host instead.
host_to_delete = window_tree_hosts_[primary_display_id];
GetRootWindowSettings(GetWindow(host_to_delete))->display_id = display.id();
// Setup primary root.
window_tree_hosts_[primary_display_id] = primary_host;
GetRootWindowSettings(GetWindow(primary_host))->display_id =
primary_display_id;
OnDisplayMetricsChanged(
GetDisplayManager()->GetDisplayForId(primary_display_id),
DISPLAY_METRIC_BOUNDS);
}
RootWindowController* controller =
GetRootWindowController(GetWindow(host_to_delete));
DCHECK(controller);
controller->MoveWindowsTo(GetPrimaryRootWindow());
// Delete most of root window related objects, but don't delete
// root window itself yet because the stack may be using it.
controller->Shutdown();
base::MessageLoop::current()->DeleteSoon(FROM_HERE, controller);
}
void DisplayController::OnDisplayMetricsChanged(const gfx::Display& display,
uint32_t metrics) {
if (!(metrics & (DISPLAY_METRIC_BOUNDS | DISPLAY_METRIC_ROTATION |
DISPLAY_METRIC_DEVICE_SCALE_FACTOR)))
return;
const DisplayInfo& display_info =
GetDisplayManager()->GetDisplayInfo(display.id());
DCHECK(!display_info.bounds_in_native().IsEmpty());
AshWindowTreeHost* ash_host = window_tree_hosts_[display.id()];
ash_host->AsWindowTreeHost()->SetBounds(display_info.bounds_in_native());
SetDisplayPropertiesOnHost(ash_host, display);
}
void DisplayController::OnHostResized(const aura::WindowTreeHost* host) {
gfx::Display display = Shell::GetScreen()->GetDisplayNearestWindow(
const_cast<aura::Window*>(host->window()));
DisplayManager* display_manager = GetDisplayManager();
if (display_manager->UpdateDisplayBounds(display.id(), host->GetBounds())) {
mirror_window_controller_->UpdateWindow();
cursor_window_controller_->UpdateContainer();
}
}
void DisplayController::CreateOrUpdateNonDesktopDisplay(
const DisplayInfo& info) {
switch (GetDisplayManager()->second_display_mode()) {
case DisplayManager::MIRRORING:
mirror_window_controller_->UpdateWindow(info);
cursor_window_controller_->UpdateContainer();
break;
case DisplayManager::EXTENDED:
NOTREACHED();
}
}
void DisplayController::CloseNonDesktopDisplay() {
mirror_window_controller_->Close();
// If cursor_compositing is enabled for large cursor, the cursor window is
// always on the desktop display (the visible cursor on the non-desktop
// display is drawn through compositor mirroring). Therefore, it's unnecessary
// to handle the cursor_window at all. See: http://crbug.com/412910
if (!cursor_window_controller_->is_cursor_compositing_enabled())
cursor_window_controller_->UpdateContainer();
}
void DisplayController::PreDisplayConfigurationChange(bool clear_focus) {
FOR_EACH_OBSERVER(Observer, observers_, OnDisplayConfigurationChanging());
focus_activation_store_->Store(clear_focus);
gfx::Screen* screen = Shell::GetScreen();
gfx::Point point_in_screen = screen->GetCursorScreenPoint();
gfx::Display display = screen->GetDisplayNearestPoint(point_in_screen);
aura::Window* root_window = GetRootWindowForDisplayId(display.id());
aura::client::ScreenPositionClient* client =
aura::client::GetScreenPositionClient(root_window);
client->ConvertPointFromScreen(root_window, &point_in_screen);
root_window->GetHost()->ConvertPointToNativeScreen(&point_in_screen);
cursor_location_in_native_coords_for_restore_ = point_in_screen;
}
void DisplayController::PostDisplayConfigurationChange() {
if (limiter_)
limiter_->SetThrottleTimeout(kAfterDisplayChangeThrottleTimeoutMs);
focus_activation_store_->Restore();
DisplayManager* display_manager = GetDisplayManager();
DisplayLayoutStore* layout_store = display_manager->layout_store();
if (display_manager->num_connected_displays() > 1) {
DisplayIdPair pair = display_manager->GetCurrentDisplayIdPair();
layout_store->UpdateMirrorStatus(pair, display_manager->IsMirrored());
DisplayLayout layout = layout_store->GetRegisteredDisplayLayout(pair);
if (Shell::GetScreen()->GetNumDisplays() > 1 ) {
int64 primary_id = layout.primary_id;
SetPrimaryDisplayId(
primary_id == gfx::Display::kInvalidDisplayID ?
pair.first : primary_id);
// Update the primary_id in case the above call is
// ignored. Happens when a) default layout's primary id
// doesn't exist, or b) the primary_id has already been
// set to the same and didn't update it.
layout_store->UpdatePrimaryDisplayId(
pair, Shell::GetScreen()->GetPrimaryDisplay().id());
}
}
FOR_EACH_OBSERVER(Observer, observers_, OnDisplayConfigurationChanged());
UpdateHostWindowNames();
EnsurePointerInDisplays();
}
AshWindowTreeHost* DisplayController::AddWindowTreeHostForDisplay(
const gfx::Display& display,
const AshWindowTreeHostInitParams& init_params) {
static int host_count = 0;
const DisplayInfo& display_info =
GetDisplayManager()->GetDisplayInfo(display.id());
AshWindowTreeHostInitParams params_with_bounds(init_params);
params_with_bounds.initial_bounds = display_info.bounds_in_native();
AshWindowTreeHost* ash_host = AshWindowTreeHost::Create(params_with_bounds);
aura::WindowTreeHost* host = ash_host->AsWindowTreeHost();
host->window()->SetName(base::StringPrintf("RootWindow-%d", host_count++));
host->window()->SetTitle(base::UTF8ToUTF16(display_info.name()));
host->compositor()->SetBackgroundColor(SK_ColorBLACK);
// No need to remove our observer observer because the DisplayController
// outlives the host.
host->AddObserver(this);
InitRootWindowSettings(host->window())->display_id = display.id();
host->InitHost();
window_tree_hosts_[display.id()] = ash_host;
SetDisplayPropertiesOnHost(ash_host, display);
#if defined(OS_CHROMEOS)
static bool force_constrain_pointer_to_root =
CommandLine::ForCurrentProcess()->HasSwitch(
switches::kAshConstrainPointerToRoot);
if (base::SysInfo::IsRunningOnChromeOS() || force_constrain_pointer_to_root)
ash_host->ConfineCursorToRootWindow();
#endif
return ash_host;
}
void DisplayController::OnFadeOutForSwapDisplayFinished() {
#if defined(OS_CHROMEOS)
SetPrimaryDisplay(ScreenUtil::GetSecondaryDisplay());
Shell::GetInstance()->display_configurator_animation()
->StartFadeInAnimation();
#endif
}
void DisplayController::SetMirrorModeAfterAnimation(bool mirror) {
GetDisplayManager()->SetMirrorMode(mirror);
}
void DisplayController::UpdateHostWindowNames() {
#if defined(USE_X11)
// crbug.com/120229 - set the window title for the primary dislpay
// to "aura_root_0" so gtalk can find the primary root window to broadcast.
// TODO(jhorwich) Remove this once Chrome supports window-based broadcasting.
aura::Window* primary = Shell::GetPrimaryRootWindow();
aura::Window::Windows root_windows = Shell::GetAllRootWindows();
for (size_t i = 0; i < root_windows.size(); ++i) {
std::string name =
root_windows[i] == primary ? "aura_root_0" : "aura_root_x";
gfx::AcceleratedWidget xwindow =
root_windows[i]->GetHost()->GetAcceleratedWidget();
XStoreName(gfx::GetXDisplay(), xwindow, name.c_str());
}
#endif
}
} // namespace ash