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chromium / chromium / src / c179496f2b0ebc20360350c65aff0c4941c57e26 / . / ui / aura / window_event_dispatcher.cc
blob: 68dcb9abff32813fee399dfee5b6f6a5e16a0ff7 [file] [log] [blame]
// Copyright 2014 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 "ui/aura/window_event_dispatcher.h"
#include <stddef.h>
#include "base/bind.h"
#include "base/logging.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/trace_event/trace_event.h"
#include "build/build_config.h"
#include "services/ui/public/interfaces/window_tree_constants.mojom.h"
#include "ui/aura/client/capture_client.h"
#include "ui/aura/client/cursor_client.h"
#include "ui/aura/client/event_client.h"
#include "ui/aura/client/focus_client.h"
#include "ui/aura/client/screen_position_client.h"
#include "ui/aura/env.h"
#include "ui/aura/env_input_state_controller.h"
#include "ui/aura/mus/mus_mouse_location_updater.h"
#include "ui/aura/window.h"
#include "ui/aura/window_delegate.h"
#include "ui/aura/window_event_dispatcher_observer.h"
#include "ui/aura/window_targeter.h"
#include "ui/aura/window_tracker.h"
#include "ui/aura/window_tree_host.h"
#include "ui/base/hit_test.h"
#include "ui/base/ime/input_method.h"
#include "ui/compositor/dip_util.h"
#include "ui/display/screen.h"
#include "ui/events/event.h"
#include "ui/events/event_utils.h"
#include "ui/events/gestures/gesture_recognizer.h"
#include "ui/events/gestures/gesture_types.h"
typedef ui::EventDispatchDetails DispatchDetails;
namespace aura {
namespace {
// Returns true if |target| has a non-client (frame) component at |location|,
// in window coordinates.
bool IsNonClientLocation(Window* target, const gfx::Point& location) {
if (!target->delegate())
return false;
int hit_test_code = target->delegate()->GetNonClientComponent(location);
return hit_test_code != HTCLIENT && hit_test_code != HTNOWHERE;
}
Window* ConsumerToWindow(ui::GestureConsumer* consumer) {
return consumer ? static_cast<Window*>(consumer) : NULL;
}
bool IsEventCandidateForHold(const ui::Event& event) {
if (event.type() == ui::ET_TOUCH_MOVED)
return true;
if (event.type() == ui::ET_MOUSE_DRAGGED)
return true;
if (event.IsMouseEvent() && (event.flags() & ui::EF_IS_SYNTHESIZED))
return true;
return false;
}
void ConvertEventLocationToTarget(ui::EventTarget* event_target,
ui::EventTarget* target,
ui::Event* event) {
if (target == event_target || !event->IsLocatedEvent())
return;
gfx::Point location = event->AsLocatedEvent()->location();
Window::ConvertPointToTarget(static_cast<Window*>(event_target),
static_cast<Window*>(target), &location);
event->AsLocatedEvent()->set_location(location);
}
} // namespace
WindowEventDispatcher::ObserverNotifier::ObserverNotifier(
WindowEventDispatcher* dispatcher,
const ui::Event& event)
: dispatcher_(dispatcher) {
for (WindowEventDispatcherObserver& observer :
Env::GetInstance()->window_event_dispatcher_observers()) {
observer.OnWindowEventDispatcherStartedProcessing(dispatcher, event);
}
}
WindowEventDispatcher::ObserverNotifier::~ObserverNotifier() {
for (WindowEventDispatcherObserver& observer :
Env::GetInstance()->window_event_dispatcher_observers()) {
observer.OnWindowEventDispatcherFinishedProcessingEvent(dispatcher_);
}
}
////////////////////////////////////////////////////////////////////////////////
// WindowEventDispatcher, public:
WindowEventDispatcher::WindowEventDispatcher(WindowTreeHost* host,
bool are_events_in_pixels)
: host_(host),
are_events_in_pixels_(are_events_in_pixels),
observer_manager_(this),
event_targeter_(std::make_unique<WindowTargeter>()) {
ui::GestureRecognizer::Get()->AddGestureEventHelper(this);
Env::GetInstance()->AddObserver(this);
if (Env::GetInstance()->mode() == Env::Mode::MUS)
mus_mouse_location_updater_ = std::make_unique<MusMouseLocationUpdater>();
}
WindowEventDispatcher::~WindowEventDispatcher() {
TRACE_EVENT0("shutdown", "WindowEventDispatcher::Destructor");
Env::GetInstance()->RemoveObserver(this);
ui::GestureRecognizer::Get()->RemoveGestureEventHelper(this);
}
ui::EventTargeter* WindowEventDispatcher::GetDefaultEventTargeter() {
return event_targeter_.get();
}
void WindowEventDispatcher::RepostEvent(const ui::LocatedEvent* event) {
DCHECK(event->type() == ui::ET_MOUSE_PRESSED ||
event->type() == ui::ET_GESTURE_TAP_DOWN ||
event->type() == ui::ET_TOUCH_PRESSED);
// We allow for only one outstanding repostable event. This is used
// in exiting context menus. A dropped repost request is allowed.
if (event->type() == ui::ET_MOUSE_PRESSED) {
held_repostable_event_.reset(new ui::MouseEvent(
*event->AsMouseEvent(), static_cast<aura::Window*>(event->target()),
window()));
} else if (event->type() == ui::ET_TOUCH_PRESSED) {
held_repostable_event_.reset(new ui::TouchEvent(*event->AsTouchEvent()));
} else {
DCHECK(event->type() == ui::ET_GESTURE_TAP_DOWN);
held_repostable_event_.reset();
// TODO(rbyers): Reposing of gestures is tricky to get
// right, so it's not yet supported. crbug.com/170987.
}
if (held_repostable_event_) {
base::ThreadTaskRunnerHandle::Get()->PostNonNestableTask(
FROM_HERE,
base::BindOnce(
base::IgnoreResult(&WindowEventDispatcher::DispatchHeldEvents),
repost_event_factory_.GetWeakPtr()));
}
}
void WindowEventDispatcher::OnMouseEventsEnableStateChanged(bool enabled) {
// Send entered / exited so that visual state can be updated to match
// mouse events state.
PostSynthesizeMouseMove();
// TODO(mazda): Add code to disable mouse events when |enabled| == false.
}
void WindowEventDispatcher::DispatchCancelModeEvent() {
ui::CancelModeEvent event;
Window* focused_window = client::GetFocusClient(window())->GetFocusedWindow();
if (focused_window && !window()->Contains(focused_window))
focused_window = NULL;
DispatchDetails details =
DispatchEvent(focused_window ? focused_window : window(), &event);
if (details.dispatcher_destroyed)
return;
}
void WindowEventDispatcher::DispatchGestureEvent(
ui::GestureConsumer* raw_input_consumer,
ui::GestureEvent* event) {
DispatchDetails details = DispatchHeldEvents();
if (details.dispatcher_destroyed)
return;
Window* target = ConsumerToWindow(raw_input_consumer);
if (target) {
event->ConvertLocationToTarget(window(), target);
DispatchDetails details = DispatchEvent(target, event);
if (details.dispatcher_destroyed)
return;
}
}
DispatchDetails WindowEventDispatcher::DispatchMouseExitAtPoint(
Window* window,
const gfx::Point& point,
int event_flags) {
ui::MouseEvent event(ui::ET_MOUSE_EXITED, point, point, ui::EventTimeForNow(),
event_flags, ui::EF_NONE);
return DispatchMouseEnterOrExit(window, event, ui::ET_MOUSE_EXITED);
}
void WindowEventDispatcher::ProcessedTouchEvent(
uint32_t unique_event_id,
Window* window,
ui::EventResult result,
bool is_source_touch_event_set_non_blocking) {
ui::GestureRecognizer::Gestures gestures =
ui::GestureRecognizer::Get()->AckTouchEvent(
unique_event_id, result, is_source_touch_event_set_non_blocking,
window);
DispatchDetails details = ProcessGestures(window, std::move(gestures));
if (details.dispatcher_destroyed)
return;
}
void WindowEventDispatcher::HoldPointerMoves() {
if (!move_hold_count_)
held_event_factory_.InvalidateWeakPtrs();
++move_hold_count_;
TRACE_EVENT_ASYNC_BEGIN0("ui", "WindowEventDispatcher::HoldPointerMoves",
this);
}
void WindowEventDispatcher::ReleasePointerMoves() {
--move_hold_count_;
DCHECK_GE(move_hold_count_, 0);
if (!move_hold_count_) {
if (held_move_event_) {
// We don't want to call DispatchHeldEvents directly, because this might
// be called from a deep stack while another event, in which case
// dispatching another one may not be safe/expected. Instead we post a
// task, that we may cancel if HoldPointerMoves is called again before it
// executes.
base::ThreadTaskRunnerHandle::Get()->PostNonNestableTask(
FROM_HERE,
base::BindOnce(
base::IgnoreResult(&WindowEventDispatcher::DispatchHeldEvents),
held_event_factory_.GetWeakPtr()));
} else {
if (did_dispatch_held_move_event_callback_)
base::ResetAndReturn(&did_dispatch_held_move_event_callback_).Run();
}
}
TRACE_EVENT_ASYNC_END0("ui", "WindowEventDispatcher::HoldPointerMoves", this);
}
gfx::Point WindowEventDispatcher::GetLastMouseLocationInRoot() const {
gfx::Point location = Env::GetInstance()->last_mouse_location();
ConvertPointFromScreen(&location);
return location;
}
void WindowEventDispatcher::OnHostLostMouseGrab() {
mouse_pressed_handler_ = NULL;
mouse_moved_handler_ = NULL;
}
void WindowEventDispatcher::OnCursorMovedToRootLocation(
const gfx::Point& root_location) {
Env::GetInstance()->env_controller()->SetLastMouseLocation(window(),
root_location);
// Synthesize a mouse move in case the cursor's location in root coordinates
// changed but its position in WindowTreeHost coordinates did not.
PostSynthesizeMouseMove();
}
void WindowEventDispatcher::OnPostNotifiedWindowDestroying(Window* window) {
OnWindowHidden(window, WINDOW_DESTROYED);
}
////////////////////////////////////////////////////////////////////////////////
// WindowEventDispatcher, private:
Window* WindowEventDispatcher::window() {
return host_->window();
}
const Window* WindowEventDispatcher::window() const {
return host_->window();
}
void WindowEventDispatcher::ConvertPointFromScreen(gfx::Point* point) const {
client::ScreenPositionClient* client =
client::GetScreenPositionClient(window());
if (client)
client->ConvertPointFromScreen(window(), point);
}
void WindowEventDispatcher::TransformEventForDeviceScaleFactor(
ui::LocatedEvent* event) {
event->UpdateForRootTransform(
host_->GetInverseRootTransform(),
host_->GetInverseRootTransformForLocalEventCoordinates());
}
void WindowEventDispatcher::DispatchMouseExitToHidingWindow(Window* window) {
// The mouse capture is intentionally ignored. Think that a mouse enters
// to a window, the window sets the capture, the mouse exits the window,
// and then it releases the capture. In that case OnMouseExited won't
// be called. So it is natural not to emit OnMouseExited even though
// |window| is the capture window.
gfx::Point last_mouse_location = GetLastMouseLocationInRoot();
if (window->Contains(mouse_moved_handler_) &&
window->ContainsPointInRoot(last_mouse_location)) {
DispatchDetails details =
DispatchMouseExitAtPoint(this->window(), last_mouse_location);
if (details.dispatcher_destroyed)
return;
}
}
ui::EventDispatchDetails WindowEventDispatcher::DispatchMouseEnterOrExit(
Window* target,
const ui::MouseEvent& event,
ui::EventType type) {
Env::GetInstance()->env_controller()->UpdateStateForMouseEvent(window(),
event);
if (!mouse_moved_handler_ || !mouse_moved_handler_->HasTargetHandler() ||
!window()->Contains(mouse_moved_handler_))
return DispatchDetails();
// |event| may be an event in the process of being dispatched to a target (in
// which case its locations will be in the event's target's coordinate
// system), or a synthetic event created in root-window (in which case, the
// event's target will be NULL, and the event will be in the root-window's
// coordinate system.
if (!target)
target = window();
ui::MouseEvent translated_event(event,
target,
mouse_moved_handler_,
type,
event.flags() | ui::EF_IS_SYNTHESIZED);
return DispatchEvent(mouse_moved_handler_, &translated_event);
}
ui::EventDispatchDetails WindowEventDispatcher::ProcessGestures(
Window* target,
ui::GestureRecognizer::Gestures gestures) {
DispatchDetails details;
if (gestures.empty())
return details;
// If a window has been hidden between the touch event and now, the associated
// gestures may not have a valid target.
if (!target)
return details;
for (const auto& event : gestures) {
event->ConvertLocationToTarget(window(), target);
details = DispatchEvent(target, event.get());
if (details.dispatcher_destroyed || details.target_destroyed)
break;
}
return details;
}
void WindowEventDispatcher::OnWindowHidden(Window* invisible,
WindowHiddenReason reason) {
// If the window the mouse was pressed in becomes invisible, it should no
// longer receive mouse events.
if (invisible->Contains(mouse_pressed_handler_))
mouse_pressed_handler_ = NULL;
if (invisible->Contains(mouse_moved_handler_))
mouse_moved_handler_ = NULL;
if (invisible->Contains(touchpad_pinch_handler_))
touchpad_pinch_handler_ = nullptr;
// If events are being dispatched from a nested message-loop, and the target
// of the outer loop is hidden or moved to another dispatcher during
// dispatching events in the inner loop, then reset the target for the outer
// loop.
if (invisible->Contains(old_dispatch_target_))
old_dispatch_target_ = NULL;
invisible->CleanupGestureState();
// Do not clear the capture, and the |event_dispatch_target_| if the
// window is moving across hosts, because the target itself is actually still
// visible and clearing them stops further event processing, which can cause
// unexpected behaviors. See crbug.com/157583
if (reason != WINDOW_MOVING) {
// We don't ask |invisible| here, because invisible may have been removed
// from the window hierarchy already by the time this function is called
// (OnWindowDestroyed).
client::CaptureClient* capture_client =
client::GetCaptureClient(host_->window());
Window* capture_window =
capture_client ? capture_client->GetCaptureWindow() : NULL;
if (invisible->Contains(event_dispatch_target_))
event_dispatch_target_ = NULL;
// If the ancestor of the capture window is hidden, release the capture.
// Note that this may delete the window so do not use capture_window
// after this.
if (invisible->Contains(capture_window) && invisible != window())
capture_window->ReleaseCapture();
}
}
bool WindowEventDispatcher::is_dispatched_held_event(
const ui::Event& event) const {
return dispatching_held_event_ == &event;
}
////////////////////////////////////////////////////////////////////////////////
// WindowEventDispatcher, aura::client::CaptureDelegate implementation:
void WindowEventDispatcher::UpdateCapture(Window* old_capture,
Window* new_capture) {
// |mouse_moved_handler_| may have been set to a Window in a different root
// (see below). Clear it here to ensure we don't end up referencing a stale
// Window.
if (mouse_moved_handler_ && !window()->Contains(mouse_moved_handler_))
mouse_moved_handler_ = NULL;
if (old_capture && old_capture->GetRootWindow() == window() &&
old_capture->delegate()) {
// Send a capture changed event with bogus location data.
ui::MouseEvent event(ui::ET_MOUSE_CAPTURE_CHANGED, gfx::Point(),
gfx::Point(), ui::EventTimeForNow(), 0, 0);
DispatchDetails details = DispatchEvent(old_capture, &event);
if (details.dispatcher_destroyed)
return;
if (!details.target_destroyed)
old_capture->delegate()->OnCaptureLost();
}
if (new_capture) {
// Make all subsequent mouse events go to the capture window. We shouldn't
// need to send an event here as OnCaptureLost() should take care of that.
if (mouse_moved_handler_ || Env::GetInstance()->IsMouseButtonDown())
mouse_moved_handler_ = new_capture;
} else {
// Make sure mouse_moved_handler gets updated.
DispatchDetails details = SynthesizeMouseMoveEvent();
if (details.dispatcher_destroyed)
return;
}
mouse_pressed_handler_ = NULL;
}
void WindowEventDispatcher::OnOtherRootGotCapture() {
// Windows provides the TrackMouseEvents API which allows us to rely on the
// OS to send us the mouse exit events (WM_MOUSELEAVE). Additionally on
// desktop Windows, every top level window could potentially have its own
// root window, in which case this function will get called whenever those
// windows grab mouse capture. Sending mouse exit messages in these cases
// causes subtle bugs like (crbug.com/394672).
#if !defined(OS_WIN)
if (mouse_moved_handler_) {
// Dispatch a mouse exit to reset any state associated with hover. This is
// important when going from no window having capture to a window having
// capture because we do not dispatch ET_MOUSE_CAPTURE_CHANGED in this case.
DispatchDetails details =
DispatchMouseExitAtPoint(nullptr, GetLastMouseLocationInRoot());
if (details.dispatcher_destroyed)
return;
}
#endif
mouse_moved_handler_ = NULL;
mouse_pressed_handler_ = NULL;
}
void WindowEventDispatcher::SetNativeCapture() {
host_->SetCapture();
}
void WindowEventDispatcher::ReleaseNativeCapture() {
host_->ReleaseCapture();
}
////////////////////////////////////////////////////////////////////////////////
// WindowEventDispatcher, ui::EventProcessor implementation:
ui::EventTarget* WindowEventDispatcher::GetInitialEventTarget(
ui::Event* event) {
if (Env::GetInstance()->mode() == Env::Mode::LOCAL ||
!event->IsLocatedEvent() || !event->target()) {
return nullptr;
}
ui::LocatedEvent* located_event = event->AsLocatedEvent();
Window* priority_target = static_cast<Window*>(
event_targeter_->GetPriorityTargetInRootWindow(window(), *located_event));
if (!priority_target)
return nullptr;
Window* original_target = static_cast<Window*>(event->target());
// The event has a target but we need to dispatch it using the normal path.
// Reset the target and location so the normal flow is used.
const gfx::PointF original_location = located_event->location_f();
ui::Event::DispatcherApi(event).set_target(nullptr);
located_event->set_location_f(located_event->root_location_f());
if (event_targeter_->ProcessEventIfTargetsDifferentRootWindow(
window(), static_cast<Window*>(priority_target), event)) {
// Make sure the event was marked handled so that EventProcessor doesn't
// attempt to process the event as well.
event->SetHandled();
return nullptr;
}
located_event->set_location_f(original_location);
if (original_target != priority_target) {
// Don't convert from the root as it may be offset by the bounds of the
// root's host.
located_event->ConvertLocationToTarget(original_target, window());
located_event->ConvertLocationToTarget(window(), priority_target);
}
return priority_target;
}
ui::EventTarget* WindowEventDispatcher::GetRootForEvent(ui::Event* event) {
if (Env::GetInstance()->mode() == Env::Mode::LOCAL)
return window();
if (!event->target())
return window();
ui::EventTarget* event_target = event->target();
if (event->IsLocatedEvent()) {
ui::EventTarget* target = event_targeter_->FindTargetInRootWindow(
window(), *event->AsLocatedEvent());
if (target) {
ConvertEventLocationToTarget(event_target, target, event);
return target;
}
}
ui::EventTarget* ancestor_with_targeter = event_target;
for (ui::EventTarget* ancestor = event_target; ancestor;
ancestor = ancestor->GetParentTarget()) {
if (ancestor->GetEventTargeter())
ancestor_with_targeter = ancestor;
if (ancestor == window())
break;
}
ConvertEventLocationToTarget(event_target, ancestor_with_targeter, event);
return ancestor_with_targeter;
}
void WindowEventDispatcher::OnEventProcessingStarted(ui::Event* event) {
// The held events are already in |window()|'s coordinate system. So it is
// not necessary to apply the transform to convert from the host's
// coordinate system to |window()|'s coordinate system.
if (event->IsLocatedEvent() && !is_dispatched_held_event(*event) &&
are_events_in_pixels_) {
TransformEventForDeviceScaleFactor(static_cast<ui::LocatedEvent*>(event));
}
if (mus_mouse_location_updater_)
mus_mouse_location_updater_->OnEventProcessingStarted(*event);
observer_notifiers_.push(std::make_unique<ObserverNotifier>(this, *event));
}
void WindowEventDispatcher::OnEventProcessingFinished(ui::Event* event) {
if (mus_mouse_location_updater_)
mus_mouse_location_updater_->OnEventProcessingFinished();
observer_notifiers_.pop();
}
////////////////////////////////////////////////////////////////////////////////
// WindowEventDispatcher, ui::EventDispatcherDelegate implementation:
bool WindowEventDispatcher::CanDispatchToTarget(ui::EventTarget* target) {
return event_dispatch_target_ == target;
}
ui::EventDispatchDetails WindowEventDispatcher::PreDispatchEvent(
ui::EventTarget* target,
ui::Event* event) {
Window* target_window = static_cast<Window*>(target);
CHECK(window()->Contains(target_window));
if (!(event->flags() & ui::EF_IS_SYNTHESIZED)) {
fraction_of_time_without_user_input_recorder_.RecordEventAtTime(
event->time_stamp());
}
if (!dispatching_held_event_) {
bool can_be_held = IsEventCandidateForHold(*event);
if (!move_hold_count_ || !can_be_held) {
if (can_be_held)
held_move_event_.reset();
DispatchDetails details = DispatchHeldEvents();
if (details.dispatcher_destroyed || details.target_destroyed)
return details;
}
}
DispatchDetails details;
if (event->IsMouseEvent()) {
details = PreDispatchMouseEvent(target_window, event->AsMouseEvent());
} else if (event->IsScrollEvent()) {
details = PreDispatchLocatedEvent(target_window, event->AsScrollEvent());
} else if (event->IsTouchEvent()) {
details = PreDispatchTouchEvent(target_window, event->AsTouchEvent());
} else if (event->IsKeyEvent()) {
details = PreDispatchKeyEvent(event->AsKeyEvent());
} else if (event->IsPinchEvent()) {
details = PreDispatchPinchEvent(target_window, event->AsGestureEvent());
}
if (details.dispatcher_destroyed || details.target_destroyed)
return details;
old_dispatch_target_ = event_dispatch_target_;
event_dispatch_target_ = target_window;
return DispatchDetails();
}
ui::EventDispatchDetails WindowEventDispatcher::PostDispatchEvent(
ui::EventTarget* target,
const ui::Event& event) {
DispatchDetails details;
if (!target || target != event_dispatch_target_)
details.target_destroyed = true;
event_dispatch_target_ = old_dispatch_target_;
old_dispatch_target_ = NULL;
#ifndef NDEBUG
DCHECK(!event_dispatch_target_ || window()->Contains(event_dispatch_target_));
#endif
if (event.IsTouchEvent() && !details.target_destroyed) {
// Do not let 'held' touch events contribute to any gestures unless it is
// being dispatched.
if (is_dispatched_held_event(event) || !held_move_event_ ||
!held_move_event_->IsTouchEvent()) {
const ui::TouchEvent& touchevent = *event.AsTouchEvent();
if (!touchevent.synchronous_handling_disabled()) {
Window* window = static_cast<Window*>(target);
ui::GestureRecognizer::Gestures gestures =
ui::GestureRecognizer::Get()->AckTouchEvent(
touchevent.unique_event_id(), event.result(),
false /* is_source_touch_event_set_non_blocking */, window);
return ProcessGestures(window, std::move(gestures));
}
}
}
return details;
}
////////////////////////////////////////////////////////////////////////////////
// WindowEventDispatcher, ui::GestureEventHelper implementation:
bool WindowEventDispatcher::CanDispatchToConsumer(
ui::GestureConsumer* consumer) {
Window* consumer_window = ConsumerToWindow(consumer);
return (consumer_window && consumer_window->GetRootWindow() == window());
}
void WindowEventDispatcher::DispatchSyntheticTouchEvent(ui::TouchEvent* event) {
// The synthetic event's location is based on the last known location of
// the pointer, in dips. OnEventFromSource expects events with co-ordinates
// in raw pixels, so we convert back to raw pixels here.
DCHECK(event->type() == ui::ET_TOUCH_CANCELLED);
event->UpdateForRootTransform(
host_->GetRootTransform(),
host_->GetRootTransformForLocalEventCoordinates());
DispatchDetails details = OnEventFromSource(event);
if (details.dispatcher_destroyed)
return;
}
////////////////////////////////////////////////////////////////////////////////
// WindowEventDispatcher, WindowObserver implementation:
void WindowEventDispatcher::OnWindowDestroying(Window* window) {
if (!host_->window()->Contains(window))
return;
SynthesizeMouseMoveAfterChangeToWindow(window);
}
void WindowEventDispatcher::OnWindowDestroyed(Window* window) {
// We observe all windows regardless of what root Window (if any) they're
// attached to.
observer_manager_.Remove(window);
}
void WindowEventDispatcher::OnWindowAddedToRootWindow(Window* attached) {
if (!observer_manager_.IsObserving(attached))
observer_manager_.Add(attached);
if (!host_->window()->Contains(attached))
return;
SynthesizeMouseMoveAfterChangeToWindow(attached);
}
void WindowEventDispatcher::OnWindowRemovingFromRootWindow(Window* detached,
Window* new_root) {
if (!host_->window()->Contains(detached))
return;
DCHECK(client::GetCaptureWindow(window()) != window());
DispatchMouseExitToHidingWindow(detached);
SynthesizeMouseMoveAfterChangeToWindow(detached);
// Hiding the window releases capture which can implicitly destroy the window
// so the window may no longer be valid after this call.
OnWindowHidden(detached, new_root ? WINDOW_MOVING : WINDOW_HIDDEN);
}
void WindowEventDispatcher::OnWindowVisibilityChanging(Window* window,
bool visible) {
if (!host_->window()->Contains(window))
return;
DispatchMouseExitToHidingWindow(window);
}
void WindowEventDispatcher::OnWindowVisibilityChanged(Window* window,
bool visible) {
if (!host_->window()->Contains(window))
return;
if (window->ContainsPointInRoot(GetLastMouseLocationInRoot()))
PostSynthesizeMouseMove();
// Hiding the window releases capture which can implicitly destroy the window
// so the window may no longer be valid after this call.
if (!visible)
OnWindowHidden(window, WINDOW_HIDDEN);
}
void WindowEventDispatcher::OnWindowBoundsChanged(
Window* window,
const gfx::Rect& old_bounds,
const gfx::Rect& new_bounds,
ui::PropertyChangeReason reason) {
if (!host_->window()->Contains(window))
return;
if (window == host_->window()) {
TRACE_EVENT1("ui", "WindowEventDispatcher::OnWindowBoundsChanged(root)",
"size", new_bounds.size().ToString());
DispatchDetails details = DispatchHeldEvents();
if (details.dispatcher_destroyed)
return;
synthesize_mouse_move_ = false;
}
if (window->IsVisible() && window->event_targeting_policy() !=
ui::mojom::EventTargetingPolicy::NONE) {
gfx::Rect old_bounds_in_root = old_bounds, new_bounds_in_root = new_bounds;
Window::ConvertRectToTarget(window->parent(), host_->window(),
&old_bounds_in_root);
Window::ConvertRectToTarget(window->parent(), host_->window(),
&new_bounds_in_root);
gfx::Point last_mouse_location = GetLastMouseLocationInRoot();
if (old_bounds_in_root.Contains(last_mouse_location) !=
new_bounds_in_root.Contains(last_mouse_location)) {
PostSynthesizeMouseMove();
}
}
}
void WindowEventDispatcher::OnWindowTargetTransformChanging(
Window* window,
const gfx::Transform& new_transform) {
window_transforming_ = true;
if (!synthesize_mouse_move_ && host_->window()->Contains(window))
SynthesizeMouseMoveAfterChangeToWindow(window);
}
void WindowEventDispatcher::OnWindowTransformed(
Window* window,
ui::PropertyChangeReason reason) {
// Call SynthesizeMouseMoveAfterChangeToWindow() only if it's the first time
// that OnWindowTransformed() is called after
// OnWindowTargetTransformChanging() (to avoid generating multiple mouse
// events during animation).
if (window_transforming_ && !synthesize_mouse_move_ &&
host_->window()->Contains(window)) {
SynthesizeMouseMoveAfterChangeToWindow(window);
}
window_transforming_ = false;
}
///////////////////////////////////////////////////////////////////////////////
// WindowEventDispatcher, EnvObserver implementation:
void WindowEventDispatcher::OnWindowInitialized(Window* window) {
observer_manager_.Add(window);
}
////////////////////////////////////////////////////////////////////////////////
// WindowEventDispatcher, private:
ui::EventDispatchDetails WindowEventDispatcher::DispatchHeldEvents() {
if (!held_repostable_event_ && !held_move_event_) {
if (did_dispatch_held_move_event_callback_)
base::ResetAndReturn(&did_dispatch_held_move_event_callback_).Run();
return DispatchDetails();
}
CHECK(!dispatching_held_event_);
DispatchDetails dispatch_details;
if (held_repostable_event_) {
if (held_repostable_event_->type() == ui::ET_MOUSE_PRESSED ||
held_repostable_event_->type() == ui::ET_TOUCH_PRESSED) {
std::unique_ptr<ui::LocatedEvent> event =
std::move(held_repostable_event_);
dispatching_held_event_ = event.get();
dispatch_details = OnEventFromSource(event.get());
} else {
// TODO(rbyers): GESTURE_TAP_DOWN not yet supported: crbug.com/170987.
NOTREACHED();
}
if (dispatch_details.dispatcher_destroyed)
return dispatch_details;
}
if (held_move_event_) {
// If a mouse move has been synthesized, the target location is suspect,
// so drop the held mouse event.
if (held_move_event_->IsTouchEvent() ||
(held_move_event_->IsMouseEvent() && !synthesize_mouse_move_)) {
dispatching_held_event_ = held_move_event_.get();
dispatch_details = OnEventFromSource(held_move_event_.get());
}
if (!dispatch_details.dispatcher_destroyed)
held_move_event_.reset();
}
if (!dispatch_details.dispatcher_destroyed) {
dispatching_held_event_ = nullptr;
for (WindowEventDispatcherObserver& observer :
Env::GetInstance()->window_event_dispatcher_observers()) {
observer.OnWindowEventDispatcherDispatchedHeldEvents(this);
}
if (did_dispatch_held_move_event_callback_)
base::ResetAndReturn(&did_dispatch_held_move_event_callback_).Run();
}
return dispatch_details;
}
void WindowEventDispatcher::PostSynthesizeMouseMove() {
if (synthesize_mouse_move_)
return;
synthesize_mouse_move_ = true;
base::ThreadTaskRunnerHandle::Get()->PostNonNestableTask(
FROM_HERE,
base::BindOnce(
base::IgnoreResult(&WindowEventDispatcher::SynthesizeMouseMoveEvent),
held_event_factory_.GetWeakPtr()));
}
void WindowEventDispatcher::SynthesizeMouseMoveAfterChangeToWindow(
Window* window) {
if (window->IsVisible() &&
window->ContainsPointInRoot(GetLastMouseLocationInRoot())) {
PostSynthesizeMouseMove();
}
}
ui::EventDispatchDetails WindowEventDispatcher::SynthesizeMouseMoveEvent() {
DispatchDetails details;
if (!synthesize_mouse_move_)
return details;
synthesize_mouse_move_ = false;
// No need to generate mouse event if the cursor is invisible and not locked.
client::CursorClient* cursor_client =
client::GetCursorClient(host_->window());
if (cursor_client && (!cursor_client->IsMouseEventsEnabled() ||
(!cursor_client->IsCursorVisible() &&
!cursor_client->IsCursorLocked()))) {
return details;
}
// If one of the mouse buttons is currently down, then do not synthesize a
// mouse-move event. In such cases, aura could synthesize a DRAGGED event
// instead of a MOVED event, but in multi-display/multi-host scenarios, the
// DRAGGED event can be synthesized in the incorrect host. So avoid
// synthesizing any events at all.
if (Env::GetInstance()->mouse_button_flags())
return details;
// Do not use GetLastMouseLocationInRoot here because it's not updated when
// the mouse is not over the window or when the window is minimized.
gfx::Point mouse_location =
display::Screen::GetScreen()->GetCursorScreenPoint();
ConvertPointFromScreen(&mouse_location);
if (!window()->bounds().Contains(mouse_location))
return details;
gfx::Point host_mouse_location = mouse_location;
host_->ConvertDIPToPixels(&host_mouse_location);
ui::MouseEvent event(ui::ET_MOUSE_MOVED, host_mouse_location,
host_mouse_location, ui::EventTimeForNow(),
ui::EF_IS_SYNTHESIZED, 0);
return OnEventFromSource(&event);
}
DispatchDetails WindowEventDispatcher::PreDispatchLocatedEvent(
Window* target,
ui::LocatedEvent* event) {
int flags = event->flags();
if (IsNonClientLocation(target, event->location()))
flags |= ui::EF_IS_NON_CLIENT;
event->set_flags(flags);
if (!is_dispatched_held_event(*event) &&
(event->IsMouseEvent() || event->IsScrollEvent()) &&
!(event->flags() & ui::EF_IS_SYNTHESIZED)) {
synthesize_mouse_move_ = false;
}
return DispatchDetails();
}
DispatchDetails WindowEventDispatcher::PreDispatchMouseEvent(
Window* target,
ui::MouseEvent* event) {
client::CursorClient* cursor_client = client::GetCursorClient(window());
// We allow synthesized mouse exit events through even if mouse events are
// disabled. This ensures that hover state, etc on controls like buttons is
// cleared.
if (cursor_client &&
!cursor_client->IsMouseEventsEnabled() &&
(event->flags() & ui::EF_IS_SYNTHESIZED) &&
(event->type() != ui::ET_MOUSE_EXITED)) {
event->SetHandled();
return DispatchDetails();
}
Env::GetInstance()->env_controller()->UpdateStateForMouseEvent(window(),
*event);
if (IsEventCandidateForHold(*event) && !dispatching_held_event_) {
if (move_hold_count_) {
held_move_event_.reset(new ui::MouseEvent(*event, target, window()));
event->SetHandled();
return DispatchDetails();
} else {
// We may have a held event for a period between the time move_hold_count_
// fell to 0 and the DispatchHeldEvents executes. Since we're going to
// dispatch the new event directly below, we can reset the old one.
held_move_event_.reset();
}
}
switch (event->type()) {
case ui::ET_MOUSE_EXITED:
if (!target || target == window()) {
DispatchDetails details =
DispatchMouseEnterOrExit(target, *event, ui::ET_MOUSE_EXITED);
if (details.dispatcher_destroyed) {
event->SetHandled();
return details;
}
mouse_moved_handler_ = NULL;
}
break;
case ui::ET_MOUSE_MOVED:
// Send an exit to the current |mouse_moved_handler_| and an enter to
// |target|. Take care that both us and |target| aren't destroyed during
// dispatch.
if (target != mouse_moved_handler_) {
aura::Window* old_mouse_moved_handler = mouse_moved_handler_;
WindowTracker live_window;
live_window.Add(target);
DispatchDetails details =
DispatchMouseEnterOrExit(target, *event, ui::ET_MOUSE_EXITED);
// |details| contains information about |mouse_moved_handler_| being
// destroyed which is not our |target|. Return value of this function
// should be about our |target|.
DispatchDetails target_details = details;
target_details.target_destroyed = !live_window.Contains(target);
if (details.dispatcher_destroyed) {
event->SetHandled();
return target_details;
}
// If the |mouse_moved_handler_| changes out from under us, assume a
// nested run loop ran and we don't need to do anything.
if (mouse_moved_handler_ != old_mouse_moved_handler) {
event->SetHandled();
return target_details;
}
if (details.target_destroyed || target_details.target_destroyed) {
mouse_moved_handler_ = NULL;
event->SetHandled();
return target_details;
}
live_window.Remove(target);
mouse_moved_handler_ = target;
details =
DispatchMouseEnterOrExit(target, *event, ui::ET_MOUSE_ENTERED);
if (details.dispatcher_destroyed || details.target_destroyed) {
event->SetHandled();
return details;
}
}
break;
case ui::ET_MOUSE_PRESSED:
// Don't set the mouse pressed handler for non client mouse down events.
// These are only sent by Windows and are not always followed with non
// client mouse up events which causes subsequent mouse events to be
// sent to the wrong target.
if (!(event->flags() & ui::EF_IS_NON_CLIENT) && !mouse_pressed_handler_)
mouse_pressed_handler_ = target;
break;
case ui::ET_MOUSE_RELEASED:
mouse_pressed_handler_ = NULL;
break;
default:
break;
}
return PreDispatchLocatedEvent(target, event);
}
DispatchDetails WindowEventDispatcher::PreDispatchPinchEvent(
Window* target,
ui::GestureEvent* event) {
if (event->details().device_type() != ui::GestureDeviceType::DEVICE_TOUCHPAD)
return PreDispatchLocatedEvent(target, event);
switch (event->type()) {
case ui::ET_GESTURE_PINCH_BEGIN:
touchpad_pinch_handler_ = target;
break;
case ui::ET_GESTURE_PINCH_END:
touchpad_pinch_handler_ = nullptr;
break;
default:
break;
}
return PreDispatchLocatedEvent(target, event);
}
DispatchDetails WindowEventDispatcher::PreDispatchTouchEvent(
Window* target,
ui::TouchEvent* event) {
if (event->type() == ui::ET_TOUCH_MOVED && move_hold_count_ &&
!dispatching_held_event_) {
held_move_event_.reset(new ui::TouchEvent(*event, target, window()));
event->SetHandled();
return DispatchDetails();
}
Env::GetInstance()->env_controller()->UpdateStateForTouchEvent(*event);
ui::TouchEvent orig_event(*event, target, window());
if (!ui::GestureRecognizer::Get()->ProcessTouchEventPreDispatch(&orig_event,
target)) {
// The event is invalid - ignore it.
event->StopPropagation();
event->DisableSynchronousHandling();
return DispatchDetails();
}
// This flag is set depending on the gestures recognized in the call above,
// and needs to propagate with the forwarded event.
event->set_may_cause_scrolling(orig_event.may_cause_scrolling());
return PreDispatchLocatedEvent(target, event);
}
DispatchDetails WindowEventDispatcher::PreDispatchKeyEvent(
ui::KeyEvent* event) {
if (skip_ime_ || !host_->has_input_method() ||
(event->flags() & ui::EF_IS_SYNTHESIZED))
return DispatchDetails();
DispatchDetails details = host_->GetInputMethod()->DispatchKeyEvent(event);
event->StopPropagation();
return details;
}
} // namespace aura