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chromium / chromium / src / 387bee3f782afb7103251942eb78d8d1862aa213 / . / ui / events / blink / input_handler_proxy.cc
blob: 126f75c6518d8060efe5756280313f11e0646a76 [file] [log] [blame]
// Copyright 2013 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/events/blink/input_handler_proxy.h"
#include <stddef.h>
#include <algorithm>
#include "base/auto_reset.h"
#include "base/command_line.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/memory/ptr_util.h"
#include "base/metrics/histogram_macros.h"
#include "base/single_thread_task_runner.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/time/default_tick_clock.h"
#include "base/trace_event/trace_event.h"
#include "cc/input/main_thread_scrolling_reason.h"
#include "third_party/WebKit/public/platform/WebInputEvent.h"
#include "third_party/WebKit/public/platform/WebMouseWheelEvent.h"
#include "third_party/WebKit/public/platform/WebTouchEvent.h"
#include "ui/events/blink/blink_event_util.h"
#include "ui/events/blink/compositor_thread_event_queue.h"
#include "ui/events/blink/did_overscroll_params.h"
#include "ui/events/blink/event_with_callback.h"
#include "ui/events/blink/fling_booster.h"
#include "ui/events/blink/input_handler_proxy_client.h"
#include "ui/events/blink/input_scroll_elasticity_controller.h"
#include "ui/events/blink/web_input_event_traits.h"
#include "ui/gfx/geometry/point_conversions.h"
#include "ui/latency/latency_info.h"
using blink::WebFloatPoint;
using blink::WebFloatSize;
using blink::WebGestureEvent;
using blink::WebInputEvent;
using blink::WebMouseEvent;
using blink::WebMouseWheelEvent;
using blink::WebPoint;
using blink::WebTouchEvent;
using blink::WebTouchPoint;
namespace {
const int32_t kEventDispositionUndefined = -1;
// Maximum time between a fling event's timestamp and the first |Animate| call
// for the fling curve to use the fling timestamp as the initial animation time.
// Two frames allows a minor delay between event creation and the first animate.
const double kMaxSecondsFromFlingTimestampToFirstAnimate = 2. / 60.;
// Threshold for determining whether a fling scroll delta should have caused the
// client to scroll.
const float kScrollEpsilon = 0.1f;
const size_t kTenSeconds = 10 * 1000 * 1000;
gfx::Vector2dF ToClientScrollIncrement(const WebFloatSize& increment) {
return gfx::Vector2dF(-increment.width, -increment.height);
}
double InSecondsF(const base::TimeTicks& time) {
return (time - base::TimeTicks()).InSecondsF();
}
WebGestureEvent ObtainGestureScrollBegin(const WebGestureEvent& event) {
WebGestureEvent scroll_begin_event = event;
scroll_begin_event.SetType(WebInputEvent::kGestureScrollBegin);
scroll_begin_event.data.scroll_begin.delta_x_hint = 0;
scroll_begin_event.data.scroll_begin.delta_y_hint = 0;
return scroll_begin_event;
}
cc::ScrollState CreateScrollStateForGesture(const WebGestureEvent& event) {
cc::ScrollStateData scroll_state_data;
switch (event.GetType()) {
case WebInputEvent::kGestureScrollBegin:
scroll_state_data.position_x = event.PositionInWidget().x;
scroll_state_data.position_y = event.PositionInWidget().y;
scroll_state_data.delta_x_hint = -event.data.scroll_begin.delta_x_hint;
scroll_state_data.delta_y_hint = -event.data.scroll_begin.delta_y_hint;
scroll_state_data.is_beginning = true;
// On Mac, a GestureScrollBegin in the inertial phase indicates a fling
// start.
scroll_state_data.is_in_inertial_phase =
(event.data.scroll_begin.inertial_phase ==
WebGestureEvent::kMomentumPhase);
break;
case WebInputEvent::kGestureFlingStart:
scroll_state_data.velocity_x = event.data.fling_start.velocity_x;
scroll_state_data.velocity_y = event.data.fling_start.velocity_y;
scroll_state_data.is_in_inertial_phase = true;
break;
case WebInputEvent::kGestureScrollUpdate:
scroll_state_data.delta_x = -event.data.scroll_update.delta_x;
scroll_state_data.delta_y = -event.data.scroll_update.delta_y;
scroll_state_data.velocity_x = event.data.scroll_update.velocity_x;
scroll_state_data.velocity_y = event.data.scroll_update.velocity_y;
scroll_state_data.is_in_inertial_phase =
event.data.scroll_update.inertial_phase ==
WebGestureEvent::kMomentumPhase;
break;
case WebInputEvent::kGestureScrollEnd:
case WebInputEvent::kGestureFlingCancel:
scroll_state_data.is_ending = true;
break;
default:
NOTREACHED();
break;
}
return cc::ScrollState(scroll_state_data);
}
cc::ScrollState CreateScrollStateForInertialEnd() {
cc::ScrollStateData scroll_state_data;
scroll_state_data.is_ending = true;
return cc::ScrollState(scroll_state_data);
}
cc::ScrollState CreateScrollStateForInertialUpdate(
const gfx::Vector2dF& delta) {
cc::ScrollStateData scroll_state_data;
scroll_state_data.delta_x = delta.x();
scroll_state_data.delta_y = delta.y();
scroll_state_data.is_in_inertial_phase = true;
return cc::ScrollState(scroll_state_data);
}
cc::InputHandler::ScrollInputType GestureScrollInputType(
blink::WebGestureDevice device) {
return device == blink::kWebGestureDeviceTouchpad
? cc::InputHandler::WHEEL
: cc::InputHandler::TOUCHSCREEN;
}
enum ScrollingThreadStatus {
SCROLLING_ON_COMPOSITOR,
SCROLLING_ON_COMPOSITOR_BLOCKED_ON_MAIN,
SCROLLING_ON_MAIN,
LAST_SCROLLING_THREAD_STATUS_VALUE = SCROLLING_ON_MAIN,
};
} // namespace
namespace ui {
InputHandlerProxy::InputHandlerProxy(
cc::InputHandler* input_handler,
InputHandlerProxyClient* client,
bool touchpad_and_wheel_scroll_latching_enabled,
bool async_wheel_events_enabled)
: client_(client),
input_handler_(input_handler),
synchronous_input_handler_(nullptr),
allow_root_animate_(true),
#ifndef NDEBUG
expect_scroll_update_end_(false),
#endif
gesture_scroll_on_impl_thread_(false),
gesture_pinch_on_impl_thread_(false),
scroll_sequence_ignored_(false),
fling_may_be_active_on_main_thread_(false),
disallow_horizontal_fling_scroll_(false),
disallow_vertical_fling_scroll_(false),
has_fling_animation_started_(false),
smooth_scroll_enabled_(false),
touchpad_and_wheel_scroll_latching_enabled_(
touchpad_and_wheel_scroll_latching_enabled),
async_wheel_events_enabled_(touchpad_and_wheel_scroll_latching_enabled &&
async_wheel_events_enabled),
touch_result_(kEventDispositionUndefined),
mouse_wheel_result_(kEventDispositionUndefined),
current_overscroll_params_(nullptr),
has_ongoing_compositor_scroll_fling_pinch_(false),
is_first_gesture_scroll_update_(false),
tick_clock_(base::DefaultTickClock::GetInstance()),
snap_fling_controller_(std::make_unique<SnapFlingController>(this)) {
DCHECK(client);
input_handler_->BindToClient(this,
touchpad_and_wheel_scroll_latching_enabled_);
cc::ScrollElasticityHelper* scroll_elasticity_helper =
input_handler_->CreateScrollElasticityHelper();
if (scroll_elasticity_helper) {
scroll_elasticity_controller_.reset(
new InputScrollElasticityController(scroll_elasticity_helper));
}
compositor_event_queue_ =
base::FeatureList::IsEnabled(features::kVsyncAlignedInputEvents)
? std::make_unique<CompositorThreadEventQueue>()
: nullptr;
}
InputHandlerProxy::~InputHandlerProxy() {}
void InputHandlerProxy::WillShutdown() {
scroll_elasticity_controller_.reset();
fling_booster_.reset();
input_handler_ = NULL;
client_->WillShutdown();
}
void InputHandlerProxy::HandleInputEventWithLatencyInfo(
WebScopedInputEvent event,
const LatencyInfo& latency_info,
EventDispositionCallback callback) {
DCHECK(input_handler_);
TRACE_EVENT_WITH_FLOW1("input,benchmark", "LatencyInfo.Flow",
TRACE_ID_DONT_MANGLE(latency_info.trace_id()),
TRACE_EVENT_FLAG_FLOW_IN | TRACE_EVENT_FLAG_FLOW_OUT,
"step", "HandleInputEventImpl");
std::unique_ptr<EventWithCallback> event_with_callback =
std::make_unique<EventWithCallback>(std::move(event), latency_info,
tick_clock_->NowTicks(),
std::move(callback));
// Note: Other input can race ahead of gesture input as they don't have to go
// through the queue, but we believe it's OK to do so.
if (!compositor_event_queue_ ||
!IsGestureScrollOrFlingOrPinch(event_with_callback->event().GetType())) {
DispatchSingleInputEvent(std::move(event_with_callback),
tick_clock_->NowTicks());
return;
}
if (has_ongoing_compositor_scroll_fling_pinch_) {
const auto& gesture_event = ToWebGestureEvent(event_with_callback->event());
bool is_from_set_non_blocking_touch =
gesture_event.SourceDevice() == blink::kWebGestureDeviceTouchscreen &&
gesture_event.is_source_touch_event_set_non_blocking;
bool is_scroll_end_from_wheel =
gesture_event.SourceDevice() == blink::kWebGestureDeviceTouchpad &&
gesture_event.GetType() == blink::WebGestureEvent::kGestureScrollEnd;
bool scroll_update_has_blocking_wheel_source =
gesture_event.SourceDevice() == blink::kWebGestureDeviceTouchpad &&
gesture_event.GetType() ==
blink::WebGestureEvent::kGestureScrollUpdate &&
(!async_wheel_events_enabled_ || is_first_gesture_scroll_update_);
if (gesture_event.GetType() ==
blink::WebGestureEvent::kGestureScrollUpdate) {
is_first_gesture_scroll_update_ = false;
}
if (is_from_set_non_blocking_touch || is_scroll_end_from_wheel ||
scroll_update_has_blocking_wheel_source || synchronous_input_handler_) {
// 1. Gesture events was already delayed by blocking events in rAF aligned
// queue. We want to avoid additional one frame delay by flushing the
// VSync queue immediately.
// The first GSU latency was tracked by:
// |smoothness.tough_scrolling_cases:first_gesture_scroll_update_latency|.
// 2. |synchronous_input_handler_| is WebView only. WebView has different
// mechanisms and we want to forward all events immediately.
compositor_event_queue_->Queue(std::move(event_with_callback),
tick_clock_->NowTicks());
DispatchQueuedInputEvents();
return;
}
bool needs_animate_input = compositor_event_queue_->empty();
compositor_event_queue_->Queue(std::move(event_with_callback),
tick_clock_->NowTicks());
if (needs_animate_input)
input_handler_->SetNeedsAnimateInput();
return;
}
// We have to dispatch the event to know whether the gesture sequence will be
// handled by the compositor or not.
DispatchSingleInputEvent(std::move(event_with_callback),
tick_clock_->NowTicks());
}
void InputHandlerProxy::DispatchSingleInputEvent(
std::unique_ptr<EventWithCallback> event_with_callback,
const base::TimeTicks now) {
if (compositor_event_queue_ &&
IsGestureScrollOrFlingOrPinch(event_with_callback->event().GetType())) {
// Report the coalesced count only for continuous events to avoid the noise
// from non-continuous events.
if (IsContinuousGestureEvent(event_with_callback->event().GetType())) {
UMA_HISTOGRAM_CUSTOM_COUNTS(
"Event.CompositorThreadEventQueue.Continuous.HeadQueueingTime",
(now - event_with_callback->creation_timestamp()).InMicroseconds(), 1,
kTenSeconds, 50);
UMA_HISTOGRAM_CUSTOM_COUNTS(
"Event.CompositorThreadEventQueue.Continuous.TailQueueingTime",
(now - event_with_callback->last_coalesced_timestamp())
.InMicroseconds(),
1, kTenSeconds, 50);
UMA_HISTOGRAM_COUNTS_1000(
"Event.CompositorThreadEventQueue.CoalescedCount",
static_cast<int>(event_with_callback->coalesced_count()));
} else {
UMA_HISTOGRAM_CUSTOM_COUNTS(
"Event.CompositorThreadEventQueue.NonContinuous.QueueingTime",
(now - event_with_callback->creation_timestamp()).InMicroseconds(), 1,
kTenSeconds, 50);
}
}
ui::LatencyInfo monitored_latency_info = event_with_callback->latency_info();
std::unique_ptr<cc::SwapPromiseMonitor> latency_info_swap_promise_monitor =
input_handler_->CreateLatencyInfoSwapPromiseMonitor(
&monitored_latency_info);
current_overscroll_params_.reset();
InputHandlerProxy::EventDisposition disposition =
HandleInputEvent(event_with_callback->event());
switch (event_with_callback->event().GetType()) {
case blink::WebGestureEvent::kGestureScrollBegin:
is_first_gesture_scroll_update_ = true;
FALLTHROUGH;
case blink::WebGestureEvent::kGestureFlingStart:
case blink::WebGestureEvent::kGesturePinchBegin:
case blink::WebGestureEvent::kGestureScrollUpdate:
case blink::WebGestureEvent::kGesturePinchUpdate:
has_ongoing_compositor_scroll_fling_pinch_ = disposition == DID_HANDLE;
break;
case blink::WebGestureEvent::kGestureScrollEnd:
case blink::WebGestureEvent::kGestureFlingCancel:
case blink::WebGestureEvent::kGesturePinchEnd:
has_ongoing_compositor_scroll_fling_pinch_ = false;
break;
default:
break;
}
// Will run callback for every original events.
event_with_callback->RunCallbacks(disposition, monitored_latency_info,
std::move(current_overscroll_params_));
}
void InputHandlerProxy::DispatchQueuedInputEvents() {
if (!compositor_event_queue_)
return;
// Calling |NowTicks()| is expensive so we only want to do it once.
base::TimeTicks now = tick_clock_->NowTicks();
while (!compositor_event_queue_->empty())
DispatchSingleInputEvent(compositor_event_queue_->Pop(), now);
}
InputHandlerProxy::EventDisposition InputHandlerProxy::HandleInputEvent(
const WebInputEvent& event) {
DCHECK(input_handler_);
if (fling_booster_ && WebInputEvent::IsGestureEventType(event.GetType())) {
const WebGestureEvent& gesture_event =
static_cast<const WebGestureEvent&>(event);
bool cancel_current_fling;
bool should_filter_event =
fling_booster_->FilterGestureEventForFlingBoosting(
gesture_event, &cancel_current_fling);
if (cancel_current_fling)
CancelCurrentFling();
if (should_filter_event) {
if (event.GetType() == WebInputEvent::kGestureFlingStart) {
UpdateCurrentFlingState(gesture_event,
fling_booster_->current_fling_velocity());
TRACE_EVENT_INSTANT2("input",
fling_booster_->fling_boosted()
? "InputHandlerProxy::FlingBoosted"
: "InputHandlerProxy::FlingReplaced",
TRACE_EVENT_SCOPE_THREAD, "vx",
current_fling_velocity_.x(), "vy",
current_fling_velocity_.y());
// The client expects balanced calls between a consumed
// GestureFlingStart and |DidStopFlinging()|.
client_->DidStopFlinging();
} else if (event.GetType() == WebInputEvent::kGestureFlingCancel) {
DCHECK(fling_booster_->fling_cancellation_is_deferred());
TRACE_EVENT_INSTANT0("input", "InputHandlerProxy::FlingBoostStart",
TRACE_EVENT_SCOPE_THREAD);
} else if (event.GetType() == WebInputEvent::kGestureScrollBegin ||
event.GetType() == WebInputEvent::kGestureScrollUpdate) {
TRACE_EVENT_INSTANT0("input",
"InputHandlerProxy::ExtendBoostedFlingTimeout",
TRACE_EVENT_SCOPE_THREAD);
}
return DID_HANDLE;
}
}
if (snap_fling_controller_->FilterEventForSnap(event))
return DROP_EVENT;
switch (event.GetType()) {
case WebInputEvent::kMouseWheel:
return HandleMouseWheel(static_cast<const WebMouseWheelEvent&>(event));
case WebInputEvent::kGestureScrollBegin:
return HandleGestureScrollBegin(
static_cast<const WebGestureEvent&>(event));
case WebInputEvent::kGestureScrollUpdate:
return HandleGestureScrollUpdate(
static_cast<const WebGestureEvent&>(event));
case WebInputEvent::kGestureScrollEnd:
return HandleGestureScrollEnd(static_cast<const WebGestureEvent&>(event));
case WebInputEvent::kGesturePinchBegin: {
DCHECK(!gesture_pinch_on_impl_thread_);
const WebGestureEvent& gesture_event =
static_cast<const WebGestureEvent&>(event);
if (gesture_event.SourceDevice() == blink::kWebGestureDeviceTouchpad &&
input_handler_->GetEventListenerProperties(
cc::EventListenerClass::kMouseWheel) !=
cc::EventListenerProperties::kNone) {
return DID_NOT_HANDLE;
} else {
input_handler_->PinchGestureBegin();
gesture_pinch_on_impl_thread_ = true;
return DID_HANDLE;
}
}
case WebInputEvent::kGesturePinchEnd:
if (gesture_pinch_on_impl_thread_) {
gesture_pinch_on_impl_thread_ = false;
const WebGestureEvent& gesture_event =
static_cast<const WebGestureEvent&>(event);
input_handler_->PinchGestureEnd(
gfx::ToFlooredPoint(gesture_event.PositionInWidget()),
gesture_event.SourceDevice() == blink::kWebGestureDeviceTouchpad);
return DID_HANDLE;
} else {
return DID_NOT_HANDLE;
}
case WebInputEvent::kGesturePinchUpdate: {
if (gesture_pinch_on_impl_thread_) {
const WebGestureEvent& gesture_event =
static_cast<const WebGestureEvent&>(event);
if (gesture_event.data.pinch_update.zoom_disabled)
return DROP_EVENT;
input_handler_->PinchGestureUpdate(
gesture_event.data.pinch_update.scale,
gfx::ToFlooredPoint(gesture_event.PositionInWidget()));
return DID_HANDLE;
} else {
return DID_NOT_HANDLE;
}
}
case WebInputEvent::kGestureFlingStart:
return HandleGestureFlingStart(
*static_cast<const WebGestureEvent*>(&event));
case WebInputEvent::kGestureFlingCancel:
if (CancelCurrentFling())
return DID_HANDLE;
else if (!fling_may_be_active_on_main_thread_)
return DROP_EVENT;
return DID_NOT_HANDLE;
case WebInputEvent::kTouchStart:
return HandleTouchStart(static_cast<const WebTouchEvent&>(event));
case WebInputEvent::kTouchMove:
return HandleTouchMove(static_cast<const WebTouchEvent&>(event));
case WebInputEvent::kTouchEnd:
return HandleTouchEnd(static_cast<const WebTouchEvent&>(event));
case WebInputEvent::kMouseDown: {
// Only for check scrollbar captured
const WebMouseEvent& mouse_event =
static_cast<const WebMouseEvent&>(event);
if (mouse_event.button == blink::WebMouseEvent::Button::kLeft) {
CHECK(input_handler_);
input_handler_->MouseDown();
}
return DID_NOT_HANDLE;
}
case WebInputEvent::kMouseUp: {
// Only for release scrollbar captured
const WebMouseEvent& mouse_event =
static_cast<const WebMouseEvent&>(event);
if (mouse_event.button == blink::WebMouseEvent::Button::kLeft) {
CHECK(input_handler_);
input_handler_->MouseUp();
}
return DID_NOT_HANDLE;
}
case WebInputEvent::kMouseMove: {
const WebMouseEvent& mouse_event =
static_cast<const WebMouseEvent&>(event);
// TODO(davemoore): This should never happen, but bug #326635 showed some
// surprising crashes.
CHECK(input_handler_);
input_handler_->MouseMoveAt(gfx::Point(mouse_event.PositionInWidget().x,
mouse_event.PositionInWidget().y));
return DID_NOT_HANDLE;
}
case WebInputEvent::kMouseLeave: {
CHECK(input_handler_);
input_handler_->MouseLeave();
return DID_NOT_HANDLE;
}
default:
if (WebInputEvent::IsKeyboardEventType(event.GetType())) {
// Only call |CancelCurrentFling()| if a fling was active, as it will
// otherwise disrupt an in-progress touch scroll.
if (fling_curve_)
CancelCurrentFling();
}
break;
}
return DID_NOT_HANDLE;
}
void InputHandlerProxy::RecordMainThreadScrollingReasons(
blink::WebGestureDevice device,
uint32_t reasons) {
static const char* kGestureHistogramName =
"Renderer4.MainThreadGestureScrollReason";
static const char* kWheelHistogramName =
"Renderer4.MainThreadWheelScrollReason";
if (device != blink::kWebGestureDeviceTouchpad &&
device != blink::kWebGestureDeviceTouchscreen) {
return;
}
// NonCompositedScrollReasons should only be set on the main thread.
DCHECK(
!cc::MainThreadScrollingReason::HasNonCompositedScrollReasons(reasons));
// UMA_HISTOGRAM_ENUMERATION requires that the enum_max must be strictly
// greater than the sample value. kMainThreadScrollingReasonCount doesn't
// include the NotScrollingOnMain enum but the histograms do so adding
// the +1 is necessary.
// TODO(dcheng): Fix https://crbug.com/705169 so this isn't needed.
constexpr uint32_t kMainThreadScrollingReasonEnumMax =
cc::MainThreadScrollingReason::kMainThreadScrollingReasonCount + 1;
if (reasons == cc::MainThreadScrollingReason::kNotScrollingOnMain) {
if (device == blink::kWebGestureDeviceTouchscreen) {
UMA_HISTOGRAM_ENUMERATION(
kGestureHistogramName,
cc::MainThreadScrollingReason::kNotScrollingOnMain,
kMainThreadScrollingReasonEnumMax);
} else {
UMA_HISTOGRAM_ENUMERATION(
kWheelHistogramName,
cc::MainThreadScrollingReason::kNotScrollingOnMain,
kMainThreadScrollingReasonEnumMax);
}
}
for (uint32_t i = 0;
i < cc::MainThreadScrollingReason::kMainThreadScrollingReasonCount;
++i) {
unsigned val = 1 << i;
if (reasons & val) {
if (val == cc::MainThreadScrollingReason::kHandlingScrollFromMainThread) {
// We only want to record "Handling scroll from main thread" reason if
// it's the only reason. If it's not the only reason, the "real" reason
// for scrolling on main is something else, and we only want to pay
// attention to that reason.
if (reasons & ~val)
continue;
}
if (device == blink::kWebGestureDeviceTouchscreen) {
UMA_HISTOGRAM_ENUMERATION(kGestureHistogramName, i + 1,
kMainThreadScrollingReasonEnumMax);
} else {
UMA_HISTOGRAM_ENUMERATION(kWheelHistogramName, i + 1,
kMainThreadScrollingReasonEnumMax);
}
}
}
}
void InputHandlerProxy::RecordScrollingThreadStatus(
blink::WebGestureDevice device,
uint32_t reasons) {
if (device != blink::kWebGestureDeviceTouchpad &&
device != blink::kWebGestureDeviceTouchscreen) {
return;
}
ScrollingThreadStatus scrolling_thread_status = SCROLLING_ON_MAIN;
if (reasons == cc::MainThreadScrollingReason::kNotScrollingOnMain) {
int32_t event_disposition_result =
(device == blink::kWebGestureDeviceTouchpad ? mouse_wheel_result_
: touch_result_);
switch (event_disposition_result) {
case kEventDispositionUndefined:
case DID_NOT_HANDLE_NON_BLOCKING_DUE_TO_FLING:
case DID_HANDLE_NON_BLOCKING:
case DROP_EVENT:
scrolling_thread_status = SCROLLING_ON_COMPOSITOR;
break;
case DID_NOT_HANDLE:
scrolling_thread_status = SCROLLING_ON_COMPOSITOR_BLOCKED_ON_MAIN;
break;
default:
NOTREACHED();
scrolling_thread_status = SCROLLING_ON_COMPOSITOR;
}
}
// UMA_HISTOGRAM_ENUMERATION requires that the enum_max must be strictly
// greater than the sample value.
const uint32_t kScrolingThreadStatusEnumMax =
ScrollingThreadStatus::LAST_SCROLLING_THREAD_STATUS_VALUE + 1;
if (device == blink::kWebGestureDeviceTouchscreen) {
UMA_HISTOGRAM_ENUMERATION("Renderer4.GestureScrollingThreadStatus",
scrolling_thread_status,
kScrolingThreadStatusEnumMax);
} else {
UMA_HISTOGRAM_ENUMERATION("Renderer4.WheelScrollingThreadStatus",
scrolling_thread_status,
kScrolingThreadStatusEnumMax);
}
}
bool InputHandlerProxy::ShouldAnimate(bool has_precise_scroll_deltas) const {
#if defined(OS_MACOSX)
// Mac does not smooth scroll wheel events (crbug.com/574283).
return false;
#else
return smooth_scroll_enabled_ && !has_precise_scroll_deltas;
#endif
}
InputHandlerProxy::EventDisposition InputHandlerProxy::HandleMouseWheel(
const WebMouseWheelEvent& wheel_event) {
// Only call |CancelCurrentFling()| if a fling was active, as it will
// otherwise disrupt an in-progress touch scroll.
if (!wheel_event.has_precise_scrolling_deltas && fling_curve_)
CancelCurrentFling();
InputHandlerProxy::EventDisposition result = DROP_EVENT;
if (wheel_event.dispatch_type == WebInputEvent::kEventNonBlocking) {
// The first wheel event in the sequence should be cancellable.
DCHECK(wheel_event.phase != WebMouseWheelEvent::kPhaseBegan);
result = static_cast<EventDisposition>(mouse_wheel_result_);
if (wheel_event.phase == WebMouseWheelEvent::kPhaseEnded ||
wheel_event.phase == WebMouseWheelEvent::kPhaseCancelled ||
wheel_event.momentum_phase == WebMouseWheelEvent::kPhaseEnded ||
wheel_event.momentum_phase == WebMouseWheelEvent::kPhaseCancelled) {
mouse_wheel_result_ = kEventDispositionUndefined;
}
if (mouse_wheel_result_ != kEventDispositionUndefined)
return result;
}
cc::EventListenerProperties properties =
input_handler_->GetEventListenerProperties(
cc::EventListenerClass::kMouseWheel);
switch (properties) {
case cc::EventListenerProperties::kPassive:
result = DID_HANDLE_NON_BLOCKING;
break;
case cc::EventListenerProperties::kBlockingAndPassive:
case cc::EventListenerProperties::kBlocking:
result = DID_NOT_HANDLE;
break;
case cc::EventListenerProperties::kNone:
result = DROP_EVENT;
break;
default:
NOTREACHED();
result = DROP_EVENT;
}
mouse_wheel_result_ = result;
return result;
}
InputHandlerProxy::EventDisposition InputHandlerProxy::HandleGestureScrollBegin(
const WebGestureEvent& gesture_event) {
if (gesture_scroll_on_impl_thread_)
CancelCurrentFling();
#ifndef NDEBUG
expect_scroll_update_end_ = true;
#endif
cc::ScrollState scroll_state = CreateScrollStateForGesture(gesture_event);
cc::InputHandler::ScrollStatus scroll_status;
if (gesture_event.data.scroll_begin.delta_hint_units ==
blink::WebGestureEvent::ScrollUnits::kPage) {
scroll_status.thread = cc::InputHandler::SCROLL_ON_MAIN_THREAD;
scroll_status.main_thread_scrolling_reasons =
cc::MainThreadScrollingReason::kContinuingMainThreadScroll;
} else if (gesture_event.data.scroll_begin.target_viewport) {
scroll_status = input_handler_->RootScrollBegin(
&scroll_state, GestureScrollInputType(gesture_event.SourceDevice()));
} else if (ShouldAnimate(gesture_event.data.scroll_begin.delta_hint_units !=
blink::WebGestureEvent::ScrollUnits::kPixels)) {
DCHECK(!scroll_state.is_in_inertial_phase());
scroll_status = input_handler_->ScrollAnimatedBegin(&scroll_state);
} else {
scroll_status = input_handler_->ScrollBegin(
&scroll_state, GestureScrollInputType(gesture_event.SourceDevice()));
}
RecordMainThreadScrollingReasons(gesture_event.SourceDevice(),
scroll_status.main_thread_scrolling_reasons);
RecordScrollingThreadStatus(gesture_event.SourceDevice(),
scroll_status.main_thread_scrolling_reasons);
InputHandlerProxy::EventDisposition result = DID_NOT_HANDLE;
scroll_sequence_ignored_ = false;
switch (scroll_status.thread) {
case cc::InputHandler::SCROLL_ON_IMPL_THREAD:
TRACE_EVENT_INSTANT0("input",
"InputHandlerProxy::handle_input gesture scroll",
TRACE_EVENT_SCOPE_THREAD);
gesture_scroll_on_impl_thread_ = true;
if (input_handler_->IsCurrentlyScrollingViewport())
client_->DidStartScrollingViewport();
if (scroll_status.bubble)
result = DID_HANDLE_SHOULD_BUBBLE;
else
result = DID_HANDLE;
break;
case cc::InputHandler::SCROLL_UNKNOWN:
case cc::InputHandler::SCROLL_ON_MAIN_THREAD:
result = DID_NOT_HANDLE;
break;
case cc::InputHandler::SCROLL_IGNORED:
scroll_sequence_ignored_ = true;
result = DROP_EVENT;
break;
}
if (scroll_elasticity_controller_ && result != DID_NOT_HANDLE)
HandleScrollElasticityOverscroll(gesture_event,
cc::InputHandlerScrollResult());
return result;
}
InputHandlerProxy::EventDisposition
InputHandlerProxy::HandleGestureScrollUpdate(
const WebGestureEvent& gesture_event) {
#ifndef NDEBUG
DCHECK(expect_scroll_update_end_);
#endif
gfx::Vector2dF scroll_delta(-gesture_event.data.scroll_update.delta_x,
-gesture_event.data.scroll_update.delta_y);
TRACE_EVENT_INSTANT2("input", "InputHandlerProxy::HandleGestureScrollUpdate",
TRACE_EVENT_SCOPE_THREAD, "dx", scroll_delta.x(), "dy",
scroll_delta.y());
if (scroll_sequence_ignored_)
return DROP_EVENT;
if (!gesture_scroll_on_impl_thread_ && !gesture_pinch_on_impl_thread_)
return DID_NOT_HANDLE;
cc::ScrollState scroll_state = CreateScrollStateForGesture(gesture_event);
gfx::PointF scroll_point(gesture_event.PositionInWidget());
if (ShouldAnimate(gesture_event.data.scroll_update.delta_units !=
blink::WebGestureEvent::ScrollUnits::kPixels)) {
DCHECK(!scroll_state.is_in_inertial_phase());
base::TimeTicks event_time =
base::TimeTicks() +
base::TimeDelta::FromSecondsD(gesture_event.TimeStampSeconds());
base::TimeDelta delay = base::TimeTicks::Now() - event_time;
switch (input_handler_
->ScrollAnimated(gfx::ToFlooredPoint(scroll_point),
scroll_delta, delay)
.thread) {
case cc::InputHandler::SCROLL_ON_IMPL_THREAD:
return DID_HANDLE;
case cc::InputHandler::SCROLL_IGNORED:
return DROP_EVENT;
case cc::InputHandler::SCROLL_ON_MAIN_THREAD:
case cc::InputHandler::SCROLL_UNKNOWN:
if (input_handler_->ScrollingShouldSwitchtoMainThread()) {
gesture_scroll_on_impl_thread_ = false;
client_->GenerateScrollBeginAndSendToMainThread(gesture_event);
}
return DID_NOT_HANDLE;
}
}
if (snap_fling_controller_->HandleGestureScrollUpdate(gesture_event)) {
#ifndef NDEBUG
expect_scroll_update_end_ = false;
#endif
gesture_scroll_on_impl_thread_ = false;
return DROP_EVENT;
}
cc::InputHandlerScrollResult scroll_result =
input_handler_->ScrollBy(&scroll_state);
if (!scroll_result.did_scroll &&
input_handler_->ScrollingShouldSwitchtoMainThread() &&
((gesture_event.SourceDevice() == blink::kWebGestureDeviceTouchpad &&
touchpad_and_wheel_scroll_latching_enabled_) ||
gesture_event.SourceDevice() == blink::kWebGestureDeviceTouchscreen)) {
gesture_scroll_on_impl_thread_ = false;
client_->GenerateScrollBeginAndSendToMainThread(gesture_event);
if (!gesture_pinch_on_impl_thread_)
return DID_NOT_HANDLE;
}
HandleOverscroll(scroll_point, scroll_result, true);
if (scroll_elasticity_controller_)
HandleScrollElasticityOverscroll(gesture_event, scroll_result);
return scroll_result.did_scroll ? DID_HANDLE : DROP_EVENT;
}
InputHandlerProxy::EventDisposition InputHandlerProxy::HandleGestureScrollEnd(
const WebGestureEvent& gesture_event) {
#ifndef NDEBUG
DCHECK(expect_scroll_update_end_);
expect_scroll_update_end_ = false;
#endif
if (ShouldAnimate(gesture_event.data.scroll_end.delta_units !=
blink::WebGestureEvent::ScrollUnits::kPixels)) {
// Do nothing if the scroll is being animated; the scroll animation will
// generate the ScrollEnd when it is done.
} else {
cc::ScrollState scroll_state = CreateScrollStateForGesture(gesture_event);
input_handler_->ScrollEnd(&scroll_state, true);
}
if (scroll_sequence_ignored_)
return DROP_EVENT;
if (!gesture_scroll_on_impl_thread_)
return DID_NOT_HANDLE;
if (scroll_elasticity_controller_)
HandleScrollElasticityOverscroll(gesture_event,
cc::InputHandlerScrollResult());
gesture_scroll_on_impl_thread_ = false;
return DID_HANDLE;
}
InputHandlerProxy::EventDisposition InputHandlerProxy::HandleGestureFlingStart(
const WebGestureEvent& gesture_event) {
// Touchpad and touchscreen flings are handled on browser.
DCHECK_NE(blink::kWebGestureDeviceTouchpad, gesture_event.SourceDevice());
DCHECK_NE(blink::kWebGestureDeviceTouchscreen, gesture_event.SourceDevice());
#ifndef NDEBUG
expect_scroll_update_end_ = false;
#endif
if (scroll_sequence_ignored_)
return DROP_EVENT;
cc::ScrollState scroll_state = CreateScrollStateForGesture(gesture_event);
cc::InputHandler::ScrollStatus scroll_status;
scroll_status.main_thread_scrolling_reasons =
cc::MainThreadScrollingReason::kNotScrollingOnMain;
switch (gesture_event.SourceDevice()) {
case blink::kWebGestureDeviceSyntheticAutoscroll:
if (!gesture_scroll_on_impl_thread_) {
scroll_status.thread = cc::InputHandler::SCROLL_ON_MAIN_THREAD;
scroll_status.main_thread_scrolling_reasons =
cc::MainThreadScrollingReason::kContinuingMainThreadScroll;
} else {
scroll_status = input_handler_->FlingScrollBegin();
}
break;
case blink::kWebGestureDeviceTouchscreen:
case blink::kWebGestureDeviceTouchpad:
case blink::kWebGestureDeviceUninitialized:
case blink::kWebGestureDeviceCount:
NOTREACHED();
return DID_NOT_HANDLE;
}
switch (scroll_status.thread) {
case cc::InputHandler::SCROLL_ON_IMPL_THREAD: {
const float vx = gesture_event.data.fling_start.velocity_x;
const float vy = gesture_event.data.fling_start.velocity_y;
UpdateCurrentFlingState(gesture_event, gfx::Vector2dF(vx, vy));
TRACE_EVENT_ASYNC_BEGIN2("input,benchmark,rail",
"InputHandlerProxy::HandleGestureFling::started",
this, "vx", vx, "vy", vy);
// Note that the timestamp will only be used to kickstart the animation if
// its sufficiently close to the timestamp of the first call |Animate()|.
has_fling_animation_started_ = false;
fling_booster_ = std::make_unique<FlingBooster>(
current_fling_velocity_, fling_parameters_.source_device,
fling_parameters_.modifiers);
RequestAnimation();
return DID_HANDLE;
}
case cc::InputHandler::SCROLL_UNKNOWN:
case cc::InputHandler::SCROLL_ON_MAIN_THREAD: {
TRACE_EVENT_INSTANT0("input,rail",
"InputHandlerProxy::HandleGestureFling::"
"scroll_on_main_thread",
TRACE_EVENT_SCOPE_THREAD);
gesture_scroll_on_impl_thread_ = false;
fling_may_be_active_on_main_thread_ = true;
return DID_NOT_HANDLE;
}
case cc::InputHandler::SCROLL_IGNORED: {
TRACE_EVENT_INSTANT0(
"input,rail",
"InputHandlerProxy::HandleGestureFling::ignored",
TRACE_EVENT_SCOPE_THREAD);
gesture_scroll_on_impl_thread_ = false;
return DROP_EVENT;
}
}
return DID_NOT_HANDLE;
}
InputHandlerProxy::EventDisposition InputHandlerProxy::HitTestTouchEvent(
const blink::WebTouchEvent& touch_event,
bool* is_touching_scrolling_layer,
cc::TouchAction* white_listed_touch_action) {
*is_touching_scrolling_layer = false;
EventDisposition result = DROP_EVENT;
for (size_t i = 0; i < touch_event.touches_length; ++i) {
if (touch_event.touch_start_or_first_touch_move)
DCHECK(white_listed_touch_action);
else
DCHECK(!white_listed_touch_action);
if (touch_event.GetType() == WebInputEvent::kTouchStart &&
touch_event.touches[i].state != WebTouchPoint::kStatePressed) {
continue;
}
cc::TouchAction touch_action = cc::kTouchActionAuto;
cc::InputHandler::TouchStartOrMoveEventListenerType event_listener_type =
input_handler_->EventListenerTypeForTouchStartOrMoveAt(
gfx::Point(touch_event.touches[i].PositionInWidget().x,
touch_event.touches[i].PositionInWidget().y),
&touch_action);
if (white_listed_touch_action)
*white_listed_touch_action &= touch_action;
if (event_listener_type !=
cc::InputHandler::TouchStartOrMoveEventListenerType::NO_HANDLER) {
*is_touching_scrolling_layer =
event_listener_type ==
cc::InputHandler::TouchStartOrMoveEventListenerType::
HANDLER_ON_SCROLLING_LAYER;
result = DID_NOT_HANDLE;
break;
}
}
// If |result| is DROP_EVENT it wasn't processed above.
if (result == DROP_EVENT) {
switch (input_handler_->GetEventListenerProperties(
cc::EventListenerClass::kTouchStartOrMove)) {
case cc::EventListenerProperties::kPassive:
result = DID_HANDLE_NON_BLOCKING;
break;
case cc::EventListenerProperties::kBlocking:
// The touch area rects above already have checked whether it hits
// a blocking region. Since it does not the event can be dropped.
result = DROP_EVENT;
break;
case cc::EventListenerProperties::kBlockingAndPassive:
// There is at least one passive listener that needs to possibly
// be notified so it can't be dropped.
result = DID_HANDLE_NON_BLOCKING;
break;
case cc::EventListenerProperties::kNone:
result = DROP_EVENT;
break;
default:
NOTREACHED();
result = DROP_EVENT;
break;
}
}
// Merge |touch_result_| and |result| so the result has the highest
// priority value according to the sequence; (DROP_EVENT,
// DID_HANDLE_NON_BLOCKING, DID_NOT_HANDLE).
if (touch_result_ == kEventDispositionUndefined ||
touch_result_ == DROP_EVENT || result == DID_NOT_HANDLE)
touch_result_ = result;
return result;
}
InputHandlerProxy::EventDisposition InputHandlerProxy::HandleTouchStart(
const blink::WebTouchEvent& touch_event) {
bool is_touching_scrolling_layer;
cc::TouchAction white_listed_touch_action = cc::kTouchActionAuto;
EventDisposition result = HitTestTouchEvent(
touch_event, &is_touching_scrolling_layer, &white_listed_touch_action);
// If |result| is still DROP_EVENT look at the touch end handler as
// we may not want to discard the entire touch sequence. Note this
// code is explicitly after the assignment of the |touch_result_|
// so the touch moves are not sent to the main thread un-necessarily.
if (result == DROP_EVENT &&
input_handler_->GetEventListenerProperties(
cc::EventListenerClass::kTouchEndOrCancel) !=
cc::EventListenerProperties::kNone) {
result = DID_HANDLE_NON_BLOCKING;
}
bool is_flinging_on_impl =
fling_curve_ && !fling_may_be_active_on_main_thread_;
if (is_flinging_on_impl && is_touching_scrolling_layer)
result = DID_NOT_HANDLE_NON_BLOCKING_DUE_TO_FLING;
client_->SetWhiteListedTouchAction(white_listed_touch_action,
touch_event.unique_touch_event_id, result);
return result;
}
InputHandlerProxy::EventDisposition InputHandlerProxy::HandleTouchMove(
const blink::WebTouchEvent& touch_event) {
// Hit test if this is the first touch move or we don't have any results
// from a previous hit test.
if (touch_result_ == kEventDispositionUndefined ||
touch_event.touch_start_or_first_touch_move) {
bool is_touching_scrolling_layer;
cc::TouchAction white_listed_touch_action = cc::kTouchActionAuto;
EventDisposition result = HitTestTouchEvent(
touch_event, &is_touching_scrolling_layer, &white_listed_touch_action);
client_->SetWhiteListedTouchAction(
white_listed_touch_action, touch_event.unique_touch_event_id, result);
return result;
}
return static_cast<EventDisposition>(touch_result_);
}
InputHandlerProxy::EventDisposition InputHandlerProxy::HandleTouchEnd(
const blink::WebTouchEvent& touch_event) {
if (touch_event.touches_length == 1)
touch_result_ = kEventDispositionUndefined;
return DID_NOT_HANDLE;
}
void InputHandlerProxy::Animate(base::TimeTicks time) {
// If using synchronous animate, then only expect Animate attempts started by
// the synchronous system. Don't let the InputHandler try to Animate also.
DCHECK(!input_handler_->IsCurrentlyScrollingViewport() ||
allow_root_animate_);
if (scroll_elasticity_controller_)
scroll_elasticity_controller_->Animate(time);
snap_fling_controller_->Animate(time);
if (!fling_curve_)
return;
double monotonic_time_sec = InSecondsF(time);
DCHECK(fling_booster_);
fling_booster_->set_last_fling_animation_time(monotonic_time_sec);
if (fling_booster_->MustCancelDeferredFling()) {
CancelCurrentFling();
return;
}
client_->DidAnimateForInput();
if (!has_fling_animation_started_) {
has_fling_animation_started_ = true;
// Guard against invalid, future or sufficiently stale start times, as there
// are no guarantees fling event and animation timestamps are compatible.
if (!fling_parameters_.start_time ||
monotonic_time_sec <= fling_parameters_.start_time ||
monotonic_time_sec >= fling_parameters_.start_time +
kMaxSecondsFromFlingTimestampToFirstAnimate) {
fling_parameters_.start_time = monotonic_time_sec;
RequestAnimation();
return;
}
}
bool fling_is_active = fling_curve_->AdvanceAndApplyToTarget(
monotonic_time_sec - fling_parameters_.start_time, this);
if (disallow_vertical_fling_scroll_ && disallow_horizontal_fling_scroll_)
fling_is_active = false;
if (fling_is_active) {
RequestAnimation();
} else {
TRACE_EVENT_INSTANT0("input",
"InputHandlerProxy::animate::flingOver",
TRACE_EVENT_SCOPE_THREAD);
if (fling_parameters_.source_device !=
blink::kWebGestureDeviceSyntheticAutoscroll)
CancelCurrentFling();
}
}
void InputHandlerProxy::MainThreadHasStoppedFlinging() {
fling_may_be_active_on_main_thread_ = false;
client_->DidStopFlinging();
}
void InputHandlerProxy::ReconcileElasticOverscrollAndRootScroll() {
if (scroll_elasticity_controller_)
scroll_elasticity_controller_->ReconcileStretchAndScroll();
}
void InputHandlerProxy::UpdateRootLayerStateForSynchronousInputHandler(
const gfx::ScrollOffset& total_scroll_offset,
const gfx::ScrollOffset& max_scroll_offset,
const gfx::SizeF& scrollable_size,
float page_scale_factor,
float min_page_scale_factor,
float max_page_scale_factor) {
if (synchronous_input_handler_) {
synchronous_input_handler_->UpdateRootLayerState(
total_scroll_offset, max_scroll_offset, scrollable_size,
page_scale_factor, min_page_scale_factor, max_page_scale_factor);
}
}
void InputHandlerProxy::DeliverInputForBeginFrame() {
DispatchQueuedInputEvents();
}
void InputHandlerProxy::SetOnlySynchronouslyAnimateRootFlings(
SynchronousInputHandler* synchronous_input_handler) {
allow_root_animate_ = !synchronous_input_handler;
synchronous_input_handler_ = synchronous_input_handler;
if (synchronous_input_handler_)
input_handler_->RequestUpdateForSynchronousInputHandler();
}
void InputHandlerProxy::SynchronouslyAnimate(base::TimeTicks time) {
// When this function is used, SetOnlySynchronouslyAnimate() should have been
// previously called. IOW you should either be entirely in synchronous mode or
// not.
DCHECK(synchronous_input_handler_);
DCHECK(!allow_root_animate_);
base::AutoReset<bool> reset(&allow_root_animate_, true);
Animate(time);
}
void InputHandlerProxy::SynchronouslySetRootScrollOffset(
const gfx::ScrollOffset& root_offset) {
DCHECK(synchronous_input_handler_);
input_handler_->SetSynchronousInputHandlerRootScrollOffset(root_offset);
}
void InputHandlerProxy::SynchronouslyZoomBy(float magnify_delta,
const gfx::Point& anchor) {
DCHECK(synchronous_input_handler_);
input_handler_->PinchGestureBegin();
input_handler_->PinchGestureUpdate(magnify_delta, anchor);
input_handler_->PinchGestureEnd(anchor, false);
}
bool InputHandlerProxy::GetSnapFlingInfo(
const gfx::Vector2dF& natural_displacement,
gfx::Vector2dF* initial_offset,
gfx::Vector2dF* target_offset) const {
return input_handler_->GetSnapFlingInfo(natural_displacement, initial_offset,
target_offset);
}
gfx::Vector2dF InputHandlerProxy::ScrollByForSnapFling(
const gfx::Vector2dF& delta) {
cc::ScrollState scroll_state = CreateScrollStateForInertialUpdate(delta);
// TODO(sunyunjia): We should consider moving the scroll to main, handling
// overscroll, and handling elastic scroll after ScrollBy().
// https://crbug.com/819855
cc::InputHandlerScrollResult scroll_result =
input_handler_->ScrollBy(&scroll_state);
return scroll_result.current_offset;
}
void InputHandlerProxy::ScrollEndForSnapFling() {
cc::ScrollState scroll_state = CreateScrollStateForInertialEnd();
input_handler_->ScrollEnd(&scroll_state, false);
}
void InputHandlerProxy::RequestAnimationForSnapFling() {
RequestAnimation();
}
void InputHandlerProxy::HandleOverscroll(
const gfx::PointF& causal_event_viewport_point,
const cc::InputHandlerScrollResult& scroll_result,
bool bundle_overscroll_params_with_ack) {
DCHECK(client_);
if (!scroll_result.did_overscroll_root)
return;
TRACE_EVENT2("input",
"InputHandlerProxy::DidOverscroll",
"dx",
scroll_result.unused_scroll_delta.x(),
"dy",
scroll_result.unused_scroll_delta.y());
if (fling_curve_) {
static const int kFlingOverscrollThreshold = 1;
disallow_horizontal_fling_scroll_ |=
std::abs(scroll_result.accumulated_root_overscroll.x()) >=
kFlingOverscrollThreshold;
disallow_vertical_fling_scroll_ |=
std::abs(scroll_result.accumulated_root_overscroll.y()) >=
kFlingOverscrollThreshold;
}
if (bundle_overscroll_params_with_ack) {
// Bundle overscroll message with triggering event response, saving an IPC.
current_overscroll_params_.reset(new DidOverscrollParams());
current_overscroll_params_->accumulated_overscroll =
scroll_result.accumulated_root_overscroll;
current_overscroll_params_->latest_overscroll_delta =
scroll_result.unused_scroll_delta;
current_overscroll_params_->current_fling_velocity =
ToClientScrollIncrement(current_fling_velocity_);
current_overscroll_params_->causal_event_viewport_point =
causal_event_viewport_point;
current_overscroll_params_->overscroll_behavior =
scroll_result.overscroll_behavior;
return;
}
client_->DidOverscroll(scroll_result.accumulated_root_overscroll,
scroll_result.unused_scroll_delta,
ToClientScrollIncrement(current_fling_velocity_),
causal_event_viewport_point,
scroll_result.overscroll_behavior);
}
bool InputHandlerProxy::CancelCurrentFling() {
if (CancelCurrentFlingWithoutNotifyingClient()) {
client_->DidStopFlinging();
return true;
}
return false;
}
bool InputHandlerProxy::CancelCurrentFlingWithoutNotifyingClient() {
bool had_fling_animation = !!fling_curve_;
if (had_fling_animation &&
fling_parameters_.source_device == blink::kWebGestureDeviceTouchscreen) {
cc::ScrollStateData scroll_state_data;
scroll_state_data.is_ending = true;
cc::ScrollState scroll_state(scroll_state_data);
input_handler_->ScrollEnd(&scroll_state, false);
TRACE_EVENT_ASYNC_END0(
"input",
"InputHandlerProxy::HandleGestureFling::started",
this);
}
TRACE_EVENT_INSTANT1("input",
"InputHandlerProxy::CancelCurrentFling",
TRACE_EVENT_SCOPE_THREAD,
"had_fling_animation",
had_fling_animation);
fling_curve_.reset();
has_fling_animation_started_ = false;
gesture_scroll_on_impl_thread_ = false;
current_fling_velocity_ = gfx::Vector2dF();
fling_parameters_ = blink::WebActiveFlingParameters();
if (fling_booster_) {
if (fling_booster_->fling_cancellation_is_deferred()) {
WebGestureEvent last_fling_boost_event =
fling_booster_->last_boost_event();
fling_booster_.reset();
if (last_fling_boost_event.GetType() ==
WebInputEvent::kGestureScrollBegin ||
last_fling_boost_event.GetType() ==
WebInputEvent::kGestureScrollUpdate) {
// Synthesize a GestureScrollBegin, as the original was suppressed.
HandleInputEvent(ObtainGestureScrollBegin(last_fling_boost_event));
}
} else {
fling_booster_.reset();
}
}
return had_fling_animation;
}
void InputHandlerProxy::RequestAnimation() {
// When a SynchronousInputHandler is present, root flings should go through
// it to allow it to control when or if the root fling is animated. Non-root
// flings always go through the normal InputHandler.
if (synchronous_input_handler_ &&
input_handler_->IsCurrentlyScrollingViewport())
synchronous_input_handler_->SetNeedsSynchronousAnimateInput();
else
input_handler_->SetNeedsAnimateInput();
}
bool InputHandlerProxy::ScrollBy(const WebFloatSize& increment,
const WebFloatSize& velocity) {
WebFloatSize clipped_increment;
WebFloatSize clipped_velocity;
if (!disallow_horizontal_fling_scroll_) {
clipped_increment.width = increment.width;
clipped_velocity.width = velocity.width;
}
if (!disallow_vertical_fling_scroll_) {
clipped_increment.height = increment.height;
clipped_velocity.height = velocity.height;
}
current_fling_velocity_ = clipped_velocity;
DCHECK(fling_booster_);
if (fling_booster_)
fling_booster_->set_current_fling_velocity(current_fling_velocity_);
// Early out if the increment is zero, but avoid early termination if the
// velocity is still non-zero.
if (clipped_increment == WebFloatSize())
return clipped_velocity != WebFloatSize();
TRACE_EVENT2("input",
"InputHandlerProxy::scrollBy",
"x",
clipped_increment.width,
"y",
clipped_increment.height);
bool did_scroll = false;
switch (fling_parameters_.source_device) {
case blink::kWebGestureDeviceSyntheticAutoscroll: {
clipped_increment = ToClientScrollIncrement(clipped_increment);
cc::ScrollStateData scroll_state_data;
scroll_state_data.delta_x = clipped_increment.width;
scroll_state_data.delta_y = clipped_increment.height;
scroll_state_data.velocity_x = clipped_velocity.width;
scroll_state_data.velocity_y = clipped_velocity.height;
scroll_state_data.is_in_inertial_phase = true;
cc::ScrollState scroll_state(scroll_state_data);
cc::InputHandlerScrollResult scroll_result =
input_handler_->ScrollBy(&scroll_state);
HandleOverscroll(fling_parameters_.point, scroll_result, false);
did_scroll = scroll_result.did_scroll;
} break;
case blink::kWebGestureDeviceTouchscreen:
case blink::kWebGestureDeviceTouchpad:
case blink::kWebGestureDeviceUninitialized:
case blink::kWebGestureDeviceCount:
NOTREACHED();
return false;
}
if (did_scroll) {
fling_parameters_.cumulative_scroll.width += clipped_increment.width;
fling_parameters_.cumulative_scroll.height += clipped_increment.height;
}
// It's possible the provided |increment| is sufficiently small as to not
// trigger a scroll, e.g., with a trivial time delta between fling updates.
// Return true in this case to prevent early fling termination.
if (std::abs(clipped_increment.width) < kScrollEpsilon &&
std::abs(clipped_increment.height) < kScrollEpsilon)
return true;
return did_scroll;
}
void InputHandlerProxy::HandleScrollElasticityOverscroll(
const WebGestureEvent& gesture_event,
const cc::InputHandlerScrollResult& scroll_result) {
DCHECK(scroll_elasticity_controller_);
// Send the event and its disposition to the elasticity controller to update
// the over-scroll animation. Note that the call to the elasticity controller
// is made asynchronously, to minimize divergence between main thread and
// impl thread event handling paths.
base::ThreadTaskRunnerHandle::Get()->PostTask(
FROM_HERE,
base::BindOnce(
&InputScrollElasticityController::ObserveGestureEventAndResult,
scroll_elasticity_controller_->GetWeakPtr(), gesture_event,
scroll_result));
}
void InputHandlerProxy::SetTickClockForTesting(base::TickClock* tick_clock) {
tick_clock_ = tick_clock;
}
void InputHandlerProxy::UpdateCurrentFlingState(
const WebGestureEvent& fling_start_event,
const gfx::Vector2dF& velocity) {
DCHECK_EQ(WebInputEvent::kGestureFlingStart, fling_start_event.GetType());
// Flings with touchpad and touchscreen source devices are handled on browser.
DCHECK(fling_start_event.SourceDevice() != blink::kWebGestureDeviceTouchpad &&
fling_start_event.SourceDevice() !=
blink::kWebGestureDeviceTouchscreen);
current_fling_velocity_ = velocity;
fling_curve_ = client_->CreateFlingAnimationCurve(
fling_start_event.SourceDevice(),
WebFloatPoint(velocity.x(), velocity.y()), blink::WebSize());
disallow_horizontal_fling_scroll_ = !velocity.x();
disallow_vertical_fling_scroll_ = !velocity.y();
fling_parameters_.start_time = fling_start_event.TimeStampSeconds();
fling_parameters_.delta = WebFloatPoint(velocity.x(), velocity.y());
fling_parameters_.point = fling_start_event.PositionInWidget();
fling_parameters_.global_point = fling_start_event.PositionInScreen();
fling_parameters_.modifiers = fling_start_event.GetModifiers();
fling_parameters_.source_device = fling_start_event.SourceDevice();
}
} // namespace ui