ui/events/gestures/gesture_provider_aura.cc - chromium/src - Git at Google

 // 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/events/gestures/gesture_provider_aura.h"

 #include "base/auto_reset.h"
 #include "base/logging.h"
 #include "ui/events/event.h"
 #include "ui/events/gesture_detection/gesture_configuration.h"
 #include "ui/events/gesture_detection/gesture_event_data.h"
 #include "ui/events/gesture_detection/gesture_provider_config_helper.h"

 namespace ui {

 GestureProviderAura::GestureProviderAura(GestureProviderAuraClient* client)
     : client_(client),
       filtered_gesture_provider_(DefaultGestureProviderConfig(), this),
       handling_event_(false) {
   filtered_gesture_provider_.SetDoubleTapSupportForPlatformEnabled(false);
 }

 GestureProviderAura::~GestureProviderAura() {}

 bool GestureProviderAura::OnTouchEvent(const TouchEvent& event) {
   int index = pointer_state_.FindPointerIndexOfId(event.touch_id());
   bool pointer_id_is_active = index != -1;

   if (event.type() == ET_TOUCH_PRESSED && pointer_id_is_active) {
     // Ignore touch press events if we already believe the pointer is down.
     return false;
   } else if (event.type() != ET_TOUCH_PRESSED && !pointer_id_is_active) {
     // We could have an active touch stream transfered to us, resulting in touch
     // move or touch up events without associated touch down events. Ignore
     // them.
     return false;
   }

   // If this is a touchmove event, and it isn't different from the last
   // event, ignore it.
   if (event.type() == ET_TOUCH_MOVED &&
       event.x() == pointer_state_.GetX(index) &&
       event.y() == pointer_state_.GetY(index)) {
     return false;
   }

   last_touch_event_latency_info_ = *event.latency();
   pointer_state_.OnTouch(event);

   bool result = filtered_gesture_provider_.OnTouchEvent(pointer_state_);
   pointer_state_.CleanupRemovedTouchPoints(event);
   return result;
 }

 void GestureProviderAura::OnTouchEventAck(bool event_consumed) {
   DCHECK(pending_gestures_.empty());
   DCHECK(!handling_event_);
   base::AutoReset<bool> handling_event(&handling_event_, true);
   filtered_gesture_provider_.OnTouchEventAck(event_consumed);
   last_touch_event_latency_info_.Clear();
 }

 void GestureProviderAura::OnGestureEvent(
     const GestureEventData& gesture) {
   GestureEventDetails details = gesture.details;
   details.set_oldest_touch_id(gesture.motion_event_id);

   if (gesture.type() == ET_GESTURE_TAP) {
     int tap_count = 1;
     if (previous_tap_ && IsConsideredDoubleTap(*previous_tap_, gesture))
       tap_count = 1 + (previous_tap_->details.tap_count() % 3);
     details.set_tap_count(tap_count);
     if (!previous_tap_)
       previous_tap_.reset(new GestureEventData(gesture));
     else
       *previous_tap_ = gesture;
     previous_tap_->details = details;
   } else if (gesture.type() == ET_GESTURE_TAP_CANCEL) {
     previous_tap_.reset();
   }

   scoped_ptr<ui::GestureEvent> event(
       new ui::GestureEvent(gesture.x,
                            gesture.y,
                            gesture.flags,
                            gesture.time - base::TimeTicks(),
                            details));

   ui::LatencyInfo* gesture_latency = event->latency();

   gesture_latency->CopyLatencyFrom(
       last_touch_event_latency_info_,
       ui::INPUT_EVENT_LATENCY_ORIGINAL_COMPONENT);
   gesture_latency->CopyLatencyFrom(
       last_touch_event_latency_info_,
       ui::INPUT_EVENT_LATENCY_UI_COMPONENT);
   gesture_latency->CopyLatencyFrom(
       last_touch_event_latency_info_,
       ui::INPUT_EVENT_LATENCY_ACK_RWH_COMPONENT);

   if (!handling_event_) {
     // Dispatching event caused by timer.
     client_->OnGestureEvent(event.get());
   } else {
     // Memory managed by ScopedVector pending_gestures_.
     pending_gestures_.push_back(event.release());
   }
 }

 ScopedVector<GestureEvent>* GestureProviderAura::GetAndResetPendingGestures() {
   if (pending_gestures_.empty())
     return NULL;
   // Caller is responsible for deleting old_pending_gestures.
   ScopedVector<GestureEvent>* old_pending_gestures =
       new ScopedVector<GestureEvent>();
   old_pending_gestures->swap(pending_gestures_);
   return old_pending_gestures;
 }

 bool GestureProviderAura::IsConsideredDoubleTap(
     const GestureEventData& previous_tap,
     const GestureEventData& current_tap) const {
   if (current_tap.time - previous_tap.time >
       base::TimeDelta::FromMilliseconds(
           GestureConfiguration::GetInstance()
               ->max_time_between_double_click_in_ms())) {
     return false;
   }

   float double_tap_slop_square =
       GestureConfiguration::GetInstance()
           ->max_distance_between_taps_for_double_tap();
   double_tap_slop_square *= double_tap_slop_square;
   const float delta_x = previous_tap.x - current_tap.x;
   const float delta_y = previous_tap.y - current_tap.y;
   return (delta_x * delta_x + delta_y * delta_y < double_tap_slop_square);
 }

 }  // namespace content
	// 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/events/gestures/gesture_provider_aura.h"

	#include "base/auto_reset.h"
	#include "base/logging.h"
	#include "ui/events/event.h"
	#include "ui/events/gesture_detection/gesture_configuration.h"
	#include "ui/events/gesture_detection/gesture_event_data.h"
	#include "ui/events/gesture_detection/gesture_provider_config_helper.h"

	namespace ui {

	GestureProviderAura::GestureProviderAura(GestureProviderAuraClient* client)
	: client_(client),
	filtered_gesture_provider_(DefaultGestureProviderConfig(), this),
	handling_event_(false) {
	filtered_gesture_provider_.SetDoubleTapSupportForPlatformEnabled(false);
	}

	GestureProviderAura::~GestureProviderAura() {}

	bool GestureProviderAura::OnTouchEvent(const TouchEvent& event) {
	int index = pointer_state_.FindPointerIndexOfId(event.touch_id());
	bool pointer_id_is_active = index != -1;

	if (event.type() == ET_TOUCH_PRESSED && pointer_id_is_active) {
	// Ignore touch press events if we already believe the pointer is down.
	return false;
	} else if (event.type() != ET_TOUCH_PRESSED && !pointer_id_is_active) {
	// We could have an active touch stream transfered to us, resulting in touch
	// move or touch up events without associated touch down events. Ignore
	// them.
	return false;
	}

	// If this is a touchmove event, and it isn't different from the last
	// event, ignore it.
	if (event.type() == ET_TOUCH_MOVED &&
	event.x() == pointer_state_.GetX(index) &&
	event.y() == pointer_state_.GetY(index)) {
	return false;
	}

	last_touch_event_latency_info_ = *event.latency();
	pointer_state_.OnTouch(event);

	bool result = filtered_gesture_provider_.OnTouchEvent(pointer_state_);
	pointer_state_.CleanupRemovedTouchPoints(event);
	return result;
	}

	void GestureProviderAura::OnTouchEventAck(bool event_consumed) {
	DCHECK(pending_gestures_.empty());
	DCHECK(!handling_event_);
	base::AutoReset<bool> handling_event(&handling_event_, true);
	filtered_gesture_provider_.OnTouchEventAck(event_consumed);
	last_touch_event_latency_info_.Clear();
	}

	void GestureProviderAura::OnGestureEvent(
	const GestureEventData& gesture) {
	GestureEventDetails details = gesture.details;
	details.set_oldest_touch_id(gesture.motion_event_id);

	if (gesture.type() == ET_GESTURE_TAP) {
	int tap_count = 1;
	if (previous_tap_ && IsConsideredDoubleTap(*previous_tap_, gesture))
	tap_count = 1 + (previous_tap_->details.tap_count() % 3);
	details.set_tap_count(tap_count);
	if (!previous_tap_)
	previous_tap_.reset(new GestureEventData(gesture));
	else
	*previous_tap_ = gesture;
	previous_tap_->details = details;
	} else if (gesture.type() == ET_GESTURE_TAP_CANCEL) {
	previous_tap_.reset();
	}

	scoped_ptr<ui::GestureEvent> event(
	new ui::GestureEvent(gesture.x,
	gesture.y,
	gesture.flags,
	gesture.time - base::TimeTicks(),
	details));

	ui::LatencyInfo* gesture_latency = event->latency();

	gesture_latency->CopyLatencyFrom(
	last_touch_event_latency_info_,
	ui::INPUT_EVENT_LATENCY_ORIGINAL_COMPONENT);
	gesture_latency->CopyLatencyFrom(
	last_touch_event_latency_info_,
	ui::INPUT_EVENT_LATENCY_UI_COMPONENT);
	gesture_latency->CopyLatencyFrom(
	last_touch_event_latency_info_,
	ui::INPUT_EVENT_LATENCY_ACK_RWH_COMPONENT);

	if (!handling_event_) {
	// Dispatching event caused by timer.
	client_->OnGestureEvent(event.get());
	} else {
	// Memory managed by ScopedVector pending_gestures_.
	pending_gestures_.push_back(event.release());
	}
	}

	ScopedVector<GestureEvent>* GestureProviderAura::GetAndResetPendingGestures() {
	if (pending_gestures_.empty())
	return NULL;
	// Caller is responsible for deleting old_pending_gestures.
	ScopedVector<GestureEvent>* old_pending_gestures =
	new ScopedVector<GestureEvent>();
	old_pending_gestures->swap(pending_gestures_);
	return old_pending_gestures;
	}

	bool GestureProviderAura::IsConsideredDoubleTap(
	const GestureEventData& previous_tap,
	const GestureEventData& current_tap) const {
	if (current_tap.time - previous_tap.time >
	base::TimeDelta::FromMilliseconds(
	GestureConfiguration::GetInstance()
	->max_time_between_double_click_in_ms())) {
	return false;
	}

	float double_tap_slop_square =
	GestureConfiguration::GetInstance()
	->max_distance_between_taps_for_double_tap();
	double_tap_slop_square *= double_tap_slop_square;
	const float delta_x = previous_tap.x - current_tap.x;
	const float delta_y = previous_tap.y - current_tap.y;
	return (delta_x * delta_x + delta_y * delta_y < double_tap_slop_square);
	}

	} // namespace content