Source/WebCore/platform/ScrollAnimationKinetic.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2016 Igalia S.L.
  * Copyright (C) 2021 Apple Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
  * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
  * THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "config.h"
 #include "ScrollAnimationKinetic.h"

 #include "PlatformWheelEvent.h"
 #include "ScrollExtents.h"
 #include <wtf/text/TextStream.h>

 /*
  * PerAxisData is a port of GtkKineticScrolling as of GTK+ 3.20,
  * mimicking its API and its behavior.
  *
  * All our curves are second degree linear differential equations, and
  * so they can always be written as linear combinations of 2 base
  * solutions. coef1 and coef2 are the coefficients to these two base
  * solutions, and are computed from the initial position and velocity.
  *
  * In the case of simple deceleration, the differential equation is
  *
  *   y'' = -my'
  *
  * With m the resistence factor. For this we use the following 2
  * base solutions:
  *
  *   f1(x) = 1
  *   f2(x) = exp(-mx)
  *
  * In the case of overshoot, the differential equation is
  *
  *   y'' = -my' - ky
  *
  * With m the resistance, and k the spring stiffness constant. We let
  * k = m^2 / 4, so that the system is critically damped (ie, returns to its
  * equilibrium position as quickly as possible, without oscillating), and offset
  * the whole thing, such that the equilibrium position is at 0. This gives the
  * base solutions
  *
  *   f1(x) = exp(-mx / 2)
  *   f2(x) = t exp(-mx / 2)
  */

 static constexpr double decelFriction = 4;
 static constexpr double velocityAccumulationFloor = 0.33;
 static constexpr double velocityAccumulationCeil = 1.0;
 static constexpr double velocityAccumulationMax = 6.0;
 static constexpr Seconds scrollCaptureThreshold { 150_ms };

 namespace WebCore {

 ScrollAnimationKinetic::PerAxisData::PerAxisData(double lower, double upper, double initialOffset, double initialVelocity)
     : m_lower(lower)
     , m_upper(upper)
     , m_coef1(initialVelocity / decelFriction + initialOffset)
     , m_coef2(-initialVelocity / decelFriction)
     , m_offset(clampTo(initialOffset, lower, upper))
     , m_velocity(initialOffset < lower || initialOffset > upper ? 0 : initialVelocity)
 {
 }

 bool ScrollAnimationKinetic::PerAxisData::animateScroll(Seconds elapsedTime)
 {
     auto lastOffset = m_offset;
     auto lastTime = m_elapsedTime;
     m_elapsedTime = elapsedTime;

     double exponentialPart = exp(-decelFriction * m_elapsedTime.value());
     m_offset = m_coef1 + m_coef2 * exponentialPart;
     m_velocity = -decelFriction * m_coef2 * exponentialPart;

     if (m_offset < m_lower) {
         m_velocity = m_lower - m_offset;
         m_offset = m_lower;
     } else if (m_offset > m_upper) {
         m_velocity = m_upper - m_offset;
         m_offset = m_upper;
     }

     if (fabs(m_velocity) < 1 || (lastTime > 0_s && fabs(m_offset - lastOffset) < 1)) {
         m_offset = round(m_offset);
         m_velocity = 0;
     }

     return m_velocity;
 }

 ScrollAnimationKinetic::ScrollAnimationKinetic(ScrollAnimationClient& client)
     : ScrollAnimation(Type::Kinetic, client)
 {
 }

 ScrollAnimationKinetic::~ScrollAnimationKinetic() = default;

 void ScrollAnimationKinetic::appendToScrollHistory(const PlatformWheelEvent& event)
 {
     m_scrollHistory.removeAllMatching([&event] (PlatformWheelEvent& otherEvent) -> bool {
         return (event.timestamp() - otherEvent.timestamp()) > scrollCaptureThreshold;
     });

     m_scrollHistory.append(event);
 }

 void ScrollAnimationKinetic::clearScrollHistory()
 {
     m_scrollHistory.clear();
 }

 FloatSize ScrollAnimationKinetic::computeVelocity()
 {
     if (m_scrollHistory.isEmpty())
         return { };

     auto first = m_scrollHistory[0].timestamp();
     auto last = m_scrollHistory.rbegin()->timestamp();

     if (last == first)
         return { };

     FloatPoint accumDelta;
     for (const auto& scrollEvent : m_scrollHistory)
         accumDelta += FloatPoint(scrollEvent.deltaX(), scrollEvent.deltaY());

     // FIXME: It's odd that computeVelocity() has the side effect of clearing history.
     m_scrollHistory.clear();

     return FloatSize(accumDelta.x() * -1 / (last - first).value(), accumDelta.y() * -1 / (last - first).value());
 }

 bool ScrollAnimationKinetic::startAnimatedScrollWithInitialVelocity(const FloatPoint& initialOffset, const FloatSize& velocity, bool mayHScroll, bool mayVScroll)
 {
     stop();

     if (velocity.isZero()) {
         m_horizontalData = std::nullopt;
         m_verticalData = std::nullopt;
         return false;
     }

     auto elapsedTime = 0_s;
     auto extents = m_client.scrollExtentsForAnimation(*this);

     auto accumulateVelocity = [&](double velocity, std::optional<PerAxisData> axisData) -> double {
         if (axisData && axisData.value().animateScroll(elapsedTime)) {
             double lastVelocity = axisData.value().velocity();
             if ((std::signbit(lastVelocity) == std::signbit(velocity))
                 && (std::abs(velocity) >= std::abs(lastVelocity * velocityAccumulationFloor))) {
                 double minVelocity = lastVelocity * velocityAccumulationFloor;
                 double maxVelocity = lastVelocity * velocityAccumulationCeil;
                 double accumulationMultiplier = (velocity - minVelocity) / (maxVelocity - minVelocity);
                 velocity += lastVelocity * std::min(accumulationMultiplier, velocityAccumulationMax);
             }
         }

         return velocity;
     };

     if (mayHScroll) {
         m_horizontalData = PerAxisData(extents.minimumScrollOffset().x(),
             extents.maximumScrollOffset().x(),
             initialOffset.x(), accumulateVelocity(velocity.width(), m_horizontalData));
     } else
         m_horizontalData = std::nullopt;

     if (mayVScroll) {
         m_verticalData = PerAxisData(extents.minimumScrollOffset().y(),
             extents.maximumScrollOffset().y(),
             initialOffset.y(), accumulateVelocity(velocity.height(), m_verticalData));
     } else
         m_verticalData = std::nullopt;

     m_currentOffset = initialOffset;
     didStart(MonotonicTime::now());
     return true;
 }

 bool ScrollAnimationKinetic::retargetActiveAnimation(const FloatPoint&)
 {
     if (!isActive())
         return false;

     // FIXME: Implement retargeting.
     return false;
 }

 void ScrollAnimationKinetic::serviceAnimation(MonotonicTime currentTime)
 {
     auto elapsedTime = timeSinceStart(currentTime);

     if (m_horizontalData && !m_horizontalData.value().animateScroll(elapsedTime))
         m_horizontalData = std::nullopt;

     if (m_verticalData && !m_verticalData.value().animateScroll(elapsedTime))
         m_verticalData = std::nullopt;

     double x = m_horizontalData ? m_horizontalData.value().offset() : m_currentOffset.x();
     double y = m_verticalData ? m_verticalData.value().offset() : m_currentOffset.y();
     m_currentOffset = FloatPoint(x, y);
     m_client.scrollAnimationDidUpdate(*this, m_currentOffset);

     if (!m_horizontalData && !m_verticalData)
         didEnd();
 }

 String ScrollAnimationKinetic::debugDescription() const
 {
     TextStream textStream;
     textStream << "ScrollAnimationKinetic " << this << " active " << isActive() << " current offset " << currentOffset();
     return textStream.release();
 }


 } // namespace WebCore
	/*
	* Copyright (C) 2016 Igalia S.L.
	* Copyright (C) 2021 Apple Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
	* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
	* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
	* THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "config.h"
	#include "ScrollAnimationKinetic.h"

	#include "PlatformWheelEvent.h"
	#include "ScrollExtents.h"
	#include <wtf/text/TextStream.h>

	/*
	* PerAxisData is a port of GtkKineticScrolling as of GTK+ 3.20,
	* mimicking its API and its behavior.
	*
	* All our curves are second degree linear differential equations, and
	* so they can always be written as linear combinations of 2 base
	* solutions. coef1 and coef2 are the coefficients to these two base
	* solutions, and are computed from the initial position and velocity.
	*
	* In the case of simple deceleration, the differential equation is
	*
	* y'' = -my'
	*
	* With m the resistence factor. For this we use the following 2
	* base solutions:
	*
	* f1(x) = 1
	* f2(x) = exp(-mx)
	*
	* In the case of overshoot, the differential equation is
	*
	* y'' = -my' - ky
	*
	* With m the resistance, and k the spring stiffness constant. We let
	* k = m^2 / 4, so that the system is critically damped (ie, returns to its
	* equilibrium position as quickly as possible, without oscillating), and offset
	* the whole thing, such that the equilibrium position is at 0. This gives the
	* base solutions
	*
	* f1(x) = exp(-mx / 2)
	* f2(x) = t exp(-mx / 2)
	*/

	static constexpr double decelFriction = 4;
	static constexpr double velocityAccumulationFloor = 0.33;
	static constexpr double velocityAccumulationCeil = 1.0;
	static constexpr double velocityAccumulationMax = 6.0;
	static constexpr Seconds scrollCaptureThreshold { 150_ms };

	namespace WebCore {

	ScrollAnimationKinetic::PerAxisData::PerAxisData(double lower, double upper, double initialOffset, double initialVelocity)
	: m_lower(lower)
	, m_upper(upper)
	, m_coef1(initialVelocity / decelFriction + initialOffset)
	, m_coef2(-initialVelocity / decelFriction)
	, m_offset(clampTo(initialOffset, lower, upper))
	, m_velocity(initialOffset < lower \|\| initialOffset > upper ? 0 : initialVelocity)
	{
	}

	bool ScrollAnimationKinetic::PerAxisData::animateScroll(Seconds elapsedTime)
	{
	auto lastOffset = m_offset;
	auto lastTime = m_elapsedTime;
	m_elapsedTime = elapsedTime;

	double exponentialPart = exp(-decelFriction * m_elapsedTime.value());
	m_offset = m_coef1 + m_coef2 * exponentialPart;
	m_velocity = -decelFriction * m_coef2 * exponentialPart;

	if (m_offset < m_lower) {
	m_velocity = m_lower - m_offset;
	m_offset = m_lower;
	} else if (m_offset > m_upper) {
	m_velocity = m_upper - m_offset;
	m_offset = m_upper;
	}

	if (fabs(m_velocity) < 1 \|\| (lastTime > 0_s && fabs(m_offset - lastOffset) < 1)) {
	m_offset = round(m_offset);
	m_velocity = 0;
	}

	return m_velocity;
	}

	ScrollAnimationKinetic::ScrollAnimationKinetic(ScrollAnimationClient& client)
	: ScrollAnimation(Type::Kinetic, client)
	{
	}

	ScrollAnimationKinetic::~ScrollAnimationKinetic() = default;

	void ScrollAnimationKinetic::appendToScrollHistory(const PlatformWheelEvent& event)
	{
	m_scrollHistory.removeAllMatching([&event] (PlatformWheelEvent& otherEvent) -> bool {
	return (event.timestamp() - otherEvent.timestamp()) > scrollCaptureThreshold;
	});

	m_scrollHistory.append(event);
	}

	void ScrollAnimationKinetic::clearScrollHistory()
	{
	m_scrollHistory.clear();
	}

	FloatSize ScrollAnimationKinetic::computeVelocity()
	{
	if (m_scrollHistory.isEmpty())
	return { };

	auto first = m_scrollHistory[0].timestamp();
	auto last = m_scrollHistory.rbegin()->timestamp();

	if (last == first)
	return { };

	FloatPoint accumDelta;
	for (const auto& scrollEvent : m_scrollHistory)
	accumDelta += FloatPoint(scrollEvent.deltaX(), scrollEvent.deltaY());

	// FIXME: It's odd that computeVelocity() has the side effect of clearing history.
	m_scrollHistory.clear();

	return FloatSize(accumDelta.x() * -1 / (last - first).value(), accumDelta.y() * -1 / (last - first).value());
	}

	bool ScrollAnimationKinetic::startAnimatedScrollWithInitialVelocity(const FloatPoint& initialOffset, const FloatSize& velocity, bool mayHScroll, bool mayVScroll)
	{
	stop();

	if (velocity.isZero()) {
	m_horizontalData = std::nullopt;
	m_verticalData = std::nullopt;
	return false;
	}

	auto elapsedTime = 0_s;
	auto extents = m_client.scrollExtentsForAnimation(*this);

	auto accumulateVelocity = [&](double velocity, std::optional<PerAxisData> axisData) -> double {
	if (axisData && axisData.value().animateScroll(elapsedTime)) {
	double lastVelocity = axisData.value().velocity();
	if ((std::signbit(lastVelocity) == std::signbit(velocity))
	&& (std::abs(velocity) >= std::abs(lastVelocity * velocityAccumulationFloor))) {
	double minVelocity = lastVelocity * velocityAccumulationFloor;
	double maxVelocity = lastVelocity * velocityAccumulationCeil;
	double accumulationMultiplier = (velocity - minVelocity) / (maxVelocity - minVelocity);
	velocity += lastVelocity * std::min(accumulationMultiplier, velocityAccumulationMax);
	}
	}

	return velocity;
	};

	if (mayHScroll) {
	m_horizontalData = PerAxisData(extents.minimumScrollOffset().x(),
	extents.maximumScrollOffset().x(),
	initialOffset.x(), accumulateVelocity(velocity.width(), m_horizontalData));
	} else
	m_horizontalData = std::nullopt;

	if (mayVScroll) {
	m_verticalData = PerAxisData(extents.minimumScrollOffset().y(),
	extents.maximumScrollOffset().y(),
	initialOffset.y(), accumulateVelocity(velocity.height(), m_verticalData));
	} else
	m_verticalData = std::nullopt;

	m_currentOffset = initialOffset;
	didStart(MonotonicTime::now());
	return true;
	}

	bool ScrollAnimationKinetic::retargetActiveAnimation(const FloatPoint&)
	{
	if (!isActive())
	return false;

	// FIXME: Implement retargeting.
	return false;
	}

	void ScrollAnimationKinetic::serviceAnimation(MonotonicTime currentTime)
	{
	auto elapsedTime = timeSinceStart(currentTime);

	if (m_horizontalData && !m_horizontalData.value().animateScroll(elapsedTime))
	m_horizontalData = std::nullopt;

	if (m_verticalData && !m_verticalData.value().animateScroll(elapsedTime))
	m_verticalData = std::nullopt;

	double x = m_horizontalData ? m_horizontalData.value().offset() : m_currentOffset.x();
	double y = m_verticalData ? m_verticalData.value().offset() : m_currentOffset.y();
	m_currentOffset = FloatPoint(x, y);
	m_client.scrollAnimationDidUpdate(*this, m_currentOffset);

	if (!m_horizontalData && !m_verticalData)
	didEnd();
	}

	String ScrollAnimationKinetic::debugDescription() const
	{
	TextStream textStream;
	textStream << "ScrollAnimationKinetic " << this << " active " << isActive() << " current offset " << currentOffset();
	return textStream.release();
	}


	} // namespace WebCore