gecko/gfx/layers/ipc/Axis.cpp

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set sw=4 ts=8 et tw=80 : */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "Axis.h"
#include "AsyncPanZoomController.h"
namespace mozilla {
namespace layers {
static const float EPSILON = 0.0001f;
/**
* Maximum acceleration that can happen between two frames. Velocity is
* throttled if it's above this. This may happen if a time delta is very low,
* or we get a touch point very far away from the previous position for some
* reason.
*/
static const float MAX_EVENT_ACCELERATION = 0.5f;
/**
* Amount of friction applied during flings.
*/
static const float FLING_FRICTION = 0.013f;
/**
* Threshold for velocity beneath which we turn off any acceleration we had
* during repeated flings.
*/
static const float VELOCITY_THRESHOLD = 0.1f;
/**
* Amount of acceleration we multiply in each time the user flings in one
* direction. Every time they let go of the screen, we increase the acceleration
* by this amount raised to the power of the amount of times they have let go,
* times two (to make the curve steeper). This stops if the user lets go and we
* slow down enough, or if they put their finger down without moving it for a
* moment (or in the opposite direction).
*/
static const float ACCELERATION_MULTIPLIER = 1.125f;
/**
* When flinging, if the velocity goes below this number, we just stop the
* animation completely. This is to prevent asymptotically approaching 0
* velocity and rerendering unnecessarily.
*/
static const float FLING_STOPPED_THRESHOLD = 0.01f;
Axis::Axis(AsyncPanZoomController* aAsyncPanZoomController)
: mPos(0.0f),
mVelocity(0.0f),
mAcceleration(0),
mAsyncPanZoomController(aAsyncPanZoomController),
mLockPanning(false)
{
}
void Axis::UpdateWithTouchAtDevicePoint(PRInt32 aPos, const TimeDuration& aTimeDelta) {
if (mLockPanning) {
return;
}
float newVelocity = (mPos - aPos) / aTimeDelta.ToMilliseconds();
bool curVelocityIsLow = fabsf(newVelocity) < 0.01f;
bool curVelocityBelowThreshold = fabsf(newVelocity) < VELOCITY_THRESHOLD;
bool directionChange = (mVelocity > 0) != (newVelocity > 0);
// If we've changed directions, or the current velocity threshold, stop any
// acceleration we've accumulated.
if (directionChange || curVelocityBelowThreshold) {
mAcceleration = 0;
}
// If a direction change has happened, or the current velocity due to this new
// touch is relatively low, then just apply it. If not, throttle it.
if (curVelocityIsLow || (directionChange && fabs(newVelocity) - EPSILON <= 0.0f)) {
mVelocity = newVelocity;
} else {
float maxChange = fabsf(mVelocity * aTimeDelta.ToMilliseconds() * MAX_EVENT_ACCELERATION);
mVelocity = NS_MIN(mVelocity + maxChange, NS_MAX(mVelocity - maxChange, newVelocity));
}
mVelocity = newVelocity;
mPos = aPos;
}
void Axis::StartTouch(PRInt32 aPos) {
mStartPos = aPos;
mPos = aPos;
mLockPanning = false;
}
PRInt32 Axis::GetDisplacementForDuration(float aScale, const TimeDuration& aDelta) {
float velocityFactor = powf(ACCELERATION_MULTIPLIER,
NS_MAX(0, (mAcceleration - 4) * 3));
PRInt32 displacement = NS_lround(mVelocity * aScale * aDelta.ToMilliseconds() * velocityFactor);
// If this displacement will cause an overscroll, throttle it. Can potentially
// bring it to 0 even if the velocity is high.
if (DisplacementWillOverscroll(displacement) != OVERSCROLL_NONE) {
// No need to have a velocity along this axis anymore; it won't take us
// anywhere, so we're just spinning needlessly.
mVelocity = 0.0f;
displacement -= DisplacementWillOverscrollAmount(displacement);
}
return displacement;
}
float Axis::PanDistance() {
return fabsf(mPos - mStartPos);
}
void Axis::EndTouch() {
mAcceleration++;
}
void Axis::CancelTouch() {
mVelocity = 0.0f;
mAcceleration = 0;
}
void Axis::LockPanning() {
mLockPanning = true;
}
bool Axis::FlingApplyFrictionOrCancel(const TimeDuration& aDelta) {
if (fabsf(mVelocity) <= FLING_STOPPED_THRESHOLD) {
// If the velocity is very low, just set it to 0 and stop the fling,
// otherwise we'll just asymptotically approach 0 and the user won't
// actually see any changes.
mVelocity = 0.0f;
return false;
} else {
mVelocity *= NS_MAX(1.0f - FLING_FRICTION * aDelta.ToMilliseconds(), 0.0);
}
return true;
}
Axis::Overscroll Axis::GetOverscroll() {
// If the current pan takes the viewport to the left of or above the current
// page rect.
bool minus = GetOrigin() < GetPageStart();
// If the current pan takes the viewport to the right of or below the current
// page rect.
bool plus = GetViewportEnd() > GetPageEnd();
if (minus && plus) {
return OVERSCROLL_BOTH;
}
if (minus) {
return OVERSCROLL_MINUS;
}
if (plus) {
return OVERSCROLL_PLUS;
}
return OVERSCROLL_NONE;
}
PRInt32 Axis::GetExcess() {
switch (GetOverscroll()) {
case OVERSCROLL_MINUS: return GetOrigin() - GetPageStart();
case OVERSCROLL_PLUS: return GetViewportEnd() - GetPageEnd();
case OVERSCROLL_BOTH: return (GetViewportEnd() - GetPageEnd()) + (GetPageStart() - GetOrigin());
default: return 0;
}
}
Axis::Overscroll Axis::DisplacementWillOverscroll(PRInt32 aDisplacement) {
// If the current pan plus a displacement takes the viewport to the left of or
// above the current page rect.
bool minus = GetOrigin() + aDisplacement < GetPageStart();
// If the current pan plus a displacement takes the viewport to the right of or
// below the current page rect.
bool plus = GetViewportEnd() + aDisplacement > GetPageEnd();
if (minus && plus) {
return OVERSCROLL_BOTH;
}
if (minus) {
return OVERSCROLL_MINUS;
}
if (plus) {
return OVERSCROLL_PLUS;
}
return OVERSCROLL_NONE;
}
PRInt32 Axis::DisplacementWillOverscrollAmount(PRInt32 aDisplacement) {
switch (DisplacementWillOverscroll(aDisplacement)) {
case OVERSCROLL_MINUS: return (GetOrigin() + aDisplacement) - GetPageStart();
case OVERSCROLL_PLUS: return (GetViewportEnd() + aDisplacement) - GetPageEnd();
// Don't handle overscrolled in both directions; a displacement can't cause
// this, it must have already been zoomed out too far.
default: return 0;
}
}
Axis::Overscroll Axis::ScaleWillOverscroll(float aScale, PRInt32 aFocus) {
PRInt32 originAfterScale = NS_lround((GetOrigin() + aFocus) * aScale - aFocus);
bool both = ScaleWillOverscrollBothSides(aScale);
bool minus = originAfterScale < NS_lround(GetPageStart() * aScale);
bool plus = (originAfterScale + GetViewportLength()) > NS_lround(GetPageEnd() * aScale);
if ((minus && plus) || both) {
return OVERSCROLL_BOTH;
}
if (minus) {
return OVERSCROLL_MINUS;
}
if (plus) {
return OVERSCROLL_PLUS;
}
return OVERSCROLL_NONE;
}
PRInt32 Axis::ScaleWillOverscrollAmount(float aScale, PRInt32 aFocus) {
PRInt32 originAfterScale = NS_lround((GetOrigin() + aFocus) * aScale - aFocus);
switch (ScaleWillOverscroll(aScale, aFocus)) {
case OVERSCROLL_MINUS: return originAfterScale - NS_lround(GetPageStart() * aScale);
case OVERSCROLL_PLUS: return (originAfterScale + GetViewportLength()) - NS_lround(GetPageEnd() * aScale);
// Don't handle OVERSCROLL_BOTH. Client code is expected to deal with it.
default: return 0;
}
}
float Axis::GetVelocity() {
return mVelocity;
}
PRInt32 Axis::GetViewportEnd() {
return GetOrigin() + GetViewportLength();
}
PRInt32 Axis::GetPageEnd() {
return GetPageStart() + GetPageLength();
}
PRInt32 Axis::GetOrigin() {
nsIntPoint origin = mAsyncPanZoomController->GetFrameMetrics().mViewportScrollOffset;
return GetPointOffset(origin);
}
PRInt32 Axis::GetViewportLength() {
nsIntRect viewport = mAsyncPanZoomController->GetFrameMetrics().mViewport;
gfx::Rect scaledViewport = gfx::Rect(viewport.x, viewport.y, viewport.width, viewport.height);
scaledViewport.ScaleRoundIn(1 / mAsyncPanZoomController->GetFrameMetrics().mResolution.width);
return GetRectLength(scaledViewport);
}
PRInt32 Axis::GetPageStart() {
gfx::Rect pageRect = mAsyncPanZoomController->GetFrameMetrics().mCSSContentRect;
return GetRectOffset(pageRect);
}
PRInt32 Axis::GetPageLength() {
gfx::Rect pageRect = mAsyncPanZoomController->GetFrameMetrics().mCSSContentRect;
return GetRectLength(pageRect);
}
bool Axis::ScaleWillOverscrollBothSides(float aScale) {
const FrameMetrics& metrics = mAsyncPanZoomController->GetFrameMetrics();
gfx::Rect cssContentRect = metrics.mCSSContentRect;
float currentScale = metrics.mResolution.width;
gfx::Rect viewport = gfx::Rect(metrics.mViewport.x,
metrics.mViewport.y,
metrics.mViewport.width,
metrics.mViewport.height);
viewport.ScaleRoundIn(1 / (currentScale * aScale));
return GetRectLength(cssContentRect) < GetRectLength(viewport);
}
AxisX::AxisX(AsyncPanZoomController* aAsyncPanZoomController)
: Axis(aAsyncPanZoomController)
{
}
PRInt32 AxisX::GetPointOffset(const nsIntPoint& aPoint)
{
return aPoint.x;
}
PRInt32 AxisX::GetRectLength(const gfx::Rect& aRect)
{
return NS_lround(aRect.width);
}
PRInt32 AxisX::GetRectOffset(const gfx::Rect& aRect)
{
return NS_lround(aRect.x);
}
AxisY::AxisY(AsyncPanZoomController* aAsyncPanZoomController)
: Axis(aAsyncPanZoomController)
{
}
PRInt32 AxisY::GetPointOffset(const nsIntPoint& aPoint)
{
return aPoint.y;
}
PRInt32 AxisY::GetRectLength(const gfx::Rect& aRect)
{
return NS_lround(aRect.height);
}
PRInt32 AxisY::GetRectOffset(const gfx::Rect& aRect)
{
return NS_lround(aRect.y);
}
}
}