Exemplo n.º 1
0
bool ScrollAnimatorNone::scroll(ScrollbarOrientation orientation, ScrollGranularity granularity, float step, float multiplier)
{
    if (!m_scrollableArea->scrollAnimatorEnabled())
        return ScrollAnimator::scroll(orientation, granularity, step, multiplier);

#if PLATFORM(CHROMIUM)
    TRACE_EVENT("ScrollAnimatorNone::scroll", this, 0);
#endif

    // FIXME: get the type passed in. MouseWheel could also be by line, but should still have different
    // animation parameters than the keyboard.
    Parameters parameters;
    switch (granularity) {
    case ScrollByDocument:
        parameters = Parameters(true, 20 * kTickTime, 10 * kTickTime, Cubic, 10 * kTickTime, Cubic, 10 * kTickTime, Linear, 1);
        break;
    case ScrollByLine:
        parameters = Parameters(true, 10 * kTickTime, 7 * kTickTime, Cubic, 3 * kTickTime, Cubic, 3 * kTickTime, Linear, 1);
        break;
    case ScrollByPage:
        parameters = Parameters(true, 15 * kTickTime, 10 * kTickTime, Cubic, 5 * kTickTime, Cubic, 5 * kTickTime, Linear, 1);
        break;
    case ScrollByPixel:
        parameters = Parameters(true, 11 * kTickTime, 2 * kTickTime, Cubic, 3 * kTickTime, Cubic, 3 * kTickTime, Quadratic, 1.25);
        break;
    case ScrollByPixelVelocity:
        // FIXME: Generalize the scroll interface to support a richer set of parameters.
        if (m_firstVelocitySet) {
            float x = m_firstVelocityIsVertical ? multiplier : m_firstVelocity;
            float y = m_firstVelocityIsVertical ? m_firstVelocity : multiplier;
            FloatPoint fp(x, y);
            fireUpAnAnimation(fp);
            m_firstVelocitySet = false;
            m_firstVelocityIsVertical = false;
        } else {
            m_firstVelocitySet = true;
            m_firstVelocityIsVertical = orientation == VerticalScrollbar;
            m_firstVelocity = multiplier;
        }
        return true;
    }

    // If the individual input setting is disabled, bail.
    if (!parameters.m_isEnabled)
        return ScrollAnimator::scroll(orientation, granularity, step, multiplier);

    // This is an animatable scroll. Set the animation in motion using the appropriate parameters.
    float scrollableSize = static_cast<float>(m_scrollableArea->scrollSize(orientation));

    PerAxisData& data = (orientation == VerticalScrollbar) ? m_verticalData : m_horizontalData;
    bool needToScroll = data.updateDataFromParameters(step, multiplier, scrollableSize, WTF::monotonicallyIncreasingTime(), &parameters);
    if (needToScroll && !animationTimerActive()) {
        m_startTime = data.m_startTime;
        animationTimerFired();
    }
    return needToScroll;
}
Exemplo n.º 2
0
bool ScrollAnimatorNone::scroll(ScrollbarOrientation orientation, ScrollGranularity granularity, float step, float multiplier)
{
    if (!m_scrollableArea->scrollAnimatorEnabled())
        return ScrollAnimator::scroll(orientation, granularity, step, multiplier);

    // FIXME: get the type passed in. MouseWheel could also be by line, but should still have different
    // animation parameters than the keyboard.
    Parameters parameters;
    switch (granularity) {
    case ScrollByDocument:
        parameters = Parameters(true, 20 * kTickTime, 10 * kTickTime, Cubic, 10 * kTickTime, Cubic, 10 * kTickTime, Linear, 1);
        break;
    case ScrollByLine:
        parameters = Parameters(true, 10 * kTickTime, 7 * kTickTime, Cubic, 3 * kTickTime, Cubic, 3 * kTickTime, Linear, 1);
        break;
    case ScrollByPage:
        parameters = Parameters(true, 15 * kTickTime, 10 * kTickTime, Cubic, 5 * kTickTime, Cubic, 5 * kTickTime, Linear, 1);
        break;
    case ScrollByPixel:
        parameters = Parameters(true, 11 * kTickTime, 2 * kTickTime, Cubic, 3 * kTickTime, Cubic, 3 * kTickTime, Quadratic, 1.25);
        break;
    default:
        break;
    }

    // If the individual input setting is disabled, bail.
    if (!parameters.m_isEnabled)
        return ScrollAnimator::scroll(orientation, granularity, step, multiplier);

    // This is an animatable scroll. Set the animation in motion using the appropriate parameters.
    float scrollableSize = static_cast<float>(m_scrollableArea->scrollSize(orientation));

    PerAxisData& data = (orientation == VerticalScrollbar) ? m_verticalData : m_horizontalData;
    bool needToScroll = data.updateDataFromParameters(step, multiplier, scrollableSize, WTF::monotonicallyIncreasingTime(), &parameters);
    if (needToScroll && !m_animationTimer.isActive()) {
        m_startTime = data.m_startTime;
        animationTimerFired(&m_animationTimer);
    }
    return needToScroll;
}
Exemplo n.º 3
0
ScrollResultOneDimensional ScrollAnimator::userScroll(ScrollbarOrientation orientation, ScrollGranularity granularity, float step, float delta)
{
    if (!m_scrollableArea->scrollAnimatorEnabled())
        return ScrollAnimatorBase::userScroll(orientation, granularity, step, delta);

    TRACE_EVENT0("blink", "ScrollAnimator::scroll");

    // FIXME: get the type passed in. MouseWheel could also be by line, but should still have different
    // animation parameters than the keyboard.
    Parameters parameters;
    switch (granularity) {
    case ScrollByDocument:
    case ScrollByLine:
    case ScrollByPage:
    case ScrollByPixel:
        parameters = parametersForScrollGranularity(granularity);
        break;
    case ScrollByPrecisePixel:
        return ScrollAnimatorBase::userScroll(orientation, granularity, step, delta);
    }

    // If the individual input setting is disabled, bail.
    if (!parameters.m_isEnabled)
        return ScrollAnimatorBase::userScroll(orientation, granularity, step, delta);

    // This is an animatable scroll. Set the animation in motion using the appropriate parameters.
    float scrollableSize = static_cast<float>(m_scrollableArea->scrollSize(orientation));

    PerAxisData& data = (orientation == VerticalScrollbar) ? m_verticalData : m_horizontalData;
    bool needToScroll = data.updateDataFromParameters(step, delta, scrollableSize, WTF::monotonicallyIncreasingTime(), &parameters);
    float unusedDelta = needToScroll ? delta - (data.m_desiredPosition - *data.m_currentPosition) : delta;
    if (needToScroll && !animationTimerActive()) {
        m_startTime = data.m_startTime;
        animationWillStart();
        animationTimerFired();
        scrollableArea()->registerForAnimation();
    }
    return ScrollResultOneDimensional(needToScroll, unusedDelta);
}
void ScrollAnimatorNone::serviceScrollAnimations()
{
    if (m_animationActive)
        animationTimerFired();
}
void ScrollAnimationSmooth::serviceAnimation()
{
    if (m_animationActive)
        animationTimerFired();
}