using System; using System.Collections.Generic; using Unity.UIWidgets.animation; using Unity.UIWidgets.async2; using Unity.UIWidgets.foundation; using Unity.UIWidgets.gestures; using Unity.UIWidgets.painting; using Unity.UIWidgets.physics; using Unity.UIWidgets.rendering; using Unity.UIWidgets.scheduler2; using Unity.UIWidgets.ui; namespace Unity.UIWidgets.widgets { public enum ScrollPositionAlignmentPolicy { explicitPolicy, keepVisibleAtEnd, keepVisibleAtStart, } public abstract class ScrollPosition : ViewportOffset, ScrollMetrics { protected ScrollPosition( ScrollPhysics physics = null, ScrollContext context = null, bool keepScrollOffset = true, ScrollPosition oldPosition = null, string debugLabel = null, object coordinator = null ) { D.assert(physics != null); D.assert(context != null); D.assert(context.vsync != null); this.physics = physics; this.context = context; this.keepScrollOffset = keepScrollOffset; this.debugLabel = debugLabel; _coordinator = coordinator; if (oldPosition != null) { absorb(oldPosition); } if (keepScrollOffset) { restoreScrollOffset(); } } public readonly ScrollPhysics physics; public readonly ScrollContext context; public readonly bool keepScrollOffset; public readonly string debugLabel; internal readonly object _coordinator; public float minScrollExtent { get { return _minScrollExtent.Value; } } float? _minScrollExtent; public float maxScrollExtent { get { return _maxScrollExtent.Value; } } float? _maxScrollExtent; public bool hasMinScrollExtent { get { return _minScrollExtent != null; } } public bool hasMaxScrollExtent { get { return _maxScrollExtent != null; } } public override float pixels { get { D.assert(_pixels != null); return _pixels ?? 0.0f; } } public bool havePixels { get { return _pixels != null; } } internal float? _pixels; public float viewportDimension { get { return _viewportDimension.Value; } } float? _viewportDimension; public bool haveDimensions { get { return _haveDimensions; } } bool _haveDimensions = false; public abstract AxisDirection axisDirection { get; } protected virtual void absorb(ScrollPosition other) { D.assert(other != null); D.assert(other.context == context); D.assert(_pixels == null); _minScrollExtent = other._minScrollExtent; _maxScrollExtent = other._maxScrollExtent; _pixels = other._pixels; _viewportDimension = other._viewportDimension; D.assert(activity == null); D.assert(other.activity != null); _activity = other.activity; other._activity = null; if (other.GetType() != GetType()) { activity.resetActivity(); } context.setIgnorePointer(activity.shouldIgnorePointer); isScrollingNotifier.value = activity.isScrolling; } public virtual float setPixels(float newPixels) { D.assert(_pixels != null); D.assert(SchedulerBinding.instance.schedulerPhase <= SchedulerPhase.transientCallbacks); if (newPixels != pixels) { float overscroll = applyBoundaryConditions(newPixels); D.assert(() => { float delta = newPixels - pixels; if (overscroll.abs() > delta.abs()) { throw new UIWidgetsError( string.Format( "{0}.applyBoundaryConditions returned invalid overscroll value.\n" + "setPixels() was called to change the scroll offset from {1} to {2}.\n" + "That is a delta of {3} units.\n" + "{0}.applyBoundaryConditions reported an overscroll of {4} units." , GetType(), pixels, newPixels, delta, overscroll)); } return true; }); float oldPixels = pixels; _pixels = newPixels - overscroll; if (pixels != oldPixels) { notifyListeners(); didUpdateScrollPositionBy(pixels - oldPixels); } if (overscroll != 0.0) { didOverscrollBy(overscroll); return overscroll; } } return 0.0f; } public void correctPixels(float value) { _pixels = value; } public override void correctBy(float correction) { D.assert( _pixels != null, () => "An initial pixels value must exist by caling correctPixels on the ScrollPosition" ); _pixels += correction; _didChangeViewportDimensionOrReceiveCorrection = true; } protected void forcePixels(float value) { D.assert(_pixels != null); _pixels = value; notifyListeners(); } protected virtual void saveScrollOffset() { var pageStorage = PageStorage.of(context.storageContext); if (pageStorage != null) { pageStorage.writeState(context.storageContext, pixels); } } protected virtual void restoreScrollOffset() { if (_pixels == null) { var pageStorage = PageStorage.of(context.storageContext); if (pageStorage != null) { object valueRaw = pageStorage.readState(context.storageContext); if (valueRaw != null) { correctPixels((float) valueRaw); } } } } protected float applyBoundaryConditions(float value) { float result = physics.applyBoundaryConditions(this, value); D.assert(() => { float delta = value - pixels; if (result.abs() > delta.abs()) { throw new UIWidgetsError( $"{physics.GetType()}.applyBoundaryConditions returned invalid overscroll value.\n" + $"The method was called to consider a change from {pixels} to {value}, which is a " + $"delta of {delta:F1} units. However, it returned an overscroll of " + $"${result:F1} units, which has a greater magnitude than the delta. " + "The applyBoundaryConditions method is only supposed to reduce the possible range " + "of movement, not increase it.\n" + $"The scroll extents are {minScrollExtent} .. {maxScrollExtent}, and the " + $"viewport dimension is {viewportDimension}."); } return true; }); return result; } bool _didChangeViewportDimensionOrReceiveCorrection = true; public override bool applyViewportDimension(float viewportDimension) { if (_viewportDimension != viewportDimension) { _viewportDimension = viewportDimension; _didChangeViewportDimensionOrReceiveCorrection = true; } return true; } public override bool applyContentDimensions(float minScrollExtent, float maxScrollExtent) { if (!PhysicsUtils.nearEqual(_minScrollExtent, minScrollExtent, Tolerance.defaultTolerance.distance) || !PhysicsUtils.nearEqual(_maxScrollExtent, maxScrollExtent, Tolerance.defaultTolerance.distance) || _didChangeViewportDimensionOrReceiveCorrection) { D.assert(minScrollExtent <= maxScrollExtent); _minScrollExtent = minScrollExtent; _maxScrollExtent = maxScrollExtent; _haveDimensions = true; applyNewDimensions(); _didChangeViewportDimensionOrReceiveCorrection = false; } return true; } protected virtual void applyNewDimensions() { D.assert(_pixels != null); activity.applyNewDimensions(); } public Future ensureVisible( RenderObject renderObject, float alignment = 0.0f, TimeSpan? duration = null, Curve curve = null, ScrollPositionAlignmentPolicy alignmentPolicy = ScrollPositionAlignmentPolicy.explicitPolicy ) { D.assert(renderObject.attached); RenderAbstractViewport viewport = RenderViewportUtils.of(renderObject); D.assert(viewport != null); float target = 0f; switch (alignmentPolicy) { case ScrollPositionAlignmentPolicy.explicitPolicy: target = viewport.getOffsetToReveal(renderObject, alignment).offset.clamp(minScrollExtent, maxScrollExtent); break; case ScrollPositionAlignmentPolicy.keepVisibleAtEnd: target = viewport.getOffsetToReveal(renderObject, 1.0f).offset.clamp(minScrollExtent, maxScrollExtent) ; if (target < pixels) { target = pixels; } break; case ScrollPositionAlignmentPolicy.keepVisibleAtStart: target = viewport.getOffsetToReveal(renderObject, 0.0f).offset.clamp(minScrollExtent, maxScrollExtent) ; if (target > pixels) { target = pixels; } break; } if (foundation_.FloatEqual(target,pixels)) { return Future.value(); } duration = duration ?? TimeSpan.Zero; if (duration == TimeSpan.Zero) { jumpTo(target); return Future.value(); } curve = curve ?? Curves.ease; return animateTo(target, duration: duration.Value, curve: curve); } public readonly ValueNotifier isScrollingNotifier = new ValueNotifier(false); public override Future moveTo(float to, TimeSpan? duration, Curve curve = null, bool clamp = true) { if (clamp) { to = to.clamp(minScrollExtent, maxScrollExtent); } return base.moveTo(to, duration: duration, curve: curve, clamp: clamp); } public override bool allowImplicitScrolling { get { return physics.allowImplicitScrolling; } } public abstract ScrollHoldController hold(VoidCallback holdCancelCallback); public abstract Drag drag(DragStartDetails details, VoidCallback dragCancelCallback); protected ScrollActivity activity { get { return _activity; } } ScrollActivity _activity; public virtual void beginActivity(ScrollActivity newActivity) { if (newActivity == null) { return; } bool wasScrolling, oldIgnorePointer; if (_activity != null) { oldIgnorePointer = _activity.shouldIgnorePointer; wasScrolling = _activity.isScrolling; if (wasScrolling && !newActivity.isScrolling) { didEndScroll(); } _activity.dispose(); } else { oldIgnorePointer = false; wasScrolling = false; } _activity = newActivity; if (oldIgnorePointer != activity.shouldIgnorePointer) { context.setIgnorePointer(activity.shouldIgnorePointer); } isScrollingNotifier.value = activity.isScrolling; if (!wasScrolling && _activity.isScrolling) { didStartScroll(); } } public void didStartScroll() { activity.dispatchScrollStartNotification( ScrollMetricsUtils.copyWith(this), context.notificationContext); } public void didUpdateScrollPositionBy(float delta) { activity.dispatchScrollUpdateNotification( ScrollMetricsUtils.copyWith(this), context.notificationContext, delta); } public void didEndScroll() { activity.dispatchScrollEndNotification( ScrollMetricsUtils.copyWith(this), context.notificationContext); if (keepScrollOffset) { saveScrollOffset(); } } public void didOverscrollBy(float value) { D.assert(activity.isScrolling); activity.dispatchOverscrollNotification( ScrollMetricsUtils.copyWith(this), context.notificationContext, value); } public void didUpdateScrollDirection(ScrollDirection direction) { new UserScrollNotification(metrics: ScrollMetricsUtils.copyWith(this), context: context.notificationContext, direction: direction ).dispatch(context.notificationContext); } public bool recommendDeferredLoading(BuildContext context) { D.assert(context != null); D.assert(activity != null); return physics.recommendDeferredLoading(activity.velocity, ScrollMetricsUtils.copyWith(this), context); } public override void dispose() { D.assert(_pixels != null); if (activity != null) { activity.dispose(); _activity = null; } base.dispose(); } protected override void debugFillDescription(List description) { if (debugLabel != null) { description.Add(debugLabel); } base.debugFillDescription(description); description.Add($"range: {_minScrollExtent:F1}..{_maxScrollExtent:F1}"); description.Add($"viewport: {_viewportDimension:F1}"); } } }