using System; using Unity.UIWidgets.animation; using Unity.UIWidgets.foundation; using Unity.UIWidgets.gestures; using Unity.UIWidgets.painting; using Unity.UIWidgets.scheduler; using Unity.UIWidgets.ui; using UnityEngine; namespace Unity.UIWidgets.rendering { public abstract class RenderSliverPersistentHeader : RenderObjectWithChildMixinRenderSliver { public RenderSliverPersistentHeader(RenderBox child = null) { this.child = child; } public virtual float? maxExtent { get; } public virtual float? minExtent { get; } public float childExtent { get { if (this.child == null) { return 0.0f; } D.assert(this.child.hasSize); switch (this.constraints.axis) { case Axis.vertical: return this.child.size.height; case Axis.horizontal: return this.child.size.width; default: throw new Exception("Unknown axis: " + this.constraints.axis); } } } bool _needsUpdateChild = true; float _lastShrinkOffset = 0.0f; bool _lastOverlapsContent = false; protected virtual void updateChild(float shrinkOffset, bool overlapsContent) { } public override void markNeedsLayout() { this._needsUpdateChild = true; base.markNeedsLayout(); } protected void layoutChild(float scrollOffset, float maxExtent, bool overlapsContent = false) { float shrinkOffset = Mathf.Min(scrollOffset, maxExtent); if (this._needsUpdateChild || this._lastShrinkOffset != shrinkOffset || this._lastOverlapsContent != overlapsContent) { this.invokeLayoutCallback((SliverConstraints constraints) => { D.assert(constraints == this.constraints); this.updateChild(shrinkOffset, overlapsContent); }); this._lastShrinkOffset = shrinkOffset; this._lastOverlapsContent = overlapsContent; this._needsUpdateChild = false; } D.assert(this.minExtent != null); D.assert(() => { if (this.minExtent <= maxExtent) { return true; } throw new UIWidgetsError( "The maxExtent for this $runtimeType is less than its minExtent.\n" + "The specified maxExtent was: ${maxExtent.toStringAsFixed(1)}\n" + "The specified minExtent was: ${minExtent.toStringAsFixed(1)}\n" ); }); this.child?.layout( this.constraints.asBoxConstraints( maxExtent: Mathf.Max(this.minExtent ?? 0.0f, maxExtent - shrinkOffset)), parentUsesSize: true ); } public override float childMainAxisPosition(RenderObject child) { return base.childMainAxisPosition(this.child); } protected override bool hitTestChildren(SliverHitTestResult result, float mainAxisPosition, float crossAxisPosition) { D.assert(this.geometry.hitTestExtent > 0.0f); if (this.child != null) { return RenderSliverHelpers.hitTestBoxChild(this, new BoxHitTestResult(result), this.child, mainAxisPosition: mainAxisPosition, crossAxisPosition: crossAxisPosition); } return false; } public override void applyPaintTransform(RenderObject child, Matrix4 transform) { D.assert(child != null); D.assert(child == this.child); RenderSliverHelpers.applyPaintTransformForBoxChild(this, this.child, transform); } public override void paint(PaintingContext context, Offset offset) { if (this.child != null && this.geometry.visible) { switch (GrowthDirectionUtils.applyGrowthDirectionToAxisDirection(this.constraints.axisDirection, this.constraints.growthDirection)) { case AxisDirection.up: offset += new Offset(0.0f, this.geometry.paintExtent - this.childMainAxisPosition(this.child) - this.childExtent); break; case AxisDirection.down: offset += new Offset(0.0f, this.childMainAxisPosition(this.child)); break; case AxisDirection.left: offset += new Offset( this.geometry.paintExtent - this.childMainAxisPosition(this.child) - this.childExtent, 0.0f); break; case AxisDirection.right: offset += new Offset(this.childMainAxisPosition(this.child), 0.0f); break; } context.paintChild(this.child, offset); } } protected bool excludeFromSemanticsScrolling { get { return this._excludeFromSemanticsScrolling; } set { if (this._excludeFromSemanticsScrolling == value) { return; } this._excludeFromSemanticsScrolling = value; } } bool _excludeFromSemanticsScrolling = false; public override void debugFillProperties(DiagnosticPropertiesBuilder properties) { base.debugFillProperties(properties); properties.add(FloatProperty.lazy("maxExtent", () => this.maxExtent)); properties.add(FloatProperty.lazy("child position", () => this.childMainAxisPosition(this.child))); } } public abstract class RenderSliverScrollingPersistentHeader : RenderSliverPersistentHeader { public RenderSliverScrollingPersistentHeader( RenderBox child = null ) : base(child: child) { } float _childPosition; protected override void performLayout() { float? maxExtent = this.maxExtent; this.layoutChild(this.constraints.scrollOffset, maxExtent ?? 0.0f); float? paintExtent = maxExtent - this.constraints.scrollOffset; this.geometry = new SliverGeometry( scrollExtent: maxExtent ?? 0.0f, paintOrigin: Mathf.Min(this.constraints.overlap, 0.0f), paintExtent: paintExtent?.clamp(0.0f, this.constraints.remainingPaintExtent) ?? 0.0f, maxPaintExtent: maxExtent ?? 0.0f, hasVisualOverflow: true ); this._childPosition = Mathf.Min(0.0f, paintExtent ?? 0.0f - this.childExtent); } public override float childMainAxisPosition(RenderObject child) { D.assert(child == this.child); return this._childPosition; } } public abstract class RenderSliverPinnedPersistentHeader : RenderSliverPersistentHeader { public RenderSliverPinnedPersistentHeader( RenderBox child = null ) : base(child: child) { } protected override void performLayout() { float? maxExtent = this.maxExtent; bool overlapsContent = this.constraints.overlap > 0.0f; this.excludeFromSemanticsScrolling = overlapsContent || (this.constraints.scrollOffset > maxExtent - this.minExtent); this.layoutChild(this.constraints.scrollOffset, maxExtent ?? 0.0f, overlapsContent: overlapsContent); float? layoutExtent = (maxExtent - this.constraints.scrollOffset)?.clamp(0.0f, this.constraints.remainingPaintExtent); this.geometry = new SliverGeometry( scrollExtent: maxExtent ?? 0.0f, paintOrigin: this.constraints.overlap, paintExtent: Mathf.Min(this.childExtent, this.constraints.remainingPaintExtent), layoutExtent: layoutExtent, maxPaintExtent: maxExtent ?? 0.0f, maxScrollObstructionExtent: this.minExtent ?? 0.0f, cacheExtent: layoutExtent > 0.0f ? -this.constraints.cacheOrigin + layoutExtent : layoutExtent, hasVisualOverflow: true ); } public override float childMainAxisPosition(RenderObject child) { return 0.0f; } } public class FloatingHeaderSnapConfiguration { public FloatingHeaderSnapConfiguration( TickerProvider vsync, Curve curve = null, TimeSpan? duration = null ) { D.assert(vsync != null); this.vsync = vsync; this.curve = curve ?? Curves.ease; this.duration = duration ?? new TimeSpan(0, 0, 0, 0, 300); } public readonly TickerProvider vsync; public readonly Curve curve; public readonly TimeSpan duration; } public abstract class RenderSliverFloatingPersistentHeader : RenderSliverPersistentHeader { public RenderSliverFloatingPersistentHeader( RenderBox child = null, FloatingHeaderSnapConfiguration snapConfiguration = null ) : base(child: child) { this._snapConfiguration = snapConfiguration; } AnimationController _controller; Animation _animation; protected float _lastActualScrollOffset; protected float _effectiveScrollOffset; float _childPosition; public override void detach() { this._controller?.dispose(); this._controller = null; base.detach(); } public FloatingHeaderSnapConfiguration snapConfiguration { get { return this._snapConfiguration; } set { if (value == this._snapConfiguration) { return; } if (value == null) { this._controller?.dispose(); this._controller = null; } else { if (this._snapConfiguration != null && value.vsync != this._snapConfiguration.vsync) { this._controller?.resync(value.vsync); } } this._snapConfiguration = value; } } FloatingHeaderSnapConfiguration _snapConfiguration; protected virtual float updateGeometry() { float? maxExtent = this.maxExtent; float? paintExtent = maxExtent - this._effectiveScrollOffset; float? layoutExtent = maxExtent - this.constraints.scrollOffset; this.geometry = new SliverGeometry( scrollExtent: maxExtent ?? 0.0f, paintOrigin: Mathf.Min(this.constraints.overlap, 0.0f), paintExtent: paintExtent?.clamp(0.0f, this.constraints.remainingPaintExtent) ?? 0.0f, layoutExtent: layoutExtent?.clamp(0.0f, this.constraints.remainingPaintExtent), maxPaintExtent: maxExtent ?? 0.0f, maxScrollObstructionExtent: maxExtent ?? 0.0f, hasVisualOverflow: true ); return Mathf.Min(0.0f, paintExtent ?? 0.0f - this.childExtent); } public void maybeStartSnapAnimation(ScrollDirection direction) { if (this.snapConfiguration == null) { return; } if (direction == ScrollDirection.forward && this._effectiveScrollOffset <= 0.0f) { return; } if (direction == ScrollDirection.reverse && this._effectiveScrollOffset >= this.maxExtent) { return; } TickerProvider vsync = this.snapConfiguration.vsync; TimeSpan duration = this.snapConfiguration.duration; this._controller = this._controller ?? new AnimationController(vsync: vsync, duration: duration); this._controller.addListener(() => { if (this._effectiveScrollOffset == this._animation.value) { return; } this._effectiveScrollOffset = this._animation.value; this.markNeedsLayout(); }); this._animation = this._controller.drive( new FloatTween( begin: this._effectiveScrollOffset, end: direction == ScrollDirection.forward ? 0.0f : this.maxExtent ?? 0.0f ).chain(new CurveTween( curve: this.snapConfiguration.curve )) ); this._controller.forward(from: 0.0f); } public void maybeStopSnapAnimation(ScrollDirection direction) { this._controller?.stop(); } protected override void performLayout() { float? maxExtent = this.maxExtent; if (((this.constraints.scrollOffset < this._lastActualScrollOffset) || (this._effectiveScrollOffset < maxExtent))) { float delta = this._lastActualScrollOffset - this.constraints.scrollOffset; bool allowFloatingExpansion = this.constraints.userScrollDirection == ScrollDirection.forward; if (allowFloatingExpansion) { if (this._effectiveScrollOffset > maxExtent) { this._effectiveScrollOffset = maxExtent ?? 0.0f; } } else { if (delta > 0.0f) { delta = 0.0f; } } this._effectiveScrollOffset = (this._effectiveScrollOffset - delta).clamp(0.0f, this.constraints.scrollOffset); } else { this._effectiveScrollOffset = this.constraints.scrollOffset; } bool overlapsContent = this._effectiveScrollOffset < this.constraints.scrollOffset; this.excludeFromSemanticsScrolling = overlapsContent; this.layoutChild(this._effectiveScrollOffset, maxExtent ?? 0.0f, overlapsContent: overlapsContent); this._childPosition = this.updateGeometry(); this._lastActualScrollOffset = this.constraints.scrollOffset; } public override float childMainAxisPosition(RenderObject child) { D.assert(child == this.child); return this._childPosition; } public override void debugFillProperties(DiagnosticPropertiesBuilder properties) { base.debugFillProperties(properties); properties.add(new FloatProperty("effective scroll offset", this._effectiveScrollOffset)); } } public abstract class RenderSliverFloatingPinnedPersistentHeader : RenderSliverFloatingPersistentHeader { public RenderSliverFloatingPinnedPersistentHeader( RenderBox child = null, FloatingHeaderSnapConfiguration snapConfiguration = null ) : base(child: child, snapConfiguration: snapConfiguration) { } protected override float updateGeometry() { float? minExtent = this.minExtent; float? minAllowedExtent = this.constraints.remainingPaintExtent > minExtent ? minExtent : this.constraints.remainingPaintExtent; float? maxExtent = this.maxExtent; float? paintExtent = maxExtent - this._effectiveScrollOffset; float? clampedPaintExtent = paintExtent?.clamp(minAllowedExtent ?? 0.0f, this.constraints.remainingPaintExtent); float? layoutExtent = maxExtent - this.constraints.scrollOffset; this.geometry = new SliverGeometry( scrollExtent: maxExtent ?? 0.0f, paintExtent: clampedPaintExtent ?? 0.0f, layoutExtent: layoutExtent?.clamp(0.0f, clampedPaintExtent ?? 0.0f), maxPaintExtent: maxExtent ?? 0.0f, maxScrollObstructionExtent: maxExtent ?? 0.0f, hasVisualOverflow: true ); return 0.0f; } } }