// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'dart:math' as math;
import 'package:flutter/foundation.dart';
import 'package:flutter/gestures.dart';
import 'package:vector_math/vector_math_64.dart';
import 'debug.dart';
import 'object.dart';
import 'sliver.dart';
/// Inset a [RenderSliver], applying padding on each side.
///
/// A [RenderSliverPadding] object wraps the [SliverGeometry.layoutExtent] of
/// its child. Any incoming [SliverConstraints.overlap] is ignored and not
/// passed on to the child.
///
/// Applying padding to anything but the most mundane sliver is likely to have
/// undesired effects. For example, wrapping a
/// [RenderSliverPinnedPersistentHeader] will cause the app bar to overlap
/// earlier slivers (contrary to the normal behavior of pinned app bars), and
/// while the app bar is pinned, the padding will scroll away.
class RenderSliverPadding extends RenderSliver with RenderObjectWithChildMixin<RenderSliver> {
/// Creates a render object that insets its child in a viewport.
///
/// The [padding] argument must not be null and must have non-negative insets.
RenderSliverPadding({
@required EdgeInsetsGeometry padding,
TextDirection textDirection,
RenderSliver child,
}) : assert(padding != null),
assert(padding.isNonNegative),
_padding = padding,
_textDirection = textDirection {
this.child = child;
}
EdgeInsets _resolvedPadding;
void _resolve() {
if (_resolvedPadding != null)
return;
_resolvedPadding = padding.resolve(textDirection);
assert(_resolvedPadding.isNonNegative);
}
void _markNeedResolution() {
_resolvedPadding = null;
markNeedsLayout();
}
/// The amount to pad the child in each dimension.
///
/// If this is set to an [EdgeInsetsDirectional] object, then [textDirection]
/// must not be null.
EdgeInsetsGeometry get padding => _padding;
EdgeInsetsGeometry _padding;
set padding(EdgeInsetsGeometry value) {
assert(value != null);
assert(padding.isNonNegative);
if (_padding == value)
return;
_padding = value;
_markNeedResolution();
}
/// The text direction with which to resolve [padding].
///
/// This may be changed to null, but only after the [padding] has been changed
/// to a value that does not depend on the direction.
TextDirection get textDirection => _textDirection;
TextDirection _textDirection;
set textDirection(TextDirection value) {
if (_textDirection == value)
return;
_textDirection = value;
_markNeedResolution();
}
/// The padding in the scroll direction on the side nearest the 0.0 scroll direction.
///
/// Only valid after layout has started, since before layout the render object
/// doesn't know what direction it will be laid out in.
double get beforePadding {
assert(constraints != null);
assert(constraints.axisDirection != null);
assert(constraints.growthDirection != null);
assert(_resolvedPadding != null);
switch (applyGrowthDirectionToAxisDirection(constraints.axisDirection, constraints.growthDirection)) {
case AxisDirection.up:
return _resolvedPadding.bottom;
case AxisDirection.right:
return _resolvedPadding.left;
case AxisDirection.down:
return _resolvedPadding.top;
case AxisDirection.left:
return _resolvedPadding.right;
}
return null;
}
/// The padding in the scroll direction on the side furthest from the 0.0 scroll offset.
///
/// Only valid after layout has started, since before layout the render object
/// doesn't know what direction it will be laid out in.
double get afterPadding {
assert(constraints != null);
assert(constraints.axisDirection != null);
assert(constraints.growthDirection != null);
assert(_resolvedPadding != null);
switch (applyGrowthDirectionToAxisDirection(constraints.axisDirection, constraints.growthDirection)) {
case AxisDirection.up:
return _resolvedPadding.top;
case AxisDirection.right:
return _resolvedPadding.right;
case AxisDirection.down:
return _resolvedPadding.bottom;
case AxisDirection.left:
return _resolvedPadding.left;
}
return null;
}
/// The total padding in the [SliverConstraints.axisDirection]. (In other
/// words, for a vertical downwards-growing list, the sum of the padding on
/// the top and bottom.)
///
/// Only valid after layout has started, since before layout the render object
/// doesn't know what direction it will be laid out in.
double get mainAxisPadding {
assert(constraints != null);
assert(constraints.axis != null);
assert(_resolvedPadding != null);
return _resolvedPadding.along(constraints.axis);
}
/// The total padding in the cross-axis direction. (In other words, for a
/// vertical downwards-growing list, the sum of the padding on the left and
/// right.)
///
/// Only valid after layout has started, since before layout the render object
/// doesn't know what direction it will be laid out in.
double get crossAxisPadding {
assert(constraints != null);
assert(constraints.axis != null);
assert(_resolvedPadding != null);
switch (constraints.axis) {
case Axis.horizontal:
return _resolvedPadding.vertical;
case Axis.vertical:
return _resolvedPadding.horizontal;
}
return null;
}
@override
void setupParentData(RenderObject child) {
if (child.parentData is! SliverPhysicalParentData)
child.parentData = SliverPhysicalParentData();
}
@override
void performLayout() {
_resolve();
assert(_resolvedPadding != null);
final double beforePadding = this.beforePadding;
final double afterPadding = this.afterPadding;
final double mainAxisPadding = this.mainAxisPadding;
final double crossAxisPadding = this.crossAxisPadding;
if (child == null) {
geometry = SliverGeometry(
scrollExtent: mainAxisPadding,
paintExtent: math.min(mainAxisPadding, constraints.remainingPaintExtent),
maxPaintExtent: mainAxisPadding,
);
return;
}
child.layout(
constraints.copyWith(
scrollOffset: math.max(0.0, constraints.scrollOffset - beforePadding),
cacheOrigin: math.min(0.0, constraints.cacheOrigin + beforePadding),
overlap: 0.0,
remainingPaintExtent: constraints.remainingPaintExtent - calculatePaintOffset(constraints, from: 0.0, to: beforePadding),
remainingCacheExtent: constraints.remainingCacheExtent - calculateCacheOffset(constraints, from: 0.0, to: beforePadding),
crossAxisExtent: math.max(0.0, constraints.crossAxisExtent - crossAxisPadding),
),
parentUsesSize: true,
);
final SliverGeometry childLayoutGeometry = child.geometry;
if (childLayoutGeometry.scrollOffsetCorrection != null) {
geometry = SliverGeometry(
scrollOffsetCorrection: childLayoutGeometry.scrollOffsetCorrection,
);
return;
}
final double beforePaddingPaintExtent = calculatePaintOffset(
constraints,
from: 0.0,
to: beforePadding,
);
final double afterPaddingPaintExtent = calculatePaintOffset(
constraints,
from: beforePadding + childLayoutGeometry.scrollExtent,
to: mainAxisPadding + childLayoutGeometry.scrollExtent,
);
final double mainAxisPaddingPaintExtent = beforePaddingPaintExtent + afterPaddingPaintExtent;
final double beforePaddingCacheExtent = calculateCacheOffset(
constraints,
from: 0.0,
to: beforePadding,
);
final double afterPaddingCacheExtent = calculateCacheOffset(
constraints,
from: beforePadding + childLayoutGeometry.scrollExtent,
to: mainAxisPadding + childLayoutGeometry.scrollExtent,
);
final double mainAxisPaddingCacheExtent = afterPaddingCacheExtent + beforePaddingCacheExtent;
final double paintExtent = math.min(
beforePaddingPaintExtent + math.max(childLayoutGeometry.paintExtent, childLayoutGeometry.layoutExtent + afterPaddingPaintExtent),
constraints.remainingPaintExtent,
);
geometry = SliverGeometry(
scrollExtent: mainAxisPadding + childLayoutGeometry.scrollExtent,
paintExtent: paintExtent,
layoutExtent: math.min(mainAxisPaddingPaintExtent + childLayoutGeometry.layoutExtent, paintExtent),
cacheExtent: math.min(mainAxisPaddingCacheExtent + childLayoutGeometry.cacheExtent, constraints.remainingCacheExtent),
maxPaintExtent: mainAxisPadding + childLayoutGeometry.maxPaintExtent,
hitTestExtent: math.max(
mainAxisPaddingPaintExtent + childLayoutGeometry.paintExtent,
beforePaddingPaintExtent + childLayoutGeometry.hitTestExtent,
),
hasVisualOverflow: childLayoutGeometry.hasVisualOverflow,
);
final SliverPhysicalParentData childParentData = child.parentData;
assert(constraints.axisDirection != null);
assert(constraints.growthDirection != null);
switch (applyGrowthDirectionToAxisDirection(constraints.axisDirection, constraints.growthDirection)) {
case AxisDirection.up:
childParentData.paintOffset = Offset(_resolvedPadding.left, calculatePaintOffset(constraints, from: _resolvedPadding.bottom + childLayoutGeometry.scrollExtent, to: _resolvedPadding.bottom + childLayoutGeometry.scrollExtent + _resolvedPadding.top));
break;
case AxisDirection.right:
childParentData.paintOffset = Offset(calculatePaintOffset(constraints, from: 0.0, to: _resolvedPadding.left), _resolvedPadding.top);
break;
case AxisDirection.down:
childParentData.paintOffset = Offset(_resolvedPadding.left, calculatePaintOffset(constraints, from: 0.0, to: _resolvedPadding.top));
break;
case AxisDirection.left:
childParentData.paintOffset = Offset(calculatePaintOffset(constraints, from: _resolvedPadding.right + childLayoutGeometry.scrollExtent, to: _resolvedPadding.right + childLayoutGeometry.scrollExtent + _resolvedPadding.left), _resolvedPadding.top);
break;
}
assert(childParentData.paintOffset != null);
assert(beforePadding == this.beforePadding);
assert(afterPadding == this.afterPadding);
assert(mainAxisPadding == this.mainAxisPadding);
assert(crossAxisPadding == this.crossAxisPadding);
}
@override
bool hitTestChildren(SliverHitTestResult result, { @required double mainAxisPosition, @required double crossAxisPosition }) {
if (child != null && child.geometry.hitTestExtent > 0.0) {
final SliverPhysicalParentData childParentData = child.parentData;
result.addWithAxisOffset(
mainAxisPosition: mainAxisPosition,
crossAxisPosition: crossAxisPosition,
mainAxisOffset: childMainAxisPosition(child),
crossAxisOffset: childCrossAxisPosition(child),
paintOffset: childParentData.paintOffset,
hitTest: child.hitTest,
);
}
return false;
}
@override
double childMainAxisPosition(RenderSliver child) {
assert(child != null);
assert(child == this.child);
return calculatePaintOffset(constraints, from: 0.0, to: beforePadding);
}
@override
double childCrossAxisPosition(RenderSliver child) {
assert(child != null);
assert(child == this.child);
assert(constraints != null);
assert(constraints.axisDirection != null);
assert(constraints.growthDirection != null);
assert(_resolvedPadding != null);
switch (applyGrowthDirectionToAxisDirection(constraints.axisDirection, constraints.growthDirection)) {
case AxisDirection.up:
case AxisDirection.down:
return _resolvedPadding.left;
case AxisDirection.left:
case AxisDirection.right:
return _resolvedPadding.top;
}
return null;
}
@override
double childScrollOffset(RenderObject child) {
assert(child.parent == this);
return beforePadding;
}
@override
void applyPaintTransform(RenderObject child, Matrix4 transform) {
assert(child != null);
assert(child == this.child);
final SliverPhysicalParentData childParentData = child.parentData;
childParentData.applyPaintTransform(transform);
}
@override
void paint(PaintingContext context, Offset offset) {
if (child != null && child.geometry.visible) {
final SliverPhysicalParentData childParentData = child.parentData;
context.paintChild(child, offset + childParentData.paintOffset);
}
}
@override
void debugPaint(PaintingContext context, Offset offset) {
super.debugPaint(context, offset);
assert(() {
if (debugPaintSizeEnabled) {
final Size parentSize = getAbsoluteSize();
final Rect outerRect = offset & parentSize;
Size childSize;
Rect innerRect;
if (child != null) {
childSize = child.getAbsoluteSize();
final SliverPhysicalParentData childParentData = child.parentData;
innerRect = (offset + childParentData.paintOffset) & childSize;
assert(innerRect.top >= outerRect.top);
assert(innerRect.left >= outerRect.left);
assert(innerRect.right <= outerRect.right);
assert(innerRect.bottom <= outerRect.bottom);
}
debugPaintPadding(context.canvas, outerRect, innerRect);
}
return true;
}());
}
@override
void debugFillProperties(DiagnosticPropertiesBuilder properties) {
super.debugFillProperties(properties);
properties.add(DiagnosticsProperty<EdgeInsetsGeometry>('padding', padding));
properties.add(EnumProperty<TextDirection>('textDirection', textDirection, defaultValue: null));
}
}