前言
在Flutter实际开发中,大家可能会遇到flutter框架中提供的widget达不到我们想要的效果,这时就需要我们去自定义widget,从Flutter构建、布局、绘制三部曲中我们了解到,实际的测量、布局、绘制操作都在RenderObject中,我们是可以进行继承相关的RenderObject来实现自定义的。但是其实flutter框架在设计之初就给我们预留出了自定义的入口,方便我们进行自定义。
CustomPaint自定义绘制
例:圆形进度条
思路:使用CustomPaint绘制需要的效果
class CircleProgress extends StatelessWidget { final Size size; final double progress; CircleProgress({@required this.size, @required this.progress}); @override Widget build(BuildContext context) { return CustomPaint( size: size, painter: CircleProgressPainter(endDegree: progress * 360),//在Painter中写真正的绘画逻辑 ); } } class CircleProgressPainter extends CustomPainter { ...省略 @override void paint(Canvas canvas, Size size) { ...绘制的具体逻辑,size是画布的大小 } }
CustomSingleChildLayout对单一child进行布局
例:实现对child约束成正方形
思路:使用CustomSingleChildLayout对child进行布局,并约束为正方形
class RectLayout extends StatelessWidget { final Widget child; RectLayout({@required this.child}); @override Widget build(BuildContext context) { return CustomSingleChildLayout( delegate: RectLayoutDelegate(),//进行布局的代理 child: child, ); } } class RectLayoutDelegate extends SingleChildLayoutDelegate { //确定layout的size,constraints是parent传过来的约束 @override Size getSize(BoxConstraints constraints) => super.getSize(constraints); ///是否需要relayout @override bool shouldRelayout(SingleChildLayoutDelegate oldDelegate) => false; ///确定child的位置,返回一个相对于parent的偏移值,size是layout的大小,由getsize确定,childSize由getConstraintsForChild得出的Constraints对child进行约束,得到child自身的size @override Offset getPositionForChild(Size size, Size childSize) { double dx = (size.width - childSize.width) / 2; double dy = (size.height - childSize.height) / 2; return Offset(dx, dy); } ///确定child的约束,用于确定child的大小 @override BoxConstraints getConstraintsForChild(BoxConstraints constraints) {// double maxEdge = min(constraints.maxWidth, constraints.maxHeight); return BoxConstraints(maxWidth: maxEdge, maxHeight: maxEdge); } }
CustomSingleChildLayout对多个child进行布局
例:实现网格布局
思路:使用CustomSingleChildLayout对child进行布局、定位,使其成为网格的布局
class GridLayout extends StatelessWidget { final Listchildren; final double horizontalSpace; final double verticalSpace; GridLayout( {@required this.children, @required this.horizontalSpace, @required this.verticalSpace}); @override Widget build(BuildContext context) { List layoutChildren = new List(); for (int index = 0; index < children.length; index++) { layoutChildren.add(LayoutId(id: index, child: children[index])); } return CustomMultiChildLayout( delegate: GridLayoutDelegate(//真正的布局实现 horizontalSpace: horizontalSpace, verticalSpace: verticalSpace, ), children: layoutChildren, ); } } class GridLayoutDelegate extends MultiChildLayoutDelegate { final double horizontalSpace; final double verticalSpace; List _itemSizes = List(); GridLayoutDelegate( {@required this.horizontalSpace, @required this.verticalSpace}); @override void performLayout(Size size) { //对每个child进行逐一布局 int index = 0; double width = (size.width - horizontalSpace) / 2; var itemConstraints = BoxConstraints( minWidth: width, maxWidth: width, maxHeight: size.height); while (hasChild(index)) { _itemSizes.add(layoutChild(index, itemConstraints)); index++; } //对每一个child逐一进行定位 index = 0; double dx = 0; double dy = 0; while (hasChild(index)) { positionChild(index, Offset(dx, dy)); dx = index % 2 == 0 ? width + horizontalSpace : 0; if (index % 2 == 1) { double maxHeight = max(_itemSizes[index].height, _itemSizes[index - 1].height); dy += maxHeight + verticalSpace; } index++; } } @override bool shouldRelayout(MultiChildLayoutDelegate oldDelegate) { return oldDelegate != this; } //确定layout的size,constraints是parent传过来的约束 @override Size getSize(BoxConstraints constraints) => super.getSize(constraints); }
组合自定义
一般情况,组合自定义应该是我们最经常用的方式,通过继承自StatelessWidget或StatefulWidget,把多个Widget组合起来,从而达到我们需要的效果。
例:下拉刷新,上拉加载
实现一:通过自带的RefreshIndictor和ScrollController组合实现
思路:通过对滚动进行监听来触发加载更多
_scrollController.addListener(() { var maxScroll = _scrollController.position.maxScrollExtent; if (_scrollController.offset >= maxScroll) { if (widget.loadMoreStatus != LoadMoreStatus.noData) { widget.onLoadMore(); } } });
实现二:通过NotificationListener监听scroll的整体状态,让后结合平移、动画来实现
思路:通过监听用户overscroll的距离来平移内容区域,从而达到下拉刷新,上拉加载的效果
@override Widget build(BuildContext context) { double topHeight = _pullDirection == PullDirection.DOWN ? _overScrollOffset.dy.abs() : 0; double bottomHeight = _pullDirection == PullDirection.UP ? _overScrollOffset.dy.abs() : 0; return Stack( children:[ widget.headerBuilder.buildTip(_state, topHeight), Align( alignment: Alignment.bottomCenter, child: widget.footerBuilder.buildTip(_state, bottomHeight), ), Transform.translate( offset: _overScrollOffset, child: NotificationListener ( onNotification: handleScrollNotification, child: DecoratedBox( decoration: BoxDecoration(color: Colors.grey[100]), child: ListView.builder( itemBuilder: buildItem, itemCount: 30, ), ), ), ) ], ); }
例:上下左右滑动的layout
实现:通过GestureDetector监听手势滑动,然后通过平移来达到效果
思路:主要处理滑动边界,以及开关的零界点
@override Widget build(BuildContext context) { //debugPrint('_slideOffset:${_slideOffset.toString()}'); return GestureDetector( onPanUpdate: handlePanUpdate, onPanEnd: handlePanEnd, child: Stack( children:[ widget.background, Transform.translate( child: widget.foreground, offset: _slideOffset, ), ], ), ); }
以上的完整代码在这flutter知识点整理
Flutter学习总结
对Flutter的学习也有一段时间了,从最开始的Widget的使用,到后面的框架的一些研究,所有的心得与总结都会记录下来,主要是对自己知识点的整理,同样也为了能够与广大Flutter的学习者共同学习,相互探讨。
好了,以上就是这篇文章的全部内容了,希望本文的内容对大家的学习或者工作具有一定的参考学习价值,谢谢大家对的支持。