sliding_sheet 0.2.0 sliding_sheet: ^0.2.0 copied to clipboard
A widget that can be dragged and scrolled in a single gesture and snapped to a list of extents.
Sliding Sheet #
A widget that can be dragged and scrolled in a single gesture and snapped to a list of extents.
Click here to view the full example.
Installing #
Add it to your pubspec.yaml
file:
dependencies:
sliding_up_panel: ^0.2.0
Install packages from the command line
flutter packages get
Usage #
There are two ways in which you can use a SlidingSheet
: either as a permanent (or persistent) Widget
in your
widget tree or as a BottomSheetDialog
.
As a Widget #
This method can be used to show the SlidingSheet
permanently (usually above your other widget) as shown in the example.
@override
Widget build(BuildContext context) {
return Scaffold(
backgroundColor: Colors.grey.shade200,
appBar: AppBar(
title: Text('Simple Example'),
),
body: Stack(
children: <Widget>[
Center(
child: Text('This widget is below the SlidingSheet'),
),
SlidingSheet(
elevation: 8,
cornerRadius: 16,
snapSpec: const SnapSpec(
// Enable snapping. This is true by default.
snap: true,
// Set custom snapping points.
snappings: [0.4, 0.7, 1.0],
// Define to what the snappings relate to. In this case,
// the total available space that the sheet can expand to.
positioning: SnapPositioning.relativeToAvailableSpace,
),
builder: (context, state) {
// This is the content of the sheet that will get
// scrolled, if the content is bigger than the available
// height of the sheet.
return Container(
height: MediaQuery.of(context).size.height,
child: Center(
child: Text('This is the content of the sheet'),
),
);
},
)
],
),
);
}
Result:
As a BottomSheetDialog #
This method can be used to show a SlidingSheet
as a BottomSheetDialog
by calling the showSlidingBottomSheet
function and returning and instance of SlidingSheetDialog
.
void showAsBottomSheet() async {
final result = await showSlidingBottomSheet(
context,
builder: (context) {
return SlidingSheetDialog(
elevation: 8,
cornerRadius: 16,
snapSpec: const SnapSpec(
snap: true,
snappings: [0.4, 0.7, 1.0],
positioning: SnapPositioning.relativeToAvailableSpace,
),
builder: (context, state) {
return Container(
height: MediaQuery.of(context).size.height,
child: Center(
child: Material(
child: InkWell(
onTap: () => Navigator.pop(context, 'This is the result.'),
child: Padding(
padding: const EdgeInsets.all(16),
child: Text(
'This is the content of the sheet',
style: Theme.of(context).textTheme.body1,
),
),
),
),
),
);
},
);
}
);
print(result); // This is the result.
}
Result:
Snapping #
A SlidingSheet
can snap to multiple extents or to no at all. You can customize the snapping behavior by
passing an instance of SnapSpec
to the SlidingSheet
.
Parameter | Description |
---|---|
snap | If true, the SlidingSheet will snap to the provided snappings . If false, the SlidingSheet will slide from minExtent to maxExtent and then begin to scroll, if the content is bigger than the available height. |
snappings | The extents that the SlidingSheet will snap to, when the user ends a drag interaction. The minimum and maximum values will represent the bounds in which the SlidingSheet will slide until it reaches the maximum from which on it will scroll. |
positioning | Can be set to one of these three values: SnapPositioning.relativeToAvailableSpace - Positions the snaps relative to total available height that the SlidingSheet can expand to. All values must be between 0 and 1. E.g. a snap of 0.5 in a Scaffold without an AppBar would mean that the snap would be positioned at 40% of the screen height, irrespective of the height of the SlidingSheet . SnapPositioning.relativeToSheetHeight - Positions the snaps relative to the total height of the sheet. All values must be between 0 and 1. E.g. a snap of 0.5 and a total sheet size of 300 pixels would mean the snap would be positioned at a 150 pixel offset from the bottom. SnapPositioning.pixelOffset - Positions the snaps at a fixed pixel offset. double.infinity can be used to refer to the total available space without having to compute it yourself. |
onSnap | A callback function that gets invoked when the SlidingSheet snaps to an extent. |
SheetController #
The SheetController
can be used to change the state of a SlidingSheet
manually, simply passing an instance of SheetController
to a SlidingSheet
. Note that the methods can only be used after the SlidingSheet
has been rendered, however calling them before wont throw an exception.
Method | Description |
---|---|
expand() |
Expands the SlidingSheet to the maximum extent. |
collapse() |
Collapses the SlidingSheet to the minimum extent. |
snapToExtent() |
Snaps the SlidingSheet to an arbitrary extent. The extent will be clamped to the minimum and maximum extent. If the scroll offset is > 0, the SlidingSheet will first scroll to the top and then slide to the extent. |
scrollTo() |
Scrolls the SlidingSheet to the given offset. If the SlidingSheet is not yet at its maximum extent, it will first snap to the maximum extent and then scroll to the given offset. |
rebuild() |
Calls all builders of the SlidingSheet to rebuild their children. This method can be used to reflect changes in the SlidingSheet s children without calling setState(() {}); on the parent widget to improve performance. |
Headers and Footers #
Headers and footers are UI elements of a SlidingSheet
that will be displayed at the top or bottom of a SlidingSheet
respectively and will not get scrolled. The scrollable content will then live in between the header and the footer if specified. Delegating the touch events to the SlidingSheet
is done for you. Example:
@override
Widget build(BuildContext context) {
return Scaffold(
backgroundColor: Colors.grey.shade200,
appBar: AppBar(
title: Text('Simple Example'),
),
body: Stack(
children: <Widget>[
SlidingSheet(
elevation: 8,
cornerRadius: 16,
snapSpec: const SnapSpec(
snap: true,
snappings: [112, 400, double.infinity],
positioning: SnapPositioning.pixelOffset,
),
builder: (context, state) {
return Container(
height: 500,
child: Center(
child: Text(
'This is the content of the sheet',
style: Theme.of(context).textTheme.body1,
),
),
);
},
headerBuilder: (context, state) {
return Container(
height: 56,
width: double.infinity,
color: Colors.green,
alignment: Alignment.center,
child: Text(
'This is the header',
style: Theme.of(context).textTheme.body1.copyWith(color: Colors.white),
),
);
},
footerBuilder: (context, state) {
return Container(
height: 56,
width: double.infinity,
color: Colors.yellow,
alignment: Alignment.center,
child: Text(
'This is the footer',
style: Theme.of(context).textTheme.body1.copyWith(color: Colors.black),
),
);
},
),
],
),
);
}
Result:
ListViews and Columns #
The children of a SlidingSheet
are not allowed to have an inifinite (unbounded) height. Therefore when using a ListView
, make sure to set shrinkWrap
to true
and physics
to NeverScrollableScrollPhysics
. Similarly when using a Column
as a child of a SlidingSheet
, make sure to set the mainAxisSize
to MainAxisSize.min
.
Reflecting changes #
To improve performace, the children of a SlidingSheet
are not rebuild when it slides or gets scrolled. You can however pass a callback function to the listener
parameter of a SlidingSheet
, that gets called with the current SheetState
whenever the SlidingSheet
slides or gets scrolled. You can then rebuild your UI by calling setState(() {})
, (instance of SheetController).rebuild()
or by a different state management solution to rebuild the sheet. The example for instance decreases the corner radius of the SlidingSheet
as it gets dragged to the top and increases the headers top padding by the status bar height. When using the SlidingSheet
as a bottomSheetDialog
you can also use (instance of SheetController).rebuild()
to rebuild the sheet.