expandable_reorderable_list 0.0.3 expandable_reorderable_list: ^0.0.3 copied to clipboard
A wrapper around ReorderableListView that allows you to expand and collapse items.
import 'package:example/lead_or_tail.dart';
import 'package:example/nester_item.dart';
import 'package:expandable_reorderable_list/expandable_reorderable_list.dart';
import 'package:flutter/material.dart';
void main() {
runApp(const App());
}
/// A app widget that shows how to use [ExpandableReorderableList].
class App extends StatelessWidget {
/// A app widget that shows how to use [ExpandableReorderableList].
const App({Key? key}) : super(key: key);
@override
Widget build(BuildContext context) {
return MaterialApp(
debugShowCheckedModeBanner: false,
home: Scaffold(
appBar: AppBar(
title: const Text('Expandable reorderable list'),
),
body: Builder(builder: (context) {
return Theme(
data: Theme.of(context).copyWith(
canvasColor: Colors.transparent,
shadowColor: Colors.transparent,
),
child: const Home(),
);
}),
),
);
}
}
/// A sample widget that shows how to use [ExpandableReorderableList].
class Home extends StatefulWidget {
/// A sample widget that shows how to use [ExpandableReorderableList].
const Home({Key? key}) : super(key: key);
@override
State<Home> createState() => _HomeState();
}
class _HomeState extends State<Home> {
/// The nested item that are displayed.
final nestedItems = NestedItem.generate(depth: 3, width: 4);
/// All the items.
final nestedItemsMap = <String, NestedItem>{};
final modelsController =
ExpandableReorderableListItemModelController<ValueKey<String>>();
@override
void initState() {
super.initState();
nestedItemsMap.addAll(nestedItems.toMap());
}
/// It is called when an item is dragged and dropped.
///
/// The `from` and `to` are the indexes of the items are available with
/// [onReorderParam.oldIndex] and [onReorderParam.newIndex].
void onReorder(OnReorderParam<ValueKey<String>> onReorderParam) {
final item = onReorderParam.item;
final nestedItem = nestedItemsMap[item.key.value]!;
if (onReorderParam.oldIndex == 0) {
// The first item is moved.
// It is only a valid drag if:
// - The item is collapsed
// - The next item level is the same as the item level.
if (!(modelsController.items[item.key]!.isCollapsed ||
onReorderParam.newNextItem?.level == item.level)) {
return;
}
}
if (onReorderParam.newPreviousItem == null) {
// The dragged item is moved at the first position.
if (item.level != 0) {
// The dragged item is not a top level item. This is not a valid drop.
// If dropped at the first position, the item won't have a parent
// anymore.
return;
}
try {
nestedItem.remove(modelsController);
nestedItems.insert(0, nestedItem);
setState(() {});
} on StateError {
// Invalid drag and drop operation.
}
} else {
// The new previous item is not null.
final newPreviousItem = onReorderParam.newPreviousItem!;
final newPreviousNestedItem = nestedItemsMap[newPreviousItem.key.value]!;
if (item.level == newPreviousItem.level) {
// The item is moved after an item of the same level. It needs to be
// inserted in the previous item's children just after the previous
// item.
try {
nestedItem.remove(modelsController);
newPreviousNestedItem.parent!.insert(
newPreviousNestedItem.indexInParent + 1,
nestedItem,
);
if (!modelsController.items[newPreviousItem.key]!.isCollapsed &&
!modelsController.items[item.key]!.isCollapsed) {
// The new previous item and the item are expanded. We need to pass
// the new previous item's children to the moved item.
nestedItem.children.addAll(newPreviousNestedItem.children);
newPreviousNestedItem.children.clear();
}
setState(() {});
} on StateError {
// Invalid drag and drop operation.
}
} else if (item.level > newPreviousItem.level) {
// The moved item is lower (visually) is the hierarchy than the previous item.
if (item.level == newPreviousItem.level + 1) {
nestedItem.remove(modelsController);
if (modelsController.items[newPreviousItem.key]!.isCollapsed) {
// Move the item at the end of the new previous item.
newPreviousNestedItem.children.add(nestedItem);
} else {
// Move the item at the beginning of the new previous item.
newPreviousNestedItem.insert(0, nestedItem);
}
setState(() {});
} else {
if (modelsController.items[newPreviousItem.key]!.isCollapsed) {
// Add it to the very end.
try {
newPreviousNestedItem.addNested(nestedItem);
nestedItem.remove(modelsController);
setState(() {});
} on StateError {
// It was not a valid drag and drop.
}
} else {
// Bad drag and drop, do nothing.
}
}
} else {
// The moved item is higher (visually) is the hierarchy than the previous item.
if (onReorderParam.newNextItem == null) {
// The item is dragged at the end of the list.
// This is always a valid drop.
nestedItem.remove(modelsController);
nestedItems.addNested(nestedItem);
setState(() {});
} else {
final newNextItem = onReorderParam.newNextItem!;
final newNextNestedItem = nestedItemsMap[newNextItem.key.value]!;
if (modelsController.items[item.key]!.isCollapsed) {
// The item is collapsed.
// Move it at the end of its new parent.
var previousRelative = newPreviousNestedItem;
while (previousRelative.level > nestedItem.level) {
previousRelative = previousRelative.parent!;
}
final parent = previousRelative.parent!;
var newIndex = previousRelative.indexInParent + 1;
if (nestedItem.parent == parent &&
nestedItem.indexInParent <= newIndex) {
// The item is currently before the previous relative item. Since
// the item is going to be removed, 1 needs to be subtracted from
// `newIndex`.
newIndex--;
}
nestedItem.remove(modelsController);
parent.insert(
previousRelative.indexInParent + 1,
nestedItem,
);
setState(() {});
} else {
if (newNextItem.level > item.level + 1) {
// This is not a valid drop.
return;
} else if (newNextItem.level <= item.level) {
// Leave the item where it is.
nestedItem.remove(modelsController);
final parent = newNextNestedItem.parent!;
parent.children[newNextNestedItem.indexInParent - 1]
.addNested(nestedItem);
setState(() {});
} else {
// The new next item should be added to item.
try {
nestedItem.remove(modelsController);
} on StateError {
// Not a valid drop.
return;
}
final previousRelative = newNextNestedItem.parent!;
final parent = previousRelative.parent!;
parent.insert(
previousRelative.indexInParent + 1,
nestedItem,
);
final newNextNestedItemIndexInParent =
newNextNestedItem.indexInParent;
final newPreviousRelativeChildren =
previousRelative.children.sublist(
0,
newNextNestedItemIndexInParent,
);
final newChildren = previousRelative.children.sublist(
newNextNestedItemIndexInParent,
previousRelative.children.length,
);
previousRelative.children
..clear()
..addAll(newPreviousRelativeChildren);
nestedItem.children
..clear()
..addAll(newChildren);
setState(() {});
}
}
}
}
}
}
@override
Widget build(BuildContext context) {
return Padding(
padding: const EdgeInsets.all(8.0),
child: ExpandableReorderableList<ValueKey<String>>(
leads: const [
LeadOrTail(text: 'Header'),
],
tails: const [
LeadOrTail(text: 'Tail'),
],
onReorder: onReorder,
modelsController: modelsController,
children: nestedItems.item.children,
),
);
}
}
/// An extension on [NestedItem] with helper methods.
extension on NestedItem {
/// Remove an item from its parent and pass all its children to the previous
/// item.
void remove(
ExpandableReorderableListItemModelController<ValueKey<String>>
modelsController,
) {
if (modelsController.items[item.key]!.isCollapsed || children.isEmpty) {
// We move the children too.
parent!.children.remove(this);
} else {
// Move only the header and not the children with it.
final _indexInParent = indexInParent;
if (_indexInParent == 0) {
// We cannot move the children to the previous item, do nothing.
throw StateError('Cannot remove the first item without its children.');
}
parent!.children[_indexInParent - 1].addAll(children);
children.clear();
parent!.children.remove(this);
}
}
/// The associated item.
ExpandableReorderableListItem<ValueKey<String>> get item {
return ExpandableReorderableListItem<ValueKey<String>>(
key: ValueKey<String>(name),
children: children.map((child) => child.item).toList(),
builder: (_, __, itemModel) => ItemWidget(
name: name,
level: level,
itemModel: itemModel,
hasChildren: children.isNotEmpty,
),
);
}
/// Returns a map including the item and all its sub-items.
Map<String, NestedItem> toMap() {
final map = <String, NestedItem>{};
map[name] = this;
for (final child in children) {
map.addAll(child.toMap());
}
return map;
}
/// Add recursively a new item to the list. If it is not possible, it will
/// throw a [StateError].
void addNested(NestedItem nestedItem) {
assert(nestedItem.level > level);
if (nestedItem.level == level + 1) {
add(nestedItem);
} else {
if (children.isEmpty) throw StateError('No children');
children.last.addNested(nestedItem);
}
}
}