tree: 11a7ea70583dce1c5d0ffb05629c77a1a66cc1d1 [path history] [tgz]
  1. example/
  2. lib/
  3. test/
  4. .gitignore
  5. .metadata
  6. AUTHORS
  7. CHANGELOG.md
  8. LICENSE
  9. pubspec.yaml
  10. README.md
packages/adaptive_scaffold/README.md

Adaptive Scaffold

AdaptiveScaffold reacts to input from users, devices and screen elements and renders your Flutter application according to the Material 3 guidelines.

To see examples of using these widgets to make a simple but common adaptive layout:

cd example/
flutter run --release

AdaptiveScaffold

AdaptiveScaffold implements the basic visual layout structure for Material Design 3 that adapts to a variety of screens. It provides a preset of layout, including positions and animations, by handling macro changes in navigational elements and bodies based on the current features of the screen, namely screen width and platform. For example, the navigational elements would be a BottomNavigationBar on a small mobile device and a NavigationRail on larger devices. The body is the primary screen that takes up the space left by the navigational elements. The secondaryBody acts as an option to split the space between two panes for purposes such as having a detail view. There is some automatic functionality with foldables to handle the split between panels properly. AdaptiveScaffold is much simpler to use but is not the best if you would like high customizability. Apps that would like more refined layout and/or animation should use AdaptiveLayout.

Example Usage

  @override
  Widget build(BuildContext context) {
    // Define the children to display within the body at different breakpoints.
    final List<Widget> children = <Widget>[
      for (int i = 0; i < 10; i++)
        Padding(
          padding: const EdgeInsets.all(8.0),
          child: Container(
            color: const Color.fromARGB(255, 255, 201, 197),
            height: 400,
          ),
        )
    ];

    return BottomNavigationBarTheme(
        data: const BottomNavigationBarThemeData(
          unselectedItemColor: Colors.black,
          selectedItemColor: Colors.black,
          backgroundColor: Colors.white,
        ),
        child: AdaptiveScaffold(
            // An option to override the default breakpoints used for small, medium,
            // and large.
            smallBreakpoint: const WidthPlatformBreakpoint(end: 700),
            mediumBreakpoint:
                const WidthPlatformBreakpoint(begin: 700, end: 1000),
            largeBreakpoint: const WidthPlatformBreakpoint(begin: 1000),
            useDrawer: false,
            destinations: const <NavigationDestination>[
              NavigationDestination(icon: Icon(Icons.inbox), label: 'Inbox'),
              NavigationDestination(
                  icon: Icon(Icons.article), label: 'Articles'),
              NavigationDestination(icon: Icon(Icons.chat), label: 'Chat'),
              NavigationDestination(
                  icon: Icon(Icons.video_call), label: 'Video')
            ],
            body: (_) => GridView.count(crossAxisCount: 2, children: children),
            smallBody: (_) => ListView.builder(
                  itemCount: children.length,
                  itemBuilder: (_, int idx) => children[idx],
                ),
            // Define a default secondaryBody.
            secondaryBody: (_) =>
                Container(color: const Color.fromARGB(255, 234, 158, 192)),
            // Override the default secondaryBody during the smallBreakpoint to be
            // empty. Must use AdaptiveScaffold.emptyBuilder to ensure it is properly
            // overridden.
            smallSecondaryBody: AdaptiveScaffold.emptyBuilder));
  }
}

The Background Widget Suite

These are the set of widgets that are used on a lower level and offer more customizability at a cost of more lines of code.

AdaptiveLayout

AdaptiveLayout's Assigned Slots Displayed on Screen AdaptiveLayout is the top-level widget class that arranges the layout of the slots and their animation, similar to Scaffold. It takes in several LayoutSlots and returns an appropriate layout based on the diagram above. AdaptiveScaffold is built upon AdaptiveLayout internally but abstracts some of the complexity with presets based on the Material 3 Design specification.

SlotLayout

SlotLayout handles the adaptivity or the changes between widgets at certain Breakpoints. It also holds the logic for animating between breakpoints. It takes SlotLayoutConfigs mapped to Breakpoints in a config and displays a widget based on that information.

SlotLayout.from

SlotLayout.from creates a SlotLayoutConfig holds the actual widget to be displayed and the entrance animation and exit animation.

Example Usage

    // AdaptiveLayout has a number of slots that take SlotLayouts and these
    // SlotLayouts' configs take maps of Breakpoints to SlotLayoutConfigs.
    return AdaptiveLayout(
      // Primary navigation config has nothing from 0 to 600 dp screen width,
      // then an unextended NavigationRail with no labels and just icons then an
      // extended NavigationRail with both icons and labels.
      primaryNavigation: SlotLayout(
        config: <Breakpoint, SlotLayoutConfig>{
          Breakpoints.medium: SlotLayout.from(
            inAnimation: AdaptiveScaffold.leftOutIn,
            key: const Key('Primary Navigation Medium'),
            builder: (_) => AdaptiveScaffold.standardNavigationRail(
              leading: const Icon(Icons.menu),
              destinations: destinations
                  .map((_) => AdaptiveScaffold.toRailDestination(_))
                  .toList(),
            ),
          ),
          Breakpoints.large: SlotLayout.from(
            key: const Key('Primary Navigation Large'),
            inAnimation: AdaptiveScaffold.leftOutIn,
            builder: (_) => AdaptiveScaffold.standardNavigationRail(
              extended: true,
              leading: Row(
                mainAxisAlignment: MainAxisAlignment.spaceAround,
                children: const <Widget>[
                  Text(
                    'REPLY',
                    style: TextStyle(color: Color.fromARGB(255, 255, 201, 197)),
                  ),
                  Icon(Icons.menu_open)
                ],
              ),
              destinations: destinations
                  .map((_) => AdaptiveScaffold.toRailDestination(_))
                  .toList(),
              trailing: trailingNavRail,
            ),
          ),
        },
      ),
      // Body switches between a ListView and a GridView from small to medium
      // breakpoints and onwards.
      body: SlotLayout(
        config: <Breakpoint, SlotLayoutConfig>{
          Breakpoints.small: SlotLayout.from(
            key: const Key('Body Small'),
            builder: (_) => ListView.builder(
              itemCount: children.length,
              itemBuilder: (BuildContext context, int index) => children[index],
            ),
          ),
          Breakpoints.mediumAndUp: SlotLayout.from(
            key: const Key('Body Medium'),
            builder: (_) =>
                GridView.count(crossAxisCount: 2, children: children),
          )
        },
      ),
      // BottomNavigation is only active in small views defined as under 600 dp
      // width.
      bottomNavigation: SlotLayout(
        config: <Breakpoint, SlotLayoutConfig>{
          Breakpoints.small: SlotLayout.from(
            key: const Key('Bottom Navigation Small'),
            inAnimation: AdaptiveScaffold.bottomToTop,
            outAnimation: AdaptiveScaffold.topToBottom,
            builder: (_) => BottomNavigationBarTheme(
              data: const BottomNavigationBarThemeData(
                  selectedItemColor: Colors.black),
              child: AdaptiveScaffold.standardBottomNavigationBar(
                  destinations: destinations),
            ),
          )
        },
      ),
    );
  }
}

Both of the examples shown here produce the same output: Example of a display made with AdaptiveScaffold

Additional information

You can find more information on this package and its usage in the public design doc.