skeletonizer 1.0.1 skeletonizer: ^1.0.1 copied to clipboard
Converts already built widgets into skeleton loaders with no extra effort.
- Introduction
- Basic usage
- The need for fake data
- Annotations
- Creating Skeletons manually (New)
- Customization
- Resources
Introduction #
What are skeleton loaders? #
UI skeleton loading is a technique used to enhance user experience during web or app loading. It involves displaying a simplified, static version of the user interface while the actual content is being fetched. This placeholder UI gives the illusion of instant loading and prevents users from perceiving long loading times.
Motivation #
Creating a skeleton-layout for your screens doesn't only feel like a duplicate work but things can go out of sync real quick, when updating the actual layout we often forget to update the corresponding skeleton-layout.
How does it work? #
As the name suggests, skeletonizer will reduce your already existing layouts into mere skeletons and apply painting effects on them, typically a shimmer effect. It automatically does the job for you, in addition skeleton annotations can be used to change how specific widgets are skeletonized.
Basic usage #
Simply wrap your layout with Skeletonizer
widget or SliverSkeletonizer
| Skeletonizer.sliver
for sliver widgets.
Skeletonizer(
enabled: _loading,
child: ListView.builder(
itemCount: 7,
itemBuilder: (context, index) {
return Card(
child: ListTile(
title: Text('Item number $index as title'),
subtitle: const Text('Subtitle here'),
trailing: const Icon(Icons.ac_unit),
),
);
},
),
)
Skeletonizer with default config
Note: all the following shimmer effects are disturbed by the gif optimization
Skeletonizer with no containers
Skeletonizer(ignoreContainers: true)
The need for fake data #
In order for skeletonizer to work it actually needs a layout, but in most cases the layout would
need data to shape, e.g the following ListView ill not render anything unless users
is populated, because if users is empty
we have no layout which means we have nothing to skeletonize.
Skeletonizer(
enabled: _loading,
child: ListView.builder(
itemCount: users.lenght,
itemBuilder: (context, index) {
return Card(
child: ListTile(
title: Text(users[index].name),
subtitle: Text(users[index].jobTitle),
leading: CircleAvatar(
radius: 24,
backgroundImage: NetworkImage(users[index].avatar),
),
),
);
},
),
)
So the key here is to provide fake data for the layout to shape until the real data is fetched form the server, and we would have such a setup in our build method:
if (_loading) {
final fakeUsers = List.generate(
7, (index) => const User(
name: 'User name',
jobTitle: 'Developer',
avatar: ''
),
);
return Skeletonizer(
child: UserList(users: fakeUsers),
);
} else {
return UserList(users: realUsers);
}
or by utilizing the enabled
flag
{
final users = _loading ? List.generate(
7, (index) => const User(
name: 'User name',
jobTitle: 'Developer',
avatar: ''
) : realUsers;
);
return Skeletonizer(
enabled: _loading,
child: UserList(users: users),
);
Now we have our layout but one issue remains, if you run the above example you'll get an error in
your console stating that an invalid url was passed to NetworkImage
which is legit because our fake
avatar url is an empty string, in such cases we need to make sure NetworkImage is not in our widget
tree when skeletonizer is enabled and we do that by using a skeleton annotation
called Skeleton.replace
..read more about annotations below.
Skeletonizer(
enabled: _loading,
child: ListView.builder(
itemCount: users.lenght,
itemBuilder: (context, index) {
return Card(
child: ListTile(
title: Text(users[index].name),
subtitle: Text(users[index].jobTitle),
leading: Skeleton.replace(
width: 48, // width of replacement
height: 48, // height of replacement
child; CircleAvatar(
radius: 24,
backgroundImage: NetworkImage(users[index].avatar),
),
),
);
},
),
)
or you can do it directly like follows:
Skeletonizer(
enabled: _loading,
child: ListView.builder(
itemCount: users.lenght,
itemBuilder: (context, index) {
return Card(
child: ListTile(
title: Text(users[index].name),
subtitle: Text(users[index].jobTitle),
leading: CircleAvatar(
radius: 24,
backgroundImage: _loading ? null : NetworkImage(users[index].avatar),
),
),
),);
},
),
)
Note: you can also check wither a skeletonizer is enabled inside descendent widgets using:
Skeletonizer.of(context).enabled;
Annotations #
We can use annotations to change how some widgets should be skeletonized, skeleton annotations have no effect on the real layout as they only hold information for skeletonizer to use when it's enabled.
Skeleton.ignore #
Widgets annotated with Skeleton.ignore
will not be skeletonized
Card(
child: ListTile(
title: Text('The title goes here'),
subtitle: Text('Subtitle here'),
trailing: Skeleton.ignore( // the icon will not be skeletonized
child: Icon(Icons.ac_unit, size: 40),
),
),
)
Skeleton.leaf #
Widgets annotated with Skeleton.leaf
marks containers as leafs, leafs are painted using the shader paint.
Skeleton.leaf(
child : Card(
child: ListTile(
title: Text('The title goes here'),
subtitle: Text('Subtitle here'),
trailing: Icon(Icons.ac_unit, size: 40),
),
)
)
Skeleton.keep #
Widgets annotated with Skeleton.keep
will not be skeletonized but will be painted as is
Card(
child: ListTile(
title: Text('The title goes here'),
subtitle: Text('Subtitle here'),
trailing: Skeleton.keep( // the icon will be painted as is
child: Icon(Icons.ac_unit, size: 40),
),
),
)
Skeleton.shade #
Widgets annotated with Skeleton.shade
will not be skeletonized but will be shaded by a shader mask.
Note: CustomPainter
widgets need to be explicitly annotated with Skeleton.shade
to be shaded.
Card(
child: ListTile(
title: Text('The title goes here'),
subtitle: Text('Subtitle here'),
trailing: Skeleton.shade( // the icon will be shaded by shader mask
child: Icon(Icons.ac_unit, size: 40),
),
),
)
Skeleton.replace #
Widgets annotated with Skeleton.replace
will be replaced when skeletonizer is enabled and the
replacement will be skeletonized, This is good for widgets that can not render with fake data
like Image.network()
Card(
child: ListTile(
title: Text('The title goes here'),
subtitle: Text('Subtitle here'),
trailing: Skeleton.replace( // the icon will be replaced when skeletonizer is enabled
width: 50, // the width of the replacement
height: 50, // the height of the replacement
replacment: // defaults to a DecoratedBox
child: Icon(Icons.ac_unit, size: 40),
),
)
,)
Skeleton.unite #
Widgets annotated with Skeleton.unite
will not be united and drawn as one big bone, this is good
for when you have multiple small bones close to each other and you want to present them as one bone.
Card(
child: ListTile(
title: Text('Item number 1 as title'),
subtitle: Text('Subtitle here'),
trailing: Skeleton.unite(
child: Row(
mainAxisSize: MainAxisSize.min,
children: [
Icon(Icons.ac_unit, size: 32),
SizedBox(width: 8),
Icon(Icons.access_alarm, size: 32),
],
),
),
),
)
,
Skeleton.ignorePointers #
Widgets annotated with Skeleton.ignorePointers
will ignore pointer events when skeletonizer is enabled.
Creating Skeletons manually #
Originally, Skeletonizer worked its magic by creating skeletons from real widgets. But hey, we get it – sometimes you want to do your own thing, have a different layout, or just skip the whole fake data scene. Now, you can speed things up big time by crafting custom skeletons from scratch using Bone widgets. Now, you might wonder, "What sets this apart from other shimmer libraries?" Simple – Bone widgets are your time-saving superheroes. They mimic everyday UI components you'd typically want to shimmer, such as icons, texts, and buttons and use their actual theme data to design border radius and sizing information.
Skeletonizer.bones(
child: Card(
child: ListTile(
leading: Bone.circle(size: 48),
title: Bone.text(words: 2),
subtitle: Bone.text(),
trailing: Bone.icon(),
),
),
);
Obviously, you can create any bone shape using Bone(width, height)
or use the helpers Bone.circle(size)
and Bone.square(size)
. The cool part here is using mimic bone types like Bone.icon()
, which, you guessed it, reads icon sizing information from the inherited theme. As such, Bone.text reads font size and line height from the inherited theme if not provided in the constructor. By default, it mimics 3 words (word = 5 letters), but you can easily change that. For multiline, use Bone.multiText(lines: 3)
.
Additionally, there's also Bone.button()
which mimics actual Material buttons and Bone.iconButton()
to mimic icon buttons.
When opting for the manual approach, only Bone widgets get the shimmer treatment – they're the ones that'll be shaded. This means you can wrap other colorable widgets like cards, containers ..etc, without worrying about them getting shaded. which results to a seamless and perfect shimmer effect!
Customization #
Loading effects #
Skeletonizer has 3 different painting effects to choose from which can be customized to your liking.
Note: Loading effects are disturbed by Gif optimization, these look much better on flutter
Text skeleton config #
You can provide a global text config options to skeletonizer widgets like
Skeletonizer(
justifyMultiLineText: false,
textBoneBorderRadius: TextBoneBorderRadius.fromHeightFactor(.5),
...
)
ignoreContainers #
if you want to ignore all containers and only skeletonize their children you can set
ignoreContainers
to true
containersColor #
if provided, all containers will be painted with this color otherwise the actual color will be
Using the inheritable SkeletonizerConfig widget #
Use SkeletonizerConfig
somewhere up your widgets tree e.g above the MaterialApp
widget to
provide
default skeletonizer configurations to your whole App.
SkeletonizerConfig(
data: SkeletonizerConfigData(
effect: const ShimmerEffect(),
justifyMultiLineText: true,
textBorderRadius: TextBoneBorderRadius(..),
ignoreContainers: false,
),
.....
)
Resources #
Support Skeletonizer #
You can support skeletonizer by liking it on Pub and staring it on Github, sharing ideas on how we can enhance a certain functionality or by reporting any problems you encounter and of course buying a couple coffees will help speed up the development process.