Preference implementation for Jetpack Compose Material 3.
This is not an officially supported Google product.
Gradle:
implementation 'me.zhanghai.compose.preference:library:1.1.1'
There is no official and complete Material 3 UX specification for preference yet, so the UX design of this library mainly comes from the following sources:
- Material Design 3
- Material Design 2 Android Settings
- Android settings design guidelines
- AndroidX Preference
- AOSP Settings
This library is designed with both extensibility and ease-of-use in mind.
Basic usage of this library involves invoking the ProvidePreferenceLocals
composable, and then calling the *Preference
helper functions in a LazyColumn
composable:
AppTheme {
ProvidePreferenceLocals {
// Other composables wrapping the LazyColumn ...
LazyColumn(modifier = Modifier.fillMaxSize()) {
switchPreference(
key = "switch_preference",
defaultValue = false,
title = { Text(text = "Switch preference") },
icon = { Icon(imageVector = Icons.Outlined.Info, contentDescription = null) },
summary = { Text(text = if (it) "On" else "Off") }
)
}
}
}
Built-in types of preferences include:
Preference
PreferenceCategory
CheckboxPreference
FooterPreference
ListPreference
(supports both alert dialog and dropdown menu)MultiSelectListPreference
RadioButtonPreference
SliderPreference
SwitchPreference
TextFieldPreference
TwoTargetIconButtonPreference
TwoTargetSwitchPreference
Each type of built-in preference includes 3 kinds of APIs:
- A
LazyListScope.*Preference
extension function, which is the easiest way to use preferences in this library, and helps developers to avoid boilerplates like having to specify the key twice for theLazyColumn
and thePreference
. - A
*Preference
composable that takes aMutableState
, which allows developers to bring in any kind of state they currently have. - A
*Preference
composable that takesvalue
andonValueChange
, which allows developers to use the preference without a state and even in non-preference scenarios.
The visual appearance of the preferences can be customized by providing a custom PreferenceTheme
with preferenceTheme
to ProvidePreferenceLocals
or ProvidePreferenceTheme
.
Customizable values in the theme include most dimensions, colors and text styles used by the built-in preferences.
The data source of the preferences can be customized by providing a custom MutableStateFlow<Preferences>
to ProvidePreferenceLocals
or ProvidePreferenceFlow
.
The Preferences
interface defined in this library is similar to the AndroidX DataStore Preferences
class, but:
- It can be implemented by other mechanisms like
SharedPreferences
, thanks to being a public interface instead of an abstract class with only an internal constructor. - It doesn't have to be produced and updated via a
DataStore
. - It doesn't mandate a fixed set of types that an implementation has to support, so that implementations have the flexibility to support much more or less types. The implementations within this library will always support the types supported by
SharedPreferences
(the same as AndroidX DataStore).
The default data source provided by this library (defaultPreferenceFlow
) is implemented with SharedPreferences
, because:
SharedPreferences
is available as part of the Android framework, and doesn't require external dependencies like AndroidX DataStore which bundles its own copy ofprotobuf-lite
.SharedPreferences
can actually be 10x faster than AndroidX DataStore, likely due to its existing optimizations and simple threading and persistence model (XML is simple enough to be faster than Protobuf).SharedPreferences
has a synchronous API, but it is actually async except for the first (un-cached) read, and allows in-memory value change without waiting for the disk write to complete, which is good for the preference use case.- Existing users of
SharedPreferences
can use this library directly with the default data source.
There should only be at most one instance of defaultPreferenceFlow
, similar to DataStore
in AndroidX DataStore. It is also only for usage within a single process due to being backed by SharedPreferences
.
If AndroidX DataStore is considered more appropriate for your use case, e.g. you are working on a Compose Multiplatform project or you need multi-process support, you can also easily use a AndroidX DataStore backed implementation that provides a MutableStateFlow<Preferences>
.
Copyright 2023 Google LLC
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
https://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.