A paging library for large-scale Kotlin applications. Powered by Store, Molecule, and Compose Runtime.
- Performance: This has been our highest priority. Preliminary performance comparisons are showing roughly the same load time and memory utilization as AndroidX Paging, but fewer recompositions and janky frame delays.
- UDF-first design: This core architecture makes state management clean and predictable. Related AndroidX Pager issue: https://issuetracker.google.com/issues/183495984.
- βUpdating itemβ concept: Each item in a list can update independently. Related AndroidX Pager issue: https://issuetracker.google.com/issues/160232968.
- Operation pipelines: These operations are applied to ItemSnapshotList instances. This opens up on-the-fly data transformations, such as filtering, grouping, deduplicating, validating, or enrichment. Related AndroidX Pager issue: https://issuetracker.google.com/issues/175430431.
- Local and remote mutations: StoreX Paging handles both local and remote data changes.
- Customization options: Many customization points including launch effects, middleware, side effects, eager loading strategies, fetching strategies, and error handling strategies.
- AndroidX Paging compatibility: StoreX Paging is designed to be compatible with AndroidX Paging, facilitating easier migration or integration.
- Kotlin Multiplatform support: Targeting all major Kotlin platforms.
Circuit Sample
- Define your item ID, page request key, and item value types:
value class Cursor(val value: String)data class TimelineRequest(
val cursor: Cursor?,
val size: Int,
val headers: Map<String, String>
)data class Post(
override val id: Cursor,
val title: String,
val body: String,
val authorId: String,
val createdAt: LocalDateTime,
val retweetCount: Int,
val favoriteCount: Int,
val commentCount: Int,
val relevanceScore: Float,
val trendingScore: Float,
val isLikedByUser: Boolean
)- Implement an
IdExtractor:
val idExtractor = IdExtractor<Cursor, Post> { post -> post.id }- Implement a
PagingSource:
class TimelinePagingSource : PagingSource<Cursor, TimelineRequest, Post> {
override suspend fun load(params: PagingSource.LoadParams<TimelineRequest>):
PagingSource.LoadResult<Cursor, TimelineRequest, Post> {
TODO("Fetch posts from network")
}
}- Build a
Pager:
Pager
.builder<Cursor, TimelineRequest, Post>(pagingConfig)
.setIdExtractor(idExtractor)
.setPagingSource(TimelinePagingSource())
.addLaunchEffects(launchEffect1, launchEffectN)
.addSideEffects(sideEffect1, sideEffectN)
.addMiddleware(middleware1, middlewareN)
.addFetchingStrategy(customFetchingStrategy)
.addErrorHandlingStrategy(customErrorHandlingStrategy)
.build()- Provide the
Pagerto the compose environment at the appropriate level in the composition hierarchy:
class TimelineScreenUi(private val pager: Pager) : Ui<TimelineScreen.State> {
@Composable
override fun Content(state: TimelineScreen.State, modifier: Modifier) {
PagingScope(pager) {
LazyUpdatingItems(state.ids, modifier) { model: UpdatingItem<Cursor, Post> ->
TimelinePostUi(model)
}
}
}
}- Provide
PagingStateto the appropriate composable UI:
class TimelineScreenPresenter(
private val pager: Pager<Cursor>,
) : Presenter<TimelineScreen.State> {
@Composable
override fun present(): TimelineScreen.State {
val pagingState = pager.collectAsState()
return TimelineScreen.State(
ids = pagingState.ids,
eventSink = { event ->
when (event) {
TimelineScreen.Event.Refresh -> pager.dispatch(PagingAction.refresh())
}
}
)
}
}- Implement the
Operationabstract class for customized sorting and filtering:
class SortForTimeRange(private val timeRange: TimeRange) :
Operation<Cursor, TimelineRequest, Post>() {
internal override fun shouldApply(
key: TimelineRequest?,
pagingState: PagingState<Cursor>,
fetchingState: FetchingState<Cursor, TimelineRequest>
): Boolean {
// Always apply
return true
}
internal override fun apply(
snapshot: ItemSnapshotList<Cursor, Post>,
key: TimelineRequest?,
pagingState: PagingState<Cursor>,
fetchingState: FetchingState<Cursor, TimelineRequest>
): ItemSnapshotList<Cursor, Post> {
val now = Clock.System.now().toLocalDateTime(TimeZone.UTC)
// Separate loaded items and placeholders
val (loadedItems, placeholders) = snapshot.partition { it != null }
// Sort and filter loaded items
val sortedItems = loadedItems.filterNotNull()
.filter { post -> isWithinRange(post.createdAt, timeRange, now) }
.sortedWith(
compareByDescending<Post> { it.favoriteCount }.thenByDescending { it.createdAt }
)
// Combine sorted items with placeholders at the end
val result = sortedItems + placeholders
return ItemSnapshotList(result)
}
private fun isWithinRange(
createdAt: LocalDateTime,
timeRange: TimeRange,
now: LocalDateTime
): Boolean {
val durationSinceCreation = now.toInstant(TimeZone.UTC) - createdAt.toInstant(TimeZone.UTC)
return durationSinceCreation < timeRange.duration
}
}- Update the
OperationPipelinebased on user configuration
class TimelineScreenPresenter(...) : Presenter<TimelineScreen.State> {
@Composable
override fun present(): TimelineScreen.State {
val pagingState = pager.collectAsState()
var sortingMethod by remember { mutableStateOf<SortingMethod>(SortingMethod.New) }
LaunchedEffect(sortingMethod) {
val operation = when (sortingMethod) {
is Top -> SortForTimeRange(operation.timeRange)
}
pager.dispatch(PagingAction.UpdateOperations(operation))
}
return TimelineScreen.State(
ids = pagingState.ids,
eventSink = { event ->
when (event) {
TimelineScreen.Event.Refresh -> pager.dispatch(PagingAction.refresh())
TimelineEvent.UpdateSort -> sortingMethod = event.sortingMethod
}
}
)
}
}@Composable
fun TimelinePostUi(model: UpdatingItem<Cursor, Post>) {
val coroutineScope = rememberCoroutineScope()
val state = model.collectAsState(coroutineScope)
val post = state.value.item
if (post == null) {
TimelinePostPlaceholderUi()
} else {
TimelinePostLoadedUi(
post = post,
updatePost = { updatedPost -> model.emit(UpdatingItem.Event.Update(updatedPost)) }
)
}
}
@Composable
fun TimelinePostLoadedUi(
post: Post,
updatePost: (next: Post) -> Unit
) {
val isLikedByUser by remember { derivedStateOf { post.isLikedByUser } }
Column {
// ...
LikeAction(
isLikedByUser = isLikedByUser,
onClick = { updatePost(post.copy(isLikedByUser = !isLikedByUser)) }
)
}
}object CursorComparator : Comparator<Cursor> {
override fun compare(a: Cursor, b: Cursor): Int {
val parsedCursorA = parseCursor(a)
val parsedCursorB = parseCursor(b)
return parsedCursorA.first.compareTo(parsedCursorB.first)
}
override fun distance(a: Cursor, b: Cursor): Int {
val parsedCursorA = parseCursor(a)
val parsedCursorB = parseCursor(b)
// Compare timestamps
val timeDiff = parsedCursorA.first - parsedCursorB.first
return when {
// If timestamps are different, use their difference
// Coercing to Int range to avoid overflow issues
timeDiff != 0L -> timeDiff.coerceIn(Int.MIN_VALUE.toLong(), Int.MAX_VALUE.toLong()).toInt()
// If timestamps are the same, compare the unique parts lexicographically
// This ensures a consistent, deterministic ordering
else -> parsedCursorA.second.compareTo(parsedCursorB.second)
}
}
private fun parseCursor(cursor: Cursor): Pair<Long, String> {
// Parsing the cursor string into its components
val parts = cursor.split('-')
require(parts.size == 2) { "Invalid cursor format. Expected 'timestamp-uniqueId'" }
// Converting the timestamp string to a Long for numerical comparison
val timestamp = parts[0].toLongOrNull() ?: throw IllegalArgumentException("Invalid timestamp in cursor")
val uniqueId = parts[1]
return timestamp to uniqueId
}
}Reach out at https://kotlinlang.slack.com/archives/C06007Z01HU
Copyright 2024 Mobile Native Foundation
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