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Merge pull request #556 from InsanusMokrassar/0.25.1

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0.25.1
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InsanusMokrassar
2025-03-08 12:26:41 +06:00
committed by GitHub
parent 7fe62b4ffa 3437f4c712
commit ef287bc331
8 changed files with 639 additions and 52 deletions
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8
CHANGELOG.md
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@@ -1,5 +1,13 @@
# Changelog # Changelog
## 0.25.1
* `Coroutines`:
* Add `SortedMapLikeBinaryTreeNode`
* `Pagination`:
* `Compose`:
* One more rework of `InfinityPagedComponent` and `PagedComponent`
## 0.25.0 ## 0.25.0
* `Repos`: * `Repos`:

9
coroutines/src/commonMain/kotlin/dev/inmo/micro_utils/coroutines/collections/SortedBinaryTreeNode.kt
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@@ -1,7 +1,6 @@
package dev.inmo.micro_utils.coroutines.collections package dev.inmo.micro_utils.coroutines.collections
import dev.inmo.micro_utils.coroutines.SmartRWLocker import dev.inmo.micro_utils.coroutines.SmartRWLocker
import dev.inmo.micro_utils.coroutines.waitReadRelease
import dev.inmo.micro_utils.coroutines.withReadAcquire import dev.inmo.micro_utils.coroutines.withReadAcquire
import dev.inmo.micro_utils.coroutines.withWriteLock import dev.inmo.micro_utils.coroutines.withWriteLock
import kotlinx.coroutines.job import kotlinx.coroutines.job
@@ -93,7 +92,7 @@ class SortedBinaryTreeNode<T>(
* This process will continue until function will not find place to put [SortedBinaryTreeNode] with data or * This process will continue until function will not find place to put [SortedBinaryTreeNode] with data or
* [SortedBinaryTreeNode] with [SortedBinaryTreeNode.data] same as [newData] will be found * [SortedBinaryTreeNode] with [SortedBinaryTreeNode.data] same as [newData] will be found
*/ */
private suspend fun <T> SortedBinaryTreeNode<T>.addSubNode( private suspend fun <T> SortedBinaryTreeNode<T>.upsertSubNode(
subNode: SortedBinaryTreeNode<T>, subNode: SortedBinaryTreeNode<T>,
skipLockers: Set<SmartRWLocker> = emptySet() skipLockers: Set<SmartRWLocker> = emptySet()
): SortedBinaryTreeNode<T> { ): SortedBinaryTreeNode<T> {
@@ -149,7 +148,7 @@ private suspend fun <T> SortedBinaryTreeNode<T>.addSubNode(
* [SortedBinaryTreeNode] with [SortedBinaryTreeNode.data] same as [newData] will be found * [SortedBinaryTreeNode] with [SortedBinaryTreeNode.data] same as [newData] will be found
*/ */
suspend fun <T> SortedBinaryTreeNode<T>.addSubNode(newData: T): SortedBinaryTreeNode<T> { suspend fun <T> SortedBinaryTreeNode<T>.addSubNode(newData: T): SortedBinaryTreeNode<T> {
return addSubNode( return upsertSubNode(
SortedBinaryTreeNode(newData, comparator) SortedBinaryTreeNode(newData, comparator)
) )
} }
@@ -198,8 +197,8 @@ suspend fun <T> SortedBinaryTreeNode<T>.findParentNode(data: T): SortedBinaryTre
*/ */
suspend fun <T> SortedBinaryTreeNode<T>.removeSubNode(data: T): Pair<SortedBinaryTreeNode<T>, SortedBinaryTreeNode<T>>? { suspend fun <T> SortedBinaryTreeNode<T>.removeSubNode(data: T): Pair<SortedBinaryTreeNode<T>, SortedBinaryTreeNode<T>>? {
val onFoundToRemoveCallback: suspend SortedBinaryTreeNode<T>.(left: SortedBinaryTreeNode<T>?, right: SortedBinaryTreeNode<T>?) -> Unit = { left, right -> val onFoundToRemoveCallback: suspend SortedBinaryTreeNode<T>.(left: SortedBinaryTreeNode<T>?, right: SortedBinaryTreeNode<T>?) -> Unit = { left, right ->
left ?.also { leftNode -> addSubNode(leftNode, setOf(locker)) } left ?.also { leftNode -> upsertSubNode(leftNode, setOf(locker)) }
right ?.also { rightNode -> addSubNode(rightNode, setOf(locker)) } right ?.also { rightNode -> upsertSubNode(rightNode, setOf(locker)) }
} }
while (coroutineContext.job.isActive) { while (coroutineContext.job.isActive) {
val foundParentNode = findParentNode(data) ?: return null val foundParentNode = findParentNode(data) ?: return null

401
coroutines/src/commonMain/kotlin/dev/inmo/micro_utils/coroutines/collections/SortedMapLikeBinaryTreeNode.kt Normal file
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@@ -0,0 +1,401 @@
package dev.inmo.micro_utils.coroutines.collections
import dev.inmo.micro_utils.coroutines.SmartRWLocker
import dev.inmo.micro_utils.coroutines.withReadAcquire
import dev.inmo.micro_utils.coroutines.withWriteLock
import kotlinx.coroutines.job
import kotlinx.serialization.Serializable
import kotlin.coroutines.coroutineContext
/**
* Creates simple [Comparator] which will use [compareTo] of [T] for both objects
*/
private fun <T : Comparable<C>, C : T> T.createComparator() = Comparator<C> { o1, o2 -> o1.compareTo(o2) }
@Serializable
class SortedMapLikeBinaryTreeNode<K, V>(
val key: K,
val value: V,
internal val comparator: Comparator<K>,
) : Iterable<SortedMapLikeBinaryTreeNode<K, V>> {
internal var leftNode: SortedMapLikeBinaryTreeNode<K, V>? = null
internal var rightNode: SortedMapLikeBinaryTreeNode<K, V>? = null
internal val locker: SmartRWLocker by lazy {
SmartRWLocker()
}
suspend fun getLeftNode() = locker.withReadAcquire {
leftNode
}
suspend fun getRightNode() = locker.withReadAcquire {
rightNode
}
suspend fun getLeftKey() = getLeftNode() ?.key
suspend fun getLeftValue() = getLeftNode() ?.value
suspend fun getRightKey() = getRightNode() ?.value
suspend fun getRightValue() = getRightNode() ?.value
override fun equals(other: Any?): Boolean {
return other === this || (other is SortedMapLikeBinaryTreeNode<*, *> && other.key == key && other.rightNode == rightNode && other.leftNode == leftNode)
}
override fun hashCode(): Int {
return key.hashCode() * 31 + rightNode.hashCode() + leftNode.hashCode()
}
suspend fun size(): Int {
return locker.withReadAcquire {
1 + (leftNode ?.size() ?: 0) + (rightNode ?.size() ?: 0)
}
}
/**
* This [Iterator] will run from less to greater values of nodes starting the
* [dev.inmo.micro_utils.coroutines.collections.SortedMapLikeBinaryTreeNode]-receiver. Due to non-suspending
* nature of [iterator] builder, this [Iterator] **DO NOT** guarantee consistent content due to iterations. It
* means, that tree can be changed during to iteration process
*/
override fun iterator(): Iterator<SortedMapLikeBinaryTreeNode<K, V>> = iterator {
leftNode ?.let {
it.iterator().forEach { yield(it) }
}
yield(this@SortedMapLikeBinaryTreeNode)
rightNode ?.let {
it.iterator().forEach { yield(it) }
}
}
override fun toString(): String {
return "$key($leftNode;$rightNode)"
}
companion object {
operator fun <K : Comparable<K>, V> invoke(
key: K,
value: V
) = SortedMapLikeBinaryTreeNode(
key,
value,
key.createComparator()
)
}
}
/**
* Will add subnode in tree if there are no any node with [newData]
*
* * If [newData] is greater than [SortedMapLikeBinaryTreeNode.key] of currently checking node,
* will be used [SortedMapLikeBinaryTreeNode.rightNode]
* * If [newData] is equal to [SortedMapLikeBinaryTreeNode.key] of currently
* checking node - will be returned currently checking node
* * If [newData] is less than [SortedMapLikeBinaryTreeNode.key] of currently
* checking node - will be used [SortedMapLikeBinaryTreeNode.leftNode]
*
* This process will continue until function will not find place to put [SortedMapLikeBinaryTreeNode] with data or
* [SortedMapLikeBinaryTreeNode] with [SortedMapLikeBinaryTreeNode.key] same as [newData] will be found
*
* @param replaceMode Will replace only value if node already exists
*/
private suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.upsertSubNode(
subNode: SortedMapLikeBinaryTreeNode<K, V>,
skipLockers: Set<SmartRWLocker> = emptySet(),
replaceMode: Boolean
): SortedMapLikeBinaryTreeNode<K, V> {
var currentlyChecking = this
var latestParent: SortedMapLikeBinaryTreeNode<K, V>? = null
val lockedLockers = mutableSetOf<SmartRWLocker>()
try {
while (coroutineContext.job.isActive) {
if (currentlyChecking.locker !in lockedLockers && currentlyChecking.locker !in skipLockers) {
currentlyChecking.locker.lockWrite()
lockedLockers.add(currentlyChecking.locker)
}
val left = currentlyChecking.leftNode
val right = currentlyChecking.rightNode
val comparingResult = currentlyChecking.comparator.compare(subNode.key, currentlyChecking.key)
val isGreater = comparingResult > 0
when {
comparingResult == 0 -> {
val resultNode = if (replaceMode) {
subNode
} else {
val newNode = SortedMapLikeBinaryTreeNode(
subNode.key,
subNode.value,
currentlyChecking.comparator,
)
newNode.leftNode = currentlyChecking.leftNode
newNode.rightNode = currentlyChecking.rightNode
newNode
}
latestParent ?.let {
when {
it.leftNode === currentlyChecking -> it.leftNode = resultNode
it.rightNode === currentlyChecking -> it.rightNode = resultNode
}
}
return resultNode
}
isGreater && right == null -> {
currentlyChecking.rightNode = subNode
return subNode
}
isGreater && right != null -> {
latestParent = currentlyChecking
currentlyChecking = right
}
left == null -> {
currentlyChecking.leftNode = subNode
return subNode
}
else -> {
latestParent = currentlyChecking
currentlyChecking = left
}
}
}
} finally {
lockedLockers.forEach {
runCatching { it.unlockWrite() }
}
}
error("Unable to add node")
}
/**
* Will add subnode in tree if there are no any node with [key]
*
* * If [key] is greater than [SortedMapLikeBinaryTreeNode.key] of currently checking node,
* will be used [SortedMapLikeBinaryTreeNode.rightNode]
* * If [key] is equal to [SortedMapLikeBinaryTreeNode.key] of currently
* checking node - will be returned currently checking node
* * If [key] is less than [SortedMapLikeBinaryTreeNode.key] of currently
* checking node - will be used [SortedMapLikeBinaryTreeNode.leftNode]
*
* This process will continue until function will not find place to put [SortedMapLikeBinaryTreeNode] with data or
* [SortedMapLikeBinaryTreeNode] with [SortedMapLikeBinaryTreeNode.key] same as [key] will be found
*/
suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.upsertSubNode(
key: K,
value: V
): SortedMapLikeBinaryTreeNode<K, V> {
return upsertSubNode(
SortedMapLikeBinaryTreeNode(key, value, comparator),
replaceMode = false
)
}
suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.findParentNode(data: K): SortedMapLikeBinaryTreeNode<K, V>? {
var currentParent: SortedMapLikeBinaryTreeNode<K, V>? = null
var currentlyChecking: SortedMapLikeBinaryTreeNode<K, V>? = this
val lockedLockers = mutableSetOf<SmartRWLocker>()
try {
while (coroutineContext.job.isActive) {
if (currentlyChecking == null) {
return null
}
if (currentlyChecking.locker !in lockedLockers) {
currentlyChecking.locker.acquireRead()
lockedLockers.add(currentlyChecking.locker)
}
val comparingResult = currentlyChecking.comparator.compare(data, currentlyChecking.key)
when {
comparingResult > 0 -> {
currentParent = currentlyChecking
currentlyChecking = currentlyChecking.rightNode
continue
}
comparingResult < 0 -> {
currentParent = currentlyChecking
currentlyChecking = currentlyChecking.leftNode
continue
}
else -> return currentParent
}
}
} finally {
lockedLockers.forEach {
runCatching { it.releaseRead() }
}
}
error("Unable to find node")
}
/**
* Will remove (detach) node from tree starting with [this] [SortedMapLikeBinaryTreeNode]
*
* @return If data were found, [Pair] where [Pair.first] is the parent node where from [Pair.second] has been detached;
* null otherwise
*/
suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.removeSubNode(data: K): Pair<SortedMapLikeBinaryTreeNode<K, V>, SortedMapLikeBinaryTreeNode<K, V>>? {
val onFoundToRemoveCallback: suspend SortedMapLikeBinaryTreeNode<K, V>.(left: SortedMapLikeBinaryTreeNode<K, V>?, right: SortedMapLikeBinaryTreeNode<K, V>?) -> Unit = { left, right ->
left ?.also { leftNode -> upsertSubNode(leftNode, setOf(locker), replaceMode = true) }
right ?.also { rightNode -> upsertSubNode(rightNode, setOf(locker), replaceMode = true) }
}
while (coroutineContext.job.isActive) {
val foundParentNode = findParentNode(data) ?: return null
foundParentNode.locker.withWriteLock {
val left = foundParentNode.leftNode
val right = foundParentNode.rightNode
when {
left != null && left.comparator.compare(data, left.key) == 0 -> {
foundParentNode.leftNode = null
foundParentNode.onFoundToRemoveCallback(left.leftNode, left.rightNode)
return foundParentNode to left
}
right != null && right.comparator.compare(data, right.key) == 0 -> {
foundParentNode.rightNode = null
foundParentNode.onFoundToRemoveCallback(right.leftNode, right.rightNode)
return foundParentNode to right
}
else -> {
return@withWriteLock // data has been changed, new search required
}
}
}
}
error("Unable to remove node")
}
suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.findNode(key: K): SortedMapLikeBinaryTreeNode<K, V>? {
var currentlyChecking: SortedMapLikeBinaryTreeNode<K, V>? = this
val lockedLockers = mutableSetOf<SmartRWLocker>()
try {
while (coroutineContext.job.isActive) {
if (currentlyChecking == null) {
return null
}
if (currentlyChecking.locker !in lockedLockers) {
currentlyChecking.locker.acquireRead()
lockedLockers.add(currentlyChecking.locker)
}
val comparingResult = currentlyChecking.comparator.compare(key, currentlyChecking.key)
when {
comparingResult > 0 -> {
currentlyChecking = currentlyChecking.rightNode
continue
}
comparingResult < 0 -> {
currentlyChecking = currentlyChecking.leftNode
continue
}
else -> return currentlyChecking
}
}
} finally {
lockedLockers.forEach {
runCatching { it.releaseRead() }
}
}
error("Unable to find node")
}
suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.contains(data: K): Boolean = findNode(data) != null
suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.findNodesInRange(from: K, to: K, fromInclusiveMode: Boolean, toInclusiveMode: Boolean): Set<SortedMapLikeBinaryTreeNode<K, V>> {
val results = mutableSetOf<SortedMapLikeBinaryTreeNode<K, V>>()
val leftToCheck = mutableSetOf(this)
val lockedLockers = mutableSetOf<SmartRWLocker>()
val fromComparingFun: (SortedMapLikeBinaryTreeNode<K, V>) -> Boolean = if (fromInclusiveMode) {
{ it.comparator.compare(from, it.key) <= 0 }
} else {
{ it.comparator.compare(from, it.key) < 0 }
}
val toComparingFun: (SortedMapLikeBinaryTreeNode<K, V>) -> Boolean = if (toInclusiveMode) {
{ it.comparator.compare(to, it.key) >= 0 }
} else {
{ it.comparator.compare(to, it.key) > 0 }
}
try {
while (coroutineContext.job.isActive && leftToCheck.isNotEmpty()) {
val currentlyChecking = leftToCheck.first()
leftToCheck.remove(currentlyChecking)
if (currentlyChecking in results) {
continue
}
currentlyChecking.locker.acquireRead()
lockedLockers.add(currentlyChecking.locker)
if (fromComparingFun(currentlyChecking) && toComparingFun(currentlyChecking)) {
results.add(currentlyChecking)
currentlyChecking.leftNode ?.let { leftToCheck.add(it) }
currentlyChecking.rightNode ?.let { leftToCheck.add(it) }
continue
}
when {
currentlyChecking.comparator.compare(to, currentlyChecking.key) < 0 -> currentlyChecking.leftNode ?.let { leftToCheck.add(it) }
currentlyChecking.comparator.compare(from, currentlyChecking.key) > 0 -> currentlyChecking.rightNode ?.let { leftToCheck.add(it) }
}
}
return results.toSet()
} finally {
lockedLockers.forEach {
runCatching { it.releaseRead() }
}
}
error("Unable to find nodes range")
}
suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.deepEquals(other: SortedMapLikeBinaryTreeNode<K, V>): Boolean {
val leftToCheck = mutableSetOf(this)
val othersToCheck = mutableSetOf(other)
val lockedLockers = mutableSetOf<SmartRWLocker>()
try {
while (leftToCheck.isNotEmpty() && othersToCheck.isNotEmpty()) {
val thisToCheck = leftToCheck.first()
leftToCheck.remove(thisToCheck)
val otherToCheck = othersToCheck.first()
othersToCheck.remove(otherToCheck)
if (thisToCheck.locker !in lockedLockers) {
thisToCheck.locker.acquireRead()
lockedLockers.add(thisToCheck.locker)
}
if (otherToCheck.locker !in lockedLockers) {
otherToCheck.locker.acquireRead()
lockedLockers.add(otherToCheck.locker)
}
if (thisToCheck.key != otherToCheck.key || thisToCheck.value != otherToCheck.value) {
return false
}
if ((thisToCheck.leftNode == null).xor(otherToCheck.leftNode == null)) {
return false
}
if ((thisToCheck.rightNode == null).xor(otherToCheck.rightNode == null)) {
return false
}
thisToCheck.leftNode?.let { leftToCheck.add(it) }
thisToCheck.rightNode?.let { leftToCheck.add(it) }
otherToCheck.leftNode?.let { othersToCheck.add(it) }
otherToCheck.rightNode?.let { othersToCheck.add(it) }
}
} finally {
lockedLockers.forEach {
runCatching { it.releaseRead() }
}
}
return leftToCheck.isEmpty() && othersToCheck.isEmpty()
}
suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.findNodesInRange(from: K, to: K): Set<SortedMapLikeBinaryTreeNode<K, V>> = findNodesInRange(
from = from,
to = to,
fromInclusiveMode = true,
toInclusiveMode = true
)
suspend fun <K, V> SortedMapLikeBinaryTreeNode<K, V>.findNodesInRangeExcluding(from: K, to: K): Set<SortedMapLikeBinaryTreeNode<K, V>> = findNodesInRange(
from = from,
to = to,
fromInclusiveMode = false,
toInclusiveMode = false
)
suspend fun <K : Comparable<K>, V> SortedMapLikeBinaryTreeNode<K, V>.findNodesInRange(range: ClosedRange<K>): Set<SortedMapLikeBinaryTreeNode<K, V>> = findNodesInRange(
from = range.start,
to = range.endInclusive,
)

118
coroutines/src/jvmTest/kotlin/dev/inmo/micro_utils/coroutines/SortedMapLikeBinaryTreeNodeTests.kt Normal file
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@@ -0,0 +1,118 @@
package dev.inmo.micro_utils.coroutines
import dev.inmo.micro_utils.coroutines.collections.*
import kotlinx.coroutines.test.runTest
import kotlin.test.Test
import kotlin.test.assertEquals
import kotlin.test.assertTrue
import kotlin.time.Duration.Companion.seconds
class SortedMapLikeBinaryTreeNodeTests {
@Test
fun insertOnZeroLevelWorks() = runTest {
val zeroNode = SortedMapLikeBinaryTreeNode(0, 0)
zeroNode.upsertSubNode(1, 1)
zeroNode.upsertSubNode(-1, -1)
assertEquals(0, zeroNode.key)
assertEquals(1, zeroNode.getRightNode() ?.key)
assertEquals(-1, zeroNode.getLeftNode() ?.key)
assertEquals(0, zeroNode.findNode(0) ?.value)
assertEquals(1, zeroNode.findNode(1) ?.value)
assertEquals(-1, zeroNode.findNode(-1) ?.value)
}
@Test
fun searchOnZeroLevelWorks() = runTest {
val zeroNode = SortedMapLikeBinaryTreeNode(0, 0)
val oneNode = zeroNode.upsertSubNode(1, 1)
val minusOneNode = zeroNode.upsertSubNode(-1, -1)
val assertingNodesToSearchQuery = mapOf(
setOf(oneNode) to (1 .. 1),
setOf(zeroNode, oneNode) to (0 .. 1),
setOf(minusOneNode, zeroNode, oneNode) to (-1 .. 1),
setOf(minusOneNode, zeroNode) to (-1 .. 0),
setOf(minusOneNode) to (-1 .. -1),
setOf(zeroNode) to (0 .. 0),
)
assertingNodesToSearchQuery.forEach {
val foundData = zeroNode.findNodesInRange(it.value)
assertTrue(foundData.containsAll(it.key))
assertTrue(it.key.containsAll(foundData))
}
}
@Test
fun deepReInsertOnWorks() = runTest(timeout = 300.seconds) {
var zeroNode = SortedMapLikeBinaryTreeNode(0, 0)
val rangeRadius = 500
val nodes = mutableMapOf<Int, SortedMapLikeBinaryTreeNode<Int, Int>>()
for (i in -rangeRadius .. rangeRadius) {
nodes[i] = zeroNode.upsertSubNode(i, i)
if (i == zeroNode.key) {
zeroNode = nodes.getValue(i)
}
}
for (i in -rangeRadius .. rangeRadius) {
val expectedNode = nodes.getValue(i)
val foundNode = zeroNode.findNode(i)
assertEquals(expectedNode, foundNode)
if (expectedNode === zeroNode) continue
val parentNode = zeroNode.findParentNode(i)
assertTrue(
parentNode ?.getLeftNode() === expectedNode || parentNode ?.getRightNode() === expectedNode,
"It is expected, that parent node with data ${parentNode ?.key} will be parent of ${expectedNode.key}, but its left subnode is ${parentNode ?.getLeftNode() ?.key} and right one is ${parentNode ?.getRightNode() ?.key}"
)
assertTrue(
foundNode != null && expectedNode.deepEquals(foundNode)
)
zeroNode.upsertSubNode(i, -i)
val foundModifiedNode = zeroNode.findNode(i)
assertEquals(foundNode ?.value, foundModifiedNode ?.value ?.times(-1))
}
}
@Test
fun deepInsertOnWorks() = runTest(timeout = 240.seconds) {
val zeroNode = SortedMapLikeBinaryTreeNode(0, 0)
val rangeRadius = 500
val nodes = mutableMapOf<Int, SortedMapLikeBinaryTreeNode<Int, Int>>()
for (i in -rangeRadius .. rangeRadius) {
if (zeroNode.key != i) {
nodes[i] = zeroNode.upsertSubNode(i, i)
}
}
nodes[zeroNode.key] = zeroNode
for (i in -rangeRadius .. rangeRadius) {
val expectedNode = nodes.getValue(i)
val foundNode = zeroNode.findNode(i)
assertTrue(expectedNode === foundNode)
if (expectedNode === zeroNode) continue
val parentNode = zeroNode.findParentNode(i)
assertTrue(
parentNode ?.getLeftNode() === expectedNode || parentNode ?.getRightNode() === expectedNode,
"It is expected, that parent node with data ${parentNode ?.key} will be parent of ${expectedNode.key}, but its left subnode is ${parentNode ?.getLeftNode() ?.key} and right one is ${parentNode ?.getRightNode() ?.key}"
)
}
val sourceTreeSize = zeroNode.size()
var previousData = -rangeRadius - 1
for (node in zeroNode) {
assertTrue(nodes[node.key] === node)
assertTrue(previousData == node.key - 1)
previousData = node.key
}
assertTrue(sourceTreeSize == zeroNode.size())
}
}

4
gradle.properties
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@@ -15,5 +15,5 @@ crypto_js_version=4.1.1
# Project data # Project data
group=dev.inmo group=dev.inmo
version=0.25.0 version=0.25.1
android_code_version=290 android_code_version=291

61
pagination/compose/src/commonMain/kotlin/InfinityPagedComponent.kt
View File

@@ -2,7 +2,13 @@ package dev.inmo.micro_utils.pagination.compose
import androidx.compose.runtime.* import androidx.compose.runtime.*
import dev.inmo.micro_utils.coroutines.SpecialMutableStateFlow import dev.inmo.micro_utils.coroutines.SpecialMutableStateFlow
import dev.inmo.micro_utils.coroutines.launchLoggingDropExceptions
import dev.inmo.micro_utils.coroutines.runCatchingLogging
import dev.inmo.micro_utils.pagination.* import dev.inmo.micro_utils.pagination.*
import kotlinx.coroutines.CoroutineScope
import kotlinx.coroutines.Job
import kotlinx.coroutines.sync.Mutex
import kotlinx.coroutines.sync.withLock
/** /**
* Context for managing infinite pagination in a Compose UI. * Context for managing infinite pagination in a Compose UI.
@@ -16,30 +22,46 @@ import dev.inmo.micro_utils.pagination.*
*/ */
class InfinityPagedComponentContext<T> internal constructor( class InfinityPagedComponentContext<T> internal constructor(
page: Int, page: Int,
size: Int size: Int,
private val scope: CoroutineScope,
private val loader: suspend InfinityPagedComponentContext<T>.(Pagination) -> PaginationResult<T>
) { ) {
internal val startPage = SimplePagination(page, size) internal val startPage = SimplePagination(page, size)
internal val currentlyLoadingPage = SpecialMutableStateFlow<Pagination?>(startPage)
internal val latestLoadedPage = SpecialMutableStateFlow<PaginationResult<T>?>(null) internal val latestLoadedPage = SpecialMutableStateFlow<PaginationResult<T>?>(null)
internal val dataState = SpecialMutableStateFlow<List<T>?>(null) internal val dataState = SpecialMutableStateFlow<List<T>?>(null)
internal var loadingJob: Job? = null
internal val loadingMutex = Mutex()
/** /**
* Loads the next page of data. If the current page is the last one, the function returns early. * Loads the next page of data. If the current page is the last one, the function returns early.
*/ */
fun loadNext() { fun loadNext(): Job {
if (latestLoadedPage.value ?.isLastPage == true) return return scope.launchLoggingDropExceptions {
if (currentlyLoadingPage.value != null) return // Data loading has been inited but not loaded yet loadingMutex.withLock {
if (latestLoadedPage.value ?.isLastPage == true) return@launchLoggingDropExceptions
currentlyLoadingPage.value = latestLoadedPage.value ?.nextPage() ?: startPage loadingJob = loadingJob ?: scope.launchLoggingDropExceptions {
runCatching {
loader(latestLoadedPage.value ?.nextPage() ?: startPage)
}.onSuccess {
latestLoadedPage.value = it
dataState.value = (dataState.value ?: emptyList()) + it.results
}
loadingMutex.withLock {
loadingJob = null
}
}
loadingJob
} ?.join()
}
} }
/** /**
* Reloads the pagination from the first page, clearing previously loaded data. * Reloads the pagination from the first page, clearing previously loaded data.
*/ */
fun reload() { fun reload(): Job {
latestLoadedPage.value = null latestLoadedPage.value = null
currentlyLoadingPage.value = null dataState.value = null
loadNext() return loadNext()
} }
} }
@@ -58,17 +80,13 @@ internal fun <T> InfinityPagedComponent(
page: Int, page: Int,
size: Int, size: Int,
loader: suspend InfinityPagedComponentContext<T>.(Pagination) -> PaginationResult<T>, loader: suspend InfinityPagedComponentContext<T>.(Pagination) -> PaginationResult<T>,
predefinedScope: CoroutineScope? = null,
block: @Composable InfinityPagedComponentContext<T>.(List<T>?) -> Unit block: @Composable InfinityPagedComponentContext<T>.(List<T>?) -> Unit
) { ) {
val context = remember { InfinityPagedComponentContext<T>(page, size) } val scope = predefinedScope ?: rememberCoroutineScope()
val context = remember { InfinityPagedComponentContext<T>(page, size, scope, loader) }
val currentlyLoadingState = context.currentlyLoadingPage.collectAsState() remember {
LaunchedEffect(currentlyLoadingState.value) { context.reload()
val paginationResult = loader(context, currentlyLoadingState.value ?: return@LaunchedEffect)
context.latestLoadedPage.value = paginationResult
context.currentlyLoadingPage.value = null
context.dataState.value = (context.dataState.value ?: emptyList()) + paginationResult.results
} }
val dataState = context.dataState.collectAsState() val dataState = context.dataState.collectAsState()
@@ -88,12 +106,14 @@ internal fun <T> InfinityPagedComponent(
fun <T> InfinityPagedComponent( fun <T> InfinityPagedComponent(
pageInfo: Pagination, pageInfo: Pagination,
loader: suspend InfinityPagedComponentContext<T>.(Pagination) -> PaginationResult<T>, loader: suspend InfinityPagedComponentContext<T>.(Pagination) -> PaginationResult<T>,
predefinedScope: CoroutineScope? = null,
block: @Composable InfinityPagedComponentContext<T>.(List<T>?) -> Unit block: @Composable InfinityPagedComponentContext<T>.(List<T>?) -> Unit
) { ) {
InfinityPagedComponent( InfinityPagedComponent(
pageInfo.page, pageInfo.page,
pageInfo.size, pageInfo.size,
loader, loader,
predefinedScope,
block block
) )
} }
@@ -111,7 +131,8 @@ fun <T> InfinityPagedComponent(
fun <T> InfinityPagedComponent( fun <T> InfinityPagedComponent(
size: Int, size: Int,
loader: suspend InfinityPagedComponentContext<T>.(Pagination) -> PaginationResult<T>, loader: suspend InfinityPagedComponentContext<T>.(Pagination) -> PaginationResult<T>,
predefinedScope: CoroutineScope? = null,
block: @Composable InfinityPagedComponentContext<T>.(List<T>?) -> Unit block: @Composable InfinityPagedComponentContext<T>.(List<T>?) -> Unit
) { ) {
InfinityPagedComponent(0, size, loader, block) InfinityPagedComponent(0, size, loader, predefinedScope, block)
} }

86
pagination/compose/src/commonMain/kotlin/PagedComponent.kt
View File

@@ -2,7 +2,12 @@ package dev.inmo.micro_utils.pagination.compose
import androidx.compose.runtime.* import androidx.compose.runtime.*
import dev.inmo.micro_utils.coroutines.SpecialMutableStateFlow import dev.inmo.micro_utils.coroutines.SpecialMutableStateFlow
import dev.inmo.micro_utils.coroutines.launchLoggingDropExceptions
import dev.inmo.micro_utils.pagination.* import dev.inmo.micro_utils.pagination.*
import kotlinx.coroutines.CoroutineScope
import kotlinx.coroutines.Job
import kotlinx.coroutines.sync.Mutex
import kotlinx.coroutines.sync.withLock
/** /**
* Context for managing paginated data in a Compose UI. * Context for managing paginated data in a Compose UI.
@@ -18,39 +23,73 @@ import dev.inmo.micro_utils.pagination.*
*/ */
class PagedComponentContext<T> internal constructor( class PagedComponentContext<T> internal constructor(
initialPage: Int, initialPage: Int,
size: Int size: Int,
private val scope: CoroutineScope,
private val loader: suspend PagedComponentContext<T>.(Pagination) -> PaginationResult<T>
) { ) {
internal val startPage = SimplePagination(initialPage, size) internal val startPage = SimplePagination(initialPage, size)
internal val currentlyLoadingPageState = SpecialMutableStateFlow<Pagination?>(startPage)
internal val latestLoadedPage = SpecialMutableStateFlow<PaginationResult<T>?>(null) internal val latestLoadedPage = SpecialMutableStateFlow<PaginationResult<T>?>(null)
internal val dataState = SpecialMutableStateFlow<PaginationResult<T>?>(null)
internal var loadingJob: Job? = null
internal val loadingMutex = Mutex()
private fun initLoadingJob(
skipCheckerInLock: () -> Boolean,
pageGetter: () -> Pagination
): Job {
return scope.launchLoggingDropExceptions {
loadingMutex.withLock {
if (skipCheckerInLock()) return@launchLoggingDropExceptions
loadingJob = loadingJob ?: scope.launchLoggingDropExceptions {
runCatching {
loader(pageGetter())
}.onSuccess {
latestLoadedPage.value = it
dataState.value = it
}
loadingMutex.withLock {
loadingJob = null
}
}
loadingJob
} ?.join()
}
}
/** /**
* Loads the next page of data. If the last page is reached, this function returns early. * Loads the next page of data. If the last page is reached, this function returns early.
*/ */
fun loadNext() { fun loadNext(): Job {
when { return initLoadingJob(
currentlyLoadingPageState.value != null -> return { latestLoadedPage.value ?.isLastPage == true }
latestLoadedPage.value ?.isLastPage == true -> return ) {
else -> currentlyLoadingPageState.value = (latestLoadedPage.value ?.nextPage()) ?: startPage latestLoadedPage.value ?.nextPage() ?: startPage
} }
} }
/** /**
* Loads the previous page of data if available. * Loads the previous page of data if available.
*/ */
fun loadPrevious() { fun loadPrevious(): Job {
when { return initLoadingJob(
currentlyLoadingPageState.value != null -> return { latestLoadedPage.value ?.isFirstPage == true }
latestLoadedPage.value ?.isFirstPage == true -> return ) {
else -> currentlyLoadingPageState.value = (latestLoadedPage.value ?.previousPage()) ?: startPage latestLoadedPage.value ?.previousPage() ?: startPage
} }
} }
/** /**
* Reloads the current page, refreshing the data. * Reloads the current page, refreshing the data.
*/ */
fun reload() { fun reload(): Job {
currentlyLoadingPageState.value = latestLoadedPage.value return initLoadingJob(
{
latestLoadedPage.value = null
true
}
) {
startPage
}
} }
} }
@@ -69,18 +108,16 @@ internal fun <T> PagedComponent(
initialPage: Int, initialPage: Int,
size: Int, size: Int,
loader: suspend PagedComponentContext<T>.(Pagination) -> PaginationResult<T>, loader: suspend PagedComponentContext<T>.(Pagination) -> PaginationResult<T>,
predefinedScope: CoroutineScope? = null,
block: @Composable PagedComponentContext<T>.(PaginationResult<T>) -> Unit block: @Composable PagedComponentContext<T>.(PaginationResult<T>) -> Unit
) { ) {
val context = remember { PagedComponentContext<T>(initialPage, size) } val scope = predefinedScope ?: rememberCoroutineScope()
val context = remember { PagedComponentContext<T>(initialPage, size, scope, loader) }
val currentlyLoadingState = context.currentlyLoadingPageState.collectAsState() remember {
LaunchedEffect(currentlyLoadingState.value) { context.reload()
val paginationResult = loader(context, currentlyLoadingState.value ?: return@LaunchedEffect)
context.latestLoadedPage.value = paginationResult
context.currentlyLoadingPageState.value = null
} }
val pageState = context.latestLoadedPage.collectAsState() val pageState = context.dataState.collectAsState()
pageState.value ?.let { pageState.value ?.let {
context.block(it) context.block(it)
} }
@@ -98,12 +135,14 @@ internal fun <T> PagedComponent(
fun <T> PagedComponent( fun <T> PagedComponent(
pageInfo: Pagination, pageInfo: Pagination,
loader: suspend PagedComponentContext<T>.(Pagination) -> PaginationResult<T>, loader: suspend PagedComponentContext<T>.(Pagination) -> PaginationResult<T>,
predefinedScope: CoroutineScope? = null,
block: @Composable PagedComponentContext<T>.(PaginationResult<T>) -> Unit block: @Composable PagedComponentContext<T>.(PaginationResult<T>) -> Unit
) { ) {
PagedComponent( PagedComponent(
pageInfo.page, pageInfo.page,
pageInfo.size, pageInfo.size,
loader, loader,
predefinedScope,
block block
) )
} }
@@ -120,7 +159,8 @@ fun <T> PagedComponent(
fun <T> PagedComponent( fun <T> PagedComponent(
size: Int, size: Int,
loader: suspend PagedComponentContext<T>.(Pagination) -> PaginationResult<T>, loader: suspend PagedComponentContext<T>.(Pagination) -> PaginationResult<T>,
predefinedScope: CoroutineScope? = null,
block: @Composable PagedComponentContext<T>.(PaginationResult<T>) -> Unit block: @Composable PagedComponentContext<T>.(PaginationResult<T>) -> Unit
) { ) {
PagedComponent(0, size, loader, block) PagedComponent(0, size, loader, predefinedScope, block)
} }

4
pagination/compose/src/jvmTest/kotlin/InfinityPagedComponentTests.kt
View File

@@ -30,13 +30,13 @@ class InfinityPagedComponentTests {
} }
) { ) {
if (it == null) { if (it == null) {
assertEquals(0, this.currentlyLoadingPage.value ?.page) assertEquals(null, it)
} else { } else {
assertEquals(expectedList, it) assertEquals(expectedList, it)
} }
LaunchedEffect(it ?.size) { LaunchedEffect(it ?.size) {
loadNext() loadNext().join()
} }
} }
} }