com.google.common.cache.CacheLoader Scala Examples
The following examples show how to use com.google.common.cache.CacheLoader.
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Example 1
Source File: ExactQualifier.scala From incubator-s2graph with Apache License 2.0 | 5 votes |
package org.apache.s2graph.counter.core import java.util import com.google.common.cache.{CacheBuilder, CacheLoader, LoadingCache} import org.apache.s2graph.counter.core.TimedQualifier.IntervalUnit.IntervalUnit import scala.collection.JavaConversions._ case class ExactQualifier(tq: TimedQualifier, dimKeyValues: Map[String, String], dimension: String) { def checkDimensionEquality(dimQuery: Map[String, Set[String]]): Boolean = { // println(s"self: $dimKeyValues, query: $dimQuery") dimQuery.size == dimKeyValues.size && { for { (k, v) <- dimKeyValues } yield { dimQuery.get(k).exists(qv => qv.isEmpty || qv.contains(v)) } }.forall(x => x) } } object ExactQualifier { val cache: LoadingCache[String, Map[String, String]] = CacheBuilder.newBuilder() .maximumSize(10000) .build( new CacheLoader[String, Map[String, String]]() { def load(s: String): Map[String, String] = { strToDimensionMap(s) } } ) def apply(tq: TimedQualifier, dimension: String): ExactQualifier = { ExactQualifier(tq, cache.get(dimension), dimension) } def apply(tq: TimedQualifier, dimKeyValues: Map[String, String]): ExactQualifier = { ExactQualifier(tq, dimKeyValues, makeDimensionStr(dimKeyValues)) } def makeSortedDimension(dimKeyValues: Map[String, String]): Iterator[String] = { val sortedDimKeyValues = new util.TreeMap[String, String](dimKeyValues) sortedDimKeyValues.keysIterator ++ sortedDimKeyValues.valuesIterator } def makeDimensionStr(dimKeyValues: Map[String, String]): String = { makeSortedDimension(dimKeyValues).mkString(".") } def getQualifiers(intervals: Seq[IntervalUnit], ts: Long, dimKeyValues: Map[String, String]): Seq[ExactQualifier] = { for { tq <- TimedQualifier.getQualifiers(intervals, ts) } yield { ExactQualifier(tq, dimKeyValues, makeDimensionStr(dimKeyValues)) } } def strToDimensionMap(dimension: String): Map[String, String] = { val dimSp = { val sp = dimension.split('.') if (dimension == ".") { Array("", "") } else if (dimension.nonEmpty && dimension.last == '.') { sp ++ Array("") } else { sp } } val dimKey = dimSp.take(dimSp.length / 2) val dimVal = dimSp.takeRight(dimSp.length / 2) dimKey.zip(dimVal).toMap } }
Example 2
Source File: RankingCounter.scala From incubator-s2graph with Apache License 2.0 | 5 votes |
package org.apache.s2graph.counter.core import java.util.concurrent.TimeUnit import com.google.common.cache.{CacheBuilder, CacheLoader, LoadingCache} import com.typesafe.config.Config import org.apache.s2graph.counter.core.RankingCounter.RankingValueMap import org.apache.s2graph.counter.models.Counter import org.apache.s2graph.counter.util.{CollectionCacheConfig, CollectionCache} import org.slf4j.LoggerFactory import scala.collection.JavaConversions._ case class RankingRow(key: RankingKey, value: Map[String, RankingValue]) case class RateRankingRow(key: RankingKey, value: Map[String, RateRankingValue]) class RankingCounter(config: Config, storage: RankingStorage) { private val log = LoggerFactory.getLogger(getClass) val storageStatusCache = new CollectionCache[Option[Boolean]](CollectionCacheConfig(1000, 60, negativeCache = false, 60)) val cache: LoadingCache[RankingKey, RankingResult] = CacheBuilder.newBuilder() .maximumSize(1000000) .expireAfterWrite(10l, TimeUnit.MINUTES) .build( new CacheLoader[RankingKey, RankingResult]() { def load(rankingKey: RankingKey): RankingResult = { // log.warn(s"cache load: $rankingKey") storage.getTopK(rankingKey, Int.MaxValue).getOrElse(RankingResult(-1, Nil)) } } ) def getTopK(rankingKey: RankingKey, k: Int = Int.MaxValue): Option[RankingResult] = { val tq = rankingKey.eq.tq if (TimedQualifier.getQualifiers(Seq(tq.q), System.currentTimeMillis()).head == tq) { // do not use cache storage.getTopK(rankingKey, k) } else { val result = cache.get(rankingKey) if (result.values.nonEmpty) { Some(result.copy(values = result.values.take(k))) } else { None } } } def update(key: RankingKey, value: RankingValueMap, k: Int): Unit = { storage.update(key, value, k) } def update(values: Seq[(RankingKey, RankingValueMap)], k: Int): Unit = { storage.update(values, k) } def delete(key: RankingKey): Unit = { storage.delete(key) } def getAllItems(keys: Seq[RankingKey], k: Int = Int.MaxValue): Seq[String] = { val oldKeys = keys.filter(key => TimedQualifier.getQualifiers(Seq(key.eq.tq.q), System.currentTimeMillis()).head != key.eq.tq) val cached = cache.getAllPresent(oldKeys) val missed = keys.diff(cached.keys.toSeq) val found = storage.getTopK(missed, k) // log.warn(s"cached: ${cached.size()}, missed: ${missed.size}") for { (key, result) <- found } { cache.put(key, result) } for { (key, RankingResult(totalScore, values)) <- cached ++ found (item, score) <- values } yield { item } }.toSeq.distinct def prepare(policy: Counter): Unit = { storage.prepare(policy) } def destroy(policy: Counter): Unit = { storage.destroy(policy) } def ready(policy: Counter): Boolean = { storageStatusCache.withCache(s"${policy.id}") { Some(storage.ready(policy)) }.getOrElse(false) } } object RankingCounter { type RankingValueMap = Map[String, RankingValue] }
Example 3
Source File: BlockchainCache.scala From matcher with MIT License | 5 votes |
package com.wavesplatform.dex.grpc.integration.caches import java.time.Duration import com.google.common.cache.{CacheBuilder, CacheLoader, LoadingCache} import com.wavesplatform.dex.domain.utils.ScorexLogging import scala.concurrent.{ExecutionContext, Future} import scala.util.{Failure, Success} abstract class BlockchainCache[K <: AnyRef, V <: AnyRef](loader: K => Future[V], expiration: Option[Duration], invalidationPredicate: V => Boolean)( implicit ec: ExecutionContext) extends ScorexLogging { lazy private val cache: LoadingCache[K, Future[V]] = { val builder = CacheBuilder.newBuilder expiration .fold(builder)(builder.expireAfterWrite) .build { new CacheLoader[K, Future[V]] { override def load(key: K): Future[V] = loader(key) andThen { case Success(value) if invalidationPredicate(value) => cache.invalidate(key) // value may persist for a little longer than expected due to the fact that all the threads in the EC may be busy case Failure(exception) => log.error(s"Error while value loading occurred: ", exception); cache.invalidate(key) } } } } def get(key: K): Future[V] = cache.get(key) def put(key: K, value: Future[V]): Unit = cache.put(key, value) } object BlockchainCache { def noCustomInvalidationLogic[V](value: V): Boolean = false }
Example 4
Source File: ConfluentSchemaRegistry.scala From hydra with Apache License 2.0 | 5 votes |
package hydra.avro.registry import com.google.common.cache.{CacheBuilder, CacheLoader} import com.typesafe.config.{Config, ConfigFactory} import hydra.common.logging.LoggingAdapter import io.confluent.kafka.schemaregistry.client.{ CachedSchemaRegistryClient, MockSchemaRegistryClient, SchemaMetadata, SchemaRegistryClient } import scala.collection.JavaConverters._ import scala.concurrent.{ExecutionContext, Future} case class ConfluentSchemaRegistry( registryClient: SchemaRegistryClient, registryUrl: String ) extends SchemaRegistryComponent { def getAllSubjects()(implicit ec: ExecutionContext): Future[Seq[String]] = Future( registryClient .getAllSubjects() .asScala .map(s => if (s.endsWith("-value")) s.dropRight(6) else s) .toSeq ) def getById(id: Int, suffix: String = "-value")( implicit ec: ExecutionContext ): Future[SchemaMetadata] = Future { val schema = registryClient.getById(id) val subject = schema.getFullName + suffix registryClient.getLatestSchemaMetadata(subject) } } object ConfluentSchemaRegistry extends LoggingAdapter { import hydra.common.config.ConfigSupport._ case class SchemaRegistryClientInfo( url: String, schemaRegistryMaxCapacity: Int ) private val cachedClients = CacheBuilder .newBuilder() .build( new CacheLoader[SchemaRegistryClientInfo, ConfluentSchemaRegistry] { def load(info: SchemaRegistryClientInfo): ConfluentSchemaRegistry = { log.debug(s"Creating new schema registry client for ${info.url}") val client = if (info.url == "mock") { mockRegistry } else { new CachedSchemaRegistryClient( info.url, info.schemaRegistryMaxCapacity ) } ConfluentSchemaRegistry(client, info.url) } } ) val mockRegistry = new MockSchemaRegistryClient() def registryUrl(config: Config): String = config.getStringOpt("schema.registry.url") .getOrElse(throw new IllegalArgumentException("A schema registry url is required.")) def forConfig( config: Config = ConfigFactory.load() ): ConfluentSchemaRegistry = { val identityMapCapacity = config.getIntOpt("max.schemas.per.subject").getOrElse(1000) cachedClients.get( SchemaRegistryClientInfo(registryUrl(config), identityMapCapacity) ) } }
Example 5
Source File: LshFunctionCache.scala From elastiknn with Apache License 2.0 | 5 votes |
package com.klibisz.elastiknn.query import java.time.Duration import com.google.common.cache.{CacheBuilder, CacheLoader, LoadingCache} import com.klibisz.elastiknn.api.{Mapping, Vec} import com.klibisz.elastiknn.models.LshFunction import com.klibisz.elastiknn.storage.StoredVec // The Lsh Functions tend to be expensive to instantiate (i.e. initializing hashing parameters), hence a cache. sealed trait LshFunctionCache[M <: Mapping, V <: Vec, S <: StoredVec] extends (M => LshFunction[M, V, S]) { self => private val cache: LoadingCache[M, LshFunction[M, V, S]] = CacheBuilder.newBuilder .expireAfterWrite(Duration.ofSeconds(60)) .build(new CacheLoader[M, LshFunction[M, V, S]] { override def load(m: M): LshFunction[M, V, S] = self.load(m) }) override final def apply(mapping: M): LshFunction[M, V, S] = cache.get(mapping) protected def load(m: M): LshFunction[M, V, S] } object LshFunctionCache { implicit object Jaccard extends LshFunctionCache[Mapping.JaccardLsh, Vec.SparseBool, StoredVec.SparseBool] { def load(m: Mapping.JaccardLsh): LshFunction[Mapping.JaccardLsh, Vec.SparseBool, StoredVec.SparseBool] = new LshFunction.Jaccard(m) } implicit object Hamming extends LshFunctionCache[Mapping.HammingLsh, Vec.SparseBool, StoredVec.SparseBool] { def load(m: Mapping.HammingLsh): LshFunction[Mapping.HammingLsh, Vec.SparseBool, StoredVec.SparseBool] = new LshFunction.Hamming(m) } implicit object Angular extends LshFunctionCache[Mapping.AngularLsh, Vec.DenseFloat, StoredVec.DenseFloat] { def load(m: Mapping.AngularLsh): LshFunction[Mapping.AngularLsh, Vec.DenseFloat, StoredVec.DenseFloat] = new LshFunction.Angular(m) } implicit object L2 extends LshFunctionCache[Mapping.L2Lsh, Vec.DenseFloat, StoredVec.DenseFloat] { def load(m: Mapping.L2Lsh): LshFunction[Mapping.L2Lsh, Vec.DenseFloat, StoredVec.DenseFloat] = new LshFunction.L2(m) } }
Example 6
Source File: LockManager.scala From metronome with Apache License 2.0 | 5 votes |
package dcos.metronome.utils.state import com.google.common.cache.{LoadingCache, CacheLoader, CacheBuilder} import java.util.concurrent.Semaphore import scala.concurrent.{ExecutionContext, Future} def executeSequentially[T](key: String)(future: => Future[T])(implicit ec: ExecutionContext): Future[T] } object LockManager { def create(): LockManager = new LockManager { val locks = loadingCache[String]() override def executeSequentially[T]( key: String )(future: => Future[T])(implicit ec: ExecutionContext): Future[T] = { val lock = locks.get(key) scala.concurrent.blocking { lock.acquire() } val result = future result.onComplete { _ => lock.release() } result } } private[this] def loadingCache[A <: AnyRef](): LoadingCache[A, Semaphore] = { CacheBuilder .newBuilder() .weakValues() .build[A, Semaphore](new CacheLoader[A, Semaphore] { override def load(key: A): Semaphore = new Semaphore(1) }) } }
Example 7
Source File: ObservedLoadingCacheSpecification.scala From Waves with MIT License | 5 votes |
package com.wavesplatform.utils import java.util.concurrent.TimeUnit import java.util.concurrent.atomic.AtomicLong import com.google.common.base.Ticker import com.google.common.cache.{CacheBuilder, CacheLoader, LoadingCache} import com.wavesplatform.utils.ObservedLoadingCacheSpecification.FakeTicker import monix.execution.Ack import monix.reactive.Observer import org.scalamock.scalatest.MockFactory import org.scalatest.{FreeSpec, Matchers} import scala.jdk.CollectionConverters._ import scala.concurrent.Future import scala.concurrent.duration.DurationInt class ObservedLoadingCacheSpecification extends FreeSpec with Matchers with MockFactory { private val ExpiringTime = 10.minutes "notifies" - { "on refresh" in test { (loadingCache, changes, _) => (changes.onNext _).expects("foo").returning(Future.successful(Ack.Continue)).once() loadingCache.refresh("foo") } "on put" in test { (loadingCache, changes, _) => (changes.onNext _).expects("foo").returning(Future.successful(Ack.Continue)).once() loadingCache.put("foo", 10) } "on putAll" in test { (loadingCache, changes, _) => (changes.onNext _).expects("foo").returning(Future.successful(Ack.Continue)).once() (changes.onNext _).expects("bar").returning(Future.successful(Ack.Continue)).once() loadingCache.putAll(Map[String, Integer]("foo" -> 10, "bar" -> 11).asJava) } "on invalidate" in test { (loadingCache, changes, _) => (changes.onNext _).expects("foo").returning(Future.successful(Ack.Continue)).once() loadingCache.invalidate("foo") } "on invalidateAll" in test { (loadingCache, changes, _) => (changes.onNext _).expects("foo").returning(Future.successful(Ack.Continue)).once() (changes.onNext _).expects("bar").returning(Future.successful(Ack.Continue)).once() loadingCache.invalidateAll(Seq("foo", "bar").asJava) } } "don't notify" - { "on cache expiration" in test { (loadingCache, changes, ticker) => (changes.onNext _).expects("foo").returning(Future.successful(Ack.Continue)).once() loadingCache.put("foo", 1) ticker.advance(ExpiringTime.toMillis + 100, TimeUnit.MILLISECONDS) } } private def test(f: (LoadingCache[String, Integer], Observer[String], FakeTicker) => Unit): Unit = { val changes = mock[Observer[String]] val ticker = new FakeTicker() val delegate = CacheBuilder .newBuilder() .expireAfterWrite(ExpiringTime.toMillis, TimeUnit.MILLISECONDS) .ticker(ticker) .build(new CacheLoader[String, Integer] { override def load(key: String): Integer = key.length }) val loadingCache = new ObservedLoadingCache(delegate, changes) f(loadingCache, changes, ticker) } } private object ObservedLoadingCacheSpecification { // see https://github.com/google/guava/blob/master/guava-testlib/src/com/google/common/testing/FakeTicker.java class FakeTicker extends Ticker { private val nanos = new AtomicLong() private var autoIncrementStepNanos = 0L def advance(time: Long, timeUnit: TimeUnit): FakeTicker = advance(timeUnit.toNanos(time)) def advance(nanoseconds: Long): FakeTicker = { nanos.addAndGet(nanoseconds) this } def setAutoIncrementStep(autoIncrementStep: Long, timeUnit: TimeUnit): FakeTicker = { require(autoIncrementStep >= 0, "May not auto-increment by a negative amount") this.autoIncrementStepNanos = timeUnit.toNanos(autoIncrementStep) this } override def read: Long = nanos.getAndAdd(autoIncrementStepNanos) } }