ZIO Redis is a ZIO-native Redis client. It aims to provide a type-safe and performant API for accessing Redis instances.
To use ZIO Redis, add the following line to your build.sbt
:
libraryDependencies += "dev.zio" %% "zio-redis" % "0.2.0"
To execute our ZIO Redis effect, we should provide the RedisExecutor
layer to that effect. To create this layer we
should also provide the following layers:
- RedisConfig — Using default one, will connect to the
localhost:6379
Redis instance. - BinaryCodec — In this example, we are going to use the built-in
ProtobufCodec
codec from zio-schema project.
To run this example we should put following dependencies in our build.sbt
file:
libraryDependencies ++= Seq(
"dev.zio" %% "zio-redis" % "0.2.0",
"dev.zio" %% "zio-schema-protobuf" % "0.4.9"
)
import zio._
import zio.redis._
import zio.schema._
import zio.schema.codec._
object ZIORedisExample extends ZIOAppDefault {
object ProtobufCodecSupplier extends CodecSupplier {
def get[A: Schema]: BinaryCodec[A] = ProtobufCodec.protobufCodec
}
val myApp: ZIO[Redis, RedisError, Unit] = for {
redis <- ZIO.service[Redis]
_ <- redis.set("myKey", 8L, Some(1.minutes))
v <- redis.get("myKey").returning[Long]
_ <- Console.printLine(s"Value of myKey: $v").orDie
_ <- redis.hSet("myHash", ("k1", 6), ("k2", 2))
_ <- redis.rPush("myList", 1, 2, 3, 4)
_ <- redis.sAdd("mySet", "a", "b", "a", "c")
} yield ()
override def run = myApp.provide(
Redis.layer,
SingleNodeExecutor.local,
ZLayer.succeed[CodecSupplier](ProtobufCodecSupplier)
)
}
To test you can use the embedded redis instance by adding to your build:
libraryDependencies := "dev.zio" %% "zio-redis-embedded" % "0.2.0"
Then you can supply EmbeddedRedis.layer.orDie
as your RedisConfig
and you're good to go!
import zio._
import zio.redis._
import zio.redis.embedded.EmbeddedRedis
import zio.schema.{DeriveSchema, Schema}
import zio.schema.codec.{BinaryCodec, ProtobufCodec}
import zio.test._
import zio.test.Assertion._
import java.util.UUID
object EmbeddedRedisSpec extends ZIOSpecDefault {
object ProtobufCodecSupplier extends CodecSupplier {
def get[A: Schema]: BinaryCodec[A] = ProtobufCodec.protobufCodec
}
final case class Item private (id: UUID, name: String, quantity: Int)
object Item {
implicit val itemSchema: Schema[Item] = DeriveSchema.gen[Item]
}
def spec = suite("EmbeddedRedis should")(
test("set and get values") {
for {
redis <- ZIO.service[Redis]
item = Item(UUID.randomUUID, "foo", 2)
_ <- redis.set(s"item.${item.id.toString}", item)
found <- redis.get(s"item.${item.id.toString}").returning[Item]
} yield assert(found)(isSome(equalTo(item)))
}
).provideShared(
EmbeddedRedis.layer,
SingleNodeExecutor.layer,
ZLayer.succeed[CodecSupplier](ProtobufCodecSupplier),
Redis.layer
) @@ TestAspect.silentLogging
}
- ZIO Redis by Dejan Mijic — Redis is one of the most commonly used in-memory data structure stores. In this talk, Dejan will introduce ZIO Redis, a purely functional, strongly typed client library backed by ZIO, with excellent performance and extensive support for nearly all of Redis' features. He will explain the library design using the bottom-up approach - from communication protocol to public APIs. Finally, he will wrap the talk by demonstrating the client's usage and discussing its performance characteristics.
Learn more on the ZIO Redis homepage!
For the general guidelines, see ZIO contributor's guide.
See the Code of Conduct