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Airframe MessagePack-based codec
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/*
* 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
*
* http://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.
*/
package wvlet.airframe.codec
import java.util
import wvlet.airframe.json.JSONParseException
import wvlet.airframe.msgpack.spi.{MessagePack, Packer, Unpacker, ValueType}
import wvlet.airframe.surface.{Surface, Zero}
import scala.collection.immutable.ListMap
import scala.collection.mutable
import scala.jdk.CollectionConverters.*
import scala.language.higherKinds
import scala.util.{Failure, Success, Try}
object CollectionCodec {
object BaseSeqCodec {
def pack[A](p: Packer, v: Seq[A], elementCodec: MessageCodec[A]): Unit = {
// elements
// [e1, e2, ...]
val len = v.length
p.packArrayHeader(len)
for (e <- v) {
elementCodec.pack(p, e)
}
}
def unpack[A](
u: Unpacker,
v: MessageContext,
surface: Surface,
elementCodec: MessageCodec[A],
newBuilder: => mutable.Builder[A, Seq[A]]
): Unit = {
def unpackSingle(readElement: => A): Unit = {
// Create a single element Seq.
val b = newBuilder
b.sizeHint(1)
Try(readElement) match {
case Success(x) => b += x
case Failure(ex) => b += Zero.zeroOf(surface).asInstanceOf[A]
}
v.setObject(b.result())
}
u.getNextValueType match {
case ValueType.ARRAY =>
// Read elements
val len = u.unpackArrayHeader
val b = newBuilder
b.sizeHint(len)
for (i <- 0 until len) {
elementCodec.unpack(u, v)
if (v.isNull) {
// Add default value
val z = Zero.zeroOf(surface).asInstanceOf[A]
b += z
} else {
b += v.getLastValue.asInstanceOf[A]
}
}
v.setObject(b.result())
case ValueType.STRING =>
// Assumes JSON array
val s = u.unpackString
if (s.startsWith("[")) {
try {
val jsonArrayMsgPack = JSONCodec.toMsgPack(s)
val unpacker = MessagePack.newUnpacker(jsonArrayMsgPack)
// Parse again
unpack(unpacker, v, surface, elementCodec, newBuilder)
} catch {
case e: JSONParseException =>
// Not a JSON value, so create a single element Seq
unpackSingle(elementCodec.fromString(s))
}
} else {
// Create a single element Seq
unpackSingle(elementCodec.fromString(s))
}
case ValueType.NIL =>
u.unpackNil
v.setObject(newBuilder.result())
case ValueType.BOOLEAN | ValueType.INTEGER | ValueType.FLOAT | ValueType.BINARY =>
val x = u.unpackValue
unpackSingle(elementCodec.fromMsgPack(x.toMsgpack))
case other =>
u.skipValue
v.setError(
new MessageCodecException(INVALID_DATA, elementCodec, s"Unsupported type for Seq[$surface]: ${other}")
)
}
}
}
class SeqCodec[A](surface: Surface, elementCodec: MessageCodec[A]) extends MessageCodec[Seq[A]] {
override def pack(p: Packer, v: Seq[A]): Unit = {
BaseSeqCodec.pack(p, v, elementCodec)
}
override def unpack(u: Unpacker, v: MessageContext): Unit = {
BaseSeqCodec.unpack(u, v, surface, elementCodec, Seq.newBuilder[A])
}
}
class IndexedSeqCodec[A](surface: Surface, elementCodec: MessageCodec[A]) extends MessageCodec[IndexedSeq[A]] {
override def pack(p: Packer, v: IndexedSeq[A]): Unit = {
BaseSeqCodec.pack(p, v, elementCodec)
}
override def unpack(u: Unpacker, v: MessageContext): Unit = {
BaseSeqCodec.unpack(u, v, surface, elementCodec, IndexedSeq.newBuilder[A])
}
}
/*
Note: If we use MessageCodec[List[A]] it causes StackOverflow. Need more investigation
[error] java.lang.StackOverflowError
[error] at scala.reflect.internal.tpe.TypeMaps$SubstMap.apply(TypeMaps.scala:764)
[error] at scala.reflect.internal.tpe.TypeMaps$SubstSymMap.apply(TypeMaps.scala:825)
[error] at scala.reflect.internal.tpe.TypeMaps$TypeMap.mapOver(TypeMaps.scala:172)
*/
class ListCodec[A](surface: Surface, elementCodec: MessageCodec[A]) extends MessageCodec[Seq[A]] {
override def pack(p: Packer, v: Seq[A]): Unit = {
BaseSeqCodec.pack(p, v, elementCodec)
}
override def unpack(u: Unpacker, v: MessageContext): Unit = {
BaseSeqCodec.unpack(u, v, surface, elementCodec, List.newBuilder[A])
}
}
// TODO Just use SeqCodec for Scala and adapt the result type
case class JavaListCodec[A](elementCodec: MessageCodec[A]) extends MessageCodec[java.util.List[A]] {
override def pack(p: Packer, v: util.List[A]): Unit = {
val len = v.size
p.packArrayHeader(len)
for (e <- v.asScala) {
elementCodec.pack(p, e)
}
}
override def unpack(u: Unpacker, v: MessageContext): Unit = {
val len = u.unpackArrayHeader
val b = Seq.newBuilder[Any]
b.sizeHint(len)
for (i <- 0 until len) {
elementCodec.unpack(u, v)
b += v.getLastValue
}
v.setObject(b.result().asJava)
}
}
abstract class MapCodecBase[A, B, MapType[A, B]](keyCodec: MessageCodec[A], valueCodec: MessageCodec[B])
extends MessageCodec[MapType[A, B]] {
protected def packMap(p: Packer, m: Map[A, B]): Unit = {
p.packMapHeader(m.size)
for ((k, v) <- m) {
keyCodec.pack(p, k)
valueCodec.pack(p, v)
}
}
protected def newMapBuilder: mutable.Builder[(Any, Any), Map[Any, Any]]
protected def castResult(v: Any): MapType[A, B]
protected def unpackMap(u: Unpacker, v: MessageContext): Unit = {
u.getNextFormat.getValueType match {
case ValueType.NIL =>
u.unpackNil
v.setObject(castResult(newMapBuilder.result()))
case ValueType.MAP =>
val len = u.unpackMapHeader
val b = newMapBuilder
b.sizeHint(len)
for (i <- 0 until len) {
keyCodec.unpack(u, v)
val key = v.getLastValue
valueCodec.unpack(u, v)
val value = v.getLastValue
b += (key -> value)
}
v.setObject(castResult(b.result()))
case ValueType.STRING =>
// Assume it's a JSON map value
val json = u.unpackString
try {
val msgpack = JSONCodec.toMsgPack(json)
this.unpackMsgPack(msgpack).map { x => v.setObject(x) }
} catch {
case e: JSONParseException =>
v.setError(e)
}
case _ =>
val x = u.unpackValue
v.setError(new MessageCodecException(INVALID_DATA, this, s"Not a map value: ${x}"))
}
}
}
case class MapCodec[A, B](keyCodec: MessageCodec[A], valueCodec: MessageCodec[B])
extends MapCodecBase[A, B, Map](keyCodec, valueCodec) {
override protected def newMapBuilder: mutable.Builder[(Any, Any), Map[Any, Any]] = Map.newBuilder[Any, Any]
override protected def castResult(v: Any): Map[A, B] = v.asInstanceOf[Map[A, B]]
override def pack(p: Packer, m: Map[A, B]): Unit = packMap(p, m)
override def unpack(u: Unpacker, v: MessageContext): Unit = unpackMap(u, v)
}
case class ListMapCodec[A, B](keyCodec: MessageCodec[A], valueCodec: MessageCodec[B])
extends MapCodecBase[A, B, ListMap](keyCodec, valueCodec) {
override protected def newMapBuilder: mutable.Builder[(Any, Any), Map[Any, Any]] = ListMap.newBuilder[Any, Any]
override protected def castResult(v: Any): ListMap[A, B] = v.asInstanceOf[ListMap[A, B]]
override def pack(p: Packer, m: ListMap[A, B]): Unit = packMap(p, m)
override def unpack(u: Unpacker, v: MessageContext): Unit = unpackMap(u, v)
}
// TODO Just use MapCodec for Scala and adapt the result type
case class JavaMapCodec[A, B](keyCodec: MessageCodec[A], valueCodec: MessageCodec[B])
extends MapCodecBase[A, B, java.util.Map](keyCodec, valueCodec) {
override protected def newMapBuilder: mutable.Builder[(Any, Any), Map[Any, Any]] = Map.newBuilder[Any, Any]
override protected def castResult(v: Any): util.Map[A, B] = v.asInstanceOf[Map[A, B]].asJava
override def pack(p: Packer, m: util.Map[A, B]): Unit = packMap(p, m.asScala.toMap)
override def unpack(u: Unpacker, v: MessageContext): Unit = unpackMap(u, v)
}
}