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// Generated by the Scala Plugin for the Protocol Buffer Compiler.
// Do not edit!
//
// Protofile syntax: PROTO3

package lnrpc
import org.bitcoins.lnd.rpc.LndUtils._

/** Returns a new instance of the directed channel graph.
  *
  * @param nodes
  *   The list of `LightningNode`s in this channel graph
  * @param edges
  *   The list of `ChannelEdge`s in this channel graph
  */
@SerialVersionUID(0L)
final case class ChannelGraph(
    nodes: _root_.scala.Seq[lnrpc.LightningNode] = _root_.scala.Seq.empty,
    edges: _root_.scala.Seq[lnrpc.ChannelEdge] = _root_.scala.Seq.empty,
    unknownFields: _root_.scalapb.UnknownFieldSet = _root_.scalapb.UnknownFieldSet.empty
    ) extends scalapb.GeneratedMessage with scalapb.lenses.Updatable[ChannelGraph] {
    @transient
    private[this] var __serializedSizeMemoized: _root_.scala.Int = 0
    private[this] def __computeSerializedSize(): _root_.scala.Int = {
      var __size = 0
      nodes.foreach { __item =>
        val __value = __item
        __size += 1 + _root_.com.google.protobuf.CodedOutputStream.computeUInt32SizeNoTag(__value.serializedSize) + __value.serializedSize
      }
      edges.foreach { __item =>
        val __value = __item
        __size += 1 + _root_.com.google.protobuf.CodedOutputStream.computeUInt32SizeNoTag(__value.serializedSize) + __value.serializedSize
      }
      __size += unknownFields.serializedSize
      __size
    }
    override def serializedSize: _root_.scala.Int = {
      var __size = __serializedSizeMemoized
      if (__size == 0) {
        __size = __computeSerializedSize() + 1
        __serializedSizeMemoized = __size
      }
      __size - 1
      
    }
    def writeTo(`_output__`: _root_.com.google.protobuf.CodedOutputStream): _root_.scala.Unit = {
      nodes.foreach { __v =>
        val __m = __v
        _output__.writeTag(1, 2)
        _output__.writeUInt32NoTag(__m.serializedSize)
        __m.writeTo(_output__)
      };
      edges.foreach { __v =>
        val __m = __v
        _output__.writeTag(2, 2)
        _output__.writeUInt32NoTag(__m.serializedSize)
        __m.writeTo(_output__)
      };
      unknownFields.writeTo(_output__)
    }
    def clearNodes = copy(nodes = _root_.scala.Seq.empty)
    def addNodes(__vs: lnrpc.LightningNode *): ChannelGraph = addAllNodes(__vs)
    def addAllNodes(__vs: Iterable[lnrpc.LightningNode]): ChannelGraph = copy(nodes = nodes ++ __vs)
    def withNodes(__v: _root_.scala.Seq[lnrpc.LightningNode]): ChannelGraph = copy(nodes = __v)
    def clearEdges = copy(edges = _root_.scala.Seq.empty)
    def addEdges(__vs: lnrpc.ChannelEdge *): ChannelGraph = addAllEdges(__vs)
    def addAllEdges(__vs: Iterable[lnrpc.ChannelEdge]): ChannelGraph = copy(edges = edges ++ __vs)
    def withEdges(__v: _root_.scala.Seq[lnrpc.ChannelEdge]): ChannelGraph = copy(edges = __v)
    def withUnknownFields(__v: _root_.scalapb.UnknownFieldSet) = copy(unknownFields = __v)
    def discardUnknownFields = copy(unknownFields = _root_.scalapb.UnknownFieldSet.empty)
    def getFieldByNumber(__fieldNumber: _root_.scala.Int): _root_.scala.Any = {
      (__fieldNumber: @_root_.scala.unchecked) match {
        case 1 => nodes
        case 2 => edges
      }
    }
    def getField(__field: _root_.scalapb.descriptors.FieldDescriptor): _root_.scalapb.descriptors.PValue = {
      _root_.scala.Predef.require(__field.containingMessage eq companion.scalaDescriptor)
      (__field.number: @_root_.scala.unchecked) match {
        case 1 => _root_.scalapb.descriptors.PRepeated(nodes.iterator.map(_.toPMessage).toVector)
        case 2 => _root_.scalapb.descriptors.PRepeated(edges.iterator.map(_.toPMessage).toVector)
      }
    }
    def toProtoString: _root_.scala.Predef.String = _root_.scalapb.TextFormat.printToUnicodeString(this)
    def companion: lnrpc.ChannelGraph.type = lnrpc.ChannelGraph
    // @@protoc_insertion_point(GeneratedMessage[lnrpc.ChannelGraph])
}

object ChannelGraph extends scalapb.GeneratedMessageCompanion[lnrpc.ChannelGraph] {
  implicit def messageCompanion: scalapb.GeneratedMessageCompanion[lnrpc.ChannelGraph] = this
  def parseFrom(`_input__`: _root_.com.google.protobuf.CodedInputStream): lnrpc.ChannelGraph = {
    val __nodes: _root_.scala.collection.immutable.VectorBuilder[lnrpc.LightningNode] = new _root_.scala.collection.immutable.VectorBuilder[lnrpc.LightningNode]
    val __edges: _root_.scala.collection.immutable.VectorBuilder[lnrpc.ChannelEdge] = new _root_.scala.collection.immutable.VectorBuilder[lnrpc.ChannelEdge]
    var `_unknownFields__`: _root_.scalapb.UnknownFieldSet.Builder = null
    var _done__ = false
    while (!_done__) {
      val _tag__ = _input__.readTag()
      _tag__ match {
        case 0 => _done__ = true
        case 10 =>
          __nodes += _root_.scalapb.LiteParser.readMessage[lnrpc.LightningNode](_input__)
        case 18 =>
          __edges += _root_.scalapb.LiteParser.readMessage[lnrpc.ChannelEdge](_input__)
        case tag =>
          if (_unknownFields__ == null) {
            _unknownFields__ = new _root_.scalapb.UnknownFieldSet.Builder()
          }
          _unknownFields__.parseField(tag, _input__)
      }
    }
    lnrpc.ChannelGraph(
        nodes = __nodes.result(),
        edges = __edges.result(),
        unknownFields = if (_unknownFields__ == null) _root_.scalapb.UnknownFieldSet.empty else _unknownFields__.result()
    )
  }
  implicit def messageReads: _root_.scalapb.descriptors.Reads[lnrpc.ChannelGraph] = _root_.scalapb.descriptors.Reads{
    case _root_.scalapb.descriptors.PMessage(__fieldsMap) =>
      _root_.scala.Predef.require(__fieldsMap.keys.forall(_.containingMessage eq scalaDescriptor), "FieldDescriptor does not match message type.")
      lnrpc.ChannelGraph(
        nodes = __fieldsMap.get(scalaDescriptor.findFieldByNumber(1).get).map(_.as[_root_.scala.Seq[lnrpc.LightningNode]]).getOrElse(_root_.scala.Seq.empty),
        edges = __fieldsMap.get(scalaDescriptor.findFieldByNumber(2).get).map(_.as[_root_.scala.Seq[lnrpc.ChannelEdge]]).getOrElse(_root_.scala.Seq.empty)
      )
    case _ => throw new RuntimeException("Expected PMessage")
  }
  def javaDescriptor: _root_.com.google.protobuf.Descriptors.Descriptor = LightningProto.javaDescriptor.getMessageTypes().get(110)
  def scalaDescriptor: _root_.scalapb.descriptors.Descriptor = LightningProto.scalaDescriptor.messages(110)
  def messageCompanionForFieldNumber(__number: _root_.scala.Int): _root_.scalapb.GeneratedMessageCompanion[_] = {
    var __out: _root_.scalapb.GeneratedMessageCompanion[_] = null
    (__number: @_root_.scala.unchecked) match {
      case 1 => __out = lnrpc.LightningNode
      case 2 => __out = lnrpc.ChannelEdge
    }
    __out
  }
  lazy val nestedMessagesCompanions: Seq[_root_.scalapb.GeneratedMessageCompanion[_ <: _root_.scalapb.GeneratedMessage]] = Seq.empty
  def enumCompanionForFieldNumber(__fieldNumber: _root_.scala.Int): _root_.scalapb.GeneratedEnumCompanion[_] = throw new MatchError(__fieldNumber)
  lazy val defaultInstance = lnrpc.ChannelGraph(
    nodes = _root_.scala.Seq.empty,
    edges = _root_.scala.Seq.empty
  )
  implicit class ChannelGraphLens[UpperPB](_l: _root_.scalapb.lenses.Lens[UpperPB, lnrpc.ChannelGraph]) extends _root_.scalapb.lenses.ObjectLens[UpperPB, lnrpc.ChannelGraph](_l) {
    def nodes: _root_.scalapb.lenses.Lens[UpperPB, _root_.scala.Seq[lnrpc.LightningNode]] = field(_.nodes)((c_, f_) => c_.copy(nodes = f_))
    def edges: _root_.scalapb.lenses.Lens[UpperPB, _root_.scala.Seq[lnrpc.ChannelEdge]] = field(_.edges)((c_, f_) => c_.copy(edges = f_))
  }
  final val NODES_FIELD_NUMBER = 1
  final val EDGES_FIELD_NUMBER = 2
  def of(
    nodes: _root_.scala.Seq[lnrpc.LightningNode],
    edges: _root_.scala.Seq[lnrpc.ChannelEdge]
  ): _root_.lnrpc.ChannelGraph = _root_.lnrpc.ChannelGraph(
    nodes,
    edges
  )
  // @@protoc_insertion_point(GeneratedMessageCompanion[lnrpc.ChannelGraph])
}