// See LICENSE for license details. package uncore.tilelink2 import Chisel._ import chisel3.internal.sourceinfo.SourceInfo import diplomacy._ import scala.collection.mutable.ListBuffer import scala.math.max // A potentially empty half-open range; [start, end) case class IntRange(start: Int, end: Int) { require (start >= 0) require (start <= end) def size = end - start def overlaps(x: IntRange) = start < x.end && x.start < end def offset(x: Int) = IntRange(x+start, x+end) } object IntRange { implicit def apply(end: Int): IntRange = apply(0, end) } case class IntSourceParameters( range: IntRange, nodePath: Seq[BaseNode] = Seq()) { val name = nodePath.lastOption.map(_.lazyModule.name).getOrElse("disconnected") } case class IntSinkParameters( nodePath: Seq[BaseNode] = Seq()) { val name = nodePath.lastOption.map(_.lazyModule.name).getOrElse("disconnected") } case class IntSourcePortParameters(sources: Seq[IntSourceParameters]) { val num = sources.map(_.range.size).sum // The interrupts mapping must not overlap sources.map(_.range).combinations(2).foreach { case Seq(a, b) => require (!a.overlaps(b)) } // The interrupts must perfectly cover the range require (sources.isEmpty || sources.map(_.range.end).max == num) } case class IntSinkPortParameters(sinks: Seq[IntSinkParameters]) case class IntEdge(source: IntSourcePortParameters, sink: IntSinkPortParameters) object IntImp extends NodeImp[IntSourcePortParameters, IntSinkPortParameters, IntEdge, IntEdge, Vec[Bool]] { def edgeO(pd: IntSourcePortParameters, pu: IntSinkPortParameters): IntEdge = IntEdge(pd, pu) def edgeI(pd: IntSourcePortParameters, pu: IntSinkPortParameters): IntEdge = IntEdge(pd, pu) def bundleO(eo: Seq[IntEdge]): Vec[Vec[Bool]] = { if (eo.isEmpty) Vec(0, Vec(0, Bool())) else Vec(eo.size, Vec(eo.map(_.source.num).max, Bool())) } def bundleI(ei: Seq[IntEdge]): Vec[Vec[Bool]] = { if (ei.isEmpty) Vec(0, Vec(0, Bool())) else Vec(ei.size, Vec(ei.map(_.source.num).max, Bool())) } def colour = "#0000ff" // blue override def labelI(ei: IntEdge) = ei.source.sources.map(_.range.size).sum.toString override def labelO(eo: IntEdge) = eo.source.sources.map(_.range.size).sum.toString def connect(bo: => Vec[Bool], bi: => Vec[Bool], ei: => IntEdge)(implicit sourceInfo: SourceInfo): (Option[LazyModule], () => Unit) = { (None, () => { // Cannot use bulk connect, because the widths could differ (bo zip bi) foreach { case (o, i) => i := o } }) } override def mixO(pd: IntSourcePortParameters, node: OutwardNode[IntSourcePortParameters, IntSinkPortParameters, Vec[Bool]]): IntSourcePortParameters = pd.copy(sources = pd.sources.map { s => s.copy (nodePath = node +: s.nodePath) }) override def mixI(pu: IntSinkPortParameters, node: InwardNode[IntSourcePortParameters, IntSinkPortParameters, Vec[Bool]]): IntSinkPortParameters = pu.copy(sinks = pu.sinks.map { s => s.copy (nodePath = node +: s.nodePath) }) } case class IntIdentityNode() extends IdentityNode(IntImp) case class IntSourceNode(num: Int) extends SourceNode(IntImp)( IntSourcePortParameters(Seq(IntSourceParameters(num))), (if (num == 0) 0 else 1) to 1) case class IntSinkNode() extends SinkNode(IntImp)( IntSinkPortParameters(Seq(IntSinkParameters()))) case class IntAdapterNode( sourceFn: Seq[IntSourcePortParameters] => IntSourcePortParameters, sinkFn: Seq[IntSinkPortParameters] => IntSinkPortParameters, numSourcePorts: Range.Inclusive = 1 to 1, numSinkPorts: Range.Inclusive = 1 to 1) extends InteriorNode(IntImp)(sourceFn, sinkFn, numSourcePorts, numSinkPorts) case class IntOutputNode() extends OutputNode(IntImp) case class IntInputNode() extends InputNode(IntImp) case class IntBlindOutputNode() extends BlindOutputNode(IntImp)(IntSinkPortParameters(Seq(IntSinkParameters()))) case class IntBlindInputNode(num: Int) extends BlindInputNode(IntImp)(IntSourcePortParameters(Seq(IntSourceParameters(num)))) case class IntInternalOutputNode() extends InternalOutputNode(IntImp)(IntSinkPortParameters(Seq(IntSinkParameters()))) case class IntInternalInputNode(num: Int) extends InternalInputNode(IntImp)(IntSourcePortParameters(Seq(IntSourceParameters(num)))) class IntXbar extends LazyModule { val intnode = IntAdapterNode( numSourcePorts = 0 to 128, numSinkPorts = 0 to 128, sinkFn = { _ => IntSinkPortParameters(Seq(IntSinkParameters())) }, sourceFn = { seq => IntSourcePortParameters((seq zip seq.map(_.num).scanLeft(0)(_+_).init).map { case (s, o) => s.sources.map(z => z.copy(range = z.range.offset(o))) }.flatten) }) lazy val module = new LazyModuleImp(this) { val io = new Bundle { val in = intnode.bundleIn val out = intnode.bundleOut } val cat = (intnode.edgesIn zip io.in).map{ case (e, i) => i.take(e.source.num) }.flatten io.out.foreach { _ := cat } } } class IntXing extends LazyModule { val intnode = IntIdentityNode() lazy val module = new LazyModuleImp(this) { val io = new Bundle { val in = intnode.bundleIn val out = intnode.bundleOut } io.out := RegNext(RegNext(RegNext(io.in))) } }