lib/Target/AMDGPU/AMDGPUExportClustering.cpp - llvm-project/llvm - Git at Google

 //===--- AMDGPUExportClusting.cpp - AMDGPU Export Clustering  -------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 /// \file This file contains a DAG scheduling mutation to cluster shader
 ///       exports.
 //
 //===----------------------------------------------------------------------===//

 #include "AMDGPUExportClustering.h"
 #include "MCTargetDesc/AMDGPUMCTargetDesc.h"
 #include "SIInstrInfo.h"
 #include "llvm/CodeGen/ScheduleDAGInstrs.h"

 using namespace llvm;

 namespace {

 class ExportClustering : public ScheduleDAGMutation {
 public:
   ExportClustering() {}
   void apply(ScheduleDAGInstrs *DAG) override;
 };

 static bool isExport(const SUnit &SU) {
   return SIInstrInfo::isEXP(*SU.getInstr());
 }

 static bool isPositionExport(const SIInstrInfo *TII, SUnit *SU) {
   const MachineInstr *MI = SU->getInstr();
   unsigned Imm = TII->getNamedOperand(*MI, AMDGPU::OpName::tgt)->getImm();
   return Imm >= AMDGPU::Exp::ET_POS0 && Imm <= AMDGPU::Exp::ET_POS_LAST;
 }

 static void sortChain(const SIInstrInfo *TII, SmallVector<SUnit *, 8> &Chain,
                       unsigned PosCount) {
   if (!PosCount || PosCount == Chain.size())
     return;

   // Position exports should occur as soon as possible in the shader
   // for optimal performance.  This moves position exports before
   // other exports while preserving the order within different export
   // types (pos or other).
   SmallVector<SUnit *, 8> Copy(Chain);
   unsigned PosIdx = 0;
   unsigned OtherIdx = PosCount;
   for (SUnit *SU : Copy) {
     if (isPositionExport(TII, SU))
       Chain[PosIdx++] = SU;
     else
       Chain[OtherIdx++] = SU;
   }
 }

 static void buildCluster(ArrayRef<SUnit *> Exports, ScheduleDAGInstrs *DAG) {
   SUnit *ChainHead = Exports.front();

   // Now construct cluster from chain by adding new edges.
   for (unsigned Idx = 0, End = Exports.size() - 1; Idx < End; ++Idx) {
     SUnit *SUa = Exports[Idx];
     SUnit *SUb = Exports[Idx + 1];

     // Copy all dependencies to the head of the chain to avoid any
     // computation being inserted into the chain.
     for (const SDep &Pred : SUb->Preds) {
       SUnit *PredSU = Pred.getSUnit();
       if (!isExport(*PredSU) && !Pred.isWeak())
         DAG->addEdge(ChainHead, SDep(PredSU, SDep::Artificial));
     }

     // New barrier edge ordering exports
     DAG->addEdge(SUb, SDep(SUa, SDep::Barrier));
     // Also add cluster edge
     DAG->addEdge(SUb, SDep(SUa, SDep::Cluster));
   }
 }

 static void removeExportDependencies(ScheduleDAGInstrs *DAG, SUnit &SU) {
   SmallVector<SDep, 2> ToAdd, ToRemove;

   for (const SDep &Pred : SU.Preds) {
     SUnit *PredSU = Pred.getSUnit();
     if (Pred.isBarrier() && isExport(*PredSU)) {
       ToRemove.push_back(Pred);
       if (isExport(SU))
         continue;

       // If we remove a barrier we need to copy dependencies
       // from the predecessor to maintain order.
       for (const SDep &ExportPred : PredSU->Preds) {
         SUnit *ExportPredSU = ExportPred.getSUnit();
         if (ExportPred.isBarrier() && !isExport(*ExportPredSU))
           ToAdd.push_back(SDep(ExportPredSU, SDep::Barrier));
       }
     }
   }

   for (SDep Pred : ToRemove)
     SU.removePred(Pred);
   for (SDep Pred : ToAdd)
     DAG->addEdge(&SU, Pred);
 }

 void ExportClustering::apply(ScheduleDAGInstrs *DAG) {
   const SIInstrInfo *TII = static_cast<const SIInstrInfo *>(DAG->TII);

   SmallVector<SUnit *, 8> Chain;

   // Pass through DAG gathering a list of exports and removing barrier edges
   // creating dependencies on exports. Freeing exports of successor edges
   // allows more scheduling freedom, and nothing should be order dependent
   // on exports.  Edges will be added later to order the exports.
   unsigned PosCount = 0;
   for (SUnit &SU : DAG->SUnits) {
     if (!isExport(SU))
       continue;

     Chain.push_back(&SU);
     if (isPositionExport(TII, &SU))
       PosCount++;

     removeExportDependencies(DAG, SU);

     SmallVector<SDep, 4> Succs(SU.Succs);
     for (SDep Succ : Succs)
       removeExportDependencies(DAG, *Succ.getSUnit());
   }

   // Apply clustering if there are multiple exports
   if (Chain.size() > 1) {
     sortChain(TII, Chain, PosCount);
     buildCluster(Chain, DAG);
   }
 }

 } // end namespace

 namespace llvm {

 std::unique_ptr<ScheduleDAGMutation> createAMDGPUExportClusteringDAGMutation() {
   return std::make_unique<ExportClustering>();
 }

 } // end namespace llvm
	//===--- AMDGPUExportClusting.cpp - AMDGPU Export Clustering -------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	/// \file This file contains a DAG scheduling mutation to cluster shader
	/// exports.
	//
	//===----------------------------------------------------------------------===//

	#include "AMDGPUExportClustering.h"
	#include "MCTargetDesc/AMDGPUMCTargetDesc.h"
	#include "SIInstrInfo.h"
	#include "llvm/CodeGen/ScheduleDAGInstrs.h"

	using namespace llvm;

	namespace {

	class ExportClustering : public ScheduleDAGMutation {
	public:
	ExportClustering() {}
	void apply(ScheduleDAGInstrs *DAG) override;
	};

	static bool isExport(const SUnit &SU) {
	return SIInstrInfo::isEXP(*SU.getInstr());
	}

	static bool isPositionExport(const SIInstrInfo TII, SUnit SU) {
	const MachineInstr *MI = SU->getInstr();
	unsigned Imm = TII->getNamedOperand(*MI, AMDGPU::OpName::tgt)->getImm();
	return Imm >= AMDGPU::Exp::ET_POS0 && Imm <= AMDGPU::Exp::ET_POS_LAST;
	}

	static void sortChain(const SIInstrInfo TII, SmallVector<SUnit , 8> &Chain,
	unsigned PosCount) {
	if (!PosCount \|\| PosCount == Chain.size())
	return;

	// Position exports should occur as soon as possible in the shader
	// for optimal performance. This moves position exports before
	// other exports while preserving the order within different export
	// types (pos or other).
	SmallVector<SUnit *, 8> Copy(Chain);
	unsigned PosIdx = 0;
	unsigned OtherIdx = PosCount;
	for (SUnit *SU : Copy) {
	if (isPositionExport(TII, SU))
	Chain[PosIdx++] = SU;
	else
	Chain[OtherIdx++] = SU;
	}
	}

	static void buildCluster(ArrayRef<SUnit > Exports, ScheduleDAGInstrs DAG) {
	SUnit *ChainHead = Exports.front();

	// Now construct cluster from chain by adding new edges.
	for (unsigned Idx = 0, End = Exports.size() - 1; Idx < End; ++Idx) {
	SUnit *SUa = Exports[Idx];
	SUnit *SUb = Exports[Idx + 1];

	// Copy all dependencies to the head of the chain to avoid any
	// computation being inserted into the chain.
	for (const SDep &Pred : SUb->Preds) {
	SUnit *PredSU = Pred.getSUnit();
	if (!isExport(*PredSU) && !Pred.isWeak())
	DAG->addEdge(ChainHead, SDep(PredSU, SDep::Artificial));
	}

	// New barrier edge ordering exports
	DAG->addEdge(SUb, SDep(SUa, SDep::Barrier));
	// Also add cluster edge
	DAG->addEdge(SUb, SDep(SUa, SDep::Cluster));
	}
	}

	static void removeExportDependencies(ScheduleDAGInstrs *DAG, SUnit &SU) {
	SmallVector<SDep, 2> ToAdd, ToRemove;

	for (const SDep &Pred : SU.Preds) {
	SUnit *PredSU = Pred.getSUnit();
	if (Pred.isBarrier() && isExport(*PredSU)) {
	ToRemove.push_back(Pred);
	if (isExport(SU))
	continue;

	// If we remove a barrier we need to copy dependencies
	// from the predecessor to maintain order.
	for (const SDep &ExportPred : PredSU->Preds) {
	SUnit *ExportPredSU = ExportPred.getSUnit();
	if (ExportPred.isBarrier() && !isExport(*ExportPredSU))
	ToAdd.push_back(SDep(ExportPredSU, SDep::Barrier));
	}
	}
	}

	for (SDep Pred : ToRemove)
	SU.removePred(Pred);
	for (SDep Pred : ToAdd)
	DAG->addEdge(&SU, Pred);
	}

	void ExportClustering::apply(ScheduleDAGInstrs *DAG) {
	const SIInstrInfo TII = static_cast<const SIInstrInfo >(DAG->TII);

	SmallVector<SUnit *, 8> Chain;

	// Pass through DAG gathering a list of exports and removing barrier edges
	// creating dependencies on exports. Freeing exports of successor edges
	// allows more scheduling freedom, and nothing should be order dependent
	// on exports. Edges will be added later to order the exports.
	unsigned PosCount = 0;
	for (SUnit &SU : DAG->SUnits) {
	if (!isExport(SU))
	continue;

	Chain.push_back(&SU);
	if (isPositionExport(TII, &SU))
	PosCount++;

	removeExportDependencies(DAG, SU);

	SmallVector<SDep, 4> Succs(SU.Succs);
	for (SDep Succ : Succs)
	removeExportDependencies(DAG, *Succ.getSUnit());
	}

	// Apply clustering if there are multiple exports
	if (Chain.size() > 1) {
	sortChain(TII, Chain, PosCount);
	buildCluster(Chain, DAG);
	}
	}

	} // end namespace

	namespace llvm {

	std::unique_ptr<ScheduleDAGMutation> createAMDGPUExportClusteringDAGMutation() {
	return std::make_unique<ExportClustering>();
	}

	} // end namespace llvm