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llvm / llvm / b80a9e6dba7aae24e438b7f938b7b0d352e84e49 / . / tools / llvm-mca / Views / RegisterFileStatistics.cpp
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//===--------------------- RegisterFileStatistics.cpp -----------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
/// \file
///
/// This file implements the RegisterFileStatistics interface.
///
//===----------------------------------------------------------------------===//
#include "Views/RegisterFileStatistics.h"
#include "llvm/Support/Format.h"
namespace llvm {
namespace mca {
RegisterFileStatistics::RegisterFileStatistics(const MCSubtargetInfo &sti)
: STI(sti) {
const MCSchedModel &SM = STI.getSchedModel();
RegisterFileUsage RFUEmpty = {0, 0, 0};
MoveEliminationInfo MEIEmpty = {0, 0, 0, 0, 0};
if (!SM.hasExtraProcessorInfo()) {
// Assume a single register file.
PRFUsage.emplace_back(RFUEmpty);
MoveElimInfo.emplace_back(MEIEmpty);
return;
}
// Initialize a RegisterFileUsage for every user defined register file, plus
// the default register file which is always at index #0.
const MCExtraProcessorInfo &PI = SM.getExtraProcessorInfo();
// There is always an "InvalidRegisterFile" entry in tablegen. That entry can
// be skipped. If there are no user defined register files, then reserve a
// single entry for the default register file at index #0.
unsigned NumRegFiles = std::max(PI.NumRegisterFiles, 1U);
PRFUsage.resize(NumRegFiles);
std::fill(PRFUsage.begin(), PRFUsage.end(), RFUEmpty);
MoveElimInfo.resize(NumRegFiles);
std::fill(MoveElimInfo.begin(), MoveElimInfo.end(), MEIEmpty);
}
void RegisterFileStatistics::updateRegisterFileUsage(
ArrayRef<unsigned> UsedPhysRegs) {
for (unsigned I = 0, E = PRFUsage.size(); I < E; ++I) {
RegisterFileUsage &RFU = PRFUsage[I];
unsigned NumUsedPhysRegs = UsedPhysRegs[I];
RFU.CurrentlyUsedMappings += NumUsedPhysRegs;
RFU.TotalMappings += NumUsedPhysRegs;
RFU.MaxUsedMappings =
std::max(RFU.MaxUsedMappings, RFU.CurrentlyUsedMappings);
}
}
void RegisterFileStatistics::updateMoveElimInfo(const Instruction &Inst) {
if (!Inst.isOptimizableMove())
return;
assert(Inst.getDefs().size() == 1 && "Expected a single definition!");
assert(Inst.getUses().size() == 1 && "Expected a single register use!");
const WriteState &WS = Inst.getDefs()[0];
const ReadState &RS = Inst.getUses()[0];
MoveEliminationInfo &Info =
MoveElimInfo[Inst.getDefs()[0].getRegisterFileID()];
Info.TotalMoveEliminationCandidates++;
if (WS.isEliminated())
Info.CurrentMovesEliminated++;
if (WS.isWriteZero() && RS.isReadZero())
Info.TotalMovesThatPropagateZero++;
}
void RegisterFileStatistics::onEvent(const HWInstructionEvent &Event) {
switch (Event.Type) {
default:
break;
case HWInstructionEvent::Retired: {
const auto &RE = static_cast<const HWInstructionRetiredEvent &>(Event);
for (unsigned I = 0, E = PRFUsage.size(); I < E; ++I)
PRFUsage[I].CurrentlyUsedMappings -= RE.FreedPhysRegs[I];
break;
}
case HWInstructionEvent::Dispatched: {
const auto &DE = static_cast<const HWInstructionDispatchedEvent &>(Event);
updateRegisterFileUsage(DE.UsedPhysRegs);
updateMoveElimInfo(*DE.IR.getInstruction());
}
}
}
void RegisterFileStatistics::onCycleEnd() {
for (MoveEliminationInfo &MEI : MoveElimInfo) {
unsigned &CurrentMax = MEI.MaxMovesEliminatedPerCycle;
CurrentMax = std::max(CurrentMax, MEI.CurrentMovesEliminated);
MEI.TotalMovesEliminated += MEI.CurrentMovesEliminated;
MEI.CurrentMovesEliminated = 0;
}
}
void RegisterFileStatistics::printView(raw_ostream &OS) const {
std::string Buffer;
raw_string_ostream TempStream(Buffer);
TempStream << "\n\nRegister File statistics:";
const RegisterFileUsage &GlobalUsage = PRFUsage[0];
TempStream << "\nTotal number of mappings created: "
<< GlobalUsage.TotalMappings;
TempStream << "\nMax number of mappings used: "
<< GlobalUsage.MaxUsedMappings << '\n';
for (unsigned I = 1, E = PRFUsage.size(); I < E; ++I) {
const RegisterFileUsage &RFU = PRFUsage[I];
// Obtain the register file descriptor from the scheduling model.
assert(STI.getSchedModel().hasExtraProcessorInfo() &&
"Unable to find register file info!");
const MCExtraProcessorInfo &PI =
STI.getSchedModel().getExtraProcessorInfo();
assert(I <= PI.NumRegisterFiles && "Unexpected register file index!");
const MCRegisterFileDesc &RFDesc = PI.RegisterFiles[I];
// Skip invalid register files.
if (!RFDesc.NumPhysRegs)
continue;
TempStream << "\n* Register File #" << I;
TempStream << " -- " << StringRef(RFDesc.Name) << ':';
TempStream << "\n Number of physical registers: ";
if (!RFDesc.NumPhysRegs)
TempStream << "unbounded";
else
TempStream << RFDesc.NumPhysRegs;
TempStream << "\n Total number of mappings created: "
<< RFU.TotalMappings;
TempStream << "\n Max number of mappings used: "
<< RFU.MaxUsedMappings << '\n';
const MoveEliminationInfo &MEI = MoveElimInfo[I];
if (MEI.TotalMoveEliminationCandidates) {
TempStream << " Number of optimizable moves: "
<< MEI.TotalMoveEliminationCandidates;
double EliminatedMovProportion = (double)MEI.TotalMovesEliminated /
MEI.TotalMoveEliminationCandidates *
100.0;
double ZeroMovProportion = (double)MEI.TotalMovesThatPropagateZero /
MEI.TotalMoveEliminationCandidates * 100.0;
TempStream << "\n Number of moves eliminated: "
<< MEI.TotalMovesEliminated << " "
<< format("(%.1f%%)",
floor((EliminatedMovProportion * 10) + 0.5) / 10);
TempStream << "\n Number of zero moves: "
<< MEI.TotalMovesThatPropagateZero << " "
<< format("(%.1f%%)",
floor((ZeroMovProportion * 10) + 0.5) / 10);
TempStream << "\n Max moves eliminated per cycle: "
<< MEI.MaxMovesEliminatedPerCycle << '\n';
}
}
TempStream.flush();
OS << Buffer;
}
} // namespace mca
} // namespace llvm