third_party/llvm-7.0/llvm/tools/llvm-mca/InstructionInfoView.cpp - SwiftShader - Git at Google

 //===--------------------- InstructionInfoView.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 InstructionInfoView API.
 ///
 //===----------------------------------------------------------------------===//

 #include "InstructionInfoView.h"

 namespace mca {

 using namespace llvm;

 void InstructionInfoView::printView(raw_ostream &OS) const {
   std::string Buffer;
   raw_string_ostream TempStream(Buffer);
   const MCSchedModel &SM = STI.getSchedModel();
   unsigned Instructions = Source.size();

   std::string Instruction;
   raw_string_ostream InstrStream(Instruction);

   TempStream << "\n\nInstruction Info:\n";
   TempStream << "[1]: #uOps\n[2]: Latency\n[3]: RThroughput\n"
              << "[4]: MayLoad\n[5]: MayStore\n[6]: HasSideEffects (U)\n\n";

   TempStream << "[1]    [2]    [3]    [4]    [5]    [6]    Instructions:\n";
   for (unsigned I = 0, E = Instructions; I < E; ++I) {
     const MCInst &Inst = Source.getMCInstFromIndex(I);
     const MCInstrDesc &MCDesc = MCII.get(Inst.getOpcode());

     // Obtain the scheduling class information from the instruction.
     unsigned SchedClassID = MCDesc.getSchedClass();
     unsigned CPUID = SM.getProcessorID();

     // Try to solve variant scheduling classes.
     while (SchedClassID && SM.getSchedClassDesc(SchedClassID)->isVariant())
       SchedClassID = STI.resolveVariantSchedClass(SchedClassID, &Inst, CPUID);

     const MCSchedClassDesc &SCDesc = *SM.getSchedClassDesc(SchedClassID);
     unsigned NumMicroOpcodes = SCDesc.NumMicroOps;
     unsigned Latency = MCSchedModel::computeInstrLatency(STI, SCDesc);
     Optional<double> RThroughput =
         MCSchedModel::getReciprocalThroughput(STI, SCDesc);

     TempStream << ' ' << NumMicroOpcodes << "    ";
     if (NumMicroOpcodes < 10)
       TempStream << "  ";
     else if (NumMicroOpcodes < 100)
       TempStream << ' ';
     TempStream << Latency << "   ";
     if (Latency < 10)
       TempStream << "  ";
     else if (Latency < 100)
       TempStream << ' ';

     if (RThroughput.hasValue()) {
       double RT = RThroughput.getValue();
       TempStream << format("%.2f", RT) << ' ';
       if (RT < 10.0)
         TempStream << "  ";
       else if (RT < 100.0)
         TempStream << ' ';
     } else {
       TempStream << " -     ";
     }
     TempStream << (MCDesc.mayLoad() ? " *     " : "       ");
     TempStream << (MCDesc.mayStore() ? " *     " : "       ");
     TempStream << (MCDesc.hasUnmodeledSideEffects() ? " U " : "   ");

     MCIP.printInst(&Inst, InstrStream, "", STI);
     InstrStream.flush();

     // Consume any tabs or spaces at the beginning of the string.
     StringRef Str(Instruction);
     Str = Str.ltrim();
     TempStream << "    " << Str << '\n';
     Instruction = "";
   }

   TempStream.flush();
   OS << Buffer;
 }
 } // namespace mca.
	//===--------------------- InstructionInfoView.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 InstructionInfoView API.
	///
	//===----------------------------------------------------------------------===//

	#include "InstructionInfoView.h"

	namespace mca {

	using namespace llvm;

	void InstructionInfoView::printView(raw_ostream &OS) const {
	std::string Buffer;
	raw_string_ostream TempStream(Buffer);
	const MCSchedModel &SM = STI.getSchedModel();
	unsigned Instructions = Source.size();

	std::string Instruction;
	raw_string_ostream InstrStream(Instruction);

	TempStream << "\n\nInstruction Info:\n";
	TempStream << "[1]: #uOps\n[2]: Latency\n[3]: RThroughput\n"
	<< "[4]: MayLoad\n[5]: MayStore\n[6]: HasSideEffects (U)\n\n";

	TempStream << "[1] [2] [3] [4] [5] [6] Instructions:\n";
	for (unsigned I = 0, E = Instructions; I < E; ++I) {
	const MCInst &Inst = Source.getMCInstFromIndex(I);
	const MCInstrDesc &MCDesc = MCII.get(Inst.getOpcode());

	// Obtain the scheduling class information from the instruction.
	unsigned SchedClassID = MCDesc.getSchedClass();
	unsigned CPUID = SM.getProcessorID();

	// Try to solve variant scheduling classes.
	while (SchedClassID && SM.getSchedClassDesc(SchedClassID)->isVariant())
	SchedClassID = STI.resolveVariantSchedClass(SchedClassID, &Inst, CPUID);

	const MCSchedClassDesc &SCDesc = *SM.getSchedClassDesc(SchedClassID);
	unsigned NumMicroOpcodes = SCDesc.NumMicroOps;
	unsigned Latency = MCSchedModel::computeInstrLatency(STI, SCDesc);
	Optional<double> RThroughput =
	MCSchedModel::getReciprocalThroughput(STI, SCDesc);

	TempStream << ' ' << NumMicroOpcodes << " ";
	if (NumMicroOpcodes < 10)
	TempStream << " ";
	else if (NumMicroOpcodes < 100)
	TempStream << ' ';
	TempStream << Latency << " ";
	if (Latency < 10)
	TempStream << " ";
	else if (Latency < 100)
	TempStream << ' ';

	if (RThroughput.hasValue()) {
	double RT = RThroughput.getValue();
	TempStream << format("%.2f", RT) << ' ';
	if (RT < 10.0)
	TempStream << " ";
	else if (RT < 100.0)
	TempStream << ' ';
	} else {
	TempStream << " - ";
	}
	TempStream << (MCDesc.mayLoad() ? " * " : " ");
	TempStream << (MCDesc.mayStore() ? " * " : " ");
	TempStream << (MCDesc.hasUnmodeledSideEffects() ? " U " : " ");

	MCIP.printInst(&Inst, InstrStream, "", STI);
	InstrStream.flush();

	// Consume any tabs or spaces at the beginning of the string.
	StringRef Str(Instruction);
	Str = Str.ltrim();
	TempStream << " " << Str << '\n';
	Instruction = "";
	}

	TempStream.flush();
	OS << Buffer;
	}
	} // namespace mca.