llvm-for-llvmta/tools/llvm-exegesis/lib/SerialSnippetGenerator.cpp

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//===-- SerialSnippetGenerator.cpp ------------------------------*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "SerialSnippetGenerator.h"
#include "CodeTemplate.h"
#include "MCInstrDescView.h"
#include "Target.h"
#include <algorithm>
#include <numeric>
#include <vector>
namespace llvm {
namespace exegesis {
struct ExecutionClass {
ExecutionMode Mask;
const char *Description;
} static const kExecutionClasses[] = {
{ExecutionMode::ALWAYS_SERIAL_IMPLICIT_REGS_ALIAS |
ExecutionMode::ALWAYS_SERIAL_TIED_REGS_ALIAS,
"Repeating a single implicitly serial instruction"},
{ExecutionMode::SERIAL_VIA_EXPLICIT_REGS,
"Repeating a single explicitly serial instruction"},
{ExecutionMode::SERIAL_VIA_MEMORY_INSTR |
ExecutionMode::SERIAL_VIA_NON_MEMORY_INSTR,
"Repeating two instructions"},
};
static constexpr size_t kMaxAliasingInstructions = 10;
static std::vector<const Instruction *>
computeAliasingInstructions(const LLVMState &State, const Instruction *Instr,
size_t MaxAliasingInstructions,
const BitVector &ForbiddenRegisters) {
// Randomly iterate the set of instructions.
std::vector<unsigned> Opcodes;
Opcodes.resize(State.getInstrInfo().getNumOpcodes());
std::iota(Opcodes.begin(), Opcodes.end(), 0U);
std::shuffle(Opcodes.begin(), Opcodes.end(), randomGenerator());
std::vector<const Instruction *> AliasingInstructions;
for (const unsigned OtherOpcode : Opcodes) {
if (OtherOpcode == Instr->Description.getOpcode())
continue;
const Instruction &OtherInstr = State.getIC().getInstr(OtherOpcode);
const MCInstrDesc &OtherInstrDesc = OtherInstr.Description;
// Ignore instructions that we cannot run.
if (OtherInstrDesc.isPseudo() ||
OtherInstrDesc.isBranch() || OtherInstrDesc.isIndirectBranch() ||
OtherInstrDesc.isCall() || OtherInstrDesc.isReturn()) {
continue;
}
if (OtherInstr.hasMemoryOperands())
continue;
if (!State.getExegesisTarget().allowAsBackToBack(OtherInstr))
continue;
if (Instr->hasAliasingRegistersThrough(OtherInstr, ForbiddenRegisters))
AliasingInstructions.push_back(&OtherInstr);
if (AliasingInstructions.size() >= MaxAliasingInstructions)
break;
}
return AliasingInstructions;
}
static ExecutionMode getExecutionModes(const Instruction &Instr,
const BitVector &ForbiddenRegisters) {
ExecutionMode EM = ExecutionMode::UNKNOWN;
if (Instr.hasAliasingImplicitRegisters())
EM |= ExecutionMode::ALWAYS_SERIAL_IMPLICIT_REGS_ALIAS;
if (Instr.hasTiedRegisters())
EM |= ExecutionMode::ALWAYS_SERIAL_TIED_REGS_ALIAS;
if (Instr.hasMemoryOperands())
EM |= ExecutionMode::SERIAL_VIA_MEMORY_INSTR;
else {
if (Instr.hasAliasingRegisters(ForbiddenRegisters))
EM |= ExecutionMode::SERIAL_VIA_EXPLICIT_REGS;
if (Instr.hasOneUseOrOneDef())
EM |= ExecutionMode::SERIAL_VIA_NON_MEMORY_INSTR;
}
return EM;
}
static void appendCodeTemplates(const LLVMState &State,
InstructionTemplate Variant,
const BitVector &ForbiddenRegisters,
ExecutionMode ExecutionModeBit,
StringRef ExecutionClassDescription,
std::vector<CodeTemplate> &CodeTemplates) {
assert(isEnumValue(ExecutionModeBit) && "Bit must be a power of two");
switch (ExecutionModeBit) {
case ExecutionMode::ALWAYS_SERIAL_IMPLICIT_REGS_ALIAS:
// Nothing to do, the instruction is always serial.
LLVM_FALLTHROUGH;
case ExecutionMode::ALWAYS_SERIAL_TIED_REGS_ALIAS: {
// Picking whatever value for the tied variable will make the instruction
// serial.
CodeTemplate CT;
CT.Execution = ExecutionModeBit;
CT.Info = std::string(ExecutionClassDescription);
CT.Instructions.push_back(std::move(Variant));
CodeTemplates.push_back(std::move(CT));
return;
}
case ExecutionMode::SERIAL_VIA_MEMORY_INSTR: {
// Select back-to-back memory instruction.
// TODO: Implement me.
return;
}
case ExecutionMode::SERIAL_VIA_EXPLICIT_REGS: {
// Making the execution of this instruction serial by selecting one def
// register to alias with one use register.
const AliasingConfigurations SelfAliasing(Variant.getInstr(),
Variant.getInstr());
assert(!SelfAliasing.empty() && !SelfAliasing.hasImplicitAliasing() &&
"Instr must alias itself explicitly");
// This is a self aliasing instruction so defs and uses are from the same
// instance, hence twice Variant in the following call.
setRandomAliasing(SelfAliasing, Variant, Variant);
CodeTemplate CT;
CT.Execution = ExecutionModeBit;
CT.Info = std::string(ExecutionClassDescription);
CT.Instructions.push_back(std::move(Variant));
CodeTemplates.push_back(std::move(CT));
return;
}
case ExecutionMode::SERIAL_VIA_NON_MEMORY_INSTR: {
const Instruction &Instr = Variant.getInstr();
// Select back-to-back non-memory instruction.
for (const auto *OtherInstr : computeAliasingInstructions(
State, &Instr, kMaxAliasingInstructions, ForbiddenRegisters)) {
const AliasingConfigurations Forward(Instr, *OtherInstr);
const AliasingConfigurations Back(*OtherInstr, Instr);
InstructionTemplate ThisIT(Variant);
InstructionTemplate OtherIT(OtherInstr);
if (!Forward.hasImplicitAliasing())
setRandomAliasing(Forward, ThisIT, OtherIT);
else if (!Back.hasImplicitAliasing())
setRandomAliasing(Back, OtherIT, ThisIT);
CodeTemplate CT;
CT.Execution = ExecutionModeBit;
CT.Info = std::string(ExecutionClassDescription);
CT.Instructions.push_back(std::move(ThisIT));
CT.Instructions.push_back(std::move(OtherIT));
CodeTemplates.push_back(std::move(CT));
}
return;
}
default:
llvm_unreachable("Unhandled enum value");
}
}
SerialSnippetGenerator::~SerialSnippetGenerator() = default;
Expected<std::vector<CodeTemplate>>
SerialSnippetGenerator::generateCodeTemplates(
InstructionTemplate Variant, const BitVector &ForbiddenRegisters) const {
std::vector<CodeTemplate> Results;
const ExecutionMode EM =
getExecutionModes(Variant.getInstr(), ForbiddenRegisters);
for (const auto EC : kExecutionClasses) {
for (const auto ExecutionModeBit : getExecutionModeBits(EM & EC.Mask))
appendCodeTemplates(State, Variant, ForbiddenRegisters, ExecutionModeBit,
EC.Description, Results);
if (!Results.empty())
break;
}
if (Results.empty())
return make_error<Failure>(
"No strategy found to make the execution serial");
return std::move(Results);
}
} // namespace exegesis
} // namespace llvm