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#pragma once
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//===-- llvm/ModuleSummaryIndexYAML.h - YAML I/O for summary ----*- 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
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_IR_MODULESUMMARYINDEXYAML_H
#define LLVM_IR_MODULESUMMARYINDEXYAML_H
#include "llvm/IR/ModuleSummaryIndex.h"
#include "llvm/Support/YAMLTraits.h"
namespace llvm {
namespace yaml {
template <> struct ScalarEnumerationTraits<TypeTestResolution::Kind> {
static void enumeration(IO &io, TypeTestResolution::Kind &value) {
io.enumCase(value, "Unknown", TypeTestResolution::Unknown);
io.enumCase(value, "Unsat", TypeTestResolution::Unsat);
io.enumCase(value, "ByteArray", TypeTestResolution::ByteArray);
io.enumCase(value, "Inline", TypeTestResolution::Inline);
io.enumCase(value, "Single", TypeTestResolution::Single);
io.enumCase(value, "AllOnes", TypeTestResolution::AllOnes);
}
};
template <> struct MappingTraits<TypeTestResolution> {
static void mapping(IO &io, TypeTestResolution &res) {
io.mapOptional("Kind", res.TheKind);
io.mapOptional("SizeM1BitWidth", res.SizeM1BitWidth);
io.mapOptional("AlignLog2", res.AlignLog2);
io.mapOptional("SizeM1", res.SizeM1);
io.mapOptional("BitMask", res.BitMask);
io.mapOptional("InlineBits", res.InlineBits);
}
};
template <>
struct ScalarEnumerationTraits<WholeProgramDevirtResolution::ByArg::Kind> {
static void enumeration(IO &io,
WholeProgramDevirtResolution::ByArg::Kind &value) {
io.enumCase(value, "Indir", WholeProgramDevirtResolution::ByArg::Indir);
io.enumCase(value, "UniformRetVal",
WholeProgramDevirtResolution::ByArg::UniformRetVal);
io.enumCase(value, "UniqueRetVal",
WholeProgramDevirtResolution::ByArg::UniqueRetVal);
io.enumCase(value, "VirtualConstProp",
WholeProgramDevirtResolution::ByArg::VirtualConstProp);
}
};
template <> struct MappingTraits<WholeProgramDevirtResolution::ByArg> {
static void mapping(IO &io, WholeProgramDevirtResolution::ByArg &res) {
io.mapOptional("Kind", res.TheKind);
io.mapOptional("Info", res.Info);
io.mapOptional("Byte", res.Byte);
io.mapOptional("Bit", res.Bit);
}
};
template <>
struct CustomMappingTraits<
std::map<std::vector<uint64_t>, WholeProgramDevirtResolution::ByArg>> {
static void inputOne(
IO &io, StringRef Key,
std::map<std::vector<uint64_t>, WholeProgramDevirtResolution::ByArg> &V) {
std::vector<uint64_t> Args;
std::pair<StringRef, StringRef> P = {"", Key};
while (!P.second.empty()) {
P = P.second.split(',');
uint64_t Arg;
if (P.first.getAsInteger(0, Arg)) {
io.setError("key not an integer");
return;
}
Args.push_back(Arg);
}
io.mapRequired(Key.str().c_str(), V[Args]);
}
static void output(
IO &io,
std::map<std::vector<uint64_t>, WholeProgramDevirtResolution::ByArg> &V) {
for (auto &P : V) {
std::string Key;
for (uint64_t Arg : P.first) {
if (!Key.empty())
Key += ',';
Key += llvm::utostr(Arg);
}
io.mapRequired(Key.c_str(), P.second);
}
}
};
template <> struct ScalarEnumerationTraits<WholeProgramDevirtResolution::Kind> {
static void enumeration(IO &io, WholeProgramDevirtResolution::Kind &value) {
io.enumCase(value, "Indir", WholeProgramDevirtResolution::Indir);
io.enumCase(value, "SingleImpl", WholeProgramDevirtResolution::SingleImpl);
io.enumCase(value, "BranchFunnel",
WholeProgramDevirtResolution::BranchFunnel);
}
};
template <> struct MappingTraits<WholeProgramDevirtResolution> {
static void mapping(IO &io, WholeProgramDevirtResolution &res) {
io.mapOptional("Kind", res.TheKind);
io.mapOptional("SingleImplName", res.SingleImplName);
io.mapOptional("ResByArg", res.ResByArg);
}
};
template <>
struct CustomMappingTraits<std::map<uint64_t, WholeProgramDevirtResolution>> {
static void inputOne(IO &io, StringRef Key,
std::map<uint64_t, WholeProgramDevirtResolution> &V) {
uint64_t KeyInt;
if (Key.getAsInteger(0, KeyInt)) {
io.setError("key not an integer");
return;
}
io.mapRequired(Key.str().c_str(), V[KeyInt]);
}
static void output(IO &io, std::map<uint64_t, WholeProgramDevirtResolution> &V) {
for (auto &P : V)
io.mapRequired(llvm::utostr(P.first).c_str(), P.second);
}
};
template <> struct MappingTraits<TypeIdSummary> {
static void mapping(IO &io, TypeIdSummary& summary) {
io.mapOptional("TTRes", summary.TTRes);
io.mapOptional("WPDRes", summary.WPDRes);
}
};
struct FunctionSummaryYaml {
unsigned Linkage, Visibility;
bool NotEligibleToImport, Live, IsLocal, CanAutoHide;
std::vector<uint64_t> Refs;
std::vector<uint64_t> TypeTests;
std::vector<FunctionSummary::VFuncId> TypeTestAssumeVCalls,
TypeCheckedLoadVCalls;
std::vector<FunctionSummary::ConstVCall> TypeTestAssumeConstVCalls,
TypeCheckedLoadConstVCalls;
};
} // End yaml namespace
} // End llvm namespace
namespace llvm {
namespace yaml {
template <> struct MappingTraits<FunctionSummary::VFuncId> {
static void mapping(IO &io, FunctionSummary::VFuncId& id) {
io.mapOptional("GUID", id.GUID);
io.mapOptional("Offset", id.Offset);
}
};
template <> struct MappingTraits<FunctionSummary::ConstVCall> {
static void mapping(IO &io, FunctionSummary::ConstVCall& id) {
io.mapOptional("VFunc", id.VFunc);
io.mapOptional("Args", id.Args);
}
};
} // End yaml namespace
} // End llvm namespace
LLVM_YAML_IS_SEQUENCE_VECTOR(FunctionSummary::VFuncId)
LLVM_YAML_IS_SEQUENCE_VECTOR(FunctionSummary::ConstVCall)
namespace llvm {
namespace yaml {
template <> struct MappingTraits<FunctionSummaryYaml> {
static void mapping(IO &io, FunctionSummaryYaml& summary) {
io.mapOptional("Linkage", summary.Linkage);
io.mapOptional("Visibility", summary.Visibility);
io.mapOptional("NotEligibleToImport", summary.NotEligibleToImport);
io.mapOptional("Live", summary.Live);
io.mapOptional("Local", summary.IsLocal);
io.mapOptional("CanAutoHide", summary.CanAutoHide);
io.mapOptional("Refs", summary.Refs);
io.mapOptional("TypeTests", summary.TypeTests);
io.mapOptional("TypeTestAssumeVCalls", summary.TypeTestAssumeVCalls);
io.mapOptional("TypeCheckedLoadVCalls", summary.TypeCheckedLoadVCalls);
io.mapOptional("TypeTestAssumeConstVCalls",
summary.TypeTestAssumeConstVCalls);
io.mapOptional("TypeCheckedLoadConstVCalls",
summary.TypeCheckedLoadConstVCalls);
}
};
} // End yaml namespace
} // End llvm namespace
LLVM_YAML_IS_SEQUENCE_VECTOR(FunctionSummaryYaml)
namespace llvm {
namespace yaml {
// FIXME: Add YAML mappings for the rest of the module summary.
template <> struct CustomMappingTraits<GlobalValueSummaryMapTy> {
static void inputOne(IO &io, StringRef Key, GlobalValueSummaryMapTy &V) {
std::vector<FunctionSummaryYaml> FSums;
io.mapRequired(Key.str().c_str(), FSums);
uint64_t KeyInt;
if (Key.getAsInteger(0, KeyInt)) {
io.setError("key not an integer");
return;
}
if (!V.count(KeyInt))
V.emplace(KeyInt, /*IsAnalysis=*/false);
auto &Elem = V.find(KeyInt)->second;
for (auto &FSum : FSums) {
std::vector<ValueInfo> Refs;
for (auto &RefGUID : FSum.Refs) {
if (!V.count(RefGUID))
V.emplace(RefGUID, /*IsAnalysis=*/false);
Refs.push_back(ValueInfo(/*IsAnalysis=*/false, &*V.find(RefGUID)));
}
Elem.SummaryList.push_back(std::make_unique<FunctionSummary>(
GlobalValueSummary::GVFlags(
static_cast<GlobalValue::LinkageTypes>(FSum.Linkage),
static_cast<GlobalValue::VisibilityTypes>(FSum.Visibility),
FSum.NotEligibleToImport, FSum.Live, FSum.IsLocal,
FSum.CanAutoHide),
/*NumInsts=*/0, FunctionSummary::FFlags{}, /*EntryCount=*/0, Refs,
ArrayRef<FunctionSummary::EdgeTy>{}, std::move(FSum.TypeTests),
std::move(FSum.TypeTestAssumeVCalls),
std::move(FSum.TypeCheckedLoadVCalls),
std::move(FSum.TypeTestAssumeConstVCalls),
std::move(FSum.TypeCheckedLoadConstVCalls),
ArrayRef<FunctionSummary::ParamAccess>{}, ArrayRef<CallsiteInfo>{},
ArrayRef<AllocInfo>{}));
}
}
static void output(IO &io, GlobalValueSummaryMapTy &V) {
for (auto &P : V) {
std::vector<FunctionSummaryYaml> FSums;
for (auto &Sum : P.second.SummaryList) {
if (auto *FSum = dyn_cast<FunctionSummary>(Sum.get())) {
std::vector<uint64_t> Refs;
for (auto &VI : FSum->refs())
Refs.push_back(VI.getGUID());
FSums.push_back(FunctionSummaryYaml{
FSum->flags().Linkage, FSum->flags().Visibility,
static_cast<bool>(FSum->flags().NotEligibleToImport),
static_cast<bool>(FSum->flags().Live),
static_cast<bool>(FSum->flags().DSOLocal),
static_cast<bool>(FSum->flags().CanAutoHide), Refs,
FSum->type_tests(), FSum->type_test_assume_vcalls(),
FSum->type_checked_load_vcalls(),
FSum->type_test_assume_const_vcalls(),
FSum->type_checked_load_const_vcalls()});
}
}
if (!FSums.empty())
io.mapRequired(llvm::utostr(P.first).c_str(), FSums);
}
}
};
template <> struct CustomMappingTraits<TypeIdSummaryMapTy> {
static void inputOne(IO &io, StringRef Key, TypeIdSummaryMapTy &V) {
TypeIdSummary TId;
io.mapRequired(Key.str().c_str(), TId);
V.insert({GlobalValue::getGUID(Key), {std::string(Key), TId}});
}
static void output(IO &io, TypeIdSummaryMapTy &V) {
for (auto &TidIter : V)
io.mapRequired(TidIter.second.first.c_str(), TidIter.second.second);
}
};
template <> struct MappingTraits<ModuleSummaryIndex> {
static void mapping(IO &io, ModuleSummaryIndex& index) {
io.mapOptional("GlobalValueMap", index.GlobalValueMap);
io.mapOptional("TypeIdMap", index.TypeIdMap);
io.mapOptional("WithGlobalValueDeadStripping",
index.WithGlobalValueDeadStripping);
if (io.outputting()) {
std::vector<std::string> CfiFunctionDefs(index.CfiFunctionDefs.begin(),
index.CfiFunctionDefs.end());
io.mapOptional("CfiFunctionDefs", CfiFunctionDefs);
std::vector<std::string> CfiFunctionDecls(index.CfiFunctionDecls.begin(),
index.CfiFunctionDecls.end());
io.mapOptional("CfiFunctionDecls", CfiFunctionDecls);
} else {
std::vector<std::string> CfiFunctionDefs;
io.mapOptional("CfiFunctionDefs", CfiFunctionDefs);
index.CfiFunctionDefs = {CfiFunctionDefs.begin(), CfiFunctionDefs.end()};
std::vector<std::string> CfiFunctionDecls;
io.mapOptional("CfiFunctionDecls", CfiFunctionDecls);
index.CfiFunctionDecls = {CfiFunctionDecls.begin(),
CfiFunctionDecls.end()};
}
}
};
} // End yaml namespace
} // End llvm namespace
#endif
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
|