forked from OSchip/llvm-project
252 lines
7.9 KiB
C++
252 lines
7.9 KiB
C++
//===- LLVMContextImpl.cpp - Implement LLVMContextImpl --------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the opaque LLVMContextImpl.
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//
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//===----------------------------------------------------------------------===//
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#include "LLVMContextImpl.h"
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#include "llvm/IR/Module.h"
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#include "llvm/IR/OptBisect.h"
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#include "llvm/IR/Type.h"
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#include "llvm/Support/ManagedStatic.h"
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#include <cassert>
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#include <utility>
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using namespace llvm;
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LLVMContextImpl::LLVMContextImpl(LLVMContext &C)
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: DiagHandler(llvm::make_unique<DiagnosticHandler>()),
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VoidTy(C, Type::VoidTyID),
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LabelTy(C, Type::LabelTyID),
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HalfTy(C, Type::HalfTyID),
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FloatTy(C, Type::FloatTyID),
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DoubleTy(C, Type::DoubleTyID),
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MetadataTy(C, Type::MetadataTyID),
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TokenTy(C, Type::TokenTyID),
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X86_FP80Ty(C, Type::X86_FP80TyID),
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FP128Ty(C, Type::FP128TyID),
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PPC_FP128Ty(C, Type::PPC_FP128TyID),
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X86_MMXTy(C, Type::X86_MMXTyID),
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Int1Ty(C, 1),
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Int8Ty(C, 8),
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Int16Ty(C, 16),
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Int32Ty(C, 32),
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Int64Ty(C, 64),
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Int128Ty(C, 128) {}
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LLVMContextImpl::~LLVMContextImpl() {
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// NOTE: We need to delete the contents of OwnedModules, but Module's dtor
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// will call LLVMContextImpl::removeModule, thus invalidating iterators into
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// the container. Avoid iterators during this operation:
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while (!OwnedModules.empty())
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delete *OwnedModules.begin();
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#ifndef NDEBUG
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// Check for metadata references from leaked Instructions.
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for (auto &Pair : InstructionMetadata)
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Pair.first->dump();
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assert(InstructionMetadata.empty() &&
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"Instructions with metadata have been leaked");
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#endif
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// Drop references for MDNodes. Do this before Values get deleted to avoid
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// unnecessary RAUW when nodes are still unresolved.
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for (auto *I : DistinctMDNodes)
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I->dropAllReferences();
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#define HANDLE_MDNODE_LEAF_UNIQUABLE(CLASS) \
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for (auto *I : CLASS##s) \
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I->dropAllReferences();
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#include "llvm/IR/Metadata.def"
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// Also drop references that come from the Value bridges.
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for (auto &Pair : ValuesAsMetadata)
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Pair.second->dropUsers();
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for (auto &Pair : MetadataAsValues)
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Pair.second->dropUse();
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// Destroy MDNodes.
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for (MDNode *I : DistinctMDNodes)
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I->deleteAsSubclass();
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#define HANDLE_MDNODE_LEAF_UNIQUABLE(CLASS) \
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for (CLASS * I : CLASS##s) \
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delete I;
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#include "llvm/IR/Metadata.def"
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// Free the constants.
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for (auto *I : ExprConstants)
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I->dropAllReferences();
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for (auto *I : ArrayConstants)
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I->dropAllReferences();
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for (auto *I : StructConstants)
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I->dropAllReferences();
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for (auto *I : VectorConstants)
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I->dropAllReferences();
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ExprConstants.freeConstants();
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ArrayConstants.freeConstants();
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StructConstants.freeConstants();
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VectorConstants.freeConstants();
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InlineAsms.freeConstants();
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CAZConstants.clear();
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CPNConstants.clear();
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UVConstants.clear();
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IntConstants.clear();
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FPConstants.clear();
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for (auto &CDSConstant : CDSConstants)
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delete CDSConstant.second;
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CDSConstants.clear();
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// Destroy attributes.
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for (FoldingSetIterator<AttributeImpl> I = AttrsSet.begin(),
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E = AttrsSet.end(); I != E; ) {
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FoldingSetIterator<AttributeImpl> Elem = I++;
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delete &*Elem;
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}
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// Destroy attribute lists.
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for (FoldingSetIterator<AttributeListImpl> I = AttrsLists.begin(),
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E = AttrsLists.end();
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I != E;) {
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FoldingSetIterator<AttributeListImpl> Elem = I++;
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delete &*Elem;
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}
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// Destroy attribute node lists.
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for (FoldingSetIterator<AttributeSetNode> I = AttrsSetNodes.begin(),
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E = AttrsSetNodes.end(); I != E; ) {
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FoldingSetIterator<AttributeSetNode> Elem = I++;
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delete &*Elem;
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}
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// Destroy MetadataAsValues.
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{
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SmallVector<MetadataAsValue *, 8> MDVs;
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MDVs.reserve(MetadataAsValues.size());
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for (auto &Pair : MetadataAsValues)
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MDVs.push_back(Pair.second);
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MetadataAsValues.clear();
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for (auto *V : MDVs)
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delete V;
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}
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// Destroy ValuesAsMetadata.
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for (auto &Pair : ValuesAsMetadata)
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delete Pair.second;
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}
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void LLVMContextImpl::dropTriviallyDeadConstantArrays() {
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bool Changed;
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do {
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Changed = false;
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for (auto I = ArrayConstants.begin(), E = ArrayConstants.end(); I != E;) {
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auto *C = *I++;
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if (C->use_empty()) {
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Changed = true;
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C->destroyConstant();
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}
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}
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} while (Changed);
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}
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void Module::dropTriviallyDeadConstantArrays() {
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Context.pImpl->dropTriviallyDeadConstantArrays();
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}
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namespace llvm {
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/// Make MDOperand transparent for hashing.
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///
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/// This overload of an implementation detail of the hashing library makes
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/// MDOperand hash to the same value as a \a Metadata pointer.
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///
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/// Note that overloading \a hash_value() as follows:
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///
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/// \code
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/// size_t hash_value(const MDOperand &X) { return hash_value(X.get()); }
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/// \endcode
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///
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/// does not cause MDOperand to be transparent. In particular, a bare pointer
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/// doesn't get hashed before it's combined, whereas \a MDOperand would.
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static const Metadata *get_hashable_data(const MDOperand &X) { return X.get(); }
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} // end namespace llvm
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unsigned MDNodeOpsKey::calculateHash(MDNode *N, unsigned Offset) {
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unsigned Hash = hash_combine_range(N->op_begin() + Offset, N->op_end());
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#ifndef NDEBUG
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{
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SmallVector<Metadata *, 8> MDs(N->op_begin() + Offset, N->op_end());
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unsigned RawHash = calculateHash(MDs);
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assert(Hash == RawHash &&
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"Expected hash of MDOperand to equal hash of Metadata*");
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}
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#endif
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return Hash;
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}
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unsigned MDNodeOpsKey::calculateHash(ArrayRef<Metadata *> Ops) {
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return hash_combine_range(Ops.begin(), Ops.end());
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}
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StringMapEntry<uint32_t> *LLVMContextImpl::getOrInsertBundleTag(StringRef Tag) {
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uint32_t NewIdx = BundleTagCache.size();
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return &*(BundleTagCache.insert(std::make_pair(Tag, NewIdx)).first);
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}
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void LLVMContextImpl::getOperandBundleTags(SmallVectorImpl<StringRef> &Tags) const {
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Tags.resize(BundleTagCache.size());
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for (const auto &T : BundleTagCache)
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Tags[T.second] = T.first();
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}
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uint32_t LLVMContextImpl::getOperandBundleTagID(StringRef Tag) const {
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auto I = BundleTagCache.find(Tag);
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assert(I != BundleTagCache.end() && "Unknown tag!");
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return I->second;
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}
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SyncScope::ID LLVMContextImpl::getOrInsertSyncScopeID(StringRef SSN) {
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auto NewSSID = SSC.size();
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assert(NewSSID < std::numeric_limits<SyncScope::ID>::max() &&
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"Hit the maximum number of synchronization scopes allowed!");
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return SSC.insert(std::make_pair(SSN, SyncScope::ID(NewSSID))).first->second;
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}
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void LLVMContextImpl::getSyncScopeNames(
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SmallVectorImpl<StringRef> &SSNs) const {
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SSNs.resize(SSC.size());
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for (const auto &SSE : SSC)
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SSNs[SSE.second] = SSE.first();
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}
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/// Singleton instance of the OptBisect class.
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///
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/// This singleton is accessed via the LLVMContext::getOptPassGate() function.
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/// It provides a mechanism to disable passes and individual optimizations at
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/// compile time based on a command line option (-opt-bisect-limit) in order to
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/// perform a bisecting search for optimization-related problems.
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///
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/// Even if multiple LLVMContext objects are created, they will all return the
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/// same instance of OptBisect in order to provide a single bisect count. Any
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/// code that uses the OptBisect object should be serialized when bisection is
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/// enabled in order to enable a consistent bisect count.
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static ManagedStatic<OptBisect> OptBisector;
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OptPassGate &LLVMContextImpl::getOptPassGate() const {
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if (!OPG)
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OPG = &(*OptBisector);
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return *OPG;
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}
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void LLVMContextImpl::setOptPassGate(OptPassGate& OPG) {
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this->OPG = &OPG;
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}
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