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https://github.com/c64scene-ar/llvm-6502.git
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fbfd58ab92
The i128 type is needed as a builtin type in order to support the v1i128 vector type. The PowerPC ABI requires that the i128 and v1i128 types are handled differently when passed as parameters to functions (i128 is passed in pairs of GPRs, v1i128 is passed in a single vector register). http://reviews.llvm.org/D8564 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@235196 91177308-0d34-0410-b5e6-96231b3b80d8
242 lines
7.2 KiB
C++
242 lines
7.2 KiB
C++
//===-- LLVMContextImpl.cpp - Implement LLVMContextImpl -------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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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/ADT/STLExtras.h"
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#include "llvm/IR/Attributes.h"
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#include "llvm/IR/DiagnosticInfo.h"
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#include "llvm/IR/Module.h"
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#include <algorithm>
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using namespace llvm;
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LLVMContextImpl::LLVMContextImpl(LLVMContext &C)
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: TheTrueVal(nullptr), TheFalseVal(nullptr),
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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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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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InlineAsmDiagHandler = nullptr;
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InlineAsmDiagContext = nullptr;
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DiagnosticHandler = nullptr;
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DiagnosticContext = nullptr;
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RespectDiagnosticFilters = false;
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YieldCallback = nullptr;
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YieldOpaqueHandle = nullptr;
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NamedStructTypesUniqueID = 0;
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}
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namespace {
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struct DropReferences {
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// Takes the value_type of a ConstantUniqueMap's internal map, whose 'second'
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// is a Constant*.
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template <typename PairT> void operator()(const PairT &P) {
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P.second->dropAllReferences();
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}
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};
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// Temporary - drops pair.first instead of second.
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struct DropFirst {
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// Takes the value_type of a ConstantUniqueMap's internal map, whose 'second'
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// is a Constant*.
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template<typename PairT>
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void operator()(const PairT &P) {
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P.first->dropAllReferences();
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}
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};
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}
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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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// 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(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(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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std::for_each(ExprConstants.map_begin(), ExprConstants.map_end(),
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DropFirst());
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std::for_each(ArrayConstants.map_begin(), ArrayConstants.map_end(),
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DropFirst());
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std::for_each(StructConstants.map_begin(), StructConstants.map_end(),
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DropFirst());
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std::for_each(VectorConstants.map_begin(), VectorConstants.map_end(),
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DropFirst());
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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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DeleteContainerSeconds(CAZConstants);
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DeleteContainerSeconds(CPNConstants);
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DeleteContainerSeconds(UVConstants);
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InlineAsms.freeConstants();
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DeleteContainerSeconds(IntConstants);
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DeleteContainerSeconds(FPConstants);
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for (StringMap<ConstantDataSequential*>::iterator I = CDSConstants.begin(),
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E = CDSConstants.end(); I != E; ++I)
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delete I->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<AttributeSetImpl> I = AttrsLists.begin(),
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E = AttrsLists.end(); I != E; ) {
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FoldingSetIterator<AttributeSetImpl> 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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// Destroy MDStrings.
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MDStringCache.clear();
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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.map_begin(), E = ArrayConstants.map_end();
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I != E; ) {
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auto *C = I->first;
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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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/// \brief 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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}
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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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// ConstantsContext anchors
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void UnaryConstantExpr::anchor() { }
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void BinaryConstantExpr::anchor() { }
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void SelectConstantExpr::anchor() { }
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void ExtractElementConstantExpr::anchor() { }
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void InsertElementConstantExpr::anchor() { }
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void ShuffleVectorConstantExpr::anchor() { }
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void ExtractValueConstantExpr::anchor() { }
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void InsertValueConstantExpr::anchor() { }
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void GetElementPtrConstantExpr::anchor() { }
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void CompareConstantExpr::anchor() { }
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