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611afc0620
FoldingSet is implemented as a chained hash table. When there is a hash collision during insertion, which is common as we fill the table until a load factor of 2.0 is hit, we walk the chained elements, comparing every operand with the new element's operands. This can be very expensive if the MDNode has many operands. We sacrifice a word of space in MDNode to cache the full hash value, reducing compares on collision to a minimum. MDNode grows from 28 to 32 bytes + operands on x86. On x86_64 the new bits fit nicely into existing padding, not growing the struct at all. The actual speedup depends a lot on the test case and is typically between 1% and 2% for C++ code with clang -c -O0 -g. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@154497 91177308-0d34-0410-b5e6-96231b3b80d8
365 lines
12 KiB
C++
365 lines
12 KiB
C++
//===-- LLVMContextImpl.h - The LLVMContextImpl opaque class ----*- C++ -*-===//
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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 declares LLVMContextImpl, the opaque implementation
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// of LLVMContext.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LLVMCONTEXT_IMPL_H
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#define LLVM_LLVMCONTEXT_IMPL_H
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#include "llvm/LLVMContext.h"
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#include "ConstantsContext.h"
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#include "LeaksContext.h"
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#include "llvm/Constants.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/Metadata.h"
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#include "llvm/Support/ValueHandle.h"
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#include "llvm/ADT/APFloat.h"
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#include "llvm/ADT/APInt.h"
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/FoldingSet.h"
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#include "llvm/ADT/SmallPtrSet.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/ADT/Hashing.h"
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#include <vector>
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namespace llvm {
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class ConstantInt;
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class ConstantFP;
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class LLVMContext;
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class Type;
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class Value;
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struct DenseMapAPIntKeyInfo {
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struct KeyTy {
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APInt val;
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Type* type;
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KeyTy(const APInt& V, Type* Ty) : val(V), type(Ty) {}
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KeyTy(const KeyTy& that) : val(that.val), type(that.type) {}
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bool operator==(const KeyTy& that) const {
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return type == that.type && this->val == that.val;
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}
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bool operator!=(const KeyTy& that) const {
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return !this->operator==(that);
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}
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friend hash_code hash_value(const KeyTy &Key) {
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return hash_combine(Key.type, Key.val);
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}
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};
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static inline KeyTy getEmptyKey() { return KeyTy(APInt(1,0), 0); }
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static inline KeyTy getTombstoneKey() { return KeyTy(APInt(1,1), 0); }
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static unsigned getHashValue(const KeyTy &Key) {
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return static_cast<unsigned>(hash_value(Key));
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}
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static bool isEqual(const KeyTy &LHS, const KeyTy &RHS) {
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return LHS == RHS;
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}
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};
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struct DenseMapAPFloatKeyInfo {
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struct KeyTy {
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APFloat val;
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KeyTy(const APFloat& V) : val(V){}
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KeyTy(const KeyTy& that) : val(that.val) {}
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bool operator==(const KeyTy& that) const {
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return this->val.bitwiseIsEqual(that.val);
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}
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bool operator!=(const KeyTy& that) const {
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return !this->operator==(that);
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}
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friend hash_code hash_value(const KeyTy &Key) {
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return hash_combine(Key.val);
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}
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};
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static inline KeyTy getEmptyKey() {
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return KeyTy(APFloat(APFloat::Bogus,1));
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}
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static inline KeyTy getTombstoneKey() {
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return KeyTy(APFloat(APFloat::Bogus,2));
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}
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static unsigned getHashValue(const KeyTy &Key) {
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return static_cast<unsigned>(hash_value(Key));
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}
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static bool isEqual(const KeyTy &LHS, const KeyTy &RHS) {
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return LHS == RHS;
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}
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};
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struct AnonStructTypeKeyInfo {
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struct KeyTy {
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ArrayRef<Type*> ETypes;
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bool isPacked;
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KeyTy(const ArrayRef<Type*>& E, bool P) :
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ETypes(E), isPacked(P) {}
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KeyTy(const KeyTy& that) :
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ETypes(that.ETypes), isPacked(that.isPacked) {}
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KeyTy(const StructType* ST) :
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ETypes(ArrayRef<Type*>(ST->element_begin(), ST->element_end())),
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isPacked(ST->isPacked()) {}
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bool operator==(const KeyTy& that) const {
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if (isPacked != that.isPacked)
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return false;
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if (ETypes != that.ETypes)
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return false;
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return true;
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}
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bool operator!=(const KeyTy& that) const {
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return !this->operator==(that);
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}
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};
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static inline StructType* getEmptyKey() {
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return DenseMapInfo<StructType*>::getEmptyKey();
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}
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static inline StructType* getTombstoneKey() {
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return DenseMapInfo<StructType*>::getTombstoneKey();
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}
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static unsigned getHashValue(const KeyTy& Key) {
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return hash_combine(hash_combine_range(Key.ETypes.begin(),
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Key.ETypes.end()),
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Key.isPacked);
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}
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static unsigned getHashValue(const StructType *ST) {
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return getHashValue(KeyTy(ST));
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}
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static bool isEqual(const KeyTy& LHS, const StructType *RHS) {
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if (RHS == getEmptyKey() || RHS == getTombstoneKey())
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return false;
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return LHS == KeyTy(RHS);
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}
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static bool isEqual(const StructType *LHS, const StructType *RHS) {
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return LHS == RHS;
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}
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};
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struct FunctionTypeKeyInfo {
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struct KeyTy {
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const Type *ReturnType;
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ArrayRef<Type*> Params;
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bool isVarArg;
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KeyTy(const Type* R, const ArrayRef<Type*>& P, bool V) :
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ReturnType(R), Params(P), isVarArg(V) {}
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KeyTy(const KeyTy& that) :
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ReturnType(that.ReturnType),
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Params(that.Params),
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isVarArg(that.isVarArg) {}
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KeyTy(const FunctionType* FT) :
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ReturnType(FT->getReturnType()),
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Params(ArrayRef<Type*>(FT->param_begin(), FT->param_end())),
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isVarArg(FT->isVarArg()) {}
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bool operator==(const KeyTy& that) const {
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if (ReturnType != that.ReturnType)
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return false;
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if (isVarArg != that.isVarArg)
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return false;
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if (Params != that.Params)
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return false;
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return true;
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}
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bool operator!=(const KeyTy& that) const {
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return !this->operator==(that);
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}
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};
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static inline FunctionType* getEmptyKey() {
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return DenseMapInfo<FunctionType*>::getEmptyKey();
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}
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static inline FunctionType* getTombstoneKey() {
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return DenseMapInfo<FunctionType*>::getTombstoneKey();
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}
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static unsigned getHashValue(const KeyTy& Key) {
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return hash_combine(Key.ReturnType,
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hash_combine_range(Key.Params.begin(),
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Key.Params.end()),
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Key.isVarArg);
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}
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static unsigned getHashValue(const FunctionType *FT) {
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return getHashValue(KeyTy(FT));
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}
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static bool isEqual(const KeyTy& LHS, const FunctionType *RHS) {
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if (RHS == getEmptyKey() || RHS == getTombstoneKey())
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return false;
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return LHS == KeyTy(RHS);
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}
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static bool isEqual(const FunctionType *LHS, const FunctionType *RHS) {
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return LHS == RHS;
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}
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};
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// Provide a FoldingSetTrait::Equals specialization for MDNode that can use a
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// shortcut to avoid comparing all operands.
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template<> struct FoldingSetTrait<MDNode> : DefaultFoldingSetTrait<MDNode> {
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static bool Equals(const MDNode &X, const FoldingSetNodeID &ID,
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unsigned IDHash, FoldingSetNodeID &TempID) {
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assert(!X.isNotUniqued() && "Non-uniqued MDNode in FoldingSet?");
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// First, check if the cached hashes match. If they don't we can skip the
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// expensive operand walk.
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if (X.Hash != IDHash)
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return false;
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// If they match we have to compare the operands.
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X.Profile(TempID);
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return TempID == ID;
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}
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static unsigned ComputeHash(const MDNode &X, FoldingSetNodeID &) {
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return X.Hash; // Return cached hash.
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}
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};
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/// DebugRecVH - This is a CallbackVH used to keep the Scope -> index maps
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/// up to date as MDNodes mutate. This class is implemented in DebugLoc.cpp.
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class DebugRecVH : public CallbackVH {
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/// Ctx - This is the LLVM Context being referenced.
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LLVMContextImpl *Ctx;
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/// Idx - The index into either ScopeRecordIdx or ScopeInlinedAtRecords that
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/// this reference lives in. If this is zero, then it represents a
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/// non-canonical entry that has no DenseMap value. This can happen due to
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/// RAUW.
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int Idx;
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public:
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DebugRecVH(MDNode *n, LLVMContextImpl *ctx, int idx)
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: CallbackVH(n), Ctx(ctx), Idx(idx) {}
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MDNode *get() const {
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return cast_or_null<MDNode>(getValPtr());
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}
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virtual void deleted();
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virtual void allUsesReplacedWith(Value *VNew);
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};
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class LLVMContextImpl {
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public:
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/// OwnedModules - The set of modules instantiated in this context, and which
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/// will be automatically deleted if this context is deleted.
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SmallPtrSet<Module*, 4> OwnedModules;
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LLVMContext::InlineAsmDiagHandlerTy InlineAsmDiagHandler;
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void *InlineAsmDiagContext;
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typedef DenseMap<DenseMapAPIntKeyInfo::KeyTy, ConstantInt*,
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DenseMapAPIntKeyInfo> IntMapTy;
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IntMapTy IntConstants;
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typedef DenseMap<DenseMapAPFloatKeyInfo::KeyTy, ConstantFP*,
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DenseMapAPFloatKeyInfo> FPMapTy;
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FPMapTy FPConstants;
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StringMap<Value*> MDStringCache;
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FoldingSet<MDNode> MDNodeSet;
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// MDNodes may be uniqued or not uniqued. When they're not uniqued, they
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// aren't in the MDNodeSet, but they're still shared between objects, so no
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// one object can destroy them. This set allows us to at least destroy them
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// on Context destruction.
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SmallPtrSet<MDNode*, 1> NonUniquedMDNodes;
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DenseMap<Type*, ConstantAggregateZero*> CAZConstants;
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typedef ConstantAggrUniqueMap<ArrayType, ConstantArray> ArrayConstantsTy;
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ArrayConstantsTy ArrayConstants;
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typedef ConstantAggrUniqueMap<StructType, ConstantStruct> StructConstantsTy;
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StructConstantsTy StructConstants;
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typedef ConstantAggrUniqueMap<VectorType, ConstantVector> VectorConstantsTy;
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VectorConstantsTy VectorConstants;
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DenseMap<PointerType*, ConstantPointerNull*> CPNConstants;
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DenseMap<Type*, UndefValue*> UVConstants;
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StringMap<ConstantDataSequential*> CDSConstants;
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DenseMap<std::pair<Function*, BasicBlock*> , BlockAddress*> BlockAddresses;
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ConstantUniqueMap<ExprMapKeyType, const ExprMapKeyType&, Type, ConstantExpr>
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ExprConstants;
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ConstantUniqueMap<InlineAsmKeyType, const InlineAsmKeyType&, PointerType,
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InlineAsm> InlineAsms;
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ConstantInt *TheTrueVal;
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ConstantInt *TheFalseVal;
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LeakDetectorImpl<Value> LLVMObjects;
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// Basic type instances.
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Type VoidTy, LabelTy, HalfTy, FloatTy, DoubleTy, MetadataTy;
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Type X86_FP80Ty, FP128Ty, PPC_FP128Ty, X86_MMXTy;
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IntegerType Int1Ty, Int8Ty, Int16Ty, Int32Ty, Int64Ty;
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/// TypeAllocator - All dynamically allocated types are allocated from this.
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/// They live forever until the context is torn down.
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BumpPtrAllocator TypeAllocator;
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DenseMap<unsigned, IntegerType*> IntegerTypes;
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typedef DenseMap<FunctionType*, bool, FunctionTypeKeyInfo> FunctionTypeMap;
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FunctionTypeMap FunctionTypes;
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typedef DenseMap<StructType*, bool, AnonStructTypeKeyInfo> StructTypeMap;
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StructTypeMap AnonStructTypes;
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StringMap<StructType*> NamedStructTypes;
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unsigned NamedStructTypesUniqueID;
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DenseMap<std::pair<Type *, uint64_t>, ArrayType*> ArrayTypes;
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DenseMap<std::pair<Type *, unsigned>, VectorType*> VectorTypes;
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DenseMap<Type*, PointerType*> PointerTypes; // Pointers in AddrSpace = 0
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DenseMap<std::pair<Type*, unsigned>, PointerType*> ASPointerTypes;
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/// ValueHandles - This map keeps track of all of the value handles that are
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/// watching a Value*. The Value::HasValueHandle bit is used to know
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// whether or not a value has an entry in this map.
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typedef DenseMap<Value*, ValueHandleBase*> ValueHandlesTy;
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ValueHandlesTy ValueHandles;
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/// CustomMDKindNames - Map to hold the metadata string to ID mapping.
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StringMap<unsigned> CustomMDKindNames;
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typedef std::pair<unsigned, TrackingVH<MDNode> > MDPairTy;
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typedef SmallVector<MDPairTy, 2> MDMapTy;
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/// MetadataStore - Collection of per-instruction metadata used in this
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/// context.
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DenseMap<const Instruction *, MDMapTy> MetadataStore;
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/// ScopeRecordIdx - This is the index in ScopeRecords for an MDNode scope
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/// entry with no "inlined at" element.
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DenseMap<MDNode*, int> ScopeRecordIdx;
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/// ScopeRecords - These are the actual mdnodes (in a value handle) for an
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/// index. The ValueHandle ensures that ScopeRecordIdx stays up to date if
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/// the MDNode is RAUW'd.
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std::vector<DebugRecVH> ScopeRecords;
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/// ScopeInlinedAtIdx - This is the index in ScopeInlinedAtRecords for an
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/// scope/inlined-at pair.
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DenseMap<std::pair<MDNode*, MDNode*>, int> ScopeInlinedAtIdx;
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/// ScopeInlinedAtRecords - These are the actual mdnodes (in value handles)
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/// for an index. The ValueHandle ensures that ScopeINlinedAtIdx stays up
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/// to date.
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std::vector<std::pair<DebugRecVH, DebugRecVH> > ScopeInlinedAtRecords;
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int getOrAddScopeRecordIdxEntry(MDNode *N, int ExistingIdx);
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int getOrAddScopeInlinedAtIdxEntry(MDNode *Scope, MDNode *IA,int ExistingIdx);
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LLVMContextImpl(LLVMContext &C);
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~LLVMContextImpl();
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};
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}
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#endif
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