791 lines
26 KiB
C++
791 lines
26 KiB
C++
//===-- ConstantsContext.h - Constants-related Context Interals -*- C++ -*-===//
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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 defines various helper methods and classes used by
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// LLVMContextImpl for creating and managing constants.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LIB_IR_CONSTANTSCONTEXT_H
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#define LLVM_LIB_IR_CONSTANTSCONTEXT_H
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/DenseMapInfo.h"
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#include "llvm/ADT/DenseSet.h"
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#include "llvm/ADT/Hashing.h"
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#include "llvm/ADT/None.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/IR/Constant.h"
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#include "llvm/IR/Constants.h"
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#include "llvm/IR/DerivedTypes.h"
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#include "llvm/IR/InlineAsm.h"
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#include "llvm/IR/Instruction.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/IR/OperandTraits.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/raw_ostream.h"
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#include <cassert>
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#include <cstddef>
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#include <cstdint>
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#include <utility>
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#define DEBUG_TYPE "ir"
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namespace llvm {
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/// UnaryConstantExpr - This class is private to Constants.cpp, and is used
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/// behind the scenes to implement unary constant exprs.
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class UnaryConstantExpr final : public ConstantExpr {
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public:
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UnaryConstantExpr(unsigned Opcode, Constant *C, Type *Ty)
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: ConstantExpr(Ty, Opcode, &Op<0>(), 1) {
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Op<0>() = C;
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}
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// allocate space for exactly one operand
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void *operator new(size_t s) {
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return User::operator new(s, 1);
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}
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return Instruction::isCast(CE->getOpcode()) ||
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Instruction::isUnaryOp(CE->getOpcode());
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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/// BinaryConstantExpr - This class is private to Constants.cpp, and is used
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/// behind the scenes to implement binary constant exprs.
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class BinaryConstantExpr final : public ConstantExpr {
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public:
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BinaryConstantExpr(unsigned Opcode, Constant *C1, Constant *C2,
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unsigned Flags)
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: ConstantExpr(C1->getType(), Opcode, &Op<0>(), 2) {
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Op<0>() = C1;
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Op<1>() = C2;
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SubclassOptionalData = Flags;
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}
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// allocate space for exactly two operands
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void *operator new(size_t s) {
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return User::operator new(s, 2);
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}
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/// Transparently provide more efficient getOperand methods.
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return Instruction::isBinaryOp(CE->getOpcode());
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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/// SelectConstantExpr - This class is private to Constants.cpp, and is used
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/// behind the scenes to implement select constant exprs.
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class SelectConstantExpr final : public ConstantExpr {
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public:
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SelectConstantExpr(Constant *C1, Constant *C2, Constant *C3)
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: ConstantExpr(C2->getType(), Instruction::Select, &Op<0>(), 3) {
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Op<0>() = C1;
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Op<1>() = C2;
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Op<2>() = C3;
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}
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// allocate space for exactly three operands
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void *operator new(size_t s) {
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return User::operator new(s, 3);
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}
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/// Transparently provide more efficient getOperand methods.
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return CE->getOpcode() == Instruction::Select;
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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/// ExtractElementConstantExpr - This class is private to
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/// Constants.cpp, and is used behind the scenes to implement
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/// extractelement constant exprs.
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class ExtractElementConstantExpr final : public ConstantExpr {
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public:
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ExtractElementConstantExpr(Constant *C1, Constant *C2)
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: ConstantExpr(cast<VectorType>(C1->getType())->getElementType(),
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Instruction::ExtractElement, &Op<0>(), 2) {
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Op<0>() = C1;
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Op<1>() = C2;
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}
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// allocate space for exactly two operands
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void *operator new(size_t s) {
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return User::operator new(s, 2);
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}
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/// Transparently provide more efficient getOperand methods.
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return CE->getOpcode() == Instruction::ExtractElement;
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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/// InsertElementConstantExpr - This class is private to
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/// Constants.cpp, and is used behind the scenes to implement
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/// insertelement constant exprs.
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class InsertElementConstantExpr final : public ConstantExpr {
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public:
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InsertElementConstantExpr(Constant *C1, Constant *C2, Constant *C3)
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: ConstantExpr(C1->getType(), Instruction::InsertElement,
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&Op<0>(), 3) {
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Op<0>() = C1;
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Op<1>() = C2;
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Op<2>() = C3;
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}
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// allocate space for exactly three operands
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void *operator new(size_t s) {
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return User::operator new(s, 3);
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}
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/// Transparently provide more efficient getOperand methods.
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return CE->getOpcode() == Instruction::InsertElement;
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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/// ShuffleVectorConstantExpr - This class is private to
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/// Constants.cpp, and is used behind the scenes to implement
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/// shufflevector constant exprs.
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class ShuffleVectorConstantExpr final : public ConstantExpr {
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public:
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ShuffleVectorConstantExpr(Constant *C1, Constant *C2, ArrayRef<int> Mask)
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: ConstantExpr(VectorType::get(
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cast<VectorType>(C1->getType())->getElementType(),
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Mask.size(), isa<ScalableVectorType>(C1->getType())),
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Instruction::ShuffleVector, &Op<0>(), 2) {
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assert(ShuffleVectorInst::isValidOperands(C1, C2, Mask) &&
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"Invalid shuffle vector instruction operands!");
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Op<0>() = C1;
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Op<1>() = C2;
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ShuffleMask.assign(Mask.begin(), Mask.end());
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ShuffleMaskForBitcode =
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ShuffleVectorInst::convertShuffleMaskForBitcode(Mask, getType());
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}
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SmallVector<int, 4> ShuffleMask;
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Constant *ShuffleMaskForBitcode;
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void *operator new(size_t s) { return User::operator new(s, 2); }
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/// Transparently provide more efficient getOperand methods.
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return CE->getOpcode() == Instruction::ShuffleVector;
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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/// ExtractValueConstantExpr - This class is private to
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/// Constants.cpp, and is used behind the scenes to implement
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/// extractvalue constant exprs.
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class ExtractValueConstantExpr final : public ConstantExpr {
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public:
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ExtractValueConstantExpr(Constant *Agg, ArrayRef<unsigned> IdxList,
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Type *DestTy)
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: ConstantExpr(DestTy, Instruction::ExtractValue, &Op<0>(), 1),
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Indices(IdxList.begin(), IdxList.end()) {
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Op<0>() = Agg;
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}
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// allocate space for exactly one operand
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void *operator new(size_t s) {
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return User::operator new(s, 1);
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}
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/// Indices - These identify which value to extract.
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const SmallVector<unsigned, 4> Indices;
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/// Transparently provide more efficient getOperand methods.
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return CE->getOpcode() == Instruction::ExtractValue;
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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/// InsertValueConstantExpr - This class is private to
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/// Constants.cpp, and is used behind the scenes to implement
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/// insertvalue constant exprs.
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class InsertValueConstantExpr final : public ConstantExpr {
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public:
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InsertValueConstantExpr(Constant *Agg, Constant *Val,
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ArrayRef<unsigned> IdxList, Type *DestTy)
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: ConstantExpr(DestTy, Instruction::InsertValue, &Op<0>(), 2),
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Indices(IdxList.begin(), IdxList.end()) {
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Op<0>() = Agg;
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Op<1>() = Val;
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}
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// allocate space for exactly one operand
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void *operator new(size_t s) {
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return User::operator new(s, 2);
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}
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/// Indices - These identify the position for the insertion.
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const SmallVector<unsigned, 4> Indices;
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/// Transparently provide more efficient getOperand methods.
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return CE->getOpcode() == Instruction::InsertValue;
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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/// GetElementPtrConstantExpr - This class is private to Constants.cpp, and is
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/// used behind the scenes to implement getelementpr constant exprs.
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class GetElementPtrConstantExpr final : public ConstantExpr {
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Type *SrcElementTy;
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Type *ResElementTy;
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GetElementPtrConstantExpr(Type *SrcElementTy, Constant *C,
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ArrayRef<Constant *> IdxList, Type *DestTy);
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public:
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static GetElementPtrConstantExpr *Create(Type *SrcElementTy, Constant *C,
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ArrayRef<Constant *> IdxList,
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Type *DestTy, unsigned Flags) {
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GetElementPtrConstantExpr *Result = new (IdxList.size() + 1)
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GetElementPtrConstantExpr(SrcElementTy, C, IdxList, DestTy);
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Result->SubclassOptionalData = Flags;
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return Result;
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}
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Type *getSourceElementType() const;
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Type *getResultElementType() const;
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/// Transparently provide more efficient getOperand methods.
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return CE->getOpcode() == Instruction::GetElementPtr;
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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// CompareConstantExpr - This class is private to Constants.cpp, and is used
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// behind the scenes to implement ICmp and FCmp constant expressions. This is
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// needed in order to store the predicate value for these instructions.
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class CompareConstantExpr final : public ConstantExpr {
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public:
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unsigned short predicate;
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CompareConstantExpr(Type *ty, Instruction::OtherOps opc,
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unsigned short pred, Constant* LHS, Constant* RHS)
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: ConstantExpr(ty, opc, &Op<0>(), 2), predicate(pred) {
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Op<0>() = LHS;
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Op<1>() = RHS;
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}
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// allocate space for exactly two operands
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void *operator new(size_t s) {
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return User::operator new(s, 2);
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}
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/// Transparently provide more efficient getOperand methods.
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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static bool classof(const ConstantExpr *CE) {
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return CE->getOpcode() == Instruction::ICmp ||
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CE->getOpcode() == Instruction::FCmp;
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}
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) && classof(cast<ConstantExpr>(V));
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}
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};
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template <>
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struct OperandTraits<UnaryConstantExpr>
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: public FixedNumOperandTraits<UnaryConstantExpr, 1> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(UnaryConstantExpr, Value)
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template <>
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struct OperandTraits<BinaryConstantExpr>
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: public FixedNumOperandTraits<BinaryConstantExpr, 2> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(BinaryConstantExpr, Value)
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template <>
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struct OperandTraits<SelectConstantExpr>
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: public FixedNumOperandTraits<SelectConstantExpr, 3> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(SelectConstantExpr, Value)
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template <>
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struct OperandTraits<ExtractElementConstantExpr>
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: public FixedNumOperandTraits<ExtractElementConstantExpr, 2> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(ExtractElementConstantExpr, Value)
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template <>
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struct OperandTraits<InsertElementConstantExpr>
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: public FixedNumOperandTraits<InsertElementConstantExpr, 3> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(InsertElementConstantExpr, Value)
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template <>
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struct OperandTraits<ShuffleVectorConstantExpr>
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: public FixedNumOperandTraits<ShuffleVectorConstantExpr, 2> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(ShuffleVectorConstantExpr, Value)
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template <>
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struct OperandTraits<ExtractValueConstantExpr>
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: public FixedNumOperandTraits<ExtractValueConstantExpr, 1> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(ExtractValueConstantExpr, Value)
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template <>
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struct OperandTraits<InsertValueConstantExpr>
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: public FixedNumOperandTraits<InsertValueConstantExpr, 2> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(InsertValueConstantExpr, Value)
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template <>
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struct OperandTraits<GetElementPtrConstantExpr>
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: public VariadicOperandTraits<GetElementPtrConstantExpr, 1> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(GetElementPtrConstantExpr, Value)
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template <>
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struct OperandTraits<CompareConstantExpr>
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: public FixedNumOperandTraits<CompareConstantExpr, 2> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(CompareConstantExpr, Value)
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template <class ConstantClass> struct ConstantAggrKeyType;
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struct InlineAsmKeyType;
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struct ConstantExprKeyType;
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template <class ConstantClass> struct ConstantInfo;
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template <> struct ConstantInfo<ConstantExpr> {
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using ValType = ConstantExprKeyType;
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using TypeClass = Type;
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};
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template <> struct ConstantInfo<InlineAsm> {
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using ValType = InlineAsmKeyType;
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using TypeClass = PointerType;
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};
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template <> struct ConstantInfo<ConstantArray> {
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using ValType = ConstantAggrKeyType<ConstantArray>;
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using TypeClass = ArrayType;
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};
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template <> struct ConstantInfo<ConstantStruct> {
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using ValType = ConstantAggrKeyType<ConstantStruct>;
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using TypeClass = StructType;
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};
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template <> struct ConstantInfo<ConstantVector> {
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using ValType = ConstantAggrKeyType<ConstantVector>;
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using TypeClass = VectorType;
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};
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template <class ConstantClass> struct ConstantAggrKeyType {
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ArrayRef<Constant *> Operands;
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ConstantAggrKeyType(ArrayRef<Constant *> Operands) : Operands(Operands) {}
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ConstantAggrKeyType(ArrayRef<Constant *> Operands, const ConstantClass *)
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: Operands(Operands) {}
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ConstantAggrKeyType(const ConstantClass *C,
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SmallVectorImpl<Constant *> &Storage) {
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assert(Storage.empty() && "Expected empty storage");
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for (unsigned I = 0, E = C->getNumOperands(); I != E; ++I)
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Storage.push_back(C->getOperand(I));
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Operands = Storage;
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}
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bool operator==(const ConstantAggrKeyType &X) const {
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return Operands == X.Operands;
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}
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bool operator==(const ConstantClass *C) const {
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if (Operands.size() != C->getNumOperands())
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return false;
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for (unsigned I = 0, E = Operands.size(); I != E; ++I)
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if (Operands[I] != C->getOperand(I))
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return false;
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return true;
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}
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unsigned getHash() const {
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return hash_combine_range(Operands.begin(), Operands.end());
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}
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using TypeClass = typename ConstantInfo<ConstantClass>::TypeClass;
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ConstantClass *create(TypeClass *Ty) const {
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return new (Operands.size()) ConstantClass(Ty, Operands);
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}
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};
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struct InlineAsmKeyType {
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StringRef AsmString;
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StringRef Constraints;
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FunctionType *FTy;
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bool HasSideEffects;
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bool IsAlignStack;
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InlineAsm::AsmDialect AsmDialect;
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InlineAsmKeyType(StringRef AsmString, StringRef Constraints,
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FunctionType *FTy, bool HasSideEffects, bool IsAlignStack,
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InlineAsm::AsmDialect AsmDialect)
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: AsmString(AsmString), Constraints(Constraints), FTy(FTy),
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HasSideEffects(HasSideEffects), IsAlignStack(IsAlignStack),
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AsmDialect(AsmDialect) {}
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InlineAsmKeyType(const InlineAsm *Asm, SmallVectorImpl<Constant *> &)
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: AsmString(Asm->getAsmString()), Constraints(Asm->getConstraintString()),
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FTy(Asm->getFunctionType()), HasSideEffects(Asm->hasSideEffects()),
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IsAlignStack(Asm->isAlignStack()), AsmDialect(Asm->getDialect()) {}
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bool operator==(const InlineAsmKeyType &X) const {
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return HasSideEffects == X.HasSideEffects &&
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IsAlignStack == X.IsAlignStack && AsmDialect == X.AsmDialect &&
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AsmString == X.AsmString && Constraints == X.Constraints &&
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FTy == X.FTy;
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}
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bool operator==(const InlineAsm *Asm) const {
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return HasSideEffects == Asm->hasSideEffects() &&
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IsAlignStack == Asm->isAlignStack() &&
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AsmDialect == Asm->getDialect() &&
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AsmString == Asm->getAsmString() &&
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Constraints == Asm->getConstraintString() &&
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FTy == Asm->getFunctionType();
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}
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unsigned getHash() const {
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|
return hash_combine(AsmString, Constraints, HasSideEffects, IsAlignStack,
|
|
AsmDialect, FTy);
|
|
}
|
|
|
|
using TypeClass = ConstantInfo<InlineAsm>::TypeClass;
|
|
|
|
InlineAsm *create(TypeClass *Ty) const {
|
|
assert(PointerType::getUnqual(FTy) == Ty);
|
|
return new InlineAsm(FTy, std::string(AsmString), std::string(Constraints),
|
|
HasSideEffects, IsAlignStack, AsmDialect);
|
|
}
|
|
};
|
|
|
|
struct ConstantExprKeyType {
|
|
private:
|
|
uint8_t Opcode;
|
|
uint8_t SubclassOptionalData;
|
|
uint16_t SubclassData;
|
|
ArrayRef<Constant *> Ops;
|
|
ArrayRef<unsigned> Indexes;
|
|
ArrayRef<int> ShuffleMask;
|
|
Type *ExplicitTy;
|
|
|
|
static ArrayRef<int> getShuffleMaskIfValid(const ConstantExpr *CE) {
|
|
if (CE->getOpcode() == Instruction::ShuffleVector)
|
|
return CE->getShuffleMask();
|
|
return None;
|
|
}
|
|
|
|
static ArrayRef<unsigned> getIndicesIfValid(const ConstantExpr *CE) {
|
|
if (CE->hasIndices())
|
|
return CE->getIndices();
|
|
return None;
|
|
}
|
|
|
|
static Type *getSourceElementTypeIfValid(const ConstantExpr *CE) {
|
|
if (auto *GEPCE = dyn_cast<GetElementPtrConstantExpr>(CE))
|
|
return GEPCE->getSourceElementType();
|
|
return nullptr;
|
|
}
|
|
|
|
public:
|
|
ConstantExprKeyType(unsigned Opcode, ArrayRef<Constant *> Ops,
|
|
unsigned short SubclassData = 0,
|
|
unsigned short SubclassOptionalData = 0,
|
|
ArrayRef<unsigned> Indexes = None,
|
|
ArrayRef<int> ShuffleMask = None,
|
|
Type *ExplicitTy = nullptr)
|
|
: Opcode(Opcode), SubclassOptionalData(SubclassOptionalData),
|
|
SubclassData(SubclassData), Ops(Ops), Indexes(Indexes),
|
|
ShuffleMask(ShuffleMask), ExplicitTy(ExplicitTy) {}
|
|
|
|
ConstantExprKeyType(ArrayRef<Constant *> Operands, const ConstantExpr *CE)
|
|
: Opcode(CE->getOpcode()),
|
|
SubclassOptionalData(CE->getRawSubclassOptionalData()),
|
|
SubclassData(CE->isCompare() ? CE->getPredicate() : 0), Ops(Operands),
|
|
Indexes(getIndicesIfValid(CE)), ShuffleMask(getShuffleMaskIfValid(CE)),
|
|
ExplicitTy(getSourceElementTypeIfValid(CE)) {}
|
|
|
|
ConstantExprKeyType(const ConstantExpr *CE,
|
|
SmallVectorImpl<Constant *> &Storage)
|
|
: Opcode(CE->getOpcode()),
|
|
SubclassOptionalData(CE->getRawSubclassOptionalData()),
|
|
SubclassData(CE->isCompare() ? CE->getPredicate() : 0),
|
|
Indexes(getIndicesIfValid(CE)), ShuffleMask(getShuffleMaskIfValid(CE)),
|
|
ExplicitTy(getSourceElementTypeIfValid(CE)) {
|
|
assert(Storage.empty() && "Expected empty storage");
|
|
for (unsigned I = 0, E = CE->getNumOperands(); I != E; ++I)
|
|
Storage.push_back(CE->getOperand(I));
|
|
Ops = Storage;
|
|
}
|
|
|
|
bool operator==(const ConstantExprKeyType &X) const {
|
|
return Opcode == X.Opcode && SubclassData == X.SubclassData &&
|
|
SubclassOptionalData == X.SubclassOptionalData && Ops == X.Ops &&
|
|
Indexes == X.Indexes && ShuffleMask == X.ShuffleMask &&
|
|
ExplicitTy == X.ExplicitTy;
|
|
}
|
|
|
|
bool operator==(const ConstantExpr *CE) const {
|
|
if (Opcode != CE->getOpcode())
|
|
return false;
|
|
if (SubclassOptionalData != CE->getRawSubclassOptionalData())
|
|
return false;
|
|
if (Ops.size() != CE->getNumOperands())
|
|
return false;
|
|
if (SubclassData != (CE->isCompare() ? CE->getPredicate() : 0))
|
|
return false;
|
|
for (unsigned I = 0, E = Ops.size(); I != E; ++I)
|
|
if (Ops[I] != CE->getOperand(I))
|
|
return false;
|
|
if (Indexes != getIndicesIfValid(CE))
|
|
return false;
|
|
if (ShuffleMask != getShuffleMaskIfValid(CE))
|
|
return false;
|
|
if (ExplicitTy != getSourceElementTypeIfValid(CE))
|
|
return false;
|
|
return true;
|
|
}
|
|
|
|
unsigned getHash() const {
|
|
return hash_combine(
|
|
Opcode, SubclassOptionalData, SubclassData,
|
|
hash_combine_range(Ops.begin(), Ops.end()),
|
|
hash_combine_range(Indexes.begin(), Indexes.end()),
|
|
hash_combine_range(ShuffleMask.begin(), ShuffleMask.end()), ExplicitTy);
|
|
}
|
|
|
|
using TypeClass = ConstantInfo<ConstantExpr>::TypeClass;
|
|
|
|
ConstantExpr *create(TypeClass *Ty) const {
|
|
switch (Opcode) {
|
|
default:
|
|
if (Instruction::isCast(Opcode) ||
|
|
(Opcode >= Instruction::UnaryOpsBegin &&
|
|
Opcode < Instruction::UnaryOpsEnd))
|
|
return new UnaryConstantExpr(Opcode, Ops[0], Ty);
|
|
if ((Opcode >= Instruction::BinaryOpsBegin &&
|
|
Opcode < Instruction::BinaryOpsEnd))
|
|
return new BinaryConstantExpr(Opcode, Ops[0], Ops[1],
|
|
SubclassOptionalData);
|
|
llvm_unreachable("Invalid ConstantExpr!");
|
|
case Instruction::Select:
|
|
return new SelectConstantExpr(Ops[0], Ops[1], Ops[2]);
|
|
case Instruction::ExtractElement:
|
|
return new ExtractElementConstantExpr(Ops[0], Ops[1]);
|
|
case Instruction::InsertElement:
|
|
return new InsertElementConstantExpr(Ops[0], Ops[1], Ops[2]);
|
|
case Instruction::ShuffleVector:
|
|
return new ShuffleVectorConstantExpr(Ops[0], Ops[1], ShuffleMask);
|
|
case Instruction::InsertValue:
|
|
return new InsertValueConstantExpr(Ops[0], Ops[1], Indexes, Ty);
|
|
case Instruction::ExtractValue:
|
|
return new ExtractValueConstantExpr(Ops[0], Indexes, Ty);
|
|
case Instruction::GetElementPtr:
|
|
return GetElementPtrConstantExpr::Create(ExplicitTy, Ops[0], Ops.slice(1),
|
|
Ty, SubclassOptionalData);
|
|
case Instruction::ICmp:
|
|
return new CompareConstantExpr(Ty, Instruction::ICmp, SubclassData,
|
|
Ops[0], Ops[1]);
|
|
case Instruction::FCmp:
|
|
return new CompareConstantExpr(Ty, Instruction::FCmp, SubclassData,
|
|
Ops[0], Ops[1]);
|
|
}
|
|
}
|
|
};
|
|
|
|
// Free memory for a given constant. Assumes the constant has already been
|
|
// removed from all relevant maps.
|
|
void deleteConstant(Constant *C);
|
|
|
|
template <class ConstantClass> class ConstantUniqueMap {
|
|
public:
|
|
using ValType = typename ConstantInfo<ConstantClass>::ValType;
|
|
using TypeClass = typename ConstantInfo<ConstantClass>::TypeClass;
|
|
using LookupKey = std::pair<TypeClass *, ValType>;
|
|
|
|
/// Key and hash together, so that we compute the hash only once and reuse it.
|
|
using LookupKeyHashed = std::pair<unsigned, LookupKey>;
|
|
|
|
private:
|
|
struct MapInfo {
|
|
using ConstantClassInfo = DenseMapInfo<ConstantClass *>;
|
|
|
|
static inline ConstantClass *getEmptyKey() {
|
|
return ConstantClassInfo::getEmptyKey();
|
|
}
|
|
|
|
static inline ConstantClass *getTombstoneKey() {
|
|
return ConstantClassInfo::getTombstoneKey();
|
|
}
|
|
|
|
static unsigned getHashValue(const ConstantClass *CP) {
|
|
SmallVector<Constant *, 32> Storage;
|
|
return getHashValue(LookupKey(CP->getType(), ValType(CP, Storage)));
|
|
}
|
|
|
|
static bool isEqual(const ConstantClass *LHS, const ConstantClass *RHS) {
|
|
return LHS == RHS;
|
|
}
|
|
|
|
static unsigned getHashValue(const LookupKey &Val) {
|
|
return hash_combine(Val.first, Val.second.getHash());
|
|
}
|
|
|
|
static unsigned getHashValue(const LookupKeyHashed &Val) {
|
|
return Val.first;
|
|
}
|
|
|
|
static bool isEqual(const LookupKey &LHS, const ConstantClass *RHS) {
|
|
if (RHS == getEmptyKey() || RHS == getTombstoneKey())
|
|
return false;
|
|
if (LHS.first != RHS->getType())
|
|
return false;
|
|
return LHS.second == RHS;
|
|
}
|
|
|
|
static bool isEqual(const LookupKeyHashed &LHS, const ConstantClass *RHS) {
|
|
return isEqual(LHS.second, RHS);
|
|
}
|
|
};
|
|
|
|
public:
|
|
using MapTy = DenseSet<ConstantClass *, MapInfo>;
|
|
|
|
private:
|
|
MapTy Map;
|
|
|
|
public:
|
|
typename MapTy::iterator begin() { return Map.begin(); }
|
|
typename MapTy::iterator end() { return Map.end(); }
|
|
|
|
void freeConstants() {
|
|
for (auto &I : Map)
|
|
deleteConstant(I);
|
|
}
|
|
|
|
private:
|
|
ConstantClass *create(TypeClass *Ty, ValType V, LookupKeyHashed &HashKey) {
|
|
ConstantClass *Result = V.create(Ty);
|
|
|
|
assert(Result->getType() == Ty && "Type specified is not correct!");
|
|
Map.insert_as(Result, HashKey);
|
|
|
|
return Result;
|
|
}
|
|
|
|
public:
|
|
/// Return the specified constant from the map, creating it if necessary.
|
|
ConstantClass *getOrCreate(TypeClass *Ty, ValType V) {
|
|
LookupKey Key(Ty, V);
|
|
/// Hash once, and reuse it for the lookup and the insertion if needed.
|
|
LookupKeyHashed Lookup(MapInfo::getHashValue(Key), Key);
|
|
|
|
ConstantClass *Result = nullptr;
|
|
|
|
auto I = Map.find_as(Lookup);
|
|
if (I == Map.end())
|
|
Result = create(Ty, V, Lookup);
|
|
else
|
|
Result = *I;
|
|
assert(Result && "Unexpected nullptr");
|
|
|
|
return Result;
|
|
}
|
|
|
|
/// Remove this constant from the map
|
|
void remove(ConstantClass *CP) {
|
|
typename MapTy::iterator I = Map.find(CP);
|
|
assert(I != Map.end() && "Constant not found in constant table!");
|
|
assert(*I == CP && "Didn't find correct element?");
|
|
Map.erase(I);
|
|
}
|
|
|
|
ConstantClass *replaceOperandsInPlace(ArrayRef<Constant *> Operands,
|
|
ConstantClass *CP, Value *From,
|
|
Constant *To, unsigned NumUpdated = 0,
|
|
unsigned OperandNo = ~0u) {
|
|
LookupKey Key(CP->getType(), ValType(Operands, CP));
|
|
/// Hash once, and reuse it for the lookup and the insertion if needed.
|
|
LookupKeyHashed Lookup(MapInfo::getHashValue(Key), Key);
|
|
|
|
auto ItMap = Map.find_as(Lookup);
|
|
if (ItMap != Map.end())
|
|
return *ItMap;
|
|
|
|
// Update to the new value. Optimize for the case when we have a single
|
|
// operand that we're changing, but handle bulk updates efficiently.
|
|
remove(CP);
|
|
if (NumUpdated == 1) {
|
|
assert(OperandNo < CP->getNumOperands() && "Invalid index");
|
|
assert(CP->getOperand(OperandNo) != To && "I didn't contain From!");
|
|
CP->setOperand(OperandNo, To);
|
|
} else {
|
|
for (unsigned I = 0, E = CP->getNumOperands(); I != E; ++I)
|
|
if (CP->getOperand(I) == From)
|
|
CP->setOperand(I, To);
|
|
}
|
|
Map.insert_as(CP, Lookup);
|
|
return nullptr;
|
|
}
|
|
|
|
void dump() const {
|
|
LLVM_DEBUG(dbgs() << "Constant.cpp: ConstantUniqueMap\n");
|
|
}
|
|
};
|
|
|
|
template <> inline void ConstantUniqueMap<InlineAsm>::freeConstants() {
|
|
for (auto &I : Map)
|
|
delete I;
|
|
}
|
|
|
|
} // end namespace llvm
|
|
|
|
#endif // LLVM_LIB_IR_CONSTANTSCONTEXT_H
|