llvm-project/llvm/tools/llvm-exegesis/lib/MCInstrDescView.h

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9.3 KiB
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//===-- MCInstrDescView.h ---------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
///
/// \file
/// Provide views around LLVM structures to represents an instruction instance,
/// as well as its implicit and explicit arguments in a uniform way.
/// Arguments that are explicit and independant (non tied) also have a Variable
/// associated to them so the instruction can be fully defined by reading its
/// Variables.
///
//===----------------------------------------------------------------------===//
#ifndef LLVM_TOOLS_LLVM_EXEGESIS_MCINSTRDESCVIEW_H
#define LLVM_TOOLS_LLVM_EXEGESIS_MCINSTRDESCVIEW_H
#include <memory>
#include <random>
#include <unordered_map>
#include "RegisterAliasing.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/Optional.h"
#include "llvm/MC/MCInst.h"
#include "llvm/MC/MCInstrDesc.h"
#include "llvm/MC/MCInstrInfo.h"
namespace llvm {
namespace exegesis {
// A variable represents the value associated to an Operand or a set of Operands
// if they are tied together.
struct Variable {
// Returns the index of this Variable inside Instruction's Variable.
unsigned getIndex() const;
// Returns the index of the Operand linked to this Variable.
unsigned getPrimaryOperandIndex() const;
// Returns whether this Variable has more than one Operand linked to it.
bool hasTiedOperands() const;
// The indices of the operands tied to this Variable.
SmallVector<unsigned, 2> TiedOperands;
// The index of this Variable in Instruction.Variables and its associated
// Value in InstructionBuilder.VariableValues.
Optional<uint8_t> Index;
};
// MCOperandInfo can only represents Explicit operands. This object gives a
// uniform view of Implicit and Explicit Operands.
// - Index: can be used to refer to MCInstrDesc::operands for Explicit operands.
// - Tracker: is set for Register Operands and is used to keep track of possible
// registers and the registers reachable from them (aliasing registers).
// - Info: a shortcut for MCInstrDesc::operands()[Index].
// - TiedToIndex: the index of the Operand holding the value or -1.
// - ImplicitReg: a pointer to the register value when Operand is Implicit,
// nullptr otherwise.
// - VariableIndex: the index of the Variable holding the value for this Operand
// or -1 if this operand is implicit.
struct Operand {
bool isExplicit() const;
bool isImplicit() const;
bool isImplicitReg() const;
bool isDef() const;
bool isUse() const;
bool isReg() const;
bool isTied() const;
bool isVariable() const;
bool isMemory() const;
bool isImmediate() const;
unsigned getIndex() const;
unsigned getTiedToIndex() const;
unsigned getVariableIndex() const;
unsigned getImplicitReg() const;
const RegisterAliasingTracker &getRegisterAliasing() const;
const MCOperandInfo &getExplicitOperandInfo() const;
// Please use the accessors above and not the following fields.
Optional<uint8_t> Index;
bool IsDef = false;
const RegisterAliasingTracker *Tracker = nullptr; // Set for Register Op.
const MCOperandInfo *Info = nullptr; // Set for Explicit Op.
Optional<uint8_t> TiedToIndex; // Set for Reg&Explicit Op.
const MCPhysReg *ImplicitReg = nullptr; // Set for Implicit Op.
Optional<uint8_t> VariableIndex; // Set for Explicit Op.
};
/// A cache of BitVector to reuse between Instructions.
/// The cache will only be exercised during Instruction initialization.
/// For X86, this is ~160 unique vectors for all of the ~15K Instructions.
struct BitVectorCache {
// Finds or allocates the provided BitVector in the cache and retrieves it's
// unique instance.
const BitVector *getUnique(BitVector &&BV) const;
private:
mutable std::vector<std::unique_ptr<BitVector>> Cache;
};
// A view over an MCInstrDesc offering a convenient interface to compute
// Register aliasing.
struct Instruction {
// Create an instruction for a particular Opcode.
static std::unique_ptr<Instruction>
create(const MCInstrInfo &InstrInfo, const RegisterAliasingTrackerCache &RATC,
const BitVectorCache &BVC, unsigned Opcode);
// Prevent copy or move, instructions are allocated once and cached.
Instruction(const Instruction &) = delete;
Instruction(Instruction &&) = delete;
Instruction &operator=(const Instruction &) = delete;
Instruction &operator=(Instruction &&) = delete;
// Returns the Operand linked to this Variable.
// In case the Variable is tied, the primary (i.e. Def) Operand is returned.
const Operand &getPrimaryOperand(const Variable &Var) const;
// Whether this instruction is self aliasing through its tied registers.
// Repeating this instruction is guaranteed to executes sequentially.
bool hasTiedRegisters() const;
// Whether this instruction is self aliasing through its implicit registers.
// Repeating this instruction is guaranteed to executes sequentially.
bool hasAliasingImplicitRegisters() const;
// Whether this instruction is self aliasing through some registers.
// Repeating this instruction may execute sequentially by picking aliasing
// Use and Def registers. It may also execute in parallel by picking non
// aliasing Use and Def registers.
bool hasAliasingRegisters(const BitVector &ForbiddenRegisters) const;
// Whether this instruction's registers alias with OtherInstr's registers.
bool hasAliasingRegistersThrough(const Instruction &OtherInstr,
const BitVector &ForbiddenRegisters) const;
// Returns whether this instruction has Memory Operands.
// Repeating this instruction executes sequentially with an instruction that
// reads or write the same memory region.
bool hasMemoryOperands() const;
// Returns whether this instruction as at least one use or one def.
// Repeating this instruction may execute sequentially by adding an
// instruction that aliases one of these.
bool hasOneUseOrOneDef() const;
// Convenient function to help with debugging.
void dump(const MCRegisterInfo &RegInfo,
const RegisterAliasingTrackerCache &RATC,
raw_ostream &Stream) const;
const MCInstrDesc &Description;
const StringRef Name; // The name of this instruction.
const SmallVector<Operand, 8> Operands;
const SmallVector<Variable, 4> Variables;
const BitVector &ImplDefRegs; // The set of aliased implicit def registers.
const BitVector &ImplUseRegs; // The set of aliased implicit use registers.
const BitVector &AllDefRegs; // The set of all aliased def registers.
const BitVector &AllUseRegs; // The set of all aliased use registers.
private:
Instruction(const MCInstrDesc *Description, StringRef Name,
SmallVector<Operand, 8> Operands,
SmallVector<Variable, 4> Variables, const BitVector *ImplDefRegs,
const BitVector *ImplUseRegs, const BitVector *AllDefRegs,
const BitVector *AllUseRegs);
};
// Instructions are expensive to instantiate. This class provides a cache of
// Instructions with lazy construction.
struct InstructionsCache {
InstructionsCache(const MCInstrInfo &InstrInfo,
const RegisterAliasingTrackerCache &RATC);
// Returns the Instruction object corresponding to this Opcode.
const Instruction &getInstr(unsigned Opcode) const;
private:
const MCInstrInfo &InstrInfo;
const RegisterAliasingTrackerCache &RATC;
mutable std::unordered_map<unsigned, std::unique_ptr<Instruction>>
Instructions;
const BitVectorCache BVC;
};
// Represents the assignment of a Register to an Operand.
struct RegisterOperandAssignment {
RegisterOperandAssignment(const Operand *Operand, MCPhysReg Reg)
: Op(Operand), Reg(Reg) {}
const Operand *Op; // Pointer to an Explicit Register Operand.
MCPhysReg Reg;
bool operator==(const RegisterOperandAssignment &other) const;
};
// Represents a set of Operands that would alias through the use of some
// Registers.
// There are two reasons why operands would alias:
// - The registers assigned to each of the operands are the same or alias each
// other (e.g. AX/AL)
// - The operands are tied.
struct AliasingRegisterOperands {
SmallVector<RegisterOperandAssignment, 1> Defs; // Unlikely size() > 1.
SmallVector<RegisterOperandAssignment, 2> Uses;
// True is Defs and Use contain an Implicit Operand.
bool hasImplicitAliasing() const;
bool operator==(const AliasingRegisterOperands &other) const;
};
// Returns all possible configurations leading Def registers of DefInstruction
// to alias with Use registers of UseInstruction.
struct AliasingConfigurations {
AliasingConfigurations(const Instruction &DefInstruction,
const Instruction &UseInstruction);
bool empty() const; // True if no aliasing configuration is found.
bool hasImplicitAliasing() const;
SmallVector<AliasingRegisterOperands, 32> Configurations;
};
// Writes MCInst to OS.
// This is not assembly but the internal LLVM's name for instructions and
// registers.
void DumpMCInst(const MCRegisterInfo &MCRegisterInfo,
const MCInstrInfo &MCInstrInfo, const MCInst &MCInst,
raw_ostream &OS);
} // namespace exegesis
} // namespace llvm
#endif // LLVM_TOOLS_LLVM_EXEGESIS_MCINSTRDESCVIEW_H