dynarmic/src/frontend/ir/ir.h

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* This software may be used and distributed according to the terms of the GNU
* General Public License version 2 or any later version.
*/
#pragma once
#include <list>
#include <memory>
#include <vector>
#include <boost/variant.hpp>
#include "common/common_types.h"
#include "frontend/arm_types.h"
#include "frontend/ir/opcodes.h"
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namespace Dynarmic {
namespace IR {
// ARM JIT Microinstruction Intermediate Representation
//
// This intermediate representation is an SSA IR. It is designed primarily for analysis,
// though it can be lowered into a reduced form for interpretation. Each IR node (Value)
// is a microinstruction of an idealised ARM CPU. The choice of microinstructions is made
// not based on any existing microarchitecture but on ease of implementation.
//
// A basic block is represented as an IR::Block.
enum class Type {
Void = 1 << 0,
RegRef = 1 << 1,
Opaque = 1 << 2,
U1 = 1 << 3,
U8 = 1 << 4,
U16 = 1 << 5,
U32 = 1 << 6,
U64 = 1 << 7,
};
Type GetTypeOf(Opcode op);
size_t GetNumArgsOf(Opcode op);
Type GetArgTypeOf(Opcode op, size_t arg_index);
const char* GetNameOf(Opcode op);
// Type declarations
/// Base class for microinstructions to derive from.
class Value;
using ValuePtr = std::shared_ptr<Value>;
using ValueWeakPtr = std::weak_ptr<Value>;
class Value : public std::enable_shared_from_this<Value> {
public:
virtual ~Value() = default;
bool HasUses() const { return !uses.empty(); }
bool HasOneUse() const { return uses.size() == 1; }
bool HasManyUses() const { return uses.size() > 1; }
/// Replace all uses of this Value with `replacement`.
void ReplaceUsesWith(ValuePtr replacement);
/// Get the microop this microinstruction represents.
Opcode GetOpcode() const { return op; }
/// Get the type this instruction returns.
Type GetType() const { return GetTypeOf(op); }
/// Get the number of arguments this instruction has.
size_t NumArgs() const { return GetNumArgsOf(op); }
/// Get the number of uses this instruction has.
size_t NumUses() const { return uses.size(); }
std::vector<ValuePtr> GetUses() const;
intptr_t GetTag() const { return tag; }
void SetTag(intptr_t tag_) { tag = tag_; }
protected:
friend class Inst;
Value(Opcode op_) : op(op_) {}
void AddUse(ValuePtr owner);
void RemoveUse(ValuePtr owner);
virtual void ReplaceUseOfXWithY(ValuePtr x, ValuePtr y);
private:
Opcode op;
struct Use {
/// The instruction which is being used.
ValueWeakPtr value;
/// The instruction which is using `value`.
ValueWeakPtr use_owner;
};
std::list<Use> uses;
intptr_t tag;
};
/// Representation of a u8 immediate.
class ImmU8 final : public Value {
public:
explicit ImmU8(u8 value_) : Value(Opcode::ImmU8), value(value_) {}
~ImmU8() override = default;
const u8 value; ///< Literal value to load
};
/// Representation of a u32 immediate.
class ImmU32 final : public Value {
public:
explicit ImmU32(u32 value_) : Value(Opcode::ImmU32), value(value_) {}
~ImmU32() override = default;
const u32 value; ///< Literal value to load
};
/// Representation of a GPR reference.
class ImmRegRef final : public Value {
public:
explicit ImmRegRef(Arm::Reg value_) : Value(Opcode::ImmRegRef), value(value_) {}
~ImmRegRef() override = default;
const Arm::Reg value; ///< Literal value to load
};
/**
* A representation of a microinstruction. A single ARM/Thumb instruction may be
* converted into zero or more microinstructions.
*/
class Inst final : public Value {
public:
explicit Inst(Opcode op);
~Inst() override = default;
/// Set argument number `index` to `value`.
void SetArg(size_t index, ValuePtr value);
/// Get argument number `index`.
ValuePtr GetArg(size_t index) const;
void AssertValid();
protected:
void ReplaceUseOfXWithY(ValuePtr x, ValuePtr y) override;
private:
std::vector<ValueWeakPtr> args;
};
/**
* A basic block. It consists of zero or more instructions followed by exactly one terminal.
* Note that this is a linear IR and not a pure tree-based IR: i.e.: there is an ordering to
* the microinstructions. This only matters before chaining is done in order to correctly
* order memory accesses.
*/
class Block final {
public:
explicit Block(const Arm::LocationDescriptor& location) : location(location) {}
Arm::LocationDescriptor location;
std::list<ValuePtr> instructions;
size_t cycle_count = 0;
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};
} // namespace IR
} // namespace Dynarmic