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// Copyright 2015 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef V8_INTERPRETER_BYTECODE_REGISTER_H_
#define V8_INTERPRETER_BYTECODE_REGISTER_H_
#include "src/interpreter/bytecodes.h"
#include "src/base/macros.h"
#include "src/base/platform/platform.h"
#include "src/common/globals.h"
#include "src/execution/frame-constants.h"
namespace v8 {
namespace internal {
namespace interpreter {
constexpr int OffsetFromFPToRegisterIndex(int offset) {
return (InterpreterFrameConstants::kRegisterFileFromFp - offset) /
kSystemPointerSize;
}
// An interpreter Register which is located in the function's Register file
// in its stack-frame. Register hold parameters, this, and expression values.
class V8_EXPORT_PRIVATE Register final {
public:
constexpr explicit Register(int index = kInvalidIndex) : index_(index) {}
constexpr int index() const { return index_; }
constexpr bool is_parameter() const { return index() < 0; }
constexpr bool is_valid() const { return index_ != kInvalidIndex; }
static constexpr Register FromParameterIndex(int index);
constexpr int ToParameterIndex() const;
static constexpr Register receiver() { return FromParameterIndex(0); }
constexpr bool is_receiver() const { return ToParameterIndex() == 0; }
// Returns an invalid register.
static constexpr Register invalid_value() { return Register(); }
// Returns the register for the function's closure object.
static constexpr Register function_closure();
constexpr bool is_function_closure() const;
// Returns the register which holds the current context object.
static constexpr Register current_context();
constexpr bool is_current_context() const;
// Returns the register for the bytecode array.
static constexpr Register bytecode_array();
constexpr bool is_bytecode_array() const;
// Returns the register for the saved bytecode offset.
static constexpr Register bytecode_offset();
constexpr bool is_bytecode_offset() const;
// Returns the register for the cached feedback vector.
static constexpr Register feedback_vector();
constexpr bool is_feedback_vector() const;
// Returns the register for the argument count.
static constexpr Register argument_count();
// Returns a register that can be used to represent the accumulator
// within code in the interpreter, but should never be emitted in
// bytecode.
static constexpr Register virtual_accumulator();
constexpr OperandSize SizeOfOperand() const;
constexpr int32_t ToOperand() const {
return kRegisterFileStartOffset - index_;
}
static constexpr Register FromOperand(int32_t operand) {
return Register(kRegisterFileStartOffset - operand);
}
static constexpr Register FromShortStar(Bytecode bytecode) {
DCHECK(Bytecodes::IsShortStar(bytecode));
return Register(static_cast<int>(Bytecode::kStar0) -
static_cast<int>(bytecode));
}
constexpr base::Optional<Bytecode> TryToShortStar() const {
if (index() >= 0 && index() < Bytecodes::kShortStarCount) {
Bytecode bytecode =
static_cast<Bytecode>(static_cast<int>(Bytecode::kStar0) - index());
DCHECK_GE(bytecode, Bytecode::kFirstShortStar);
DCHECK_LE(bytecode, Bytecode::kLastShortStar);
return bytecode;
}
return {};
}
std::string ToString() const;
constexpr bool operator==(const Register& other) const {
return index() == other.index();
}
constexpr bool operator!=(const Register& other) const {
return index() != other.index();
}
constexpr bool operator<(const Register& other) const {
return index() < other.index();
}
constexpr bool operator<=(const Register& other) const {
return index() <= other.index();
}
constexpr bool operator>(const Register& other) const {
return index() > other.index();
}
constexpr bool operator>=(const Register& other) const {
return index() >= other.index();
}
private:
DISALLOW_NEW_AND_DELETE()
static constexpr int kInvalidIndex = kMaxInt;
static constexpr int kRegisterFileStartOffset =
OffsetFromFPToRegisterIndex(0);
static constexpr int kFirstParamRegisterIndex =
OffsetFromFPToRegisterIndex(InterpreterFrameConstants::kFirstParamFromFp);
static constexpr int kFunctionClosureRegisterIndex =
OffsetFromFPToRegisterIndex(StandardFrameConstants::kFunctionOffset);
static constexpr int kCurrentContextRegisterIndex =
OffsetFromFPToRegisterIndex(StandardFrameConstants::kContextOffset);
static constexpr int kBytecodeArrayRegisterIndex =
OffsetFromFPToRegisterIndex(
InterpreterFrameConstants::kBytecodeArrayFromFp);
static constexpr int kBytecodeOffsetRegisterIndex =
OffsetFromFPToRegisterIndex(
InterpreterFrameConstants::kBytecodeOffsetFromFp);
static constexpr int kFeedbackVectorRegisterIndex =
OffsetFromFPToRegisterIndex(
InterpreterFrameConstants::kFeedbackVectorFromFp);
static constexpr int kCallerPCOffsetRegisterIndex =
OffsetFromFPToRegisterIndex(InterpreterFrameConstants::kCallerPCOffset);
static constexpr int kArgumentCountRegisterIndex =
OffsetFromFPToRegisterIndex(InterpreterFrameConstants::kArgCOffset);
int index_;
};
class RegisterList {
public:
RegisterList()
: first_reg_index_(Register::invalid_value().index()),
register_count_(0) {}
explicit RegisterList(Register r) : RegisterList(r.index(), 1) {}
// Returns a new RegisterList which is a truncated version of this list, with
// |count| registers.
const RegisterList Truncate(int new_count) {
DCHECK_GE(new_count, 0);
DCHECK_LT(new_count, register_count_);
return RegisterList(first_reg_index_, new_count);
}
const RegisterList PopLeft() const {
DCHECK_GE(register_count_, 0);
return RegisterList(first_reg_index_ + 1, register_count_ - 1);
}
const Register operator[](size_t i) const {
DCHECK_LT(static_cast<int>(i), register_count_);
return Register(first_reg_index_ + static_cast<int>(i));
}
const Register first_register() const {
return (register_count() == 0) ? Register(0) : (*this)[0];
}
const Register last_register() const {
return (register_count() == 0) ? Register(0) : (*this)[register_count_ - 1];
}
int register_count() const { return register_count_; }
private:
friend class BytecodeRegisterAllocator;
friend class BytecodeDecoder;
friend class InterpreterTester;
friend class BytecodeUtils;
friend class BytecodeArrayIterator;
friend class CallArguments;
RegisterList(int first_reg_index, int register_count)
: first_reg_index_(first_reg_index), register_count_(register_count) {}
// Increases the size of the register list by one.
void IncrementRegisterCount() { register_count_++; }
int first_reg_index_;
int register_count_;
};
constexpr Register Register::FromParameterIndex(int index) {
DCHECK_GE(index, 0);
int register_index = kFirstParamRegisterIndex - index;
DCHECK_LT(register_index, 0);
return Register(register_index);
}
constexpr int Register::ToParameterIndex() const {
DCHECK(is_parameter());
return kFirstParamRegisterIndex - index();
}
constexpr Register Register::function_closure() {
return Register(kFunctionClosureRegisterIndex);
}
constexpr bool Register::is_function_closure() const {
return index() == kFunctionClosureRegisterIndex;
}
constexpr Register Register::current_context() {
return Register(kCurrentContextRegisterIndex);
}
constexpr bool Register::is_current_context() const {
return index() == kCurrentContextRegisterIndex;
}
constexpr Register Register::bytecode_array() {
return Register(kBytecodeArrayRegisterIndex);
}
constexpr bool Register::is_bytecode_array() const {
return index() == kBytecodeArrayRegisterIndex;
}
constexpr Register Register::bytecode_offset() {
return Register(kBytecodeOffsetRegisterIndex);
}
constexpr bool Register::is_bytecode_offset() const {
return index() == kBytecodeOffsetRegisterIndex;
}
constexpr Register Register::feedback_vector() {
return Register(kFeedbackVectorRegisterIndex);
}
constexpr bool Register::is_feedback_vector() const {
return index() == kFeedbackVectorRegisterIndex;
}
// static
constexpr Register Register::virtual_accumulator() {
return Register(kCallerPCOffsetRegisterIndex);
}
// static
constexpr Register Register::argument_count() {
return Register(kArgumentCountRegisterIndex);
}
constexpr OperandSize Register::SizeOfOperand() const {
int32_t operand = ToOperand();
if (operand >= kMinInt8 && operand <= kMaxInt8) {
return OperandSize::kByte;
} else if (operand >= kMinInt16 && operand <= kMaxInt16) {
return OperandSize::kShort;
} else {
return OperandSize::kQuad;
}
}
} // namespace interpreter
} // namespace internal
} // namespace v8
#endif // V8_INTERPRETER_BYTECODE_REGISTER_H_