src/interpreter/bytecode-operands.h - v8/v8.git - Git at Google

 // Copyright 2016 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_OPERANDS_H_
 #define V8_INTERPRETER_BYTECODE_OPERANDS_H_

 #include "src/globals.h"

 namespace v8 {
 namespace internal {
 namespace interpreter {

 #define INVALID_OPERAND_TYPE_LIST(V) V(None, OperandTypeInfo::kNone)

 #define REGISTER_INPUT_OPERAND_TYPE_LIST(V)        \
   V(Reg, OperandTypeInfo::kScalableSignedByte)     \
   V(RegList, OperandTypeInfo::kScalableSignedByte) \
   V(RegPair, OperandTypeInfo::kScalableSignedByte)

 #define REGISTER_OUTPUT_OPERAND_TYPE_LIST(V)          \
   V(RegOut, OperandTypeInfo::kScalableSignedByte)     \
   V(RegOutList, OperandTypeInfo::kScalableSignedByte) \
   V(RegOutPair, OperandTypeInfo::kScalableSignedByte) \
   V(RegOutTriple, OperandTypeInfo::kScalableSignedByte)

 #define SIGNED_SCALABLE_SCALAR_OPERAND_TYPE_LIST(V) \
   V(Imm, OperandTypeInfo::kScalableSignedByte)

 #define UNSIGNED_SCALABLE_SCALAR_OPERAND_TYPE_LIST(V) \
   V(Idx, OperandTypeInfo::kScalableUnsignedByte)      \
   V(UImm, OperandTypeInfo::kScalableUnsignedByte)     \
   V(RegCount, OperandTypeInfo::kScalableUnsignedByte)

 #define UNSIGNED_FIXED_SCALAR_OPERAND_TYPE_LIST(V)    \
   V(Flag8, OperandTypeInfo::kFixedUnsignedByte)       \
   V(IntrinsicId, OperandTypeInfo::kFixedUnsignedByte) \
   V(RuntimeId, OperandTypeInfo::kFixedUnsignedShort)  \
   V(NativeContextIndex, OperandTypeInfo::kScalableUnsignedByte)

 // Carefully ordered for operand type range checks below.
 #define NON_REGISTER_OPERAND_TYPE_LIST(V)       \
   INVALID_OPERAND_TYPE_LIST(V)                  \
   UNSIGNED_FIXED_SCALAR_OPERAND_TYPE_LIST(V)    \
   UNSIGNED_SCALABLE_SCALAR_OPERAND_TYPE_LIST(V) \
   SIGNED_SCALABLE_SCALAR_OPERAND_TYPE_LIST(V)

 // Carefully ordered for operand type range checks below.
 #define REGISTER_OPERAND_TYPE_LIST(V) \
   REGISTER_INPUT_OPERAND_TYPE_LIST(V) \
   REGISTER_OUTPUT_OPERAND_TYPE_LIST(V)

 // The list of operand types used by bytecodes.
 // Carefully ordered for operand type range checks below.
 #define OPERAND_TYPE_LIST(V)        \
   NON_REGISTER_OPERAND_TYPE_LIST(V) \
   REGISTER_OPERAND_TYPE_LIST(V)

 // Enumeration of scaling factors applicable to scalable operands. Code
 // relies on being able to cast values to integer scaling values.
 #define OPERAND_SCALE_LIST(V) \
   V(Single, 1)                \
   V(Double, 2)                \
   V(Quadruple, 4)

 enum class OperandScale : uint8_t {
 #define DECLARE_OPERAND_SCALE(Name, Scale) k##Name = Scale,
   OPERAND_SCALE_LIST(DECLARE_OPERAND_SCALE)
 #undef DECLARE_OPERAND_SCALE
       kLast = kQuadruple
 };

 // Enumeration of the size classes of operand types used by
 // bytecodes. Code relies on being able to cast values to integer
 // types to get the size in bytes.
 enum class OperandSize : uint8_t {
   kNone = 0,
   kByte = 1,
   kShort = 2,
   kQuad = 4,
   kLast = kQuad
 };

 // Primitive operand info used that summarize properties of operands.
 // Columns are Name, IsScalable, IsUnsigned, UnscaledSize.
 #define OPERAND_TYPE_INFO_LIST(V)                         \
   V(None, false, false, OperandSize::kNone)               \
   V(ScalableSignedByte, true, false, OperandSize::kByte)  \
   V(ScalableUnsignedByte, true, true, OperandSize::kByte) \
   V(FixedUnsignedByte, false, true, OperandSize::kByte)   \
   V(FixedUnsignedShort, false, true, OperandSize::kShort)

 enum class OperandTypeInfo : uint8_t {
 #define DECLARE_OPERAND_TYPE_INFO(Name, ...) k##Name,
   OPERAND_TYPE_INFO_LIST(DECLARE_OPERAND_TYPE_INFO)
 #undef DECLARE_OPERAND_TYPE_INFO
 };

 // Enumeration of operand types used by bytecodes.
 enum class OperandType : uint8_t {
 #define DECLARE_OPERAND_TYPE(Name, _) k##Name,
   OPERAND_TYPE_LIST(DECLARE_OPERAND_TYPE)
 #undef DECLARE_OPERAND_TYPE
 #define COUNT_OPERAND_TYPES(x, _) +1
   // The COUNT_OPERAND macro will turn this into kLast = -1 +1 +1... which will
   // evaluate to the same value as the last operand.
   kLast = -1 OPERAND_TYPE_LIST(COUNT_OPERAND_TYPES)
 #undef COUNT_OPERAND_TYPES
 };

 enum class AccumulatorUse : uint8_t {
   kNone = 0,
   kRead = 1 << 0,
   kWrite = 1 << 1,
   kReadWrite = kRead | kWrite
 };

 inline AccumulatorUse operator&(AccumulatorUse lhs, AccumulatorUse rhs) {
   int result = static_cast<int>(lhs) & static_cast<int>(rhs);
   return static_cast<AccumulatorUse>(result);
 }

 inline AccumulatorUse operator|(AccumulatorUse lhs, AccumulatorUse rhs) {
   int result = static_cast<int>(lhs) | static_cast<int>(rhs);
   return static_cast<AccumulatorUse>(result);
 }

 V8_EXPORT_PRIVATE std::ostream& operator<<(std::ostream& os,
                                            const AccumulatorUse& use);
 V8_EXPORT_PRIVATE std::ostream& operator<<(std::ostream& os,
                                            const OperandScale& operand_scale);
 V8_EXPORT_PRIVATE std::ostream& operator<<(std::ostream& os,
                                            const OperandSize& operand_size);
 V8_EXPORT_PRIVATE std::ostream& operator<<(std::ostream& os,
                                            const OperandType& operand_type);

 class BytecodeOperands : public AllStatic {
  public:
   // The total number of bytecode operand types used.
   static const int kOperandTypeCount = static_cast<int>(OperandType::kLast) + 1;

 // The total number of bytecode operand scales used.
 #define OPERAND_SCALE_COUNT(...) +1
   static const int kOperandScaleCount =
       0 OPERAND_SCALE_LIST(OPERAND_SCALE_COUNT);
 #undef OPERAND_SCALE_COUNT

   // Returns true if |accumulator_use| reads the accumulator.
   static constexpr bool ReadsAccumulator(AccumulatorUse accumulator_use) {
     return accumulator_use == AccumulatorUse::kRead ||
            accumulator_use == AccumulatorUse::kReadWrite;
   }

   // Returns true if |accumulator_use| writes the accumulator.
   static constexpr bool WritesAccumulator(AccumulatorUse accumulator_use) {
     return accumulator_use == AccumulatorUse::kWrite ||
            accumulator_use == AccumulatorUse::kReadWrite;
   }

   // Returns true if |operand_type| is a scalable signed byte.
   static constexpr bool IsScalableSignedByte(OperandType operand_type) {
     return operand_type >= OperandType::kImm &&
            operand_type <= OperandType::kRegOutTriple;
   }

   // Returns true if |operand_type| is a scalable unsigned byte.
   static constexpr bool IsScalableUnsignedByte(OperandType operand_type) {
     return operand_type >= OperandType::kIdx &&
            operand_type <= OperandType::kRegCount;
   }
 };

 }  // namespace interpreter
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_INTERPRETER_BYTECODE_OPERANDS_H_
	// Copyright 2016 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_OPERANDS_H_
	#define V8_INTERPRETER_BYTECODE_OPERANDS_H_

	#include "src/globals.h"

	namespace v8 {
	namespace internal {
	namespace interpreter {

	#define INVALID_OPERAND_TYPE_LIST(V) V(None, OperandTypeInfo::kNone)

	#define REGISTER_INPUT_OPERAND_TYPE_LIST(V) \
	V(Reg, OperandTypeInfo::kScalableSignedByte) \
	V(RegList, OperandTypeInfo::kScalableSignedByte) \
	V(RegPair, OperandTypeInfo::kScalableSignedByte)

	#define REGISTER_OUTPUT_OPERAND_TYPE_LIST(V) \
	V(RegOut, OperandTypeInfo::kScalableSignedByte) \
	V(RegOutList, OperandTypeInfo::kScalableSignedByte) \
	V(RegOutPair, OperandTypeInfo::kScalableSignedByte) \
	V(RegOutTriple, OperandTypeInfo::kScalableSignedByte)

	#define SIGNED_SCALABLE_SCALAR_OPERAND_TYPE_LIST(V) \
	V(Imm, OperandTypeInfo::kScalableSignedByte)

	#define UNSIGNED_SCALABLE_SCALAR_OPERAND_TYPE_LIST(V) \
	V(Idx, OperandTypeInfo::kScalableUnsignedByte) \
	V(UImm, OperandTypeInfo::kScalableUnsignedByte) \
	V(RegCount, OperandTypeInfo::kScalableUnsignedByte)

	#define UNSIGNED_FIXED_SCALAR_OPERAND_TYPE_LIST(V) \
	V(Flag8, OperandTypeInfo::kFixedUnsignedByte) \
	V(IntrinsicId, OperandTypeInfo::kFixedUnsignedByte) \
	V(RuntimeId, OperandTypeInfo::kFixedUnsignedShort) \
	V(NativeContextIndex, OperandTypeInfo::kScalableUnsignedByte)

	// Carefully ordered for operand type range checks below.
	#define NON_REGISTER_OPERAND_TYPE_LIST(V) \
	INVALID_OPERAND_TYPE_LIST(V) \
	UNSIGNED_FIXED_SCALAR_OPERAND_TYPE_LIST(V) \
	UNSIGNED_SCALABLE_SCALAR_OPERAND_TYPE_LIST(V) \
	SIGNED_SCALABLE_SCALAR_OPERAND_TYPE_LIST(V)

	// Carefully ordered for operand type range checks below.
	#define REGISTER_OPERAND_TYPE_LIST(V) \
	REGISTER_INPUT_OPERAND_TYPE_LIST(V) \
	REGISTER_OUTPUT_OPERAND_TYPE_LIST(V)

	// The list of operand types used by bytecodes.
	// Carefully ordered for operand type range checks below.
	#define OPERAND_TYPE_LIST(V) \
	NON_REGISTER_OPERAND_TYPE_LIST(V) \
	REGISTER_OPERAND_TYPE_LIST(V)

	// Enumeration of scaling factors applicable to scalable operands. Code
	// relies on being able to cast values to integer scaling values.
	#define OPERAND_SCALE_LIST(V) \
	V(Single, 1) \
	V(Double, 2) \
	V(Quadruple, 4)

	enum class OperandScale : uint8_t {
	#define DECLARE_OPERAND_SCALE(Name, Scale) k##Name = Scale,
	OPERAND_SCALE_LIST(DECLARE_OPERAND_SCALE)
	#undef DECLARE_OPERAND_SCALE
	kLast = kQuadruple
	};

	// Enumeration of the size classes of operand types used by
	// bytecodes. Code relies on being able to cast values to integer
	// types to get the size in bytes.
	enum class OperandSize : uint8_t {
	kNone = 0,
	kByte = 1,
	kShort = 2,
	kQuad = 4,
	kLast = kQuad
	};

	// Primitive operand info used that summarize properties of operands.
	// Columns are Name, IsScalable, IsUnsigned, UnscaledSize.
	#define OPERAND_TYPE_INFO_LIST(V) \
	V(None, false, false, OperandSize::kNone) \
	V(ScalableSignedByte, true, false, OperandSize::kByte) \
	V(ScalableUnsignedByte, true, true, OperandSize::kByte) \
	V(FixedUnsignedByte, false, true, OperandSize::kByte) \
	V(FixedUnsignedShort, false, true, OperandSize::kShort)

	enum class OperandTypeInfo : uint8_t {
	#define DECLARE_OPERAND_TYPE_INFO(Name, ...) k##Name,
	OPERAND_TYPE_INFO_LIST(DECLARE_OPERAND_TYPE_INFO)
	#undef DECLARE_OPERAND_TYPE_INFO
	};

	// Enumeration of operand types used by bytecodes.
	enum class OperandType : uint8_t {
	#define DECLARE_OPERAND_TYPE(Name, _) k##Name,
	OPERAND_TYPE_LIST(DECLARE_OPERAND_TYPE)
	#undef DECLARE_OPERAND_TYPE
	#define COUNT_OPERAND_TYPES(x, _) +1
	// The COUNT_OPERAND macro will turn this into kLast = -1 +1 +1... which will
	// evaluate to the same value as the last operand.
	kLast = -1 OPERAND_TYPE_LIST(COUNT_OPERAND_TYPES)
	#undef COUNT_OPERAND_TYPES
	};

	enum class AccumulatorUse : uint8_t {
	kNone = 0,
	kRead = 1 << 0,
	kWrite = 1 << 1,
	kReadWrite = kRead \| kWrite
	};

	inline AccumulatorUse operator&(AccumulatorUse lhs, AccumulatorUse rhs) {
	int result = static_cast<int>(lhs) & static_cast<int>(rhs);
	return static_cast<AccumulatorUse>(result);
	}

	inline AccumulatorUse operator\|(AccumulatorUse lhs, AccumulatorUse rhs) {
	int result = static_cast<int>(lhs) \| static_cast<int>(rhs);
	return static_cast<AccumulatorUse>(result);
	}

	V8_EXPORT_PRIVATE std::ostream& operator<<(std::ostream& os,
	const AccumulatorUse& use);
	V8_EXPORT_PRIVATE std::ostream& operator<<(std::ostream& os,
	const OperandScale& operand_scale);
	V8_EXPORT_PRIVATE std::ostream& operator<<(std::ostream& os,
	const OperandSize& operand_size);
	V8_EXPORT_PRIVATE std::ostream& operator<<(std::ostream& os,
	const OperandType& operand_type);

	class BytecodeOperands : public AllStatic {
	public:
	// The total number of bytecode operand types used.
	static const int kOperandTypeCount = static_cast<int>(OperandType::kLast) + 1;

	// The total number of bytecode operand scales used.
	#define OPERAND_SCALE_COUNT(...) +1
	static const int kOperandScaleCount =
	0 OPERAND_SCALE_LIST(OPERAND_SCALE_COUNT);
	#undef OPERAND_SCALE_COUNT

	// Returns true if \|accumulator_use\| reads the accumulator.
	static constexpr bool ReadsAccumulator(AccumulatorUse accumulator_use) {
	return accumulator_use == AccumulatorUse::kRead \|\|
	accumulator_use == AccumulatorUse::kReadWrite;
	}

	// Returns true if \|accumulator_use\| writes the accumulator.
	static constexpr bool WritesAccumulator(AccumulatorUse accumulator_use) {
	return accumulator_use == AccumulatorUse::kWrite \|\|
	accumulator_use == AccumulatorUse::kReadWrite;
	}

	// Returns true if \|operand_type\| is a scalable signed byte.
	static constexpr bool IsScalableSignedByte(OperandType operand_type) {
	return operand_type >= OperandType::kImm &&
	operand_type <= OperandType::kRegOutTriple;
	}

	// Returns true if \|operand_type\| is a scalable unsigned byte.
	static constexpr bool IsScalableUnsignedByte(OperandType operand_type) {
	return operand_type >= OperandType::kIdx &&
	operand_type <= OperandType::kRegCount;
	}
	};

	} // namespace interpreter
	} // namespace internal
	} // namespace v8

	#endif // V8_INTERPRETER_BYTECODE_OPERANDS_H_