src/compiler/simplified-operator.h - fp2-dev/platform/external/v8 - Gitiles

 // Copyright 2014 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_COMPILER_SIMPLIFIED_OPERATOR_H_
 #define V8_COMPILER_SIMPLIFIED_OPERATOR_H_

 #include <iosfwd>

 #include "src/compiler/type-hints.h"
 #include "src/handles.h"
 #include "src/machine-type.h"
 #include "src/objects.h"

 namespace v8 {
 namespace internal {

 // Forward declarations.
 class Type;
 class Zone;


 namespace compiler {

 // Forward declarations.
 class Operator;
 struct SimplifiedOperatorGlobalCache;

 enum BaseTaggedness : uint8_t { kUntaggedBase, kTaggedBase };

 size_t hash_value(BaseTaggedness);

 std::ostream& operator<<(std::ostream&, BaseTaggedness);


 // An access descriptor for loads/stores of array buffers.
 class BufferAccess final {
  public:
   explicit BufferAccess(ExternalArrayType external_array_type)
       : external_array_type_(external_array_type) {}

   ExternalArrayType external_array_type() const { return external_array_type_; }
   MachineType machine_type() const;

  private:
   ExternalArrayType const external_array_type_;
 };

 bool operator==(BufferAccess, BufferAccess);
 bool operator!=(BufferAccess, BufferAccess);

 size_t hash_value(BufferAccess);

 std::ostream& operator<<(std::ostream&, BufferAccess);

 BufferAccess const BufferAccessOf(const Operator* op) WARN_UNUSED_RESULT;


 // An access descriptor for loads/stores of fixed structures like field
 // accesses of heap objects. Accesses from either tagged or untagged base
 // pointers are supported; untagging is done automatically during lowering.
 struct FieldAccess {
   BaseTaggedness base_is_tagged;  // specifies if the base pointer is tagged.
   int offset;                     // offset of the field, without tag.
   MaybeHandle<Name> name;         // debugging only.
   Type* type;                     // type of the field.
   MachineType machine_type;       // machine type of the field.
   WriteBarrierKind write_barrier_kind;  // write barrier hint.

   int tag() const { return base_is_tagged == kTaggedBase ? kHeapObjectTag : 0; }
 };

 bool operator==(FieldAccess const&, FieldAccess const&);
 bool operator!=(FieldAccess const&, FieldAccess const&);

 size_t hash_value(FieldAccess const&);

 std::ostream& operator<<(std::ostream&, FieldAccess const&);

 FieldAccess const& FieldAccessOf(const Operator* op) WARN_UNUSED_RESULT;


 // An access descriptor for loads/stores of indexed structures like characters
 // in strings or off-heap backing stores. Accesses from either tagged or
 // untagged base pointers are supported; untagging is done automatically during
 // lowering.
 struct ElementAccess {
   BaseTaggedness base_is_tagged;  // specifies if the base pointer is tagged.
   int header_size;                // size of the header, without tag.
   Type* type;                     // type of the element.
   MachineType machine_type;       // machine type of the element.
   WriteBarrierKind write_barrier_kind;  // write barrier hint.

   int tag() const { return base_is_tagged == kTaggedBase ? kHeapObjectTag : 0; }
 };

 bool operator==(ElementAccess const&, ElementAccess const&);
 bool operator!=(ElementAccess const&, ElementAccess const&);

 size_t hash_value(ElementAccess const&);

 std::ostream& operator<<(std::ostream&, ElementAccess const&);

 ElementAccess const& ElementAccessOf(const Operator* op) WARN_UNUSED_RESULT;

 enum class CheckFloat64HoleMode : uint8_t {
   kNeverReturnHole,  // Never return the hole (deoptimize instead).
   kAllowReturnHole   // Allow to return the hole (signaling NaN).
 };

 size_t hash_value(CheckFloat64HoleMode);

 std::ostream& operator<<(std::ostream&, CheckFloat64HoleMode);

 CheckFloat64HoleMode CheckFloat64HoleModeOf(const Operator*) WARN_UNUSED_RESULT;

 enum class CheckTaggedHoleMode : uint8_t {
   kNeverReturnHole,        // Never return the hole (deoptimize instead).
   kConvertHoleToUndefined  // Convert the hole to undefined.
 };

 size_t hash_value(CheckTaggedHoleMode);

 std::ostream& operator<<(std::ostream&, CheckTaggedHoleMode);

 CheckTaggedHoleMode CheckTaggedHoleModeOf(const Operator*) WARN_UNUSED_RESULT;

 Type* TypeOf(const Operator* op) WARN_UNUSED_RESULT;

 BinaryOperationHints::Hint BinaryOperationHintOf(const Operator* op);

 CompareOperationHints::Hint CompareOperationHintOf(const Operator* op);

 // Interface for building simplified operators, which represent the
 // medium-level operations of V8, including adding numbers, allocating objects,
 // indexing into objects and arrays, etc.
 // All operators are typed but many are representation independent.

 // Number values from JS can be in one of these representations:
 //   - Tagged: word-sized integer that is either
 //     - a signed small integer (31 or 32 bits plus a tag)
 //     - a tagged pointer to a HeapNumber object that has a float64 field
 //   - Int32: an untagged signed 32-bit integer
 //   - Uint32: an untagged unsigned 32-bit integer
 //   - Float64: an untagged float64

 // Additional representations for intermediate code or non-JS code:
 //   - Int64: an untagged signed 64-bit integer
 //   - Uint64: an untagged unsigned 64-bit integer
 //   - Float32: an untagged float32

 // Boolean values can be:
 //   - Bool: a tagged pointer to either the canonical JS #false or
 //           the canonical JS #true object
 //   - Bit: an untagged integer 0 or 1, but word-sized
 class SimplifiedOperatorBuilder final : public ZoneObject {
  public:
   explicit SimplifiedOperatorBuilder(Zone* zone);

   const Operator* BooleanNot();
   const Operator* BooleanToNumber();

   const Operator* NumberEqual();
   const Operator* NumberLessThan();
   const Operator* NumberLessThanOrEqual();
   const Operator* NumberAdd();
   const Operator* NumberSubtract();
   const Operator* NumberMultiply();
   const Operator* NumberDivide();
   const Operator* NumberModulus();
   const Operator* NumberBitwiseOr();
   const Operator* NumberBitwiseXor();
   const Operator* NumberBitwiseAnd();
   const Operator* NumberShiftLeft();
   const Operator* NumberShiftRight();
   const Operator* NumberShiftRightLogical();
   const Operator* NumberImul();
   const Operator* NumberAbs();
   const Operator* NumberClz32();
   const Operator* NumberCeil();
   const Operator* NumberFloor();
   const Operator* NumberFround();
   const Operator* NumberAtan();
   const Operator* NumberAtan2();
   const Operator* NumberAtanh();
   const Operator* NumberCbrt();
   const Operator* NumberCos();
   const Operator* NumberExp();
   const Operator* NumberExpm1();
   const Operator* NumberLog();
   const Operator* NumberLog1p();
   const Operator* NumberLog10();
   const Operator* NumberLog2();
   const Operator* NumberRound();
   const Operator* NumberSin();
   const Operator* NumberSqrt();
   const Operator* NumberTan();
   const Operator* NumberTrunc();
   const Operator* NumberToInt32();
   const Operator* NumberToUint32();

   const Operator* NumberSilenceNaN();

   const Operator* SpeculativeNumberAdd(BinaryOperationHints::Hint hint);
   const Operator* SpeculativeNumberSubtract(BinaryOperationHints::Hint hint);
   const Operator* SpeculativeNumberMultiply(BinaryOperationHints::Hint hint);
   const Operator* SpeculativeNumberDivide(BinaryOperationHints::Hint hint);
   const Operator* SpeculativeNumberModulus(BinaryOperationHints::Hint hint);

   const Operator* SpeculativeNumberLessThan(CompareOperationHints::Hint hint);
   const Operator* SpeculativeNumberLessThanOrEqual(
       CompareOperationHints::Hint hint);
   const Operator* SpeculativeNumberEqual(CompareOperationHints::Hint hint);

   const Operator* ReferenceEqual(Type* type);

   const Operator* StringEqual();
   const Operator* StringLessThan();
   const Operator* StringLessThanOrEqual();
   const Operator* StringFromCharCode();
   const Operator* StringToNumber();

   const Operator* PlainPrimitiveToNumber();
   const Operator* PlainPrimitiveToWord32();
   const Operator* PlainPrimitiveToFloat64();

   const Operator* ChangeTaggedSignedToInt32();
   const Operator* ChangeTaggedToInt32();
   const Operator* ChangeTaggedToUint32();
   const Operator* ChangeTaggedToFloat64();
   const Operator* ChangeInt31ToTaggedSigned();
   const Operator* ChangeInt32ToTagged();
   const Operator* ChangeUint32ToTagged();
   const Operator* ChangeFloat64ToTagged();
   const Operator* ChangeTaggedToBit();
   const Operator* ChangeBitToTagged();
   const Operator* TruncateTaggedToWord32();
   const Operator* TruncateTaggedToFloat64();

   const Operator* CheckBounds();
   const Operator* CheckTaggedPointer();
   const Operator* CheckTaggedSigned();

   const Operator* CheckedInt32Add();
   const Operator* CheckedInt32Sub();
   const Operator* CheckedUint32ToInt32();
   const Operator* CheckedFloat64ToInt32();
   const Operator* CheckedTaggedToInt32();
   const Operator* CheckedTaggedToFloat64();

   const Operator* CheckFloat64Hole(CheckFloat64HoleMode);
   const Operator* CheckTaggedHole(CheckTaggedHoleMode);

   const Operator* ObjectIsCallable();
   const Operator* ObjectIsNumber();
   const Operator* ObjectIsReceiver();
   const Operator* ObjectIsSmi();
   const Operator* ObjectIsString();
   const Operator* ObjectIsUndetectable();

   const Operator* TypeGuard(Type* type);

   const Operator* Allocate(PretenureFlag pretenure = NOT_TENURED);

   const Operator* LoadField(FieldAccess const&);
   const Operator* StoreField(FieldAccess const&);

   // load-buffer buffer, offset, length
   const Operator* LoadBuffer(BufferAccess);

   // store-buffer buffer, offset, length, value
   const Operator* StoreBuffer(BufferAccess);

   // load-element [base + index], length
   const Operator* LoadElement(ElementAccess const&);

   // store-element [base + index], length, value
   const Operator* StoreElement(ElementAccess const&);

  private:
   Zone* zone() const { return zone_; }

   const SimplifiedOperatorGlobalCache& cache_;
   Zone* const zone_;

   DISALLOW_COPY_AND_ASSIGN(SimplifiedOperatorBuilder);
 };

 }  // namespace compiler
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_COMPILER_SIMPLIFIED_OPERATOR_H_
	// Copyright 2014 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_COMPILER_SIMPLIFIED_OPERATOR_H_
	#define V8_COMPILER_SIMPLIFIED_OPERATOR_H_

	#include <iosfwd>

	#include "src/compiler/type-hints.h"
	#include "src/handles.h"
	#include "src/machine-type.h"
	#include "src/objects.h"

	namespace v8 {
	namespace internal {

	// Forward declarations.
	class Type;
	class Zone;


	namespace compiler {

	// Forward declarations.
	class Operator;
	struct SimplifiedOperatorGlobalCache;

	enum BaseTaggedness : uint8_t { kUntaggedBase, kTaggedBase };

	size_t hash_value(BaseTaggedness);

	std::ostream& operator<<(std::ostream&, BaseTaggedness);


	// An access descriptor for loads/stores of array buffers.
	class BufferAccess final {
	public:
	explicit BufferAccess(ExternalArrayType external_array_type)
	: external_array_type_(external_array_type) {}

	ExternalArrayType external_array_type() const { return external_array_type_; }
	MachineType machine_type() const;

	private:
	ExternalArrayType const external_array_type_;
	};

	bool operator==(BufferAccess, BufferAccess);
	bool operator!=(BufferAccess, BufferAccess);

	size_t hash_value(BufferAccess);

	std::ostream& operator<<(std::ostream&, BufferAccess);

	BufferAccess const BufferAccessOf(const Operator* op) WARN_UNUSED_RESULT;


	// An access descriptor for loads/stores of fixed structures like field
	// accesses of heap objects. Accesses from either tagged or untagged base
	// pointers are supported; untagging is done automatically during lowering.
	struct FieldAccess {
	BaseTaggedness base_is_tagged; // specifies if the base pointer is tagged.
	int offset; // offset of the field, without tag.
	MaybeHandle<Name> name; // debugging only.
	Type* type; // type of the field.
	MachineType machine_type; // machine type of the field.
	WriteBarrierKind write_barrier_kind; // write barrier hint.

	int tag() const { return base_is_tagged == kTaggedBase ? kHeapObjectTag : 0; }
	};

	bool operator==(FieldAccess const&, FieldAccess const&);
	bool operator!=(FieldAccess const&, FieldAccess const&);

	size_t hash_value(FieldAccess const&);

	std::ostream& operator<<(std::ostream&, FieldAccess const&);

	FieldAccess const& FieldAccessOf(const Operator* op) WARN_UNUSED_RESULT;


	// An access descriptor for loads/stores of indexed structures like characters
	// in strings or off-heap backing stores. Accesses from either tagged or
	// untagged base pointers are supported; untagging is done automatically during
	// lowering.
	struct ElementAccess {
	BaseTaggedness base_is_tagged; // specifies if the base pointer is tagged.
	int header_size; // size of the header, without tag.
	Type* type; // type of the element.
	MachineType machine_type; // machine type of the element.
	WriteBarrierKind write_barrier_kind; // write barrier hint.

	int tag() const { return base_is_tagged == kTaggedBase ? kHeapObjectTag : 0; }
	};

	bool operator==(ElementAccess const&, ElementAccess const&);
	bool operator!=(ElementAccess const&, ElementAccess const&);

	size_t hash_value(ElementAccess const&);

	std::ostream& operator<<(std::ostream&, ElementAccess const&);

	ElementAccess const& ElementAccessOf(const Operator* op) WARN_UNUSED_RESULT;

	enum class CheckFloat64HoleMode : uint8_t {
	kNeverReturnHole, // Never return the hole (deoptimize instead).
	kAllowReturnHole // Allow to return the hole (signaling NaN).
	};

	size_t hash_value(CheckFloat64HoleMode);

	std::ostream& operator<<(std::ostream&, CheckFloat64HoleMode);

	CheckFloat64HoleMode CheckFloat64HoleModeOf(const Operator*) WARN_UNUSED_RESULT;

	enum class CheckTaggedHoleMode : uint8_t {
	kNeverReturnHole, // Never return the hole (deoptimize instead).
	kConvertHoleToUndefined // Convert the hole to undefined.
	};

	size_t hash_value(CheckTaggedHoleMode);

	std::ostream& operator<<(std::ostream&, CheckTaggedHoleMode);

	CheckTaggedHoleMode CheckTaggedHoleModeOf(const Operator*) WARN_UNUSED_RESULT;

	Type* TypeOf(const Operator* op) WARN_UNUSED_RESULT;

	BinaryOperationHints::Hint BinaryOperationHintOf(const Operator* op);

	CompareOperationHints::Hint CompareOperationHintOf(const Operator* op);

	// Interface for building simplified operators, which represent the
	// medium-level operations of V8, including adding numbers, allocating objects,
	// indexing into objects and arrays, etc.
	// All operators are typed but many are representation independent.

	// Number values from JS can be in one of these representations:
	// - Tagged: word-sized integer that is either
	// - a signed small integer (31 or 32 bits plus a tag)
	// - a tagged pointer to a HeapNumber object that has a float64 field
	// - Int32: an untagged signed 32-bit integer
	// - Uint32: an untagged unsigned 32-bit integer
	// - Float64: an untagged float64

	// Additional representations for intermediate code or non-JS code:
	// - Int64: an untagged signed 64-bit integer
	// - Uint64: an untagged unsigned 64-bit integer
	// - Float32: an untagged float32

	// Boolean values can be:
	// - Bool: a tagged pointer to either the canonical JS #false or
	// the canonical JS #true object
	// - Bit: an untagged integer 0 or 1, but word-sized
	class SimplifiedOperatorBuilder final : public ZoneObject {
	public:
	explicit SimplifiedOperatorBuilder(Zone* zone);

	const Operator* BooleanNot();
	const Operator* BooleanToNumber();

	const Operator* NumberEqual();
	const Operator* NumberLessThan();
	const Operator* NumberLessThanOrEqual();
	const Operator* NumberAdd();
	const Operator* NumberSubtract();
	const Operator* NumberMultiply();
	const Operator* NumberDivide();
	const Operator* NumberModulus();
	const Operator* NumberBitwiseOr();
	const Operator* NumberBitwiseXor();
	const Operator* NumberBitwiseAnd();
	const Operator* NumberShiftLeft();
	const Operator* NumberShiftRight();
	const Operator* NumberShiftRightLogical();
	const Operator* NumberImul();
	const Operator* NumberAbs();
	const Operator* NumberClz32();
	const Operator* NumberCeil();
	const Operator* NumberFloor();
	const Operator* NumberFround();
	const Operator* NumberAtan();
	const Operator* NumberAtan2();
	const Operator* NumberAtanh();
	const Operator* NumberCbrt();
	const Operator* NumberCos();
	const Operator* NumberExp();
	const Operator* NumberExpm1();
	const Operator* NumberLog();
	const Operator* NumberLog1p();
	const Operator* NumberLog10();
	const Operator* NumberLog2();
	const Operator* NumberRound();
	const Operator* NumberSin();
	const Operator* NumberSqrt();
	const Operator* NumberTan();
	const Operator* NumberTrunc();
	const Operator* NumberToInt32();
	const Operator* NumberToUint32();

	const Operator* NumberSilenceNaN();

	const Operator* SpeculativeNumberAdd(BinaryOperationHints::Hint hint);
	const Operator* SpeculativeNumberSubtract(BinaryOperationHints::Hint hint);
	const Operator* SpeculativeNumberMultiply(BinaryOperationHints::Hint hint);
	const Operator* SpeculativeNumberDivide(BinaryOperationHints::Hint hint);
	const Operator* SpeculativeNumberModulus(BinaryOperationHints::Hint hint);

	const Operator* SpeculativeNumberLessThan(CompareOperationHints::Hint hint);
	const Operator* SpeculativeNumberLessThanOrEqual(
	CompareOperationHints::Hint hint);
	const Operator* SpeculativeNumberEqual(CompareOperationHints::Hint hint);

	const Operator* ReferenceEqual(Type* type);

	const Operator* StringEqual();
	const Operator* StringLessThan();
	const Operator* StringLessThanOrEqual();
	const Operator* StringFromCharCode();
	const Operator* StringToNumber();

	const Operator* PlainPrimitiveToNumber();
	const Operator* PlainPrimitiveToWord32();
	const Operator* PlainPrimitiveToFloat64();

	const Operator* ChangeTaggedSignedToInt32();
	const Operator* ChangeTaggedToInt32();
	const Operator* ChangeTaggedToUint32();
	const Operator* ChangeTaggedToFloat64();
	const Operator* ChangeInt31ToTaggedSigned();
	const Operator* ChangeInt32ToTagged();
	const Operator* ChangeUint32ToTagged();
	const Operator* ChangeFloat64ToTagged();
	const Operator* ChangeTaggedToBit();
	const Operator* ChangeBitToTagged();
	const Operator* TruncateTaggedToWord32();
	const Operator* TruncateTaggedToFloat64();

	const Operator* CheckBounds();
	const Operator* CheckTaggedPointer();
	const Operator* CheckTaggedSigned();

	const Operator* CheckedInt32Add();
	const Operator* CheckedInt32Sub();
	const Operator* CheckedUint32ToInt32();
	const Operator* CheckedFloat64ToInt32();
	const Operator* CheckedTaggedToInt32();
	const Operator* CheckedTaggedToFloat64();

	const Operator* CheckFloat64Hole(CheckFloat64HoleMode);
	const Operator* CheckTaggedHole(CheckTaggedHoleMode);

	const Operator* ObjectIsCallable();
	const Operator* ObjectIsNumber();
	const Operator* ObjectIsReceiver();
	const Operator* ObjectIsSmi();
	const Operator* ObjectIsString();
	const Operator* ObjectIsUndetectable();

	const Operator* TypeGuard(Type* type);

	const Operator* Allocate(PretenureFlag pretenure = NOT_TENURED);

	const Operator* LoadField(FieldAccess const&);
	const Operator* StoreField(FieldAccess const&);

	// load-buffer buffer, offset, length
	const Operator* LoadBuffer(BufferAccess);

	// store-buffer buffer, offset, length, value
	const Operator* StoreBuffer(BufferAccess);

	// load-element [base + index], length
	const Operator* LoadElement(ElementAccess const&);

	// store-element [base + index], length, value
	const Operator* StoreElement(ElementAccess const&);

	private:
	Zone* zone() const { return zone_; }

	const SimplifiedOperatorGlobalCache& cache_;
	Zone* const zone_;

	DISALLOW_COPY_AND_ASSIGN(SimplifiedOperatorBuilder);
	};

	} // namespace compiler
	} // namespace internal
	} // namespace v8

	#endif // V8_COMPILER_SIMPLIFIED_OPERATOR_H_