v8/src/compiler/type-cache.h - cobalt - Git at Google

 // 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_TYPE_CACHE_H_
 #define V8_COMPILER_TYPE_CACHE_H_

 #include "src/compiler/types.h"
 #include "src/date/date.h"
 #include "src/objects/code.h"
 #include "src/objects/js-array-buffer.h"
 #include "src/objects/string.h"

 namespace v8 {
 namespace internal {
 namespace compiler {

 class V8_EXPORT_PRIVATE TypeCache final {
  private:
   // This has to be first for the initialization magic to work.
   AccountingAllocator allocator;
   Zone zone_;

  public:
   static TypeCache const* Get();

   TypeCache() : zone_(&allocator, ZONE_NAME) {}

   Type const kInt8 = CreateRange<int8_t>();
   Type const kUint8 = CreateRange<uint8_t>();
   Type const kUint8Clamped = kUint8;
   Type const kUint8OrMinusZeroOrNaN =
       Type::Union(kUint8, Type::MinusZeroOrNaN(), zone());
   Type const kInt16 = CreateRange<int16_t>();
   Type const kUint16 = CreateRange<uint16_t>();
   Type const kUnsigned31 = Type::Unsigned31();
   Type const kInt32 = Type::Signed32();
   Type const kUint32 = Type::Unsigned32();
   Type const kInt64 = CreateRange<int64_t>();
   Type const kUint64 = CreateRange<uint64_t>();
   Type const kIntPtr = CreateRange<intptr_t>();
   Type const kFloat32 = Type::Number();
   Type const kFloat64 = Type::Number();
   Type const kBigInt64 = Type::BigInt();
   Type const kBigUint64 = Type::BigInt();

   Type const kHoleySmi = Type::Union(Type::SignedSmall(), Type::Hole(), zone());

   Type const kSingletonZero = CreateRange(0.0, 0.0);
   Type const kSingletonOne = CreateRange(1.0, 1.0);
   Type const kSingletonTen = CreateRange(10.0, 10.0);
   Type const kSingletonMinusOne = CreateRange(-1.0, -1.0);
   Type const kZeroOrMinusZero =
       Type::Union(kSingletonZero, Type::MinusZero(), zone());
   Type const kZeroOrUndefined =
       Type::Union(kSingletonZero, Type::Undefined(), zone());
   Type const kTenOrUndefined =
       Type::Union(kSingletonTen, Type::Undefined(), zone());
   Type const kMinusOneOrZero = CreateRange(-1.0, 0.0);
   Type const kMinusOneToOneOrMinusZeroOrNaN = Type::Union(
       Type::Union(CreateRange(-1.0, 1.0), Type::MinusZero(), zone()),
       Type::NaN(), zone());
   Type const kZeroOrOne = CreateRange(0.0, 1.0);
   Type const kZeroOrOneOrNaN = Type::Union(kZeroOrOne, Type::NaN(), zone());
   Type const kZeroToThirtyOne = CreateRange(0.0, 31.0);
   Type const kZeroToThirtyTwo = CreateRange(0.0, 32.0);
   Type const kZeroish =
       Type::Union(kSingletonZero, Type::MinusZeroOrNaN(), zone());
   Type const kInteger = CreateRange(-V8_INFINITY, V8_INFINITY);
   Type const kIntegerOrMinusZero =
       Type::Union(kInteger, Type::MinusZero(), zone());
   Type const kIntegerOrMinusZeroOrNaN =
       Type::Union(kIntegerOrMinusZero, Type::NaN(), zone());
   Type const kPositiveInteger = CreateRange(0.0, V8_INFINITY);
   Type const kPositiveIntegerOrMinusZero =
       Type::Union(kPositiveInteger, Type::MinusZero(), zone());
   Type const kPositiveIntegerOrNaN =
       Type::Union(kPositiveInteger, Type::NaN(), zone());
   Type const kPositiveIntegerOrMinusZeroOrNaN =
       Type::Union(kPositiveIntegerOrMinusZero, Type::NaN(), zone());

   Type const kAdditiveSafeInteger =
       CreateRange(-4503599627370496.0, 4503599627370496.0);
   Type const kSafeInteger = CreateRange(-kMaxSafeInteger, kMaxSafeInteger);
   Type const kAdditiveSafeIntegerOrMinusZero =
       Type::Union(kAdditiveSafeInteger, Type::MinusZero(), zone());
   Type const kSafeIntegerOrMinusZero =
       Type::Union(kSafeInteger, Type::MinusZero(), zone());
   Type const kPositiveSafeInteger = CreateRange(0.0, kMaxSafeInteger);

   // The FixedArray::length property always containts a smi in the range
   // [0, FixedArray::kMaxLength].
   Type const kFixedArrayLengthType = CreateRange(0.0, FixedArray::kMaxLength);

   // The WeakFixedArray::length property always containts a smi in the range
   // [0, WeakFixedArray::kMaxLength].
   Type const kWeakFixedArrayLengthType =
       CreateRange(0.0, WeakFixedArray::kMaxLength);

   // The FixedDoubleArray::length property always containts a smi in the range
   // [0, FixedDoubleArray::kMaxLength].
   Type const kFixedDoubleArrayLengthType =
       CreateRange(0.0, FixedDoubleArray::kMaxLength);

   // The JSArray::length property always contains a tagged number in the range
   // [0, kMaxUInt32].
   Type const kJSArrayLengthType = Type::Unsigned32();

   // The JSArrayBuffer::byte_length property is limited to safe integer range
   // per specification, but on 32-bit architectures is implemented as uint32_t
   // field, so it's in the [0, kMaxUInt32] range in that case.
   Type const kJSArrayBufferByteLengthType =
       CreateRange(0.0, JSArrayBuffer::kMaxByteLength);

   // The type for the JSArrayBufferView::byte_length property is the same as
   // JSArrayBuffer::byte_length above.
   Type const kJSArrayBufferViewByteLengthType = kJSArrayBufferByteLengthType;

   // The type for the JSArrayBufferView::byte_offset property is the same as
   // JSArrayBuffer::byte_length above.
   Type const kJSArrayBufferViewByteOffsetType = kJSArrayBufferByteLengthType;

   // The JSTypedArray::length property always contains an untagged number in
   // the range [0, JSTypedArray::kMaxLength].
   Type const kJSTypedArrayLengthType =
       CreateRange(0.0, JSTypedArray::kMaxLength);

   // The String::length property always contains a smi in the range
   // [0, String::kMaxLength].
   Type const kStringLengthType = CreateRange(0.0, String::kMaxLength);

   // A time value always contains a tagged number in the range
   // [-kMaxTimeInMs, kMaxTimeInMs].
   Type const kTimeValueType =
       CreateRange(-DateCache::kMaxTimeInMs, DateCache::kMaxTimeInMs);

   // The JSDate::day property always contains a tagged number in the range
   // [1, 31] or NaN.
   Type const kJSDateDayType =
       Type::Union(CreateRange(1, 31.0), Type::NaN(), zone());

   // The JSDate::hour property always contains a tagged number in the range
   // [0, 23] or NaN.
   Type const kJSDateHourType =
       Type::Union(CreateRange(0, 23.0), Type::NaN(), zone());

   // The JSDate::minute property always contains a tagged number in the range
   // [0, 59] or NaN.
   Type const kJSDateMinuteType =
       Type::Union(CreateRange(0, 59.0), Type::NaN(), zone());

   // The JSDate::month property always contains a tagged number in the range
   // [0, 11] or NaN.
   Type const kJSDateMonthType =
       Type::Union(CreateRange(0, 11.0), Type::NaN(), zone());

   // The JSDate::second property always contains a tagged number in the range
   // [0, 59] or NaN.
   Type const kJSDateSecondType = kJSDateMinuteType;

   // The JSDate::value property always contains a tagged number in the range
   // [-kMaxTimeInMs, kMaxTimeInMs] or NaN.
   Type const kJSDateValueType =
       Type::Union(kTimeValueType, Type::NaN(), zone());

   // The JSDate::weekday property always contains a tagged number in the range
   // [0, 6] or NaN.
   Type const kJSDateWeekdayType =
       Type::Union(CreateRange(0, 6.0), Type::NaN(), zone());

   // The JSDate::year property always contains a tagged number in the signed
   // small range or NaN.
   Type const kJSDateYearType =
       Type::Union(Type::SignedSmall(), Type::NaN(), zone());

   // The valid number of arguments for JavaScript functions. We can never
   // materialize more than the max size of a fixed array, because we require a
   // fixed array in spread/apply calls.
   Type const kArgumentsLengthType = CreateRange(0.0, FixedArray::kMaxLength);

   // The valid number of arguments for rest parameters. We can never
   // materialize more than the max size of a fixed array, because we require a
   // fixed array in spread/apply calls.
   Type const kRestLengthType = CreateRange(0.0, FixedArray::kMaxLength);

   // The JSArrayIterator::kind property always contains an integer in the
   // range [0, 2], representing the possible IterationKinds.
   Type const kJSArrayIteratorKindType = CreateRange(0.0, 2.0);

  private:
   template <typename T>
   Type CreateRange() {
     return CreateRange(std::numeric_limits<T>::min(),
                        std::numeric_limits<T>::max());
   }

   Type CreateRange(double min, double max) {
     return Type::Range(min, max, zone());
   }

   Zone* zone() { return &zone_; }
 };

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

 #endif  // V8_COMPILER_TYPE_CACHE_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_TYPE_CACHE_H_
	#define V8_COMPILER_TYPE_CACHE_H_

	#include "src/compiler/types.h"
	#include "src/date/date.h"
	#include "src/objects/code.h"
	#include "src/objects/js-array-buffer.h"
	#include "src/objects/string.h"

	namespace v8 {
	namespace internal {
	namespace compiler {

	class V8_EXPORT_PRIVATE TypeCache final {
	private:
	// This has to be first for the initialization magic to work.
	AccountingAllocator allocator;
	Zone zone_;

	public:
	static TypeCache const* Get();

	TypeCache() : zone_(&allocator, ZONE_NAME) {}

	Type const kInt8 = CreateRange<int8_t>();
	Type const kUint8 = CreateRange<uint8_t>();
	Type const kUint8Clamped = kUint8;
	Type const kUint8OrMinusZeroOrNaN =
	Type::Union(kUint8, Type::MinusZeroOrNaN(), zone());
	Type const kInt16 = CreateRange<int16_t>();
	Type const kUint16 = CreateRange<uint16_t>();
	Type const kUnsigned31 = Type::Unsigned31();
	Type const kInt32 = Type::Signed32();
	Type const kUint32 = Type::Unsigned32();
	Type const kInt64 = CreateRange<int64_t>();
	Type const kUint64 = CreateRange<uint64_t>();
	Type const kIntPtr = CreateRange<intptr_t>();
	Type const kFloat32 = Type::Number();
	Type const kFloat64 = Type::Number();
	Type const kBigInt64 = Type::BigInt();
	Type const kBigUint64 = Type::BigInt();

	Type const kHoleySmi = Type::Union(Type::SignedSmall(), Type::Hole(), zone());

	Type const kSingletonZero = CreateRange(0.0, 0.0);
	Type const kSingletonOne = CreateRange(1.0, 1.0);
	Type const kSingletonTen = CreateRange(10.0, 10.0);
	Type const kSingletonMinusOne = CreateRange(-1.0, -1.0);
	Type const kZeroOrMinusZero =
	Type::Union(kSingletonZero, Type::MinusZero(), zone());
	Type const kZeroOrUndefined =
	Type::Union(kSingletonZero, Type::Undefined(), zone());
	Type const kTenOrUndefined =
	Type::Union(kSingletonTen, Type::Undefined(), zone());
	Type const kMinusOneOrZero = CreateRange(-1.0, 0.0);
	Type const kMinusOneToOneOrMinusZeroOrNaN = Type::Union(
	Type::Union(CreateRange(-1.0, 1.0), Type::MinusZero(), zone()),
	Type::NaN(), zone());
	Type const kZeroOrOne = CreateRange(0.0, 1.0);
	Type const kZeroOrOneOrNaN = Type::Union(kZeroOrOne, Type::NaN(), zone());
	Type const kZeroToThirtyOne = CreateRange(0.0, 31.0);
	Type const kZeroToThirtyTwo = CreateRange(0.0, 32.0);
	Type const kZeroish =
	Type::Union(kSingletonZero, Type::MinusZeroOrNaN(), zone());
	Type const kInteger = CreateRange(-V8_INFINITY, V8_INFINITY);
	Type const kIntegerOrMinusZero =
	Type::Union(kInteger, Type::MinusZero(), zone());
	Type const kIntegerOrMinusZeroOrNaN =
	Type::Union(kIntegerOrMinusZero, Type::NaN(), zone());
	Type const kPositiveInteger = CreateRange(0.0, V8_INFINITY);
	Type const kPositiveIntegerOrMinusZero =
	Type::Union(kPositiveInteger, Type::MinusZero(), zone());
	Type const kPositiveIntegerOrNaN =
	Type::Union(kPositiveInteger, Type::NaN(), zone());
	Type const kPositiveIntegerOrMinusZeroOrNaN =
	Type::Union(kPositiveIntegerOrMinusZero, Type::NaN(), zone());

	Type const kAdditiveSafeInteger =
	CreateRange(-4503599627370496.0, 4503599627370496.0);
	Type const kSafeInteger = CreateRange(-kMaxSafeInteger, kMaxSafeInteger);
	Type const kAdditiveSafeIntegerOrMinusZero =
	Type::Union(kAdditiveSafeInteger, Type::MinusZero(), zone());
	Type const kSafeIntegerOrMinusZero =
	Type::Union(kSafeInteger, Type::MinusZero(), zone());
	Type const kPositiveSafeInteger = CreateRange(0.0, kMaxSafeInteger);

	// The FixedArray::length property always containts a smi in the range
	// [0, FixedArray::kMaxLength].
	Type const kFixedArrayLengthType = CreateRange(0.0, FixedArray::kMaxLength);

	// The WeakFixedArray::length property always containts a smi in the range
	// [0, WeakFixedArray::kMaxLength].
	Type const kWeakFixedArrayLengthType =
	CreateRange(0.0, WeakFixedArray::kMaxLength);

	// The FixedDoubleArray::length property always containts a smi in the range
	// [0, FixedDoubleArray::kMaxLength].
	Type const kFixedDoubleArrayLengthType =
	CreateRange(0.0, FixedDoubleArray::kMaxLength);

	// The JSArray::length property always contains a tagged number in the range
	// [0, kMaxUInt32].
	Type const kJSArrayLengthType = Type::Unsigned32();

	// The JSArrayBuffer::byte_length property is limited to safe integer range
	// per specification, but on 32-bit architectures is implemented as uint32_t
	// field, so it's in the [0, kMaxUInt32] range in that case.
	Type const kJSArrayBufferByteLengthType =
	CreateRange(0.0, JSArrayBuffer::kMaxByteLength);

	// The type for the JSArrayBufferView::byte_length property is the same as
	// JSArrayBuffer::byte_length above.
	Type const kJSArrayBufferViewByteLengthType = kJSArrayBufferByteLengthType;

	// The type for the JSArrayBufferView::byte_offset property is the same as
	// JSArrayBuffer::byte_length above.
	Type const kJSArrayBufferViewByteOffsetType = kJSArrayBufferByteLengthType;

	// The JSTypedArray::length property always contains an untagged number in
	// the range [0, JSTypedArray::kMaxLength].
	Type const kJSTypedArrayLengthType =
	CreateRange(0.0, JSTypedArray::kMaxLength);

	// The String::length property always contains a smi in the range
	// [0, String::kMaxLength].
	Type const kStringLengthType = CreateRange(0.0, String::kMaxLength);

	// A time value always contains a tagged number in the range
	// [-kMaxTimeInMs, kMaxTimeInMs].
	Type const kTimeValueType =
	CreateRange(-DateCache::kMaxTimeInMs, DateCache::kMaxTimeInMs);

	// The JSDate::day property always contains a tagged number in the range
	// [1, 31] or NaN.
	Type const kJSDateDayType =
	Type::Union(CreateRange(1, 31.0), Type::NaN(), zone());

	// The JSDate::hour property always contains a tagged number in the range
	// [0, 23] or NaN.
	Type const kJSDateHourType =
	Type::Union(CreateRange(0, 23.0), Type::NaN(), zone());

	// The JSDate::minute property always contains a tagged number in the range
	// [0, 59] or NaN.
	Type const kJSDateMinuteType =
	Type::Union(CreateRange(0, 59.0), Type::NaN(), zone());

	// The JSDate::month property always contains a tagged number in the range
	// [0, 11] or NaN.
	Type const kJSDateMonthType =
	Type::Union(CreateRange(0, 11.0), Type::NaN(), zone());

	// The JSDate::second property always contains a tagged number in the range
	// [0, 59] or NaN.
	Type const kJSDateSecondType = kJSDateMinuteType;

	// The JSDate::value property always contains a tagged number in the range
	// [-kMaxTimeInMs, kMaxTimeInMs] or NaN.
	Type const kJSDateValueType =
	Type::Union(kTimeValueType, Type::NaN(), zone());

	// The JSDate::weekday property always contains a tagged number in the range
	// [0, 6] or NaN.
	Type const kJSDateWeekdayType =
	Type::Union(CreateRange(0, 6.0), Type::NaN(), zone());

	// The JSDate::year property always contains a tagged number in the signed
	// small range or NaN.
	Type const kJSDateYearType =
	Type::Union(Type::SignedSmall(), Type::NaN(), zone());

	// The valid number of arguments for JavaScript functions. We can never
	// materialize more than the max size of a fixed array, because we require a
	// fixed array in spread/apply calls.
	Type const kArgumentsLengthType = CreateRange(0.0, FixedArray::kMaxLength);

	// The valid number of arguments for rest parameters. We can never
	// materialize more than the max size of a fixed array, because we require a
	// fixed array in spread/apply calls.
	Type const kRestLengthType = CreateRange(0.0, FixedArray::kMaxLength);

	// The JSArrayIterator::kind property always contains an integer in the
	// range [0, 2], representing the possible IterationKinds.
	Type const kJSArrayIteratorKindType = CreateRange(0.0, 2.0);

	private:
	template <typename T>
	Type CreateRange() {
	return CreateRange(std::numeric_limits<T>::min(),
	std::numeric_limits<T>::max());
	}

	Type CreateRange(double min, double max) {
	return Type::Range(min, max, zone());
	}

	Zone* zone() { return &zone_; }
	};

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

	#endif // V8_COMPILER_TYPE_CACHE_H_