/* * Copyright (C) 2011 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef ART_LIBDEXFILE_DEX_PRIMITIVE_H_ #define ART_LIBDEXFILE_DEX_PRIMITIVE_H_ #include #include #include "base/macros.h" namespace art { static constexpr size_t kObjectReferenceSize = 4; constexpr size_t ComponentSizeShiftWidth(size_t component_size) { return component_size == 1u ? 0u : component_size == 2u ? 1u : component_size == 4u ? 2u : component_size == 8u ? 3u : 0u; } class Primitive { public: enum Type { kPrimNot = 0, kPrimBoolean, kPrimByte, kPrimChar, kPrimShort, kPrimInt, kPrimLong, kPrimFloat, kPrimDouble, kPrimVoid, kPrimLast = kPrimVoid }; static constexpr Type GetType(char type) { switch (type) { case 'B': return kPrimByte; case 'C': return kPrimChar; case 'D': return kPrimDouble; case 'F': return kPrimFloat; case 'I': return kPrimInt; case 'J': return kPrimLong; case 'S': return kPrimShort; case 'Z': return kPrimBoolean; case 'V': return kPrimVoid; default: return kPrimNot; } } static constexpr size_t ComponentSizeShift(Type type) { switch (type) { case kPrimVoid: case kPrimBoolean: case kPrimByte: return 0; case kPrimChar: case kPrimShort: return 1; case kPrimInt: case kPrimFloat: return 2; case kPrimLong: case kPrimDouble: return 3; case kPrimNot: return ComponentSizeShiftWidth(kObjectReferenceSize); } LOG(FATAL) << "Invalid type " << static_cast(type); UNREACHABLE(); } static constexpr size_t ComponentSize(Type type) { switch (type) { case kPrimVoid: return 0; case kPrimBoolean: case kPrimByte: return 1; case kPrimChar: case kPrimShort: return 2; case kPrimInt: case kPrimFloat: return 4; case kPrimLong: case kPrimDouble: return 8; case kPrimNot: return kObjectReferenceSize; } LOG(FATAL) << "Invalid type " << static_cast(type); UNREACHABLE(); } static const char* Descriptor(Type type) { switch (type) { case kPrimBoolean: return "Z"; case kPrimByte: return "B"; case kPrimChar: return "C"; case kPrimShort: return "S"; case kPrimInt: return "I"; case kPrimFloat: return "F"; case kPrimLong: return "J"; case kPrimDouble: return "D"; case kPrimVoid: return "V"; default: LOG(FATAL) << "Primitive char conversion on invalid type " << static_cast(type); return nullptr; } } static const char* PrettyDescriptor(Type type); // Returns the descriptor corresponding to the boxed type of |type|. static const char* BoxedDescriptor(Type type); // Returns true if |type| is an numeric type. static constexpr bool IsNumericType(Type type) { switch (type) { case Primitive::Type::kPrimNot: return false; case Primitive::Type::kPrimBoolean: return false; case Primitive::Type::kPrimByte: return true; case Primitive::Type::kPrimChar: return true; case Primitive::Type::kPrimShort: return true; case Primitive::Type::kPrimInt: return true; case Primitive::Type::kPrimLong: return true; case Primitive::Type::kPrimFloat: return true; case Primitive::Type::kPrimDouble: return true; case Primitive::Type::kPrimVoid: return false; } LOG(FATAL) << "Invalid type " << static_cast(type); UNREACHABLE(); } // Return trues if |type| is a signed numeric type. static constexpr bool IsSignedNumericType(Type type) { switch (type) { case Primitive::Type::kPrimNot: return false; case Primitive::Type::kPrimBoolean: return false; case Primitive::Type::kPrimByte: return true; case Primitive::Type::kPrimChar: return false; case Primitive::Type::kPrimShort: return true; case Primitive::Type::kPrimInt: return true; case Primitive::Type::kPrimLong: return true; case Primitive::Type::kPrimFloat: return true; case Primitive::Type::kPrimDouble: return true; case Primitive::Type::kPrimVoid: return false; } LOG(FATAL) << "Invalid type " << static_cast(type); UNREACHABLE(); } // Returns the number of bits required to hold the largest // positive number that can be represented by |type|. static constexpr size_t BitsRequiredForLargestValue(Type type) { switch (type) { case Primitive::Type::kPrimNot: return 0u; case Primitive::Type::kPrimBoolean: return 1u; case Primitive::Type::kPrimByte: return 7u; case Primitive::Type::kPrimChar: return 16u; case Primitive::Type::kPrimShort: return 15u; case Primitive::Type::kPrimInt: return 31u; case Primitive::Type::kPrimLong: return 63u; case Primitive::Type::kPrimFloat: return 128u; case Primitive::Type::kPrimDouble: return 1024u; case Primitive::Type::kPrimVoid: return 0u; } } // Returns true if it is possible to widen type |from| to type |to|. Both |from| and // |to| should be numeric primitive types. static bool IsWidenable(Type from, Type to) { if (!IsNumericType(from) || !IsNumericType(to)) { // Widening is only applicable between numeric types. return false; } if (IsSignedNumericType(from) && !IsSignedNumericType(to)) { // Nowhere to store the sign bit in |to|. return false; } if (BitsRequiredForLargestValue(from) > BitsRequiredForLargestValue(to)) { // The from,to pair corresponds to a narrowing. return false; } return true; } static bool Is64BitType(Type type) { return type == kPrimLong || type == kPrimDouble; } private: DISALLOW_IMPLICIT_CONSTRUCTORS(Primitive); }; std::ostream& operator<<(std::ostream& os, Primitive::Type state); } // namespace art #endif // ART_LIBDEXFILE_DEX_PRIMITIVE_H_