runtime/quick/inline_method_analyser.h - platform/art - Gitiles

 /*
  * Copyright (C) 2014 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_RUNTIME_QUICK_INLINE_METHOD_ANALYSER_H_
 #define ART_RUNTIME_QUICK_INLINE_METHOD_ANALYSER_H_

 #include "base/macros.h"
 #include "base/mutex.h"
 #include "dex_file.h"
 #include "dex_instruction.h"
 #include "method_reference.h"

 /*
  * NOTE: This code is part of the quick compiler. It lives in the runtime
  * only to allow the debugger to check whether a method has been inlined.
  */

 namespace art {

 namespace verifier {
 class MethodVerifier;
 }  // namespace verifier
 class ArtMethod;

 enum InlineMethodOpcode : uint16_t {
   kIntrinsicDoubleCvt,
   kIntrinsicFloatCvt,
   kIntrinsicFloat2Int,
   kIntrinsicDouble2Long,
   kIntrinsicFloatIsInfinite,
   kIntrinsicDoubleIsInfinite,
   kIntrinsicFloatIsNaN,
   kIntrinsicDoubleIsNaN,
   kIntrinsicReverseBits,
   kIntrinsicReverseBytes,
   kIntrinsicBitCount,
   kIntrinsicCompare,
   kIntrinsicHighestOneBit,
   kIntrinsicLowestOneBit,
   kIntrinsicNumberOfLeadingZeros,
   kIntrinsicNumberOfTrailingZeros,
   kIntrinsicRotateRight,
   kIntrinsicRotateLeft,
   kIntrinsicSignum,
   kIntrinsicAbsInt,
   kIntrinsicAbsLong,
   kIntrinsicAbsFloat,
   kIntrinsicAbsDouble,
   kIntrinsicMinMaxInt,
   kIntrinsicMinMaxLong,
   kIntrinsicMinMaxFloat,
   kIntrinsicMinMaxDouble,
   kIntrinsicCos,
   kIntrinsicSin,
   kIntrinsicAcos,
   kIntrinsicAsin,
   kIntrinsicAtan,
   kIntrinsicAtan2,
   kIntrinsicCbrt,
   kIntrinsicCosh,
   kIntrinsicExp,
   kIntrinsicExpm1,
   kIntrinsicHypot,
   kIntrinsicLog,
   kIntrinsicLog10,
   kIntrinsicNextAfter,
   kIntrinsicSinh,
   kIntrinsicTan,
   kIntrinsicTanh,
   kIntrinsicSqrt,
   kIntrinsicCeil,
   kIntrinsicFloor,
   kIntrinsicRint,
   kIntrinsicRoundFloat,
   kIntrinsicRoundDouble,
   kIntrinsicReferenceGetReferent,
   kIntrinsicCharAt,
   kIntrinsicCompareTo,
   kIntrinsicEquals,
   kIntrinsicGetCharsNoCheck,
   kIntrinsicIsEmptyOrLength,
   kIntrinsicIndexOf,
   kIntrinsicNewStringFromBytes,
   kIntrinsicNewStringFromChars,
   kIntrinsicNewStringFromString,
   kIntrinsicCurrentThread,
   kIntrinsicPeek,
   kIntrinsicPoke,
   kIntrinsicCas,
   kIntrinsicUnsafeGet,
   kIntrinsicUnsafePut,

   // 1.8.
   kIntrinsicUnsafeGetAndAddInt,
   kIntrinsicUnsafeGetAndAddLong,
   kIntrinsicUnsafeGetAndSetInt,
   kIntrinsicUnsafeGetAndSetLong,
   kIntrinsicUnsafeGetAndSetObject,
   kIntrinsicUnsafeLoadFence,
   kIntrinsicUnsafeStoreFence,
   kIntrinsicUnsafeFullFence,

   kIntrinsicSystemArrayCopyCharArray,
   kIntrinsicSystemArrayCopy,

   kInlineOpNop,
   kInlineOpReturnArg,
   kInlineOpNonWideConst,
   kInlineOpIGet,
   kInlineOpIPut,
   kInlineOpConstructor,
   kInlineStringInit,
 };
 std::ostream& operator<<(std::ostream& os, const InlineMethodOpcode& rhs);

 enum InlineMethodFlags : uint16_t {
   kNoInlineMethodFlags = 0x0000,
   kInlineIntrinsic     = 0x0001,
   kInlineSpecial       = 0x0002,
 };

 // IntrinsicFlags are stored in InlineMethod::d::raw_data
 enum IntrinsicFlags {
   kIntrinsicFlagNone = 0,

   // kIntrinsicMinMaxInt
   kIntrinsicFlagMax = kIntrinsicFlagNone,
   kIntrinsicFlagMin = 1,

   // kIntrinsicIsEmptyOrLength
   kIntrinsicFlagLength  = kIntrinsicFlagNone,
   kIntrinsicFlagIsEmpty = kIntrinsicFlagMin,

   // kIntrinsicIndexOf
   kIntrinsicFlagBase0 = kIntrinsicFlagMin,

   // kIntrinsicUnsafeGet, kIntrinsicUnsafePut, kIntrinsicUnsafeCas
   kIntrinsicFlagIsLong     = kIntrinsicFlagMin,
   // kIntrinsicUnsafeGet, kIntrinsicUnsafePut
   kIntrinsicFlagIsVolatile = 2,
   // kIntrinsicUnsafePut, kIntrinsicUnsafeCas
   kIntrinsicFlagIsObject   = 4,
   // kIntrinsicUnsafePut
   kIntrinsicFlagIsOrdered  = 8,

   // kIntrinsicDoubleCvt, kIntrinsicFloatCvt.
   kIntrinsicFlagToFloatingPoint = kIntrinsicFlagMin,
 };

 struct InlineIGetIPutData {
   // The op_variant below is DexMemAccessType but the runtime doesn't know that enumeration.
   uint16_t op_variant : 3;
   uint16_t method_is_static : 1;
   uint16_t object_arg : 4;
   uint16_t src_arg : 4;  // iput only
   uint16_t return_arg_plus1 : 4;  // iput only, method argument to return + 1, 0 = return void.
   uint16_t field_idx;
   uint32_t is_volatile : 1;
   uint32_t field_offset : 31;
 };
 static_assert(sizeof(InlineIGetIPutData) == sizeof(uint64_t), "Invalid size of InlineIGetIPutData");

 struct InlineReturnArgData {
   uint16_t arg;
   uint16_t is_wide : 1;
   uint16_t is_object : 1;
   uint16_t reserved : 14;
   uint32_t reserved2;
 };
 static_assert(sizeof(InlineReturnArgData) == sizeof(uint64_t),
               "Invalid size of InlineReturnArgData");

 struct InlineConstructorData {
   // There can be up to 3 IPUTs, unused fields are marked with kNoDexIndex16.
   uint16_t iput0_field_index;
   uint16_t iput1_field_index;
   uint16_t iput2_field_index;
   uint16_t iput0_arg : 4;
   uint16_t iput1_arg : 4;
   uint16_t iput2_arg : 4;
   uint16_t reserved : 4;
 };
 static_assert(sizeof(InlineConstructorData) == sizeof(uint64_t),
               "Invalid size of InlineConstructorData");

 struct InlineMethod {
   InlineMethodOpcode opcode;
   InlineMethodFlags flags;
   union {
     uint64_t data;
     InlineIGetIPutData ifield_data;
     InlineReturnArgData return_data;
     InlineConstructorData constructor_data;
   } d;
 };

 class InlineMethodAnalyser {
  public:
   /**
    * Analyse method code to determine if the method is a candidate for inlining.
    * If it is, record the inlining data.
    *
    * @param verifier the method verifier holding data about the method to analyse.
    * @param method placeholder for the inline method data.
    * @return true if the method is a candidate for inlining, false otherwise.
    */
   static bool AnalyseMethodCode(verifier::MethodVerifier* verifier, InlineMethod* result)
       REQUIRES_SHARED(Locks::mutator_lock_);
   static bool AnalyseMethodCode(ArtMethod* method, InlineMethod* result)
       REQUIRES_SHARED(Locks::mutator_lock_);

   static constexpr bool IsInstructionIGet(Instruction::Code opcode) {
     return Instruction::IGET <= opcode && opcode <= Instruction::IGET_SHORT;
   }

   static constexpr bool IsInstructionIPut(Instruction::Code opcode) {
     return Instruction::IPUT <= opcode && opcode <= Instruction::IPUT_SHORT;
   }

   static constexpr uint16_t IGetVariant(Instruction::Code opcode) {
     return opcode - Instruction::IGET;
   }

   static constexpr uint16_t IPutVariant(Instruction::Code opcode) {
     return opcode - Instruction::IPUT;
   }

   // Determines whether the method is a synthetic accessor (method name starts with "access$").
   static bool IsSyntheticAccessor(MethodReference ref);

  private:
   static bool AnalyseMethodCode(const DexFile::CodeItem* code_item,
                                 const MethodReference& method_ref,
                                 bool is_static,
                                 ArtMethod* method,
                                 InlineMethod* result)
       REQUIRES_SHARED(Locks::mutator_lock_);
   static bool AnalyseReturnMethod(const DexFile::CodeItem* code_item, InlineMethod* result);
   static bool AnalyseConstMethod(const DexFile::CodeItem* code_item, InlineMethod* result);
   static bool AnalyseIGetMethod(const DexFile::CodeItem* code_item,
                                 const MethodReference& method_ref,
                                 bool is_static,
                                 ArtMethod* method,
                                 InlineMethod* result)
       REQUIRES_SHARED(Locks::mutator_lock_);
   static bool AnalyseIPutMethod(const DexFile::CodeItem* code_item,
                                 const MethodReference& method_ref,
                                 bool is_static,
                                 ArtMethod* method,
                                 InlineMethod* result)
       REQUIRES_SHARED(Locks::mutator_lock_);

   // Can we fast path instance field access in a verified accessor?
   // If yes, computes field's offset and volatility and whether the method is static or not.
   static bool ComputeSpecialAccessorInfo(ArtMethod* method,
                                          uint32_t field_idx,
                                          bool is_put,
                                          InlineIGetIPutData* result)
       REQUIRES_SHARED(Locks::mutator_lock_);
 };

 }  // namespace art

 #endif  // ART_RUNTIME_QUICK_INLINE_METHOD_ANALYSER_H_
	/*
	* Copyright (C) 2014 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_RUNTIME_QUICK_INLINE_METHOD_ANALYSER_H_
	#define ART_RUNTIME_QUICK_INLINE_METHOD_ANALYSER_H_

	#include "base/macros.h"
	#include "base/mutex.h"
	#include "dex_file.h"
	#include "dex_instruction.h"
	#include "method_reference.h"

	/*
	* NOTE: This code is part of the quick compiler. It lives in the runtime
	* only to allow the debugger to check whether a method has been inlined.
	*/

	namespace art {

	namespace verifier {
	class MethodVerifier;
	} // namespace verifier
	class ArtMethod;

	enum InlineMethodOpcode : uint16_t {
	kIntrinsicDoubleCvt,
	kIntrinsicFloatCvt,
	kIntrinsicFloat2Int,
	kIntrinsicDouble2Long,
	kIntrinsicFloatIsInfinite,
	kIntrinsicDoubleIsInfinite,
	kIntrinsicFloatIsNaN,
	kIntrinsicDoubleIsNaN,
	kIntrinsicReverseBits,
	kIntrinsicReverseBytes,
	kIntrinsicBitCount,
	kIntrinsicCompare,
	kIntrinsicHighestOneBit,
	kIntrinsicLowestOneBit,
	kIntrinsicNumberOfLeadingZeros,
	kIntrinsicNumberOfTrailingZeros,
	kIntrinsicRotateRight,
	kIntrinsicRotateLeft,
	kIntrinsicSignum,
	kIntrinsicAbsInt,
	kIntrinsicAbsLong,
	kIntrinsicAbsFloat,
	kIntrinsicAbsDouble,
	kIntrinsicMinMaxInt,
	kIntrinsicMinMaxLong,
	kIntrinsicMinMaxFloat,
	kIntrinsicMinMaxDouble,
	kIntrinsicCos,
	kIntrinsicSin,
	kIntrinsicAcos,
	kIntrinsicAsin,
	kIntrinsicAtan,
	kIntrinsicAtan2,
	kIntrinsicCbrt,
	kIntrinsicCosh,
	kIntrinsicExp,
	kIntrinsicExpm1,
	kIntrinsicHypot,
	kIntrinsicLog,
	kIntrinsicLog10,
	kIntrinsicNextAfter,
	kIntrinsicSinh,
	kIntrinsicTan,
	kIntrinsicTanh,
	kIntrinsicSqrt,
	kIntrinsicCeil,
	kIntrinsicFloor,
	kIntrinsicRint,
	kIntrinsicRoundFloat,
	kIntrinsicRoundDouble,
	kIntrinsicReferenceGetReferent,
	kIntrinsicCharAt,
	kIntrinsicCompareTo,
	kIntrinsicEquals,
	kIntrinsicGetCharsNoCheck,
	kIntrinsicIsEmptyOrLength,
	kIntrinsicIndexOf,
	kIntrinsicNewStringFromBytes,
	kIntrinsicNewStringFromChars,
	kIntrinsicNewStringFromString,
	kIntrinsicCurrentThread,
	kIntrinsicPeek,
	kIntrinsicPoke,
	kIntrinsicCas,
	kIntrinsicUnsafeGet,
	kIntrinsicUnsafePut,

	// 1.8.
	kIntrinsicUnsafeGetAndAddInt,
	kIntrinsicUnsafeGetAndAddLong,
	kIntrinsicUnsafeGetAndSetInt,
	kIntrinsicUnsafeGetAndSetLong,
	kIntrinsicUnsafeGetAndSetObject,
	kIntrinsicUnsafeLoadFence,
	kIntrinsicUnsafeStoreFence,
	kIntrinsicUnsafeFullFence,

	kIntrinsicSystemArrayCopyCharArray,
	kIntrinsicSystemArrayCopy,

	kInlineOpNop,
	kInlineOpReturnArg,
	kInlineOpNonWideConst,
	kInlineOpIGet,
	kInlineOpIPut,
	kInlineOpConstructor,
	kInlineStringInit,
	};
	std::ostream& operator<<(std::ostream& os, const InlineMethodOpcode& rhs);

	enum InlineMethodFlags : uint16_t {
	kNoInlineMethodFlags = 0x0000,
	kInlineIntrinsic = 0x0001,
	kInlineSpecial = 0x0002,
	};

	// IntrinsicFlags are stored in InlineMethod::d::raw_data
	enum IntrinsicFlags {
	kIntrinsicFlagNone = 0,

	// kIntrinsicMinMaxInt
	kIntrinsicFlagMax = kIntrinsicFlagNone,
	kIntrinsicFlagMin = 1,

	// kIntrinsicIsEmptyOrLength
	kIntrinsicFlagLength = kIntrinsicFlagNone,
	kIntrinsicFlagIsEmpty = kIntrinsicFlagMin,

	// kIntrinsicIndexOf
	kIntrinsicFlagBase0 = kIntrinsicFlagMin,

	// kIntrinsicUnsafeGet, kIntrinsicUnsafePut, kIntrinsicUnsafeCas
	kIntrinsicFlagIsLong = kIntrinsicFlagMin,
	// kIntrinsicUnsafeGet, kIntrinsicUnsafePut
	kIntrinsicFlagIsVolatile = 2,
	// kIntrinsicUnsafePut, kIntrinsicUnsafeCas
	kIntrinsicFlagIsObject = 4,
	// kIntrinsicUnsafePut
	kIntrinsicFlagIsOrdered = 8,

	// kIntrinsicDoubleCvt, kIntrinsicFloatCvt.
	kIntrinsicFlagToFloatingPoint = kIntrinsicFlagMin,
	};

	struct InlineIGetIPutData {
	// The op_variant below is DexMemAccessType but the runtime doesn't know that enumeration.
	uint16_t op_variant : 3;
	uint16_t method_is_static : 1;
	uint16_t object_arg : 4;
	uint16_t src_arg : 4; // iput only
	uint16_t return_arg_plus1 : 4; // iput only, method argument to return + 1, 0 = return void.
	uint16_t field_idx;
	uint32_t is_volatile : 1;
	uint32_t field_offset : 31;
	};
	static_assert(sizeof(InlineIGetIPutData) == sizeof(uint64_t), "Invalid size of InlineIGetIPutData");

	struct InlineReturnArgData {
	uint16_t arg;
	uint16_t is_wide : 1;
	uint16_t is_object : 1;
	uint16_t reserved : 14;
	uint32_t reserved2;
	};
	static_assert(sizeof(InlineReturnArgData) == sizeof(uint64_t),
	"Invalid size of InlineReturnArgData");

	struct InlineConstructorData {
	// There can be up to 3 IPUTs, unused fields are marked with kNoDexIndex16.
	uint16_t iput0_field_index;
	uint16_t iput1_field_index;
	uint16_t iput2_field_index;
	uint16_t iput0_arg : 4;
	uint16_t iput1_arg : 4;
	uint16_t iput2_arg : 4;
	uint16_t reserved : 4;
	};
	static_assert(sizeof(InlineConstructorData) == sizeof(uint64_t),
	"Invalid size of InlineConstructorData");

	struct InlineMethod {
	InlineMethodOpcode opcode;
	InlineMethodFlags flags;
	union {
	uint64_t data;
	InlineIGetIPutData ifield_data;
	InlineReturnArgData return_data;
	InlineConstructorData constructor_data;
	} d;
	};

	class InlineMethodAnalyser {
	public:
	/**
	* Analyse method code to determine if the method is a candidate for inlining.
	* If it is, record the inlining data.
	*
	* @param verifier the method verifier holding data about the method to analyse.
	* @param method placeholder for the inline method data.
	* @return true if the method is a candidate for inlining, false otherwise.
	*/
	static bool AnalyseMethodCode(verifier::MethodVerifier* verifier, InlineMethod* result)
	REQUIRES_SHARED(Locks::mutator_lock_);
	static bool AnalyseMethodCode(ArtMethod* method, InlineMethod* result)
	REQUIRES_SHARED(Locks::mutator_lock_);

	static constexpr bool IsInstructionIGet(Instruction::Code opcode) {
	return Instruction::IGET <= opcode && opcode <= Instruction::IGET_SHORT;
	}

	static constexpr bool IsInstructionIPut(Instruction::Code opcode) {
	return Instruction::IPUT <= opcode && opcode <= Instruction::IPUT_SHORT;
	}

	static constexpr uint16_t IGetVariant(Instruction::Code opcode) {
	return opcode - Instruction::IGET;
	}

	static constexpr uint16_t IPutVariant(Instruction::Code opcode) {
	return opcode - Instruction::IPUT;
	}

	// Determines whether the method is a synthetic accessor (method name starts with "access$").
	static bool IsSyntheticAccessor(MethodReference ref);

	private:
	static bool AnalyseMethodCode(const DexFile::CodeItem* code_item,
	const MethodReference& method_ref,
	bool is_static,
	ArtMethod* method,
	InlineMethod* result)
	REQUIRES_SHARED(Locks::mutator_lock_);
	static bool AnalyseReturnMethod(const DexFile::CodeItem* code_item, InlineMethod* result);
	static bool AnalyseConstMethod(const DexFile::CodeItem* code_item, InlineMethod* result);
	static bool AnalyseIGetMethod(const DexFile::CodeItem* code_item,
	const MethodReference& method_ref,
	bool is_static,
	ArtMethod* method,
	InlineMethod* result)
	REQUIRES_SHARED(Locks::mutator_lock_);
	static bool AnalyseIPutMethod(const DexFile::CodeItem* code_item,
	const MethodReference& method_ref,
	bool is_static,
	ArtMethod* method,
	InlineMethod* result)
	REQUIRES_SHARED(Locks::mutator_lock_);

	// Can we fast path instance field access in a verified accessor?
	// If yes, computes field's offset and volatility and whether the method is static or not.
	static bool ComputeSpecialAccessorInfo(ArtMethod* method,
	uint32_t field_idx,
	bool is_put,
	InlineIGetIPutData* result)
	REQUIRES_SHARED(Locks::mutator_lock_);
	};

	} // namespace art

	#endif // ART_RUNTIME_QUICK_INLINE_METHOD_ANALYSER_H_