/* * Copyright (C) 2018 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_COMPILER_OPTIMIZING_LOOP_ANALYSIS_H_ #define ART_COMPILER_OPTIMIZING_LOOP_ANALYSIS_H_ #include "nodes.h" namespace art { class InductionVarRange; class LoopAnalysis; // Class to hold cached information on properties of the loop. class LoopAnalysisInfo : public ValueObject { public: // No loop unrolling factor (just one copy of the loop-body). static constexpr uint32_t kNoUnrollingFactor = 1; // Used for unknown and non-constant trip counts (see InductionVarRange::HasKnownTripCount). static constexpr int64_t kUnknownTripCount = -1; explicit LoopAnalysisInfo(HLoopInformation* loop_info) : trip_count_(kUnknownTripCount), bb_num_(0), instr_num_(0), exits_num_(0), invariant_exits_num_(0), has_instructions_preventing_scalar_peeling_(false), has_instructions_preventing_scalar_unrolling_(false), has_long_type_instructions_(false), loop_info_(loop_info) {} int64_t GetTripCount() const { return trip_count_; } size_t GetNumberOfBasicBlocks() const { return bb_num_; } size_t GetNumberOfInstructions() const { return instr_num_; } size_t GetNumberOfExits() const { return exits_num_; } size_t GetNumberOfInvariantExits() const { return invariant_exits_num_; } bool HasInstructionsPreventingScalarPeeling() const { return has_instructions_preventing_scalar_peeling_; } bool HasInstructionsPreventingScalarUnrolling() const { return has_instructions_preventing_scalar_unrolling_; } bool HasInstructionsPreventingScalarOpts() const { return HasInstructionsPreventingScalarPeeling() || HasInstructionsPreventingScalarUnrolling(); } bool HasLongTypeInstructions() const { return has_long_type_instructions_; } HLoopInformation* GetLoopInfo() const { return loop_info_; } private: // Trip count of the loop if known, kUnknownTripCount otherwise. int64_t trip_count_; // Number of basic blocks in the loop body. size_t bb_num_; // Number of instructions in the loop body. size_t instr_num_; // Number of loop's exits. size_t exits_num_; // Number of "if" loop exits (with HIf instruction) whose condition is loop-invariant. size_t invariant_exits_num_; // Whether the loop has instructions which make scalar loop peeling non-beneficial. bool has_instructions_preventing_scalar_peeling_; // Whether the loop has instructions which make scalar loop unrolling non-beneficial. bool has_instructions_preventing_scalar_unrolling_; // Whether the loop has instructions of primitive long type; unrolling these loop will // likely introduce spill/fills on 32-bit targets. bool has_long_type_instructions_; // Corresponding HLoopInformation. HLoopInformation* loop_info_; friend class LoopAnalysis; }; // Placeholder class for methods and routines used to analyse loops, calculate loop properties // and characteristics. class LoopAnalysis : public ValueObject { public: // Calculates loops basic properties like body size, exits number, etc. and fills // 'analysis_results' with this information. static void CalculateLoopBasicProperties(HLoopInformation* loop_info, LoopAnalysisInfo* analysis_results, int64_t trip_count); // Returns the trip count of the loop if it is known and kUnknownTripCount otherwise. static int64_t GetLoopTripCount(HLoopInformation* loop_info, const InductionVarRange* induction_range); private: // Returns whether an instruction makes scalar loop peeling/unrolling non-beneficial. // // If in the loop body we have a dex/runtime call then its contribution to the whole // loop performance will probably prevail. So peeling/unrolling optimization will not bring // any noticeable performance improvement. It will increase the code size. static bool MakesScalarPeelingUnrollingNonBeneficial(HInstruction* instruction) { return (instruction->IsNewArray() || instruction->IsNewInstance() || instruction->IsUnresolvedInstanceFieldGet() || instruction->IsUnresolvedInstanceFieldSet() || instruction->IsUnresolvedStaticFieldGet() || instruction->IsUnresolvedStaticFieldSet() || // TODO: Support loops with intrinsified invokes. instruction->IsInvoke()); } }; // // Helper class which holds target-dependent methods and constants needed for loop optimizations. // // To support peeling/unrolling for a new architecture one needs to create new helper class, // inherit it from this and add implementation for the following methods. // class ArchNoOptsLoopHelper : public ArenaObject { public: virtual ~ArchNoOptsLoopHelper() {} // Creates an instance of specialised helper for the target or default helper if the target // doesn't support loop peeling and unrolling. static ArchNoOptsLoopHelper* Create(InstructionSet isa, ArenaAllocator* allocator); // Returns whether the loop is not beneficial for loop peeling/unrolling. // // For example, if the loop body has too many instructions then peeling/unrolling optimization // will not bring any noticeable performance improvement however will increase the code size. // // Returns 'true' by default, should be overridden by particular target loop helper. virtual bool IsLoopNonBeneficialForScalarOpts( LoopAnalysisInfo* loop_analysis_info ATTRIBUTE_UNUSED) const { return true; } // Returns optimal scalar unrolling factor for the loop. // // Returns kNoUnrollingFactor by default, should be overridden by particular target loop helper. virtual uint32_t GetScalarUnrollingFactor( const LoopAnalysisInfo* analysis_info ATTRIBUTE_UNUSED) const { return LoopAnalysisInfo::kNoUnrollingFactor; } // Returns whether scalar loop peeling is enabled, // // Returns 'false' by default, should be overridden by particular target loop helper. virtual bool IsLoopPeelingEnabled() const { return false; } // Returns whether it is beneficial to fully unroll the loop. // // Returns 'false' by default, should be overridden by particular target loop helper. virtual bool IsFullUnrollingBeneficial(LoopAnalysisInfo* analysis_info ATTRIBUTE_UNUSED) const { return false; } // Returns optimal SIMD unrolling factor for the loop. // // Returns kNoUnrollingFactor by default, should be overridden by particular target loop helper. virtual uint32_t GetSIMDUnrollingFactor(HBasicBlock* block ATTRIBUTE_UNUSED, int64_t trip_count ATTRIBUTE_UNUSED, uint32_t max_peel ATTRIBUTE_UNUSED, uint32_t vector_length ATTRIBUTE_UNUSED) const { return LoopAnalysisInfo::kNoUnrollingFactor; } }; } // namespace art #endif // ART_COMPILER_OPTIMIZING_LOOP_ANALYSIS_H_