| /* |
| * Copyright (C) 2016 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_OPTIMIZATION_H_ |
| #define ART_COMPILER_OPTIMIZING_LOOP_OPTIMIZATION_H_ |
| |
| #include "base/macros.h" |
| #include "base/scoped_arena_allocator.h" |
| #include "base/scoped_arena_containers.h" |
| #include "induction_var_range.h" |
| #include "loop_analysis.h" |
| #include "nodes.h" |
| #include "optimization.h" |
| #include "superblock_cloner.h" |
| |
| namespace art HIDDEN { |
| |
| class CompilerOptions; |
| class ArchNoOptsLoopHelper; |
| |
| /** |
| * Loop optimizations. Builds a loop hierarchy and applies optimizations to |
| * the detected nested loops, such as removal of dead induction and empty loops |
| * and inner loop vectorization. |
| */ |
| class HLoopOptimization : public HOptimization { |
| public: |
| HLoopOptimization(HGraph* graph, |
| const CompilerOptions* compiler_options, |
| HInductionVarAnalysis* induction_analysis, |
| OptimizingCompilerStats* stats, |
| const char* name = kLoopOptimizationPassName); |
| |
| bool Run() override; |
| |
| static constexpr const char* kLoopOptimizationPassName = "loop_optimization"; |
| |
| private: |
| /** |
| * A single loop inside the loop hierarchy representation. |
| */ |
| struct LoopNode : public ArenaObject<kArenaAllocLoopOptimization> { |
| explicit LoopNode(HLoopInformation* lp_info) |
| : loop_info(lp_info), |
| outer(nullptr), |
| inner(nullptr), |
| previous(nullptr), |
| next(nullptr) {} |
| HLoopInformation* loop_info; |
| LoopNode* outer; |
| LoopNode* inner; |
| LoopNode* previous; |
| LoopNode* next; |
| }; |
| |
| /* |
| * Vectorization restrictions (bit mask). |
| */ |
| enum VectorRestrictions { |
| kNone = 0, // no restrictions |
| kNoMul = 1 << 0, // no multiplication |
| kNoDiv = 1 << 1, // no division |
| kNoShift = 1 << 2, // no shift |
| kNoShr = 1 << 3, // no arithmetic shift right |
| kNoHiBits = 1 << 4, // "wider" operations cannot bring in higher order bits |
| kNoSignedHAdd = 1 << 5, // no signed halving add |
| kNoUnroundedHAdd = 1 << 6, // no unrounded halving add |
| kNoAbs = 1 << 7, // no absolute value |
| kNoStringCharAt = 1 << 8, // no StringCharAt |
| kNoReduction = 1 << 9, // no reduction |
| kNoSAD = 1 << 10, // no sum of absolute differences (SAD) |
| kNoWideSAD = 1 << 11, // no sum of absolute differences (SAD) with operand widening |
| kNoDotProd = 1 << 12, // no dot product |
| }; |
| |
| /* |
| * Vectorization mode during synthesis |
| * (sequential peeling/cleanup loop or vector loop). |
| */ |
| enum VectorMode { |
| kSequential, |
| kVector |
| }; |
| |
| /* |
| * Representation of a unit-stride array reference. |
| */ |
| struct ArrayReference { |
| ArrayReference(HInstruction* b, HInstruction* o, DataType::Type t, bool l, bool c = false) |
| : base(b), offset(o), type(t), lhs(l), is_string_char_at(c) { } |
| bool operator<(const ArrayReference& other) const { |
| return |
| (base < other.base) || |
| (base == other.base && |
| (offset < other.offset || (offset == other.offset && |
| (type < other.type || |
| (type == other.type && |
| (lhs < other.lhs || |
| (lhs == other.lhs && |
| is_string_char_at < other.is_string_char_at))))))); |
| } |
| HInstruction* base; // base address |
| HInstruction* offset; // offset + i |
| DataType::Type type; // component type |
| bool lhs; // def/use |
| bool is_string_char_at; // compressed string read |
| }; |
| |
| // |
| // Loop setup and traversal. |
| // |
| |
| bool LocalRun(); |
| void AddLoop(HLoopInformation* loop_info); |
| void RemoveLoop(LoopNode* node); |
| |
| // Traverses all loops inner to outer to perform simplifications and optimizations. |
| // Returns true if loops nested inside current loop (node) have changed. |
| bool TraverseLoopsInnerToOuter(LoopNode* node); |
| |
| // |
| // Optimization. |
| // |
| |
| void SimplifyInduction(LoopNode* node); |
| void SimplifyBlocks(LoopNode* node); |
| |
| // Performs optimizations specific to inner loop with finite header logic (empty loop removal, |
| // unrolling, vectorization). Returns true if anything changed. |
| bool TryOptimizeInnerLoopFinite(LoopNode* node); |
| |
| // Performs optimizations specific to inner loop. Returns true if anything changed. |
| bool OptimizeInnerLoop(LoopNode* node); |
| |
| // Tries to apply loop unrolling for branch penalty reduction and better instruction scheduling |
| // opportunities. Returns whether transformation happened. 'generate_code' determines whether the |
| // optimization should be actually applied. |
| bool TryUnrollingForBranchPenaltyReduction(LoopAnalysisInfo* analysis_info, |
| bool generate_code = true); |
| |
| // Tries to apply loop peeling for loop invariant exits elimination. Returns whether |
| // transformation happened. 'generate_code' determines whether the optimization should be |
| // actually applied. |
| bool TryPeelingForLoopInvariantExitsElimination(LoopAnalysisInfo* analysis_info, |
| bool generate_code = true); |
| |
| // Tries to perform whole loop unrolling for a small loop with a small trip count to eliminate |
| // the loop check overhead and to have more opportunities for inter-iteration optimizations. |
| // Returns whether transformation happened. 'generate_code' determines whether the optimization |
| // should be actually applied. |
| bool TryFullUnrolling(LoopAnalysisInfo* analysis_info, bool generate_code = true); |
| |
| // Tries to apply scalar loop peeling and unrolling. |
| bool TryPeelingAndUnrolling(LoopNode* node); |
| |
| // |
| // Vectorization analysis and synthesis. |
| // |
| |
| bool ShouldVectorize(LoopNode* node, HBasicBlock* block, int64_t trip_count); |
| void Vectorize(LoopNode* node, HBasicBlock* block, HBasicBlock* exit, int64_t trip_count); |
| void GenerateNewLoop(LoopNode* node, |
| HBasicBlock* block, |
| HBasicBlock* new_preheader, |
| HInstruction* lo, |
| HInstruction* hi, |
| HInstruction* step, |
| uint32_t unroll); |
| bool VectorizeDef(LoopNode* node, HInstruction* instruction, bool generate_code); |
| bool VectorizeUse(LoopNode* node, |
| HInstruction* instruction, |
| bool generate_code, |
| DataType::Type type, |
| uint64_t restrictions); |
| uint32_t GetVectorSizeInBytes(); |
| bool TrySetVectorType(DataType::Type type, /*out*/ uint64_t* restrictions); |
| bool TrySetVectorLength(uint32_t length); |
| void GenerateVecInv(HInstruction* org, DataType::Type type); |
| void GenerateVecSub(HInstruction* org, HInstruction* offset); |
| void GenerateVecMem(HInstruction* org, |
| HInstruction* opa, |
| HInstruction* opb, |
| HInstruction* offset, |
| DataType::Type type); |
| void GenerateVecReductionPhi(HPhi* phi); |
| void GenerateVecReductionPhiInputs(HPhi* phi, HInstruction* reduction); |
| HInstruction* ReduceAndExtractIfNeeded(HInstruction* instruction); |
| void GenerateVecOp(HInstruction* org, |
| HInstruction* opa, |
| HInstruction* opb, |
| DataType::Type type); |
| |
| // Vectorization idioms. |
| bool VectorizeSaturationIdiom(LoopNode* node, |
| HInstruction* instruction, |
| bool generate_code, |
| DataType::Type type, |
| uint64_t restrictions); |
| bool VectorizeHalvingAddIdiom(LoopNode* node, |
| HInstruction* instruction, |
| bool generate_code, |
| DataType::Type type, |
| uint64_t restrictions); |
| bool VectorizeSADIdiom(LoopNode* node, |
| HInstruction* instruction, |
| bool generate_code, |
| DataType::Type type, |
| uint64_t restrictions); |
| bool VectorizeDotProdIdiom(LoopNode* node, |
| HInstruction* instruction, |
| bool generate_code, |
| DataType::Type type, |
| uint64_t restrictions); |
| |
| // Vectorization heuristics. |
| Alignment ComputeAlignment(HInstruction* offset, |
| DataType::Type type, |
| bool is_string_char_at, |
| uint32_t peeling = 0); |
| void SetAlignmentStrategy(uint32_t peeling_votes[], |
| const ArrayReference* peeling_candidate); |
| uint32_t MaxNumberPeeled(); |
| bool IsVectorizationProfitable(int64_t trip_count); |
| |
| // |
| // Helpers. |
| // |
| |
| bool TrySetPhiInduction(HPhi* phi, bool restrict_uses); |
| bool TrySetPhiReduction(HPhi* phi); |
| |
| // Detects loop header with a single induction (returned in main_phi), possibly |
| // other phis for reductions, but no other side effects. Returns true on success. |
| bool TrySetSimpleLoopHeader(HBasicBlock* block, /*out*/ HPhi** main_phi); |
| |
| bool IsEmptyBody(HBasicBlock* block); |
| bool IsOnlyUsedAfterLoop(HLoopInformation* loop_info, |
| HInstruction* instruction, |
| bool collect_loop_uses, |
| /*out*/ uint32_t* use_count); |
| bool IsUsedOutsideLoop(HLoopInformation* loop_info, |
| HInstruction* instruction); |
| bool TryReplaceWithLastValue(HLoopInformation* loop_info, |
| HInstruction* instruction, |
| HBasicBlock* block); |
| bool TryAssignLastValue(HLoopInformation* loop_info, |
| HInstruction* instruction, |
| HBasicBlock* block, |
| bool collect_loop_uses); |
| void RemoveDeadInstructions(const HInstructionList& list); |
| bool CanRemoveCycle(); // Whether the current 'iset_' is removable. |
| |
| // Compiler options (to query ISA features). |
| const CompilerOptions* compiler_options_; |
| |
| // Range information based on prior induction variable analysis. |
| InductionVarRange induction_range_; |
| |
| // Phase-local heap memory allocator for the loop optimizer. Storage obtained |
| // through this allocator is immediately released when the loop optimizer is done. |
| ScopedArenaAllocator* loop_allocator_; |
| |
| // Global heap memory allocator. Used to build HIR. |
| ArenaAllocator* global_allocator_; |
| |
| // Entries into the loop hierarchy representation. The hierarchy resides |
| // in phase-local heap memory. |
| LoopNode* top_loop_; |
| LoopNode* last_loop_; |
| |
| // Temporary bookkeeping of a set of instructions. |
| // Contents reside in phase-local heap memory. |
| ScopedArenaSet<HInstruction*>* iset_; |
| |
| // Temporary bookkeeping of reduction instructions. Mapping is two-fold: |
| // (1) reductions in the loop-body are mapped back to their phi definition, |
| // (2) phi definitions are mapped to their initial value (updated during |
| // code generation to feed the proper values into the new chain). |
| // Contents reside in phase-local heap memory. |
| ScopedArenaSafeMap<HInstruction*, HInstruction*>* reductions_; |
| |
| // Flag that tracks if any simplifications have occurred. |
| bool simplified_; |
| |
| // Number of "lanes" for selected packed type. |
| uint32_t vector_length_; |
| |
| // Set of array references in the vector loop. |
| // Contents reside in phase-local heap memory. |
| ScopedArenaSet<ArrayReference>* vector_refs_; |
| |
| // Static or dynamic loop peeling for alignment. |
| uint32_t vector_static_peeling_factor_; |
| const ArrayReference* vector_dynamic_peeling_candidate_; |
| |
| // Dynamic data dependence test of the form a != b. |
| HInstruction* vector_runtime_test_a_; |
| HInstruction* vector_runtime_test_b_; |
| |
| // Mapping used during vectorization synthesis for both the scalar peeling/cleanup |
| // loop (mode is kSequential) and the actual vector loop (mode is kVector). The data |
| // structure maps original instructions into the new instructions. |
| // Contents reside in phase-local heap memory. |
| ScopedArenaSafeMap<HInstruction*, HInstruction*>* vector_map_; |
| |
| // Permanent mapping used during vectorization synthesis. |
| // Contents reside in phase-local heap memory. |
| ScopedArenaSafeMap<HInstruction*, HInstruction*>* vector_permanent_map_; |
| |
| // Temporary vectorization bookkeeping. |
| VectorMode vector_mode_; // synthesis mode |
| HBasicBlock* vector_preheader_; // preheader of the new loop |
| HBasicBlock* vector_header_; // header of the new loop |
| HBasicBlock* vector_body_; // body of the new loop |
| HInstruction* vector_index_; // normalized index of the new loop |
| |
| // Helper for target-specific behaviour for loop optimizations. |
| ArchNoOptsLoopHelper* arch_loop_helper_; |
| |
| friend class LoopOptimizationTest; |
| |
| DISALLOW_COPY_AND_ASSIGN(HLoopOptimization); |
| }; |
| |
| } // namespace art |
| |
| #endif // ART_COMPILER_OPTIMIZING_LOOP_OPTIMIZATION_H_ |