/external/v8/src/crankshaft/ |
hydrogen-uint32-analysis.h | 26 INLINE(bool CheckPhiOperands(HPhi* phi)); 27 INLINE(void UnmarkPhi(HPhi* phi, ZoneList<HPhi*>* worklist)); 30 ZoneList<HPhi*> phis_;
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hydrogen-redundant-phi.h | 25 void ProcessPhis(const ZoneList<HPhi*>* phis);
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hydrogen-uint32-analysis.cc | 105 phis_.Add(HPhi::cast(use), zone()); 115 bool HUint32AnalysisPhase::CheckPhiOperands(HPhi* phi) { 143 void HUint32AnalysisPhase::UnmarkPhi(HPhi* phi, ZoneList<HPhi*>* worklist) { 150 worklist->Add(HPhi::cast(operand), zone()); 163 ZoneList<HPhi*> worklist(phis_.length(), zone()); 176 HPhi* phi = phis_[i]; 191 HPhi* phi = worklist.RemoveLast(); 200 HPhi* phi = phis_[i];
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hydrogen-representation-changes.cc | 124 ZoneList<HPhi*> number_worklist(8, zone()); 125 ZoneList<HPhi*> int_worklist(8, zone()); 126 ZoneList<HPhi*> smi_worklist(8, zone()); 128 const ZoneList<HPhi*>* phi_list(graph()->phi_list()); 130 HPhi* phi = phi_list->at(i); 141 HPhi* phi = phi_list->at(i); 175 HPhi* current = number_worklist.RemoveLast(); 186 number_worklist.Add(HPhi::cast(input), zone()); 192 HPhi* current = int_worklist.RemoveLast(); 203 int_worklist.Add(HPhi::cast(input), zone()) [all...] |
hydrogen-redundant-phi.cc | 13 ZoneList<HPhi*> all_phis(blocks->length(), zone()); 40 void HRedundantPhiEliminationPhase::ProcessPhis(const ZoneList<HPhi*>* phis) { 46 HPhi* phi = phis->at(i);
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hydrogen-dce.cc | 57 HPhi* phi = block->phis()->at(j); 67 ZoneList<HPhi*> worklist(graph()->blocks()->length(), zone()); 84 HPhi* phi = block->phis()->at(j); 95 HPhi* phi = worklist.RemoveLast();
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hydrogen-infer-representation.cc | 22 const ZoneList<HPhi*>* phi_list = graph()->phi_list(); 41 HPhi* phi = phi_list->at(i); 45 int id = HPhi::cast(use)->phi_id(); 105 HPhi* phi = phi_list->at(i); 110 HPhi* it_use = phi_list->at(index); 118 const ZoneList<HPhi*>* phis = block->phis(); 140 const ZoneList<HPhi*>* phis = block->phis(); 142 HPhi* phi = phis->at(j);
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hydrogen-infer-types.cc | 14 const ZoneList<HPhi*>* phis = block->phis(); 32 HPhi* phi = block->phis()->at(j);
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hydrogen-escape-analysis.cc | 92 HPhi* phi = NewPhiAndInsert(block, operand, index); 114 HPhi* HEscapeAnalysisPhase::NewPhiAndInsert(HBasicBlock* block, 118 HPhi* phi = new(zone) HPhi(HPhi::kInvalidMergedIndex, zone); 276 HPhi* phi = HPhi::cast(succ_operand); 280 HPhi* phi = NewPhiAndInsert(succ, succ_operand, index);
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hydrogen-osr.cc | 94 const ZoneList<HPhi*>* phis = osr_loop_entry_->phis(); 96 HPhi* phi = phis->at(j);
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hydrogen-escape-analysis.h | 38 HPhi* NewPhiAndInsert(HBasicBlock* block, HValue* incoming_value, int index);
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hydrogen-range-analysis.cc | 52 HPhi* phi = block->phis()->at(i); 219 HPhi* phi = HPhi::cast(value);
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/art/compiler/optimizing/ |
ssa_builder.h | 31 * following text is materialized as a `HPhi`. 108 bool TypeInputsOfPhi(HPhi* phi, ArenaVector<HPhi*>* worklist); 109 bool UpdatePrimitiveType(HPhi* phi, ArenaVector<HPhi*>* worklist); 110 void ProcessPrimitiveTypePropagationWorklist(ArenaVector<HPhi*>* worklist); 114 HPhi* GetFloatDoubleOrReferenceEquivalentOfPhi(HPhi* phi, Primitive::Type type);
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ssa_phi_elimination.h | 46 ArenaVector<HPhi*> worklist_; 72 ArenaVector<HPhi*> worklist_;
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ssa_phi_elimination.cc | 34 ArenaSet<HPhi*> initially_live(graph_->GetArena()->Adapter(kArenaAllocSsaPhiElimination)); 39 HPhi* phi = inst_it.Current()->AsPhi(); 67 HPhi* phi = worklist_.back(); 70 HPhi* input = raw_input->AsPhi(); 89 HPhi* phi; 130 ArenaVector<HPhi*> cycle_worklist(graph_->GetArena()->Adapter(kArenaAllocSsaPhiElimination)); 133 HPhi* phi = worklist_.back(); 174 HPhi* current = cycle_worklist[i]; 215 for (HPhi* current : cycle_worklist) {
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ssa_builder.cc | 64 HPhi* phi = it.Current()->AsPhi(); 65 HPhi* next = phi->GetNextEquivalentPhiWithSameType(); 86 HPhi* phi = it_phis.Current()->AsPhi(); 106 ArenaVector<HPhi*>* worklist) { 124 static bool TypePhiFromInputs(HPhi* phi) { 134 Primitive::Type input_type = HPhi::ToPhiType(input->GetType()); 165 bool SsaBuilder::TypeInputsOfPhi(HPhi* phi, ArenaVector<HPhi*>* worklist) { 172 DCHECK(HPhi::ToPhiType(input->GetType()) == common_type); 210 bool SsaBuilder::UpdatePrimitiveType(HPhi* phi, ArenaVector<HPhi*>* worklist) [all...] |
induction_var_analysis_test.cc | 111 basic_[d] = new (&allocator_) HPhi(&allocator_, d, 0, Primitive::kPrimInt); 127 HPhi* BuildIf(int d, HBasicBlock** ifT, HBasicBlock** ifF) { 144 HPhi* select_phi = new (&allocator_) HPhi(&allocator_, -1, 0, Primitive::kPrimInt); 156 HPhi* InsertLoopPhi(int vreg, int d) { 157 HPhi* phi = new (&allocator_) HPhi(&allocator_, vreg, 0, Primitive::kPrimInt); 228 HPhi* basic_[10]; // "vreg_d", the "i_d" 317 HPhi* k_header = InsertLoopPhi(0, 0); 346 HPhi* k_header = InsertLoopPhi(0, 0) [all...] |
select_generator.cc | 56 static HPhi* GetSingleChangedPhi(HBasicBlock* block, size_t index1, size_t index2) { 59 HPhi* select_phi = nullptr; 61 HPhi* phi = it.Current()->AsPhi(); 111 HPhi* phi = GetSingleChangedPhi(merge_block, predecessor_index_true, predecessor_index_false);
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reference_type_propagation.h | 88 void VisitPhi(HPhi* phi); 91 void UpdatePhi(HPhi* phi) REQUIRES_SHARED(Locks::mutator_lock_);
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register_allocator_linear_scan.h | 33 class HPhi; 90 void AllocateSpillSlotForCatchPhi(HPhi* phi);
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loop_optimization.h | 149 bool TrySetPhiInduction(HPhi* phi, bool restrict_uses); 217 HPhi* vector_phi_; // the Phi representing the normalized loop index
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induction_var_analysis.h | 231 void AssignCycle(HPhi* phi); 232 ArenaSet<HInstruction*>* LookupCycle(HPhi* phi); 264 ArenaSafeMap<HPhi*, ArenaSet<HInstruction*>> cycles_;
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bounds_check_elimination_test.cc | 391 HPhi* phi = new (allocator) HPhi(allocator, 0, 0, Primitive::kPrimInt); 511 HPhi* phi = new (allocator) HPhi(allocator, 0, 0, Primitive::kPrimInt); 619 HPhi* phi = new (allocator) HPhi(allocator, 0, 0, Primitive::kPrimInt); 718 HPhi* phi = new (allocator) HPhi(allocator, 0, 0, Primitive::kPrimInt); 814 HPhi* phi_i = new (&allocator_) HPhi(&allocator_, 0, 0, Primitive::kPrimInt) [all...] |
graph_checker.h | 51 void VisitPhi(HPhi* phi) OVERRIDE;
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register_allocator_test.cc | 330 HPhi* phi = loop_header->GetFirstPhi()->AsPhi(); 490 HPhi** phi, 530 *phi = new (allocator) HPhi(allocator, 0, 0, Primitive::kPrimInt); 564 HPhi *phi; [all...] |