/* * 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_COMPILER_OPTIMIZING_SSA_BUILDER_H_ #define ART_COMPILER_OPTIMIZING_SSA_BUILDER_H_ #include "base/arena_containers.h" #include "nodes.h" #include "optimization.h" namespace art { /** * Transforms a graph into SSA form. The liveness guarantees of * this transformation are listed below. A DEX register * being killed means its value at a given position in the code * will not be available to its environment uses. A merge in the * following text is materialized as a `HPhi`. * * (a) Dex registers that do not require merging (that is, they do not * have different values at a join block) are available to all their * environment uses. Note that it does not imply the instruction will * have a physical location after register allocation. See the * SsaLivenessAnalysis phase. * * (b) Dex registers that require merging, and the merging gives * incompatible types, will be killed for environment uses of that merge. * * (c) When the `debuggable` flag is passed to the compiler, Dex registers * that require merging and have a proper type after the merge, are * available to all their environment uses. If the `debuggable` flag * is not set, values of Dex registers only used by environments * are killed. */ class SsaBuilder : public ValueObject { public: SsaBuilder(HGraph* graph, Handle<mirror::ClassLoader> class_loader, Handle<mirror::DexCache> dex_cache, VariableSizedHandleScope* handles) : graph_(graph), class_loader_(class_loader), dex_cache_(dex_cache), handles_(handles), agets_fixed_(false), ambiguous_agets_(graph->GetArena()->Adapter(kArenaAllocGraphBuilder)), ambiguous_asets_(graph->GetArena()->Adapter(kArenaAllocGraphBuilder)), uninitialized_strings_(graph->GetArena()->Adapter(kArenaAllocGraphBuilder)) { graph_->InitializeInexactObjectRTI(handles); } GraphAnalysisResult BuildSsa(); HInstruction* GetFloatOrDoubleEquivalent(HInstruction* instruction, Primitive::Type type); HInstruction* GetReferenceTypeEquivalent(HInstruction* instruction); void MaybeAddAmbiguousArrayGet(HArrayGet* aget) { Primitive::Type type = aget->GetType(); DCHECK(!Primitive::IsFloatingPointType(type)); if (Primitive::IsIntOrLongType(type)) { ambiguous_agets_.push_back(aget); } } void MaybeAddAmbiguousArraySet(HArraySet* aset) { Primitive::Type type = aset->GetValue()->GetType(); if (Primitive::IsIntOrLongType(type)) { ambiguous_asets_.push_back(aset); } } void AddUninitializedString(HNewInstance* string) { // In some rare cases (b/27847265), the same NewInstance may be seen // multiple times. We should only consider it once for removal, so we // ensure it is not added more than once. // Note that we cannot check whether this really is a NewInstance of String // before RTP. We DCHECK that in RemoveRedundantUninitializedStrings. if (!ContainsElement(uninitialized_strings_, string)) { uninitialized_strings_.push_back(string); } } private: void SetLoopHeaderPhiInputs(); void FixEnvironmentPhis(); void FixNullConstantType(); void EquivalentPhisCleanup(); void RunPrimitiveTypePropagation(); // Attempts to resolve types of aget(-wide) instructions and type values passed // to aput(-wide) instructions from reference type information on the array // input. Returns false if the type of an array is unknown. bool FixAmbiguousArrayOps(); bool TypeInputsOfPhi(HPhi* phi, ArenaVector<HPhi*>* worklist); bool UpdatePrimitiveType(HPhi* phi, ArenaVector<HPhi*>* worklist); void ProcessPrimitiveTypePropagationWorklist(ArenaVector<HPhi*>* worklist); HFloatConstant* GetFloatEquivalent(HIntConstant* constant); HDoubleConstant* GetDoubleEquivalent(HLongConstant* constant); HPhi* GetFloatDoubleOrReferenceEquivalentOfPhi(HPhi* phi, Primitive::Type type); HArrayGet* GetFloatOrDoubleEquivalentOfArrayGet(HArrayGet* aget); void RemoveRedundantUninitializedStrings(); HGraph* graph_; Handle<mirror::ClassLoader> class_loader_; Handle<mirror::DexCache> dex_cache_; VariableSizedHandleScope* const handles_; // True if types of ambiguous ArrayGets have been resolved. bool agets_fixed_; ArenaVector<HArrayGet*> ambiguous_agets_; ArenaVector<HArraySet*> ambiguous_asets_; ArenaVector<HNewInstance*> uninitialized_strings_; DISALLOW_COPY_AND_ASSIGN(SsaBuilder); }; } // namespace art #endif // ART_COMPILER_OPTIMIZING_SSA_BUILDER_H_