forked from OSchip/llvm-project
308 lines
10 KiB
C++
308 lines
10 KiB
C++
//===--- polly/DependenceInfo.h - Polyhedral dependency analysis *- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Calculate the data dependency relations for a Scop using ISL.
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//
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// The integer set library (ISL) from Sven has an integrated dependency analysis
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// to calculate data dependences. This pass takes advantage of this and
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// calculates those dependences of a Scop.
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//
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// The dependences in this pass are exact in terms that for a specific read
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// statement instance only the last write statement instance is returned. In
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// case of may-writes, a set of possible write instances is returned. This
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// analysis will never produce redundant dependences.
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//
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//===----------------------------------------------------------------------===//
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#ifndef POLLY_DEPENDENCE_INFO_H
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#define POLLY_DEPENDENCE_INFO_H
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#include "polly/ScopPass.h"
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#include "isl/ctx.h"
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#include "isl/isl-noexceptions.h"
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namespace polly {
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/// The accumulated dependence information for a SCoP.
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///
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/// The Dependences struct holds all dependence information we collect and
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/// compute for one SCoP. It also offers an interface that allows users to
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/// query only specific parts.
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struct Dependences {
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// Granularities of the current dependence analysis
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enum AnalysisLevel {
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AL_Statement = 0,
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// Distinguish accessed memory references in the same statement
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AL_Reference,
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// Distinguish memory access instances in the same statement
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AL_Access,
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NumAnalysisLevels
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};
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/// Map type for reduction dependences.
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using ReductionDependencesMapTy = DenseMap<MemoryAccess *, isl_map *>;
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/// Map type to associate statements with schedules.
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using StatementToIslMapTy = DenseMap<ScopStmt *, isl::map>;
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/// The type of the dependences.
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///
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/// Reduction dependences are separated from RAW/WAW/WAR dependences because
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/// we can ignore them during the scheduling. That's because the order
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/// in which the reduction statements are executed does not matter. However,
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/// if they are executed in parallel we need to take additional measures
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/// (e.g, privatization) to ensure a correct result. The (reverse) transitive
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/// closure of the reduction dependences are used to check for parallel
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/// executed reduction statements during code generation. These dependences
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/// connect all instances of a reduction with each other, they are therefore
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/// cyclic and possibly "reversed".
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enum Type {
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// Write after read
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TYPE_WAR = 1 << 0,
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// Read after write
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TYPE_RAW = 1 << 1,
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// Write after write
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TYPE_WAW = 1 << 2,
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// Reduction dependences
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TYPE_RED = 1 << 3,
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// Transitive closure of the reduction dependences (& the reverse)
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TYPE_TC_RED = 1 << 4,
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};
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const std::shared_ptr<isl_ctx> &getSharedIslCtx() const { return IslCtx; }
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/// Get the dependences of type @p Kinds.
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///
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/// @param Kinds This integer defines the different kinds of dependences
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/// that will be returned. To return more than one kind, the
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/// different kinds are 'ored' together.
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isl::union_map getDependences(int Kinds) const;
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/// Report if valid dependences are available.
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bool hasValidDependences() const;
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/// Return the reduction dependences caused by @p MA.
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///
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/// @return The reduction dependences caused by @p MA or nullptr if none.
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__isl_give isl_map *getReductionDependences(MemoryAccess *MA) const;
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/// Return all reduction dependences.
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const ReductionDependencesMapTy &getReductionDependences() const {
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return ReductionDependences;
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}
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/// Check if a partial schedule is parallel wrt to @p Deps.
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///
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/// @param Schedule The subset of the schedule space that we want to
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/// check.
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/// @param Deps The dependences @p Schedule needs to respect.
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/// @param MinDistancePtr If not nullptr, the minimal dependence distance will
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/// be returned at the address of that pointer
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///
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/// @return Returns true, if executing parallel the outermost dimension of
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/// @p Schedule is valid according to the dependences @p Deps.
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bool isParallel(__isl_keep isl_union_map *Schedule,
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__isl_take isl_union_map *Deps,
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__isl_give isl_pw_aff **MinDistancePtr = nullptr) const;
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/// Check if a new schedule is valid.
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///
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/// @param S The current SCoP.
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/// @param NewSchedules The new schedules
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///
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/// @return True if the new schedule is valid, false if it reverses
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/// dependences.
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bool isValidSchedule(Scop &S, const StatementToIslMapTy &NewSchedules) const;
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/// Print the stored dependence information.
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void print(llvm::raw_ostream &OS) const;
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/// Dump the dependence information stored to the dbgs stream.
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void dump() const;
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/// Return the granularity of this dependence analysis.
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AnalysisLevel getDependenceLevel() { return Level; }
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/// Allow the DependenceInfo access to private members and methods.
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///
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/// To restrict access to the internal state, only the DependenceInfo class
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/// is able to call or modify a Dependences struct.
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friend struct DependenceAnalysis;
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friend struct DependenceInfoPrinterPass;
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friend class DependenceInfo;
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friend class DependenceInfoWrapperPass;
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/// Destructor that will free internal objects.
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~Dependences() { releaseMemory(); }
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private:
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/// Create an empty dependences struct.
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explicit Dependences(const std::shared_ptr<isl_ctx> &IslCtx,
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AnalysisLevel Level)
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: RAW(nullptr), WAR(nullptr), WAW(nullptr), RED(nullptr), TC_RED(nullptr),
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IslCtx(IslCtx), Level(Level) {}
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/// Calculate and add at the privatization dependences.
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void addPrivatizationDependences();
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/// Calculate the dependences for a certain SCoP @p S.
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void calculateDependences(Scop &S);
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/// Set the reduction dependences for @p MA to @p Deps.
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void setReductionDependences(MemoryAccess *MA, __isl_take isl_map *Deps);
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/// Free the objects associated with this Dependences struct.
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///
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/// The Dependences struct will again be "empty" afterwards.
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void releaseMemory();
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/// The different basic kinds of dependences we calculate.
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isl_union_map *RAW;
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isl_union_map *WAR;
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isl_union_map *WAW;
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/// The special reduction dependences.
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isl_union_map *RED;
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/// The (reverse) transitive closure of reduction dependences.
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isl_union_map *TC_RED;
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/// Mapping from memory accesses to their reduction dependences.
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ReductionDependencesMapTy ReductionDependences;
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/// Isl context from the SCoP.
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std::shared_ptr<isl_ctx> IslCtx;
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/// Granularity of this dependence analysis.
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const AnalysisLevel Level;
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};
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struct DependenceAnalysis : public AnalysisInfoMixin<DependenceAnalysis> {
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static AnalysisKey Key;
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struct Result {
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Scop &S;
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std::unique_ptr<Dependences> D[Dependences::NumAnalysisLevels];
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/// Return the dependence information for the current SCoP.
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///
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/// @param Level The granularity of dependence analysis result.
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///
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/// @return The dependence analysis result
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///
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const Dependences &getDependences(Dependences::AnalysisLevel Level);
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/// Recompute dependences from schedule and memory accesses.
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const Dependences &recomputeDependences(Dependences::AnalysisLevel Level);
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};
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Result run(Scop &S, ScopAnalysisManager &SAM,
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ScopStandardAnalysisResults &SAR);
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};
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struct DependenceInfoPrinterPass
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: public PassInfoMixin<DependenceInfoPrinterPass> {
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DependenceInfoPrinterPass(raw_ostream &OS) : OS(OS) {}
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PreservedAnalyses run(Scop &S, ScopAnalysisManager &,
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ScopStandardAnalysisResults &, SPMUpdater &);
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raw_ostream &OS;
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};
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class DependenceInfo : public ScopPass {
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public:
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static char ID;
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/// Construct a new DependenceInfo pass.
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DependenceInfo() : ScopPass(ID) {}
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/// Return the dependence information for the current SCoP.
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///
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/// @param Level The granularity of dependence analysis result.
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///
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/// @return The dependence analysis result
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///
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const Dependences &getDependences(Dependences::AnalysisLevel Level);
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/// Recompute dependences from schedule and memory accesses.
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const Dependences &recomputeDependences(Dependences::AnalysisLevel Level);
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/// Compute the dependence information for the SCoP @p S.
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bool runOnScop(Scop &S) override;
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/// Print the dependences for the given SCoP to @p OS.
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void printScop(raw_ostream &OS, Scop &) const override;
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/// Release the internal memory.
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void releaseMemory() override {
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for (auto &d : D)
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d.reset();
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}
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/// Register all analyses and transformation required.
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void getAnalysisUsage(AnalysisUsage &AU) const override;
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private:
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Scop *S;
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/// Dependences struct for the current SCoP.
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std::unique_ptr<Dependences> D[Dependences::NumAnalysisLevels];
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};
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/// Construct a new DependenceInfoWrapper pass.
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class DependenceInfoWrapperPass : public FunctionPass {
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public:
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static char ID;
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/// Construct a new DependenceInfoWrapper pass.
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DependenceInfoWrapperPass() : FunctionPass(ID) {}
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/// Return the dependence information for the given SCoP.
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///
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/// @param S SCoP object.
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/// @param Level The granularity of dependence analysis result.
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///
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/// @return The dependence analysis result
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///
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const Dependences &getDependences(Scop *S, Dependences::AnalysisLevel Level);
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/// Recompute dependences from schedule and memory accesses.
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const Dependences &recomputeDependences(Scop *S,
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Dependences::AnalysisLevel Level);
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/// Compute the dependence information on-the-fly for the function.
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bool runOnFunction(Function &F) override;
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/// Print the dependences for the current function to @p OS.
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void print(raw_ostream &OS, const Module *M = nullptr) const override;
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/// Release the internal memory.
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void releaseMemory() override { ScopToDepsMap.clear(); }
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/// Register all analyses and transformation required.
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void getAnalysisUsage(AnalysisUsage &AU) const override;
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private:
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using ScopToDepsMapTy = DenseMap<Scop *, std::unique_ptr<Dependences>>;
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/// Scop to Dependence map for the current function.
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ScopToDepsMapTy ScopToDepsMap;
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};
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} // namespace polly
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namespace llvm {
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void initializeDependenceInfoPass(llvm::PassRegistry &);
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void initializeDependenceInfoWrapperPassPass(llvm::PassRegistry &);
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} // namespace llvm
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#endif
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