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- #pragma once
- #ifdef __GNUC__
- #pragma GCC diagnostic push
- #pragma GCC diagnostic ignored "-Wunused-parameter"
- #endif
- //===- llvm/Analysis/DivergenceAnalysis.h - Divergence Analysis -*- C++ -*-===//
- //
- // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
- // See https://llvm.org/LICENSE.txt for license information.
- // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
- //
- //===----------------------------------------------------------------------===//
- //
- // \file
- // The divergence analysis determines which instructions and branches are
- // divergent given a set of divergent source instructions.
- //
- //===----------------------------------------------------------------------===//
- #ifndef LLVM_ANALYSIS_DIVERGENCE_ANALYSIS_H
- #define LLVM_ANALYSIS_DIVERGENCE_ANALYSIS_H
- #include "llvm/ADT/DenseSet.h"
- #include "llvm/Analysis/SyncDependenceAnalysis.h"
- #include "llvm/IR/Function.h"
- #include "llvm/Pass.h"
- #include <vector>
- namespace llvm {
- class Module;
- class Value;
- class Instruction;
- class Loop;
- class raw_ostream;
- class TargetTransformInfo;
- /// \brief Generic divergence analysis for reducible CFGs.
- ///
- /// This analysis propagates divergence in a data-parallel context from sources
- /// of divergence to all users. It requires reducible CFGs. All assignments
- /// should be in SSA form.
- class DivergenceAnalysis {
- public:
- /// \brief This instance will analyze the whole function \p F or the loop \p
- /// RegionLoop.
- ///
- /// \param RegionLoop if non-null the analysis is restricted to \p RegionLoop.
- /// Otherwise the whole function is analyzed.
- /// \param IsLCSSAForm whether the analysis may assume that the IR in the
- /// region in in LCSSA form.
- DivergenceAnalysis(const Function &F, const Loop *RegionLoop,
- const DominatorTree &DT, const LoopInfo &LI,
- SyncDependenceAnalysis &SDA, bool IsLCSSAForm);
- /// \brief The loop that defines the analyzed region (if any).
- const Loop *getRegionLoop() const { return RegionLoop; }
- const Function &getFunction() const { return F; }
- /// \brief Whether \p BB is part of the region.
- bool inRegion(const BasicBlock &BB) const;
- /// \brief Whether \p I is part of the region.
- bool inRegion(const Instruction &I) const;
- /// \brief Mark \p UniVal as a value that is always uniform.
- void addUniformOverride(const Value &UniVal);
- /// \brief Mark \p DivVal as a value that is always divergent. Will not do so
- /// if `isAlwaysUniform(DivVal)`.
- /// \returns Whether the tracked divergence state of \p DivVal changed.
- bool markDivergent(const Value &DivVal);
- /// \brief Propagate divergence to all instructions in the region.
- /// Divergence is seeded by calls to \p markDivergent.
- void compute();
- /// \brief Whether any value was marked or analyzed to be divergent.
- bool hasDetectedDivergence() const { return !DivergentValues.empty(); }
- /// \brief Whether \p Val will always return a uniform value regardless of its
- /// operands
- bool isAlwaysUniform(const Value &Val) const;
- /// \brief Whether \p Val is divergent at its definition.
- bool isDivergent(const Value &Val) const;
- /// \brief Whether \p U is divergent. Uses of a uniform value can be
- /// divergent.
- bool isDivergentUse(const Use &U) const;
- void print(raw_ostream &OS, const Module *) const;
- private:
- /// \brief Mark \p Term as divergent and push all Instructions that become
- /// divergent as a result on the worklist.
- void analyzeControlDivergence(const Instruction &Term);
- /// \brief Mark all phi nodes in \p JoinBlock as divergent and push them on
- /// the worklist.
- void taintAndPushPhiNodes(const BasicBlock &JoinBlock);
- /// \brief Identify all Instructions that become divergent because \p DivExit
- /// is a divergent loop exit of \p DivLoop. Mark those instructions as
- /// divergent and push them on the worklist.
- void propagateLoopExitDivergence(const BasicBlock &DivExit,
- const Loop &DivLoop);
- /// \brief Internal implementation function for propagateLoopExitDivergence.
- void analyzeLoopExitDivergence(const BasicBlock &DivExit,
- const Loop &OuterDivLoop);
- /// \brief Mark all instruction as divergent that use a value defined in \p
- /// OuterDivLoop. Push their users on the worklist.
- void analyzeTemporalDivergence(const Instruction &I,
- const Loop &OuterDivLoop);
- /// \brief Push all users of \p Val (in the region) to the worklist.
- void pushUsers(const Value &I);
- /// \brief Whether \p Val is divergent when read in \p ObservingBlock.
- bool isTemporalDivergent(const BasicBlock &ObservingBlock,
- const Value &Val) const;
- /// \brief Whether \p Block is join divergent
- ///
- /// (see markBlockJoinDivergent).
- bool isJoinDivergent(const BasicBlock &Block) const {
- return DivergentJoinBlocks.contains(&Block);
- }
- private:
- const Function &F;
- // If regionLoop != nullptr, analysis is only performed within \p RegionLoop.
- // Otherwise, analyze the whole function
- const Loop *RegionLoop;
- const DominatorTree &DT;
- const LoopInfo &LI;
- // Recognized divergent loops
- DenseSet<const Loop *> DivergentLoops;
- // The SDA links divergent branches to divergent control-flow joins.
- SyncDependenceAnalysis &SDA;
- // Use simplified code path for LCSSA form.
- bool IsLCSSAForm;
- // Set of known-uniform values.
- DenseSet<const Value *> UniformOverrides;
- // Blocks with joining divergent control from different predecessors.
- DenseSet<const BasicBlock *> DivergentJoinBlocks; // FIXME Deprecated
- // Detected/marked divergent values.
- DenseSet<const Value *> DivergentValues;
- // Internal worklist for divergence propagation.
- std::vector<const Instruction *> Worklist;
- };
- /// \brief Divergence analysis frontend for GPU kernels.
- class GPUDivergenceAnalysis {
- SyncDependenceAnalysis SDA;
- DivergenceAnalysis DA;
- public:
- /// Runs the divergence analysis on @F, a GPU kernel
- GPUDivergenceAnalysis(Function &F, const DominatorTree &DT,
- const PostDominatorTree &PDT, const LoopInfo &LI,
- const TargetTransformInfo &TTI);
- /// Whether any divergence was detected.
- bool hasDivergence() const { return DA.hasDetectedDivergence(); }
- /// The GPU kernel this analysis result is for
- const Function &getFunction() const { return DA.getFunction(); }
- /// Whether \p V is divergent at its definition.
- bool isDivergent(const Value &V) const;
- /// Whether \p U is divergent. Uses of a uniform value can be divergent.
- bool isDivergentUse(const Use &U) const;
- /// Whether \p V is uniform/non-divergent.
- bool isUniform(const Value &V) const { return !isDivergent(V); }
- /// Whether \p U is uniform/non-divergent. Uses of a uniform value can be
- /// divergent.
- bool isUniformUse(const Use &U) const { return !isDivergentUse(U); }
- /// Print all divergent values in the kernel.
- void print(raw_ostream &OS, const Module *) const;
- };
- } // namespace llvm
- #endif // LLVM_ANALYSIS_DIVERGENCE_ANALYSIS_H
- #ifdef __GNUC__
- #pragma GCC diagnostic pop
- #endif
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