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analyses to have a common type which is enforced rather than using a char object and a `void *` type when used as an identifier. This has a number of advantages. First, it at least helps some of the confusion raised in Justin Lebar's code review of why `void *` was being used everywhere by having a stronger type that connects to documentation about this. However, perhaps more importantly, it addresses a serious issue where the alignment of these pointer-like identifiers was unknown. This made it hard to use them in pointer-like data structures. We were already dodging this in dangerous ways to create the "all analyses" entry. In a subsequent patch I attempted to use these with TinyPtrVector and things fell apart in a very bad way. And it isn't just a compile time or type system issue. Worse than that, the actual alignment of these pointer-like opaque identifiers wasn't guaranteed to be a useful alignment as they were just characters. This change introduces a type to use as the "key" object whose address forms the opaque identifier. This both forces the objects to have proper alignment, and provides type checking that we get it right everywhere. It also makes the types somewhat less mysterious than `void *`. We could go one step further and introduce a truly opaque pointer-like type to return from the `ID()` static function rather than returning `AnalysisKey *`, but that didn't seem to be a clear win so this is just the initial change to get to a reliably typed and aligned object serving is a key for all the analyses. Thanks to Richard Smith and Justin Lebar for helping pick plausible names and avoid making this refactoring many times. =] And thanks to Sean for the super fast review! While here, I've tried to move away from the "PassID" nomenclature entirely as it wasn't really helping and is overloaded with old pass manager constructs. Now we have IDs for analyses, and key objects whose address can be used as IDs. Where possible and clear I've shortened this to just "ID". In a few places I kept "AnalysisID" to make it clear what was being identified. Differential Revision: https://reviews.llvm.org/D27031 llvm-svn: 287783
197 lines
6.2 KiB
C++
197 lines
6.2 KiB
C++
//===- llvm/Analysis/DominanceFrontier.h - Dominator Frontiers --*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the DominanceFrontier class, which calculate and holds the
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// dominance frontier for a function.
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//
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// This should be considered deprecated, don't add any more uses of this data
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// structure.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_DOMINANCEFRONTIER_H
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#define LLVM_ANALYSIS_DOMINANCEFRONTIER_H
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#include "llvm/IR/Dominators.h"
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#include "llvm/IR/PassManager.h"
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#include <map>
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#include <set>
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namespace llvm {
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//===----------------------------------------------------------------------===//
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/// DominanceFrontierBase - Common base class for computing forward and inverse
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/// dominance frontiers for a function.
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///
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template <class BlockT>
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class DominanceFrontierBase {
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public:
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typedef std::set<BlockT *> DomSetType; // Dom set for a bb
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typedef std::map<BlockT *, DomSetType> DomSetMapType; // Dom set map
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protected:
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typedef GraphTraits<BlockT *> BlockTraits;
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DomSetMapType Frontiers;
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std::vector<BlockT *> Roots;
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const bool IsPostDominators;
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public:
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DominanceFrontierBase(bool isPostDom) : IsPostDominators(isPostDom) {}
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/// getRoots - Return the root blocks of the current CFG. This may include
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/// multiple blocks if we are computing post dominators. For forward
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/// dominators, this will always be a single block (the entry node).
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///
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inline const std::vector<BlockT *> &getRoots() const {
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return Roots;
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}
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BlockT *getRoot() const {
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assert(Roots.size() == 1 && "Should always have entry node!");
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return Roots[0];
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}
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/// isPostDominator - Returns true if analysis based of postdoms
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///
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bool isPostDominator() const {
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return IsPostDominators;
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}
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void releaseMemory() {
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Frontiers.clear();
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}
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// Accessor interface:
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typedef typename DomSetMapType::iterator iterator;
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typedef typename DomSetMapType::const_iterator const_iterator;
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iterator begin() { return Frontiers.begin(); }
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const_iterator begin() const { return Frontiers.begin(); }
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iterator end() { return Frontiers.end(); }
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const_iterator end() const { return Frontiers.end(); }
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iterator find(BlockT *B) { return Frontiers.find(B); }
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const_iterator find(BlockT *B) const { return Frontiers.find(B); }
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iterator addBasicBlock(BlockT *BB, const DomSetType &frontier) {
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assert(find(BB) == end() && "Block already in DominanceFrontier!");
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return Frontiers.insert(std::make_pair(BB, frontier)).first;
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}
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/// removeBlock - Remove basic block BB's frontier.
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void removeBlock(BlockT *BB);
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void addToFrontier(iterator I, BlockT *Node);
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void removeFromFrontier(iterator I, BlockT *Node);
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/// compareDomSet - Return false if two domsets match. Otherwise
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/// return true;
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bool compareDomSet(DomSetType &DS1, const DomSetType &DS2) const;
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/// compare - Return true if the other dominance frontier base matches
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/// this dominance frontier base. Otherwise return false.
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bool compare(DominanceFrontierBase<BlockT> &Other) const;
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/// print - Convert to human readable form
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///
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void print(raw_ostream &OS) const;
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/// dump - Dump the dominance frontier to dbgs().
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#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
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void dump() const;
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#endif
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};
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//===-------------------------------------
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/// DominanceFrontier Class - Concrete subclass of DominanceFrontierBase that is
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/// used to compute a forward dominator frontiers.
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///
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template <class BlockT>
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class ForwardDominanceFrontierBase : public DominanceFrontierBase<BlockT> {
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private:
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typedef GraphTraits<BlockT *> BlockTraits;
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public:
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typedef DominatorTreeBase<BlockT> DomTreeT;
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typedef DomTreeNodeBase<BlockT> DomTreeNodeT;
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typedef typename DominanceFrontierBase<BlockT>::DomSetType DomSetType;
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ForwardDominanceFrontierBase() : DominanceFrontierBase<BlockT>(false) {}
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void analyze(DomTreeT &DT) {
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this->Roots = DT.getRoots();
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assert(this->Roots.size() == 1 &&
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"Only one entry block for forward domfronts!");
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calculate(DT, DT[this->Roots[0]]);
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}
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const DomSetType &calculate(const DomTreeT &DT, const DomTreeNodeT *Node);
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};
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class DominanceFrontier : public ForwardDominanceFrontierBase<BasicBlock> {
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public:
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typedef DominatorTreeBase<BasicBlock> DomTreeT;
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typedef DomTreeNodeBase<BasicBlock> DomTreeNodeT;
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typedef DominanceFrontierBase<BasicBlock>::DomSetType DomSetType;
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typedef DominanceFrontierBase<BasicBlock>::iterator iterator;
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typedef DominanceFrontierBase<BasicBlock>::const_iterator const_iterator;
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};
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class DominanceFrontierWrapperPass : public FunctionPass {
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DominanceFrontier DF;
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public:
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static char ID; // Pass ID, replacement for typeid
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DominanceFrontierWrapperPass();
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DominanceFrontier &getDominanceFrontier() { return DF; }
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const DominanceFrontier &getDominanceFrontier() const { return DF; }
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void releaseMemory() override;
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bool runOnFunction(Function &) override;
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void getAnalysisUsage(AnalysisUsage &AU) const override;
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void print(raw_ostream &OS, const Module * = nullptr) const override;
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void dump() const;
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};
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extern template class DominanceFrontierBase<BasicBlock>;
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extern template class ForwardDominanceFrontierBase<BasicBlock>;
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/// \brief Analysis pass which computes a \c DominanceFrontier.
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class DominanceFrontierAnalysis
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: public AnalysisInfoMixin<DominanceFrontierAnalysis> {
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friend AnalysisInfoMixin<DominanceFrontierAnalysis>;
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static AnalysisKey Key;
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public:
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/// \brief Provide the result typedef for this analysis pass.
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typedef DominanceFrontier Result;
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/// \brief Run the analysis pass over a function and produce a dominator tree.
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DominanceFrontier run(Function &F, FunctionAnalysisManager &AM);
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};
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/// \brief Printer pass for the \c DominanceFrontier.
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class DominanceFrontierPrinterPass
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: public PassInfoMixin<DominanceFrontierPrinterPass> {
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raw_ostream &OS;
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public:
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explicit DominanceFrontierPrinterPass(raw_ostream &OS);
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PreservedAnalyses run(Function &F, FunctionAnalysisManager &AM);
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};
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} // End llvm namespace
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#endif
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