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b28303ef74
We were using unneccessarily large initial sizes for these SmallVectors. This was wasting around 50kb of memory for the O3 pipeline, even after the uniquing changes. We're still using around 20kb which is a bit much, but it's definitely better. This is about a 6% improvement in total O3 memory usage. Note: The raw data on structure size which were used to pick these thresholds can be found in the review thread. Differential Revision: http://reviews.llvm.org/D15244 llvm-svn: 254974
276 lines
9.8 KiB
C++
276 lines
9.8 KiB
C++
//===- llvm/PassAnalysisSupport.h - Analysis Pass Support code --*- 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 stuff that is used to define and "use" Analysis Passes.
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// This file is automatically #included by Pass.h, so:
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//
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// NO .CPP FILES SHOULD INCLUDE THIS FILE DIRECTLY
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//
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// Instead, #include Pass.h
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_PASSANALYSISSUPPORT_H
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#define LLVM_PASSANALYSISSUPPORT_H
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/Pass.h"
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#include <vector>
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namespace llvm {
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//===----------------------------------------------------------------------===//
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/// Represent the analysis usage information of a pass. This tracks analyses
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/// that the pass REQUIRES (must be available when the pass runs), REQUIRES
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/// TRANSITIVE (must be available throughout the lifetime of the pass), and
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/// analyses that the pass PRESERVES (the pass does not invalidate the results
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/// of these analyses). This information is provided by a pass to the Pass
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/// infrastructure through the getAnalysisUsage virtual function.
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///
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class AnalysisUsage {
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public:
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typedef SmallVectorImpl<AnalysisID> VectorType;
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private:
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/// Sets of analyses required and preserved by a pass
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// TODO: It's not clear that SmallVector is an appropriate data structure for
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// this usecase. The sizes were picked to minimize wasted space, but are
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// otherwise fairly meaningless.
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SmallVector<AnalysisID, 8> Required;
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SmallVector<AnalysisID, 2> RequiredTransitive;
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SmallVector<AnalysisID, 2> Preserved;
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SmallVector<AnalysisID, 0> Used;
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bool PreservesAll;
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public:
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AnalysisUsage() : PreservesAll(false) {}
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///@{
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/// Add the specified ID to the required set of the usage info for a pass.
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AnalysisUsage &addRequiredID(const void *ID);
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AnalysisUsage &addRequiredID(char &ID);
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template<class PassClass>
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AnalysisUsage &addRequired() {
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return addRequiredID(PassClass::ID);
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}
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AnalysisUsage &addRequiredTransitiveID(char &ID);
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template<class PassClass>
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AnalysisUsage &addRequiredTransitive() {
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return addRequiredTransitiveID(PassClass::ID);
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}
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///@}
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///@{
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/// Add the specified ID to the set of analyses preserved by this pass.
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AnalysisUsage &addPreservedID(const void *ID) {
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Preserved.push_back(ID);
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return *this;
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}
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AnalysisUsage &addPreservedID(char &ID) {
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Preserved.push_back(&ID);
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return *this;
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}
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/// Add the specified Pass class to the set of analyses preserved by this pass.
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template<class PassClass>
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AnalysisUsage &addPreserved() {
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Preserved.push_back(&PassClass::ID);
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return *this;
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}
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///@}
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///@{
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/// Add the specified ID to the set of analyses used by this pass if they are
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/// available..
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AnalysisUsage &addUsedIfAvailableID(const void *ID) {
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Used.push_back(ID);
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return *this;
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}
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AnalysisUsage &addUsedIfAvailableID(char &ID) {
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Used.push_back(&ID);
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return *this;
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}
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/// Add the specified Pass class to the set of analyses used by this pass.
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template<class PassClass>
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AnalysisUsage &addUsedIfAvailable() {
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Used.push_back(&PassClass::ID);
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return *this;
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}
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///@}
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/// Add the Pass with the specified argument string to the set of analyses
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/// preserved by this pass. If no such Pass exists, do nothing. This can be
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/// useful when a pass is trivially preserved, but may not be linked in. Be
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/// careful about spelling!
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AnalysisUsage &addPreserved(StringRef Arg);
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/// Set by analyses that do not transform their input at all
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void setPreservesAll() { PreservesAll = true; }
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/// Determine whether a pass said it does not transform its input at all
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bool getPreservesAll() const { return PreservesAll; }
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/// This function should be called by the pass, iff they do not:
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///
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/// 1. Add or remove basic blocks from the function
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/// 2. Modify terminator instructions in any way.
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///
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/// This function annotates the AnalysisUsage info object to say that analyses
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/// that only depend on the CFG are preserved by this pass.
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///
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void setPreservesCFG();
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const VectorType &getRequiredSet() const { return Required; }
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const VectorType &getRequiredTransitiveSet() const {
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return RequiredTransitive;
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}
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const VectorType &getPreservedSet() const { return Preserved; }
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const VectorType &getUsedSet() const { return Used; }
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};
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//===----------------------------------------------------------------------===//
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/// AnalysisResolver - Simple interface used by Pass objects to pull all
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/// analysis information out of pass manager that is responsible to manage
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/// the pass.
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///
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class PMDataManager;
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class AnalysisResolver {
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private:
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AnalysisResolver() = delete;
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public:
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explicit AnalysisResolver(PMDataManager &P) : PM(P) { }
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inline PMDataManager &getPMDataManager() { return PM; }
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/// Find pass that is implementing PI.
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Pass *findImplPass(AnalysisID PI) {
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Pass *ResultPass = nullptr;
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for (unsigned i = 0; i < AnalysisImpls.size() ; ++i) {
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if (AnalysisImpls[i].first == PI) {
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ResultPass = AnalysisImpls[i].second;
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break;
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}
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}
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return ResultPass;
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}
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/// Find pass that is implementing PI. Initialize pass for Function F.
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Pass *findImplPass(Pass *P, AnalysisID PI, Function &F);
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void addAnalysisImplsPair(AnalysisID PI, Pass *P) {
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if (findImplPass(PI) == P)
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return;
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std::pair<AnalysisID, Pass*> pir = std::make_pair(PI,P);
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AnalysisImpls.push_back(pir);
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}
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/// Clear cache that is used to connect a pass to the the analysis (PassInfo).
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void clearAnalysisImpls() {
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AnalysisImpls.clear();
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}
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/// Return analysis result or null if it doesn't exist.
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Pass *getAnalysisIfAvailable(AnalysisID ID, bool Direction) const;
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private:
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/// This keeps track of which passes implements the interfaces that are
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/// required by the current pass (to implement getAnalysis()).
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std::vector<std::pair<AnalysisID, Pass*> > AnalysisImpls;
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/// PassManager that is used to resolve analysis info
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PMDataManager &PM;
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};
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/// getAnalysisIfAvailable<AnalysisType>() - Subclasses use this function to
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/// get analysis information that might be around, for example to update it.
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/// This is different than getAnalysis in that it can fail (if the analysis
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/// results haven't been computed), so should only be used if you can handle
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/// the case when the analysis is not available. This method is often used by
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/// transformation APIs to update analysis results for a pass automatically as
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/// the transform is performed.
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///
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template<typename AnalysisType>
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AnalysisType *Pass::getAnalysisIfAvailable() const {
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assert(Resolver && "Pass not resident in a PassManager object!");
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const void *PI = &AnalysisType::ID;
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Pass *ResultPass = Resolver->getAnalysisIfAvailable(PI, true);
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if (!ResultPass) return nullptr;
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// Because the AnalysisType may not be a subclass of pass (for
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// AnalysisGroups), we use getAdjustedAnalysisPointer here to potentially
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// adjust the return pointer (because the class may multiply inherit, once
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// from pass, once from AnalysisType).
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return (AnalysisType*)ResultPass->getAdjustedAnalysisPointer(PI);
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}
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/// getAnalysis<AnalysisType>() - This function is used by subclasses to get
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/// to the analysis information that they claim to use by overriding the
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/// getAnalysisUsage function.
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///
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template<typename AnalysisType>
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AnalysisType &Pass::getAnalysis() const {
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assert(Resolver && "Pass has not been inserted into a PassManager object!");
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return getAnalysisID<AnalysisType>(&AnalysisType::ID);
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}
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template<typename AnalysisType>
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AnalysisType &Pass::getAnalysisID(AnalysisID PI) const {
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assert(PI && "getAnalysis for unregistered pass!");
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assert(Resolver&&"Pass has not been inserted into a PassManager object!");
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// PI *must* appear in AnalysisImpls. Because the number of passes used
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// should be a small number, we just do a linear search over a (dense)
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// vector.
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Pass *ResultPass = Resolver->findImplPass(PI);
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assert (ResultPass &&
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"getAnalysis*() called on an analysis that was not "
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"'required' by pass!");
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// Because the AnalysisType may not be a subclass of pass (for
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// AnalysisGroups), we use getAdjustedAnalysisPointer here to potentially
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// adjust the return pointer (because the class may multiply inherit, once
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// from pass, once from AnalysisType).
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return *(AnalysisType*)ResultPass->getAdjustedAnalysisPointer(PI);
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}
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/// getAnalysis<AnalysisType>() - This function is used by subclasses to get
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/// to the analysis information that they claim to use by overriding the
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/// getAnalysisUsage function.
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///
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template<typename AnalysisType>
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AnalysisType &Pass::getAnalysis(Function &F) {
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assert(Resolver &&"Pass has not been inserted into a PassManager object!");
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return getAnalysisID<AnalysisType>(&AnalysisType::ID, F);
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}
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template<typename AnalysisType>
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AnalysisType &Pass::getAnalysisID(AnalysisID PI, Function &F) {
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assert(PI && "getAnalysis for unregistered pass!");
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assert(Resolver && "Pass has not been inserted into a PassManager object!");
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// PI *must* appear in AnalysisImpls. Because the number of passes used
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// should be a small number, we just do a linear search over a (dense)
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// vector.
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Pass *ResultPass = Resolver->findImplPass(this, PI, F);
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assert(ResultPass && "Unable to find requested analysis info");
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// Because the AnalysisType may not be a subclass of pass (for
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// AnalysisGroups), we use getAdjustedAnalysisPointer here to potentially
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// adjust the return pointer (because the class may multiply inherit, once
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// from pass, once from AnalysisType).
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return *(AnalysisType*)ResultPass->getAdjustedAnalysisPointer(PI);
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}
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} // End llvm namespace
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#endif
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