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cc0b614fb5
manager. This starts to allow us to test analyses more easily, but it's really only the beginning. Some of the code here is still untestable without manual changes to create analysis passes, but I wanted to factor it into a small of chunks as possible. Next up in order to be able to test things are, in no particular order: - No-op analyses passes so we don't have to use real ones to exercise the pass maneger itself. - Automatic way of generating dummy passes that require an analysis be run, including a variant that calls a 'print' method on a pass to make it even easier to print out the results of an analysis. - Dummy passes that invalidate all analyses for their IR unit so we can test invalidation and re-runs. - Automatic way to print each analysis pass as it is re-run. - Automatic but optional verification of analysis passes everywhere possible. I'm not claiming I'll get to all of these immediately, but that's what is in the pipeline at some stage. I'm fleshing out exactly what I need and what to prioritize by working on converting analyses and then trying to test the conversion. =] llvm-svn: 225162
356 lines
13 KiB
C++
356 lines
13 KiB
C++
//===- PassManager internal APIs and implementation details -----*- 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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/// \file
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///
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/// This header provides internal APIs and implementation details used by the
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/// pass management interfaces exposed in PassManager.h. To understand more
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/// context of why these particular interfaces are needed, see that header
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/// file. None of these APIs should be used elsewhere.
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///
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_IR_PASSMANAGERINTERNAL_H
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#define LLVM_IR_PASSMANAGERINTERNAL_H
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#include "llvm/ADT/StringRef.h"
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namespace llvm {
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class Function;
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class Module;
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class PreservedAnalyses;
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/// \brief Implementation details of the pass manager interfaces.
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namespace detail {
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/// \brief Template for the abstract base class used to dispatch
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/// polymorphically over pass objects.
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template <typename IRUnitT, typename AnalysisManagerT> struct PassConcept {
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// Boiler plate necessary for the container of derived classes.
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virtual ~PassConcept() {}
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/// \brief The polymorphic API which runs the pass over a given IR entity.
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///
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/// Note that actual pass object can omit the analysis manager argument if
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/// desired. Also that the analysis manager may be null if there is no
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/// analysis manager in the pass pipeline.
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virtual PreservedAnalyses run(IRUnitT IR, AnalysisManagerT *AM) = 0;
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/// \brief Polymorphic method to access the name of a pass.
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virtual StringRef name() = 0;
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};
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/// \brief SFINAE metafunction for computing whether \c PassT has a run method
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/// accepting an \c AnalysisManagerT.
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template <typename IRUnitT, typename AnalysisManagerT, typename PassT,
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typename ResultT>
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class PassRunAcceptsAnalysisManager {
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typedef char SmallType;
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struct BigType {
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char a, b;
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};
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template <typename T, ResultT (T::*)(IRUnitT, AnalysisManagerT *)>
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struct Checker;
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template <typename T> static SmallType f(Checker<T, &T::run> *);
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template <typename T> static BigType f(...);
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public:
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enum { Value = sizeof(f<PassT>(nullptr)) == sizeof(SmallType) };
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};
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/// \brief A template wrapper used to implement the polymorphic API.
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///
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/// Can be instantiated for any object which provides a \c run method accepting
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/// an \c IRUnitT. It requires the pass to be a copyable object. When the
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/// \c run method also accepts an \c AnalysisManagerT*, we pass it along.
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template <typename IRUnitT, typename AnalysisManagerT, typename PassT,
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typename PreservedAnalysesT = PreservedAnalyses,
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bool AcceptsAnalysisManager = PassRunAcceptsAnalysisManager<
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IRUnitT, AnalysisManagerT, PassT, PreservedAnalysesT>::Value>
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struct PassModel;
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/// \brief Specialization of \c PassModel for passes that accept an analyis
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/// manager.
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template <typename IRUnitT, typename AnalysisManagerT, typename PassT,
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typename PreservedAnalysesT>
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struct PassModel<IRUnitT, AnalysisManagerT, PassT, PreservedAnalysesT, true>
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: PassConcept<IRUnitT, AnalysisManagerT> {
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explicit PassModel(PassT Pass) : Pass(std::move(Pass)) {}
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// We have to explicitly define all the special member functions because MSVC
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// refuses to generate them.
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PassModel(const PassModel &Arg) : Pass(Arg.Pass) {}
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PassModel(PassModel &&Arg) : Pass(std::move(Arg.Pass)) {}
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friend void swap(PassModel &LHS, PassModel &RHS) {
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using std::swap;
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swap(LHS.Pass, RHS.Pass);
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}
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PassModel &operator=(PassModel RHS) {
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swap(*this, RHS);
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return *this;
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}
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PreservedAnalysesT run(IRUnitT IR, AnalysisManagerT *AM) override {
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return Pass.run(IR, AM);
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}
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StringRef name() override { return PassT::name(); }
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PassT Pass;
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};
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/// \brief Specialization of \c PassModel for passes that accept an analyis
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/// manager.
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template <typename IRUnitT, typename AnalysisManagerT, typename PassT,
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typename PreservedAnalysesT>
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struct PassModel<IRUnitT, AnalysisManagerT, PassT, PreservedAnalysesT, false>
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: PassConcept<IRUnitT, AnalysisManagerT> {
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explicit PassModel(PassT Pass) : Pass(std::move(Pass)) {}
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// We have to explicitly define all the special member functions because MSVC
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// refuses to generate them.
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PassModel(const PassModel &Arg) : Pass(Arg.Pass) {}
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PassModel(PassModel &&Arg) : Pass(std::move(Arg.Pass)) {}
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friend void swap(PassModel &LHS, PassModel &RHS) {
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using std::swap;
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swap(LHS.Pass, RHS.Pass);
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}
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PassModel &operator=(PassModel RHS) {
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swap(*this, RHS);
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return *this;
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}
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PreservedAnalysesT run(IRUnitT IR, AnalysisManagerT *AM) override {
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return Pass.run(IR);
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}
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StringRef name() override { return PassT::name(); }
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PassT Pass;
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};
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/// \brief Abstract concept of an analysis result.
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///
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/// This concept is parameterized over the IR unit that this result pertains
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/// to.
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template <typename IRUnitT> struct AnalysisResultConcept {
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virtual ~AnalysisResultConcept() {}
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/// \brief Method to try and mark a result as invalid.
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///
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/// When the outer analysis manager detects a change in some underlying
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/// unit of the IR, it will call this method on all of the results cached.
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///
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/// This method also receives a set of preserved analyses which can be used
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/// to avoid invalidation because the pass which changed the underlying IR
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/// took care to update or preserve the analysis result in some way.
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///
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/// \returns true if the result is indeed invalid (the default).
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virtual bool invalidate(IRUnitT IR, const PreservedAnalyses &PA) = 0;
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};
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/// \brief SFINAE metafunction for computing whether \c ResultT provides an
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/// \c invalidate member function.
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template <typename IRUnitT, typename ResultT> class ResultHasInvalidateMethod {
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typedef char SmallType;
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struct BigType {
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char a, b;
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};
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template <typename T, bool (T::*)(IRUnitT, const PreservedAnalyses &)>
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struct Checker;
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template <typename T> static SmallType f(Checker<T, &T::invalidate> *);
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template <typename T> static BigType f(...);
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public:
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enum { Value = sizeof(f<ResultT>(nullptr)) == sizeof(SmallType) };
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};
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/// \brief Wrapper to model the analysis result concept.
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///
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/// By default, this will implement the invalidate method with a trivial
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/// implementation so that the actual analysis result doesn't need to provide
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/// an invalidation handler. It is only selected when the invalidation handler
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/// is not part of the ResultT's interface.
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template <typename IRUnitT, typename PassT, typename ResultT,
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typename PreservedAnalysesT = PreservedAnalyses,
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bool HasInvalidateHandler =
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ResultHasInvalidateMethod<IRUnitT, ResultT>::Value>
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struct AnalysisResultModel;
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/// \brief Specialization of \c AnalysisResultModel which provides the default
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/// invalidate functionality.
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template <typename IRUnitT, typename PassT, typename ResultT,
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typename PreservedAnalysesT>
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struct AnalysisResultModel<IRUnitT, PassT, ResultT, PreservedAnalysesT, false>
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: AnalysisResultConcept<IRUnitT> {
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explicit AnalysisResultModel(ResultT Result) : Result(std::move(Result)) {}
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// We have to explicitly define all the special member functions because MSVC
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// refuses to generate them.
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AnalysisResultModel(const AnalysisResultModel &Arg) : Result(Arg.Result) {}
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AnalysisResultModel(AnalysisResultModel &&Arg)
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: Result(std::move(Arg.Result)) {}
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friend void swap(AnalysisResultModel &LHS, AnalysisResultModel &RHS) {
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using std::swap;
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swap(LHS.Result, RHS.Result);
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}
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AnalysisResultModel &operator=(AnalysisResultModel RHS) {
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swap(*this, RHS);
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return *this;
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}
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/// \brief The model bases invalidation solely on being in the preserved set.
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//
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// FIXME: We should actually use two different concepts for analysis results
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// rather than two different models, and avoid the indirect function call for
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// ones that use the trivial behavior.
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bool invalidate(IRUnitT, const PreservedAnalysesT &PA) override {
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return !PA.preserved(PassT::ID());
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}
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ResultT Result;
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};
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/// \brief Specialization of \c AnalysisResultModel which delegates invalidate
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/// handling to \c ResultT.
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template <typename IRUnitT, typename PassT, typename ResultT,
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typename PreservedAnalysesT>
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struct AnalysisResultModel<IRUnitT, PassT, ResultT, PreservedAnalysesT, true>
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: AnalysisResultConcept<IRUnitT> {
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explicit AnalysisResultModel(ResultT Result) : Result(std::move(Result)) {}
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// We have to explicitly define all the special member functions because MSVC
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// refuses to generate them.
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AnalysisResultModel(const AnalysisResultModel &Arg) : Result(Arg.Result) {}
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AnalysisResultModel(AnalysisResultModel &&Arg)
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: Result(std::move(Arg.Result)) {}
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friend void swap(AnalysisResultModel &LHS, AnalysisResultModel &RHS) {
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using std::swap;
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swap(LHS.Result, RHS.Result);
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}
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AnalysisResultModel &operator=(AnalysisResultModel RHS) {
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swap(*this, RHS);
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return *this;
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}
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/// \brief The model delegates to the \c ResultT method.
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bool invalidate(IRUnitT IR, const PreservedAnalysesT &PA) override {
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return Result.invalidate(IR, PA);
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}
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ResultT Result;
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};
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/// \brief Abstract concept of an analysis pass.
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///
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/// This concept is parameterized over the IR unit that it can run over and
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/// produce an analysis result.
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template <typename IRUnitT, typename AnalysisManagerT>
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struct AnalysisPassConcept {
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virtual ~AnalysisPassConcept() {}
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/// \brief Method to run this analysis over a unit of IR.
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/// \returns A unique_ptr to the analysis result object to be queried by
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/// users.
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virtual std::unique_ptr<AnalysisResultConcept<IRUnitT>>
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run(IRUnitT IR, AnalysisManagerT *AM) = 0;
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/// \brief Polymorphic method to access the name of a pass.
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virtual StringRef name() = 0;
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};
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/// \brief Wrapper to model the analysis pass concept.
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///
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/// Can wrap any type which implements a suitable \c run method. The method
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/// must accept the IRUnitT as an argument and produce an object which can be
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/// wrapped in a \c AnalysisResultModel.
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template <typename IRUnitT, typename AnalysisManagerT, typename PassT,
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bool AcceptsAnalysisManager = PassRunAcceptsAnalysisManager<
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IRUnitT, AnalysisManagerT, PassT, typename PassT::Result>::Value>
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struct AnalysisPassModel;
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/// \brief Specialization of \c AnalysisPassModel which passes an
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/// \c AnalysisManager to PassT's run method.
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template <typename IRUnitT, typename AnalysisManagerT, typename PassT>
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struct AnalysisPassModel<IRUnitT, AnalysisManagerT, PassT, true>
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: AnalysisPassConcept<IRUnitT, AnalysisManagerT> {
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explicit AnalysisPassModel(PassT Pass) : Pass(std::move(Pass)) {}
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// We have to explicitly define all the special member functions because MSVC
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// refuses to generate them.
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AnalysisPassModel(const AnalysisPassModel &Arg) : Pass(Arg.Pass) {}
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AnalysisPassModel(AnalysisPassModel &&Arg) : Pass(std::move(Arg.Pass)) {}
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friend void swap(AnalysisPassModel &LHS, AnalysisPassModel &RHS) {
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using std::swap;
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swap(LHS.Pass, RHS.Pass);
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}
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AnalysisPassModel &operator=(AnalysisPassModel RHS) {
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swap(*this, RHS);
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return *this;
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}
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// FIXME: Replace PassT::Result with type traits when we use C++11.
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typedef AnalysisResultModel<IRUnitT, PassT, typename PassT::Result>
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ResultModelT;
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/// \brief The model delegates to the \c PassT::run method.
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///
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/// The return is wrapped in an \c AnalysisResultModel.
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std::unique_ptr<AnalysisResultConcept<IRUnitT>>
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run(IRUnitT IR, AnalysisManagerT *AM) override {
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return make_unique<ResultModelT>(Pass.run(IR, AM));
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}
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/// \brief The model delegates to a static \c PassT::name method.
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///
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/// The returned string ref must point to constant immutable data!
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StringRef name() override { return PassT::name(); }
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PassT Pass;
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};
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/// \brief Specialization of \c AnalysisPassModel which does not pass an
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/// \c AnalysisManager to PassT's run method.
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template <typename IRUnitT, typename AnalysisManagerT, typename PassT>
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struct AnalysisPassModel<IRUnitT, AnalysisManagerT, PassT, false>
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: AnalysisPassConcept<IRUnitT, AnalysisManagerT> {
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explicit AnalysisPassModel(PassT Pass) : Pass(std::move(Pass)) {}
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// We have to explicitly define all the special member functions because MSVC
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// refuses to generate them.
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AnalysisPassModel(const AnalysisPassModel &Arg) : Pass(Arg.Pass) {}
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AnalysisPassModel(AnalysisPassModel &&Arg) : Pass(std::move(Arg.Pass)) {}
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friend void swap(AnalysisPassModel &LHS, AnalysisPassModel &RHS) {
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using std::swap;
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swap(LHS.Pass, RHS.Pass);
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}
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AnalysisPassModel &operator=(AnalysisPassModel RHS) {
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swap(*this, RHS);
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return *this;
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}
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// FIXME: Replace PassT::Result with type traits when we use C++11.
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typedef AnalysisResultModel<IRUnitT, PassT, typename PassT::Result>
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ResultModelT;
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/// \brief The model delegates to the \c PassT::run method.
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///
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/// The return is wrapped in an \c AnalysisResultModel.
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std::unique_ptr<AnalysisResultConcept<IRUnitT>>
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run(IRUnitT IR, AnalysisManagerT *) override {
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return make_unique<ResultModelT>(Pass.run(IR));
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}
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/// \brief The model delegates to a static \c PassT::name method.
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///
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/// The returned string ref must point to constant immutable data!
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StringRef name() override { return PassT::name(); }
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PassT Pass;
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};
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} // End namespace detail
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}
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#endif
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