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c92524272b
Identified with llvm-header-guard.
287 lines
11 KiB
C++
287 lines
11 KiB
C++
//===- InlineAdvisor.h - Inlining decision making abstraction -*- 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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#ifndef LLVM_ANALYSIS_INLINEADVISOR_H
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#define LLVM_ANALYSIS_INLINEADVISOR_H
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#include "llvm/Analysis/InlineCost.h"
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#include "llvm/Config/llvm-config.h"
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#include "llvm/IR/PassManager.h"
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#include "llvm/Analysis/Utils/ImportedFunctionsInliningStatistics.h"
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#include <memory>
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#include <unordered_set>
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namespace llvm {
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class BasicBlock;
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class CallBase;
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class Function;
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class Module;
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class OptimizationRemarkEmitter;
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/// There are 3 scenarios we can use the InlineAdvisor:
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/// - Default - use manual heuristics.
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///
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/// - Release mode, the expected mode for production, day to day deployments.
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/// In this mode, when building the compiler, we also compile a pre-trained ML
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/// model to native code, and link it as a static library. This mode has low
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/// overhead and no additional dependencies for the compiler runtime.
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///
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/// - Development mode, for training new models.
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/// In this mode, we trade off runtime performance for flexibility. This mode
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/// requires the full C Tensorflow API library, and evaluates models
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/// dynamically. This mode also permits generating training logs, for offline
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/// training.
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enum class InliningAdvisorMode : int {
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Default,
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Release,
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Development
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};
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class InlineAdvisor;
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/// Capture state between an inlining decision having had been made, and
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/// its impact being observable. When collecting model training data, this
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/// allows recording features/decisions/partial reward data sets.
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///
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/// Derivations of this type are expected to be tightly coupled with their
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/// InliningAdvisors. The base type implements the minimal contractual
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/// obligations.
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class InlineAdvice {
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public:
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InlineAdvice(InlineAdvisor *Advisor, CallBase &CB,
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OptimizationRemarkEmitter &ORE, bool IsInliningRecommended);
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InlineAdvice(InlineAdvice &&) = delete;
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InlineAdvice(const InlineAdvice &) = delete;
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virtual ~InlineAdvice() {
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assert(Recorded && "InlineAdvice should have been informed of the "
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"inliner's decision in all cases");
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}
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/// Exactly one of the record* APIs must be called. Implementers may extend
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/// behavior by implementing the corresponding record*Impl.
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///
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/// Call after inlining succeeded, and did not result in deleting the callee.
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void recordInlining();
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/// Call after inlining succeeded, and resulted in deleting the callee.
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void recordInliningWithCalleeDeleted();
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/// Call after the decision for a call site was to not inline.
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void recordUnsuccessfulInlining(const InlineResult &Result) {
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markRecorded();
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recordUnsuccessfulInliningImpl(Result);
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}
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/// Call to indicate inlining was not attempted.
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void recordUnattemptedInlining() {
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markRecorded();
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recordUnattemptedInliningImpl();
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}
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/// Get the inlining recommendation.
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bool isInliningRecommended() const { return IsInliningRecommended; }
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const DebugLoc &getOriginalCallSiteDebugLoc() const { return DLoc; }
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const BasicBlock *getOriginalCallSiteBasicBlock() const { return Block; }
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protected:
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virtual void recordInliningImpl() {}
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virtual void recordInliningWithCalleeDeletedImpl() {}
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virtual void recordUnsuccessfulInliningImpl(const InlineResult &Result) {}
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virtual void recordUnattemptedInliningImpl() {}
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InlineAdvisor *const Advisor;
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/// Caller and Callee are pre-inlining.
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Function *const Caller;
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Function *const Callee;
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// Capture the context of CB before inlining, as a successful inlining may
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// change that context, and we want to report success or failure in the
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// original context.
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const DebugLoc DLoc;
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const BasicBlock *const Block;
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OptimizationRemarkEmitter &ORE;
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const bool IsInliningRecommended;
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private:
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void markRecorded() {
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assert(!Recorded && "Recording should happen exactly once");
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Recorded = true;
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}
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void recordInlineStatsIfNeeded();
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bool Recorded = false;
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};
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class DefaultInlineAdvice : public InlineAdvice {
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public:
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DefaultInlineAdvice(InlineAdvisor *Advisor, CallBase &CB,
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Optional<InlineCost> OIC, OptimizationRemarkEmitter &ORE,
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bool EmitRemarks = true)
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: InlineAdvice(Advisor, CB, ORE, OIC.hasValue()), OriginalCB(&CB),
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OIC(OIC), EmitRemarks(EmitRemarks) {}
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private:
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void recordUnsuccessfulInliningImpl(const InlineResult &Result) override;
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void recordInliningWithCalleeDeletedImpl() override;
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void recordInliningImpl() override;
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private:
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CallBase *const OriginalCB;
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Optional<InlineCost> OIC;
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bool EmitRemarks;
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};
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/// Interface for deciding whether to inline a call site or not.
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class InlineAdvisor {
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public:
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InlineAdvisor(InlineAdvisor &&) = delete;
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virtual ~InlineAdvisor();
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/// Get an InlineAdvice containing a recommendation on whether to
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/// inline or not. \p CB is assumed to be a direct call. \p FAM is assumed to
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/// be up-to-date wrt previous inlining decisions. \p MandatoryOnly indicates
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/// only mandatory (always-inline) call sites should be recommended - this
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/// allows the InlineAdvisor track such inlininings.
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/// Returns an InlineAdvice with the inlining recommendation.
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std::unique_ptr<InlineAdvice> getAdvice(CallBase &CB,
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bool MandatoryOnly = false);
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/// This must be called when the Inliner pass is entered, to allow the
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/// InlineAdvisor update internal state, as result of function passes run
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/// between Inliner pass runs (for the same module).
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virtual void onPassEntry() {}
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/// This must be called when the Inliner pass is exited, as function passes
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/// may be run subsequently. This allows an implementation of InlineAdvisor
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/// to prepare for a partial update.
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virtual void onPassExit() {}
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protected:
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InlineAdvisor(Module &M, FunctionAnalysisManager &FAM);
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virtual std::unique_ptr<InlineAdvice> getAdviceImpl(CallBase &CB) = 0;
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virtual std::unique_ptr<InlineAdvice> getMandatoryAdvice(CallBase &CB,
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bool Advice);
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Module &M;
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FunctionAnalysisManager &FAM;
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std::unique_ptr<ImportedFunctionsInliningStatistics> ImportedFunctionsStats;
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/// We may want to defer deleting functions to after the inlining for a whole
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/// module has finished. This allows us to reliably use function pointers as
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/// unique identifiers, as an efficient implementation detail of the
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/// InlineAdvisor. Otherwise, it is possible the memory allocator
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/// re-allocate Function objects at the same address of a deleted Function;
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/// and Functions are potentially created during the function passes called
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/// after each SCC inlining (e.g. argument promotion does that).
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void freeDeletedFunctions();
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bool isFunctionDeleted(const Function *F) const {
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return DeletedFunctions.count(F);
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}
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enum class MandatoryInliningKind { NotMandatory, Always, Never };
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static MandatoryInliningKind getMandatoryKind(CallBase &CB,
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FunctionAnalysisManager &FAM,
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OptimizationRemarkEmitter &ORE);
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OptimizationRemarkEmitter &getCallerORE(CallBase &CB);
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private:
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friend class InlineAdvice;
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void markFunctionAsDeleted(Function *F);
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std::unordered_set<const Function *> DeletedFunctions;
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};
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/// The default (manual heuristics) implementation of the InlineAdvisor. This
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/// implementation does not need to keep state between inliner pass runs, and is
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/// reusable as-is for inliner pass test scenarios, as well as for regular use.
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class DefaultInlineAdvisor : public InlineAdvisor {
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public:
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DefaultInlineAdvisor(Module &M, FunctionAnalysisManager &FAM,
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InlineParams Params)
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: InlineAdvisor(M, FAM), Params(Params) {}
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private:
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std::unique_ptr<InlineAdvice> getAdviceImpl(CallBase &CB) override;
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void onPassExit() override { freeDeletedFunctions(); }
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InlineParams Params;
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};
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/// The InlineAdvisorAnalysis is a module pass because the InlineAdvisor
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/// needs to capture state right before inlining commences over a module.
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class InlineAdvisorAnalysis : public AnalysisInfoMixin<InlineAdvisorAnalysis> {
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public:
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static AnalysisKey Key;
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InlineAdvisorAnalysis() = default;
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struct Result {
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Result(Module &M, ModuleAnalysisManager &MAM) : M(M), MAM(MAM) {}
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bool invalidate(Module &, const PreservedAnalyses &,
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ModuleAnalysisManager::Invalidator &) {
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// InlineAdvisor must be preserved across analysis invalidations.
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return false;
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}
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bool tryCreate(InlineParams Params, InliningAdvisorMode Mode,
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StringRef ReplayFile);
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InlineAdvisor *getAdvisor() const { return Advisor.get(); }
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void clear() { Advisor.reset(); }
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private:
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Module &M;
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ModuleAnalysisManager &MAM;
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std::unique_ptr<InlineAdvisor> Advisor;
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};
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Result run(Module &M, ModuleAnalysisManager &MAM) { return Result(M, MAM); }
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};
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#ifdef LLVM_HAVE_TF_AOT
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std::unique_ptr<InlineAdvisor>
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getReleaseModeAdvisor(Module &M, ModuleAnalysisManager &MAM);
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#endif
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#ifdef LLVM_HAVE_TF_API
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std::unique_ptr<InlineAdvisor>
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getDevelopmentModeAdvisor(Module &M, ModuleAnalysisManager &MAM,
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std::function<bool(CallBase &)> GetDefaultAdvice);
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#endif
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// Default (manual policy) decision making helper APIs. Shared with the legacy
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// pass manager inliner.
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/// Return the cost only if the inliner should attempt to inline at the given
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/// CallSite. If we return the cost, we will emit an optimisation remark later
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/// using that cost, so we won't do so from this function. Return None if
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/// inlining should not be attempted.
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Optional<InlineCost>
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shouldInline(CallBase &CB, function_ref<InlineCost(CallBase &CB)> GetInlineCost,
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OptimizationRemarkEmitter &ORE, bool EnableDeferral = true);
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/// Emit ORE message.
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void emitInlinedInto(OptimizationRemarkEmitter &ORE, DebugLoc DLoc,
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const BasicBlock *Block, const Function &Callee,
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const Function &Caller, const InlineCost &IC,
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bool ForProfileContext = false,
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const char *PassName = nullptr);
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/// get call site location as string
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std::string getCallSiteLocation(DebugLoc DLoc);
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/// Add location info to ORE message.
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void addLocationToRemarks(OptimizationRemark &Remark, DebugLoc DLoc);
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/// Set the inline-remark attribute.
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void setInlineRemark(CallBase &CB, StringRef Message);
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/// Utility for extracting the inline cost message to a string.
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std::string inlineCostStr(const InlineCost &IC);
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} // namespace llvm
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#endif // LLVM_ANALYSIS_INLINEADVISOR_H
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