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359 lines
15 KiB
C++
359 lines
15 KiB
C++
//===- IROutliner.h - Extract similar IR regions into functions ------------==//
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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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// \file
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// The interface file for the IROutliner which is used by the IROutliner Pass.
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//
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// The outliner uses the IRSimilarityIdentifier to identify the similar regions
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// of code. It evaluates each set of IRSimilarityCandidates with an estimate of
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// whether it will provide code size reduction. Each region is extracted using
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// the code extractor. These extracted functions are consolidated into a single
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// function and called from the extracted call site.
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//
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// For example:
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// \code
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// %1 = add i32 %a, %b
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// %2 = add i32 %b, %a
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// %3 = add i32 %b, %a
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// %4 = add i32 %a, %b
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// \endcode
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// would become function
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// \code
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// define internal void outlined_ir_function(i32 %0, i32 %1) {
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// %1 = add i32 %0, %1
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// %2 = add i32 %1, %0
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// ret void
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// }
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// \endcode
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// with calls:
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// \code
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// call void outlined_ir_function(i32 %a, i32 %b)
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// call void outlined_ir_function(i32 %b, i32 %a)
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// \endcode
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_TRANSFORMS_IPO_IROUTLINER_H
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#define LLVM_TRANSFORMS_IPO_IROUTLINER_H
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#include "llvm/Analysis/IRSimilarityIdentifier.h"
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#include "llvm/IR/PassManager.h"
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#include "llvm/IR/ValueMap.h"
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#include "llvm/Support/InstructionCost.h"
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#include "llvm/Transforms/Utils/CodeExtractor.h"
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#include <set>
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struct OutlinableGroup;
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namespace llvm {
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using namespace IRSimilarity;
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class Module;
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class TargetTransformInfo;
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class OptimizationRemarkEmitter;
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/// The OutlinableRegion holds all the information for a specific region, or
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/// sequence of instructions. This includes what values need to be hoisted to
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/// arguments from the extracted function, inputs and outputs to the region, and
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/// mapping from the extracted function arguments to overall function arguments.
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struct OutlinableRegion {
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/// Describes the region of code.
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IRSimilarityCandidate *Candidate = nullptr;
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/// If this region is outlined, the front and back IRInstructionData could
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/// potentially become invalidated if the only new instruction is a call.
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/// This ensures that we replace in the instruction in the IRInstructionData.
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IRInstructionData *NewFront = nullptr;
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IRInstructionData *NewBack = nullptr;
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/// The number of extracted inputs from the CodeExtractor.
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unsigned NumExtractedInputs = 0;
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/// The corresponding BasicBlock with the appropriate stores for this
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/// OutlinableRegion in the overall function.
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unsigned OutputBlockNum = -1;
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/// Mapping the extracted argument number to the argument number in the
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/// overall function. Since there will be inputs, such as elevated constants
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/// that are not the same in each region in a SimilarityGroup, or values that
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/// cannot be sunk into the extracted section in every region, we must keep
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/// track of which extracted argument maps to which overall argument.
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DenseMap<unsigned, unsigned> ExtractedArgToAgg;
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DenseMap<unsigned, unsigned> AggArgToExtracted;
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/// Mapping of the argument number in the deduplicated function
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/// to a given constant, which is used when creating the arguments to the call
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/// to the newly created deduplicated function. This is handled separately
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/// since the CodeExtractor does not recognize constants.
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DenseMap<unsigned, Constant *> AggArgToConstant;
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/// The global value numbers that are used as outputs for this section. Once
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/// extracted, each output will be stored to an output register. This
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/// documents the global value numbers that are used in this pattern.
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SmallVector<unsigned, 4> GVNStores;
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/// Used to create an outlined function.
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CodeExtractor *CE = nullptr;
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/// The call site of the extracted region.
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CallInst *Call = nullptr;
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/// The function for the extracted region.
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Function *ExtractedFunction = nullptr;
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/// Flag for whether we have split out the IRSimilarityCanidate. That is,
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/// make the region contained the IRSimilarityCandidate its own BasicBlock.
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bool CandidateSplit = false;
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/// Flag for whether we should not consider this region for extraction.
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bool IgnoreRegion = false;
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/// The BasicBlock that is before the start of the region BasicBlock,
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/// only defined when the region has been split.
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BasicBlock *PrevBB = nullptr;
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/// The BasicBlock that contains the starting instruction of the region.
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BasicBlock *StartBB = nullptr;
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/// The BasicBlock that contains the ending instruction of the region.
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BasicBlock *EndBB = nullptr;
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/// The BasicBlock that is after the start of the region BasicBlock,
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/// only defined when the region has been split.
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BasicBlock *FollowBB = nullptr;
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/// The Outlinable Group that contains this region and structurally similar
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/// regions to this region.
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OutlinableGroup *Parent = nullptr;
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OutlinableRegion(IRSimilarityCandidate &C, OutlinableGroup &Group)
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: Candidate(&C), Parent(&Group) {
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StartBB = C.getStartBB();
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EndBB = C.getEndBB();
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}
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/// For the contained region, split the parent BasicBlock at the starting and
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/// ending instructions of the contained IRSimilarityCandidate.
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void splitCandidate();
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/// For the contained region, reattach the BasicBlock at the starting and
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/// ending instructions of the contained IRSimilarityCandidate, or if the
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/// function has been extracted, the start and end of the BasicBlock
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/// containing the called function.
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void reattachCandidate();
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/// Get the size of the code removed from the region.
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///
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/// \param [in] TTI - The TargetTransformInfo for the parent function.
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/// \returns the code size of the region
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InstructionCost getBenefit(TargetTransformInfo &TTI);
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};
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/// This class is a pass that identifies similarity in a Module, extracts
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/// instances of the similarity, and then consolidating the similar regions
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/// in an effort to reduce code size. It uses the IRSimilarityIdentifier pass
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/// to identify the similar regions of code, and then extracts the similar
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/// sections into a single function. See the above for an example as to
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/// how code is extracted and consolidated into a single function.
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class IROutliner {
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public:
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IROutliner(function_ref<TargetTransformInfo &(Function &)> GTTI,
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function_ref<IRSimilarityIdentifier &(Module &)> GIRSI,
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function_ref<OptimizationRemarkEmitter &(Function &)> GORE)
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: getTTI(GTTI), getIRSI(GIRSI), getORE(GORE) {}
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bool run(Module &M);
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private:
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/// Find repeated similar code sequences in \p M and outline them into new
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/// Functions.
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///
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/// \param [in] M - The module to outline from.
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/// \returns The number of Functions created.
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unsigned doOutline(Module &M);
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/// Remove all the IRSimilarityCandidates from \p CandidateVec that have
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/// instructions contained in a previously outlined region and put the
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/// remaining regions in \p CurrentGroup.
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///
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/// \param [in] CandidateVec - List of similarity candidates for regions with
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/// the same similarity structure.
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/// \param [in,out] CurrentGroup - Contains the potential sections to
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/// be outlined.
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void
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pruneIncompatibleRegions(std::vector<IRSimilarityCandidate> &CandidateVec,
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OutlinableGroup &CurrentGroup);
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/// Create the function based on the overall types found in the current
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/// regions being outlined.
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///
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/// \param M - The module to outline from.
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/// \param [in,out] CG - The OutlinableGroup for the regions to be outlined.
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/// \param [in] FunctionNameSuffix - How many functions have we previously
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/// created.
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/// \returns the newly created function.
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Function *createFunction(Module &M, OutlinableGroup &CG,
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unsigned FunctionNameSuffix);
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/// Identify the needed extracted inputs in a section, and add to the overall
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/// function if needed.
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///
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/// \param [in] M - The module to outline from.
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/// \param [in,out] Region - The region to be extracted.
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/// \param [in] NotSame - The global value numbers of the Values in the region
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/// that do not have the same Constant in each strucutrally similar region.
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void findAddInputsOutputs(Module &M, OutlinableRegion &Region,
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DenseSet<unsigned> &NotSame);
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/// Find the number of instructions that will be removed by extracting the
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/// OutlinableRegions in \p CurrentGroup.
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///
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/// \param [in] CurrentGroup - The collection of OutlinableRegions to be
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/// analyzed.
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/// \returns the number of outlined instructions across all regions.
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InstructionCost findBenefitFromAllRegions(OutlinableGroup &CurrentGroup);
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/// Find the number of instructions that will be added by reloading arguments.
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///
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/// \param [in] CurrentGroup - The collection of OutlinableRegions to be
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/// analyzed.
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/// \returns the number of added reload instructions across all regions.
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InstructionCost findCostOutputReloads(OutlinableGroup &CurrentGroup);
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/// Find the cost and the benefit of \p CurrentGroup and save it back to
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/// \p CurrentGroup.
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///
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/// \param [in] M - The module being analyzed
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/// \param [in,out] CurrentGroup - The overall outlined section
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void findCostBenefit(Module &M, OutlinableGroup &CurrentGroup);
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/// Update the output mapping based on the load instruction, and the outputs
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/// of the extracted function.
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///
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/// \param Region - The region extracted
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/// \param Outputs - The outputs from the extracted function.
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/// \param LI - The load instruction used to update the mapping.
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void updateOutputMapping(OutlinableRegion &Region,
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ArrayRef<Value *> Outputs, LoadInst *LI);
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/// Extract \p Region into its own function.
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///
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/// \param [in] Region - The region to be extracted into its own function.
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/// \returns True if it was successfully outlined.
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bool extractSection(OutlinableRegion &Region);
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/// For the similarities found, and the extracted sections, create a single
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/// outlined function with appropriate output blocks as necessary.
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///
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/// \param [in] M - The module to outline from
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/// \param [in] CurrentGroup - The set of extracted sections to consolidate.
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/// \param [in,out] FuncsToRemove - List of functions to remove from the
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/// module after outlining is completed.
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/// \param [in,out] OutlinedFunctionNum - the number of new outlined
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/// functions.
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void deduplicateExtractedSections(Module &M, OutlinableGroup &CurrentGroup,
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std::vector<Function *> &FuncsToRemove,
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unsigned &OutlinedFunctionNum);
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/// If true, enables us to outline from functions that have LinkOnceFromODR
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/// linkages.
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bool OutlineFromLinkODRs = false;
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/// If false, we do not worry if the cost is greater than the benefit. This
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/// is for debugging and testing, so that we can test small cases to ensure
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/// that the outlining is being done correctly.
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bool CostModel = true;
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/// The set of outlined Instructions, identified by their location in the
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/// sequential ordering of instructions in a Module.
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DenseSet<unsigned> Outlined;
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/// TargetTransformInfo lambda for target specific information.
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function_ref<TargetTransformInfo &(Function &)> getTTI;
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/// A mapping from newly created reloaded output values to the original value.
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/// If an value is replace by an output from an outlined region, this maps
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/// that Value, back to its original Value.
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DenseMap<Value *, Value *> OutputMappings;
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/// IRSimilarityIdentifier lambda to retrieve IRSimilarityIdentifier.
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function_ref<IRSimilarityIdentifier &(Module &)> getIRSI;
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/// The optimization remark emitter for the pass.
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function_ref<OptimizationRemarkEmitter &(Function &)> getORE;
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/// The memory allocator used to allocate the CodeExtractors.
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SpecificBumpPtrAllocator<CodeExtractor> ExtractorAllocator;
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/// The memory allocator used to allocate the OutlinableRegions.
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SpecificBumpPtrAllocator<OutlinableRegion> RegionAllocator;
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/// The memory allocator used to allocate new IRInstructionData.
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SpecificBumpPtrAllocator<IRInstructionData> InstDataAllocator;
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/// Custom InstVisitor to classify different instructions for whether it can
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/// be analyzed for similarity. This is needed as there may be instruction we
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/// can identify as having similarity, but are more complicated to outline.
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struct InstructionAllowed : public InstVisitor<InstructionAllowed, bool> {
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InstructionAllowed() {}
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// TODO: Determine a scheme to resolve when the label is similar enough.
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bool visitBranchInst(BranchInst &BI) { return false; }
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// TODO: Determine a scheme to resolve when the labels are similar enough.
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bool visitPHINode(PHINode &PN) { return false; }
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// TODO: Handle allocas.
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bool visitAllocaInst(AllocaInst &AI) { return false; }
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// VAArg instructions are not allowed since this could cause difficulty when
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// differentiating between different sets of variable instructions in
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// the deduplicated outlined regions.
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bool visitVAArgInst(VAArgInst &VI) { return false; }
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// We exclude all exception handling cases since they are so context
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// dependent.
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bool visitLandingPadInst(LandingPadInst &LPI) { return false; }
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bool visitFuncletPadInst(FuncletPadInst &FPI) { return false; }
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// DebugInfo should be included in the regions, but should not be
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// analyzed for similarity as it has no bearing on the outcome of the
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// program.
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bool visitDbgInfoIntrinsic(DbgInfoIntrinsic &DII) { return true; }
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// TODO: Handle specific intrinsics individually from those that can be
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// handled.
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bool IntrinsicInst(IntrinsicInst &II) { return false; }
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// We only handle CallInsts that are not indirect, since we cannot guarantee
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// that they have a name in these cases.
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bool visitCallInst(CallInst &CI) {
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Function *F = CI.getCalledFunction();
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if (!F || CI.isIndirectCall() || !F->hasName())
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return false;
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return true;
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}
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// TODO: Handle FreezeInsts. Since a frozen value could be frozen inside
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// the outlined region, and then returned as an output, this will have to be
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// handled differently.
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bool visitFreezeInst(FreezeInst &CI) { return false; }
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// TODO: We do not current handle similarity that changes the control flow.
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bool visitInvokeInst(InvokeInst &II) { return false; }
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// TODO: We do not current handle similarity that changes the control flow.
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bool visitCallBrInst(CallBrInst &CBI) { return false; }
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// TODO: Handle interblock similarity.
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bool visitTerminator(Instruction &I) { return false; }
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bool visitInstruction(Instruction &I) { return true; }
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};
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/// A InstVisitor used to exclude certain instructions from being outlined.
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InstructionAllowed InstructionClassifier;
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};
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/// Pass to outline similar regions.
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class IROutlinerPass : public PassInfoMixin<IROutlinerPass> {
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public:
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PreservedAnalyses run(Module &M, ModuleAnalysisManager &AM);
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};
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} // end namespace llvm
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#endif // LLVM_TRANSFORMS_IPO_IROUTLINER_H
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