llvm-project/polly/include/polly/Simplify.h

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5.5 KiB
C++

//===------ Simplify.h ------------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// Simplify a SCoP by removing unnecessary statements and accesses.
//
//===----------------------------------------------------------------------===//
#ifndef POLLY_TRANSFORM_SIMPLIFY_H
#define POLLY_TRANSFORM_SIMPLIFY_H
#include "polly/ScopPass.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/IR/PassManager.h"
namespace llvm {
class PassRegistry;
class Pass;
} // namespace llvm
namespace polly {
class SimplifyVisitor {
private:
/// The invocation id (if there are multiple instances in the pass manager's
/// pipeline) to determine which statistics to update.
int CallNo;
/// The last/current SCoP that is/has been processed.
Scop *S;
/// Number of statements with empty domains removed from the SCoP.
int EmptyDomainsRemoved = 0;
/// Number of writes that are overwritten anyway.
int OverwritesRemoved = 0;
/// Number of combined writes.
int WritesCoalesced = 0;
/// Number of redundant writes removed from this SCoP.
int RedundantWritesRemoved = 0;
/// Number of writes with empty access domain removed.
int EmptyPartialAccessesRemoved = 0;
/// Number of unused accesses removed from this SCoP.
int DeadAccessesRemoved = 0;
/// Number of unused instructions removed from this SCoP.
int DeadInstructionsRemoved = 0;
/// Number of unnecessary statements removed from the SCoP.
int StmtsRemoved = 0;
/// Return whether at least one simplification has been applied.
bool isModified() const;
/// Remove statements that are never executed due to their domains being
/// empty.
///
/// In contrast to Scop::simplifySCoP, this removes based on the SCoP's
/// effective domain, i.e. including the SCoP's context as used by some other
/// simplification methods in this pass. This is necessary because the
/// analysis on empty domains is unreliable, e.g. remove a scalar value
/// definition MemoryAccesses, but not its use.
void removeEmptyDomainStmts();
/// Remove writes that are overwritten unconditionally later in the same
/// statement.
///
/// There must be no read of the same value between the write (that is to be
/// removed) and the overwrite.
void removeOverwrites();
/// Combine writes that write the same value if possible.
///
/// This function is able to combine:
/// - Partial writes with disjoint domain.
/// - Writes that write to the same array element.
///
/// In all cases, both writes must write the same values.
void coalesceWrites();
/// Remove writes that just write the same value already stored in the
/// element.
void removeRedundantWrites();
/// Remove statements without side effects.
void removeUnnecessaryStmts();
/// Remove accesses that have an empty domain.
void removeEmptyPartialAccesses();
/// Mark all reachable instructions and access, and sweep those that are not
/// reachable.
void markAndSweep(LoopInfo *LI);
/// Print simplification statistics to @p OS.
void printStatistics(llvm::raw_ostream &OS, int Indent = 0) const;
/// Print the current state of all MemoryAccesses to @p OS.
void printAccesses(llvm::raw_ostream &OS, int Indent = 0) const;
public:
explicit SimplifyVisitor(int CallNo = 0) : CallNo(CallNo) {}
bool visit(Scop &S, LoopInfo *LI);
void printScop(raw_ostream &OS, Scop &S) const;
void releaseMemory();
};
} // namespace polly
namespace polly {
class MemoryAccess;
class ScopStmt;
/// Return a vector that contains MemoryAccesses in the order in
/// which they are executed.
///
/// The order is:
/// - Implicit reads (BlockGenerator::generateScalarLoads)
/// - Explicit reads and writes (BlockGenerator::generateArrayLoad,
/// BlockGenerator::generateArrayStore)
/// - In block statements, the accesses are in order in which their
/// instructions are executed.
/// - In region statements, that order of execution is not predictable at
/// compile-time.
/// - Implicit writes (BlockGenerator::generateScalarStores)
/// The order in which implicit writes are executed relative to each other is
/// undefined.
llvm::SmallVector<MemoryAccess *, 32> getAccessesInOrder(ScopStmt &Stmt);
/// Create a Simplify pass
///
/// @param CallNo Disambiguates this instance for when there are multiple
/// instances of this pass in the pass manager. It is used only to
/// keep the statistics apart and has no influence on the
/// simplification itself.
///
/// @return The Simplify pass.
llvm::Pass *createSimplifyPass(int CallNo = 0);
struct SimplifyPass : public PassInfoMixin<SimplifyPass> {
SimplifyPass(int CallNo = 0) : Imp(CallNo) {}
llvm::PreservedAnalyses run(Scop &S, ScopAnalysisManager &SAM,
ScopStandardAnalysisResults &AR, SPMUpdater &U);
SimplifyVisitor Imp;
};
struct SimplifyPrinterPass : public PassInfoMixin<SimplifyPrinterPass> {
SimplifyPrinterPass(raw_ostream &OS, int CallNo = 0) : OS(OS), Imp(CallNo) {}
PreservedAnalyses run(Scop &S, ScopAnalysisManager &,
ScopStandardAnalysisResults &, SPMUpdater &);
raw_ostream &OS;
SimplifyVisitor Imp;
};
} // namespace polly
namespace llvm {
void initializeSimplifyLegacyPassPass(llvm::PassRegistry &);
} // namespace llvm
#endif /* POLLY_TRANSFORM_SIMPLIFY_H */