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llvm-mirror/include/llvm/Analysis/DemandedBits.h
Qunyan Mangus 037a1994f1 Add getDemandedBits for uses. 
Add getDemandedBits method for uses so we can query demanded bits for each use.  This can help getting better use information. For example, for the code below
define i32 @test_use(i32 %a) {
  %1 = and i32 %a, -256
  %2 = or i32 %1, 1
  %3 = trunc i32 %2 to i8 (didn't optimize this to 1 for illustration purpose)
  ... some use of %3
  ret %2
}
if we look at the demanded bit of %2 (which is all 32 bits because of the return), we would conclude that %a is used regardless of how its return is used. However, if we look at each use separately, we will see that the demanded bit of %2 in trunc only uses the lower 8 bits of %a which is redefined, therefore %a's usage depends on how the function return is used.

Reviewed By: RKSimon

Differential Revision: https://reviews.llvm.org/D97074
2021-06-02 10:07:40 -04:00

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//===- llvm/Analysis/DemandedBits.h - Determine demanded bits ---*- 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
//
//===----------------------------------------------------------------------===//
//
// This pass implements a demanded bits analysis. A demanded bit is one that
// contributes to a result; bits that are not demanded can be either zero or
// one without affecting control or data flow. For example in this sequence:
//
// %1 = add i32 %x, %y
// %2 = trunc i32 %1 to i16
//
// Only the lowest 16 bits of %1 are demanded; the rest are removed by the
// trunc.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_ANALYSIS_DEMANDEDBITS_H
#define LLVM_ANALYSIS_DEMANDEDBITS_H
#include "llvm/ADT/APInt.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/IR/PassManager.h"
#include "llvm/Pass.h"
namespace llvm {
class AssumptionCache;
class DominatorTree;
class Function;
class Instruction;
struct KnownBits;
class raw_ostream;
class DemandedBits {
public:
DemandedBits(Function &F, AssumptionCache &AC, DominatorTree &DT) :
F(F), AC(AC), DT(DT) {}
/// Return the bits demanded from instruction I.
///
/// For vector instructions individual vector elements are not distinguished:
/// A bit is demanded if it is demanded for any of the vector elements. The
/// size of the return value corresponds to the type size in bits of the
/// scalar type.
///
/// Instructions that do not have integer or vector of integer type are
/// accepted, but will always produce a mask with all bits set.
APInt getDemandedBits(Instruction *I);
/// Return the bits demanded from use U.
APInt getDemandedBits(Use *U);
/// Return true if, during analysis, I could not be reached.
bool isInstructionDead(Instruction *I);
/// Return whether this use is dead by means of not having any demanded bits.
bool isUseDead(Use *U);
void print(raw_ostream &OS);
/// Compute alive bits of one addition operand from alive output and known
/// operand bits
static APInt determineLiveOperandBitsAdd(unsigned OperandNo,
const APInt &AOut,
const KnownBits &LHS,
const KnownBits &RHS);
/// Compute alive bits of one subtraction operand from alive output and known
/// operand bits
static APInt determineLiveOperandBitsSub(unsigned OperandNo,
const APInt &AOut,
const KnownBits &LHS,
const KnownBits &RHS);
private:
void performAnalysis();
void determineLiveOperandBits(const Instruction *UserI,
const Value *Val, unsigned OperandNo,
const APInt &AOut, APInt &AB,
KnownBits &Known, KnownBits &Known2, bool &KnownBitsComputed);
Function &F;
AssumptionCache ∾
DominatorTree &DT;
bool Analyzed = false;
// The set of visited instructions (non-integer-typed only).
SmallPtrSet<Instruction*, 32> Visited;
DenseMap<Instruction *, APInt> AliveBits;
// Uses with no demanded bits. If the user also has no demanded bits, the use
// might not be stored explicitly in this map, to save memory during analysis.
SmallPtrSet<Use *, 16> DeadUses;
};
class DemandedBitsWrapperPass : public FunctionPass {
private:
mutable Optional<DemandedBits> DB;
public:
static char ID; // Pass identification, replacement for typeid
DemandedBitsWrapperPass();
bool runOnFunction(Function &F) override;
void getAnalysisUsage(AnalysisUsage &AU) const override;
/// Clean up memory in between runs
void releaseMemory() override;
DemandedBits &getDemandedBits() { return *DB; }
void print(raw_ostream &OS, const Module *M) const override;
};
/// An analysis that produces \c DemandedBits for a function.
class DemandedBitsAnalysis : public AnalysisInfoMixin<DemandedBitsAnalysis> {
friend AnalysisInfoMixin<DemandedBitsAnalysis>;
static AnalysisKey Key;
public:
/// Provide the result type for this analysis pass.
using Result = DemandedBits;
/// Run the analysis pass over a function and produce demanded bits
/// information.
DemandedBits run(Function &F, FunctionAnalysisManager &AM);
};
/// Printer pass for DemandedBits
class DemandedBitsPrinterPass : public PassInfoMixin<DemandedBitsPrinterPass> {
raw_ostream &OS;
public:
explicit DemandedBitsPrinterPass(raw_ostream &OS) : OS(OS) {}
PreservedAnalyses run(Function &F, FunctionAnalysisManager &AM);
};
/// Create a demanded bits analysis pass.
FunctionPass *createDemandedBitsWrapperPass();
} // end namespace llvm
#endif // LLVM_ANALYSIS_DEMANDEDBITS_H
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