llvm-project/bolt/lib/Passes/StackReachingUses.cpp

128 lines
4.4 KiB
C++

//===- bolt/Passes/StackReachingUses.cpp ----------------------------------===//
//
// 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 file implements the StackReachingUses class.
//
//===----------------------------------------------------------------------===//
#include "bolt/Passes/StackReachingUses.h"
#include "bolt/Passes/FrameAnalysis.h"
#define DEBUG_TYPE "sru"
namespace llvm {
namespace bolt {
bool StackReachingUses::isLoadedInDifferentReg(const FrameIndexEntry &StoreFIE,
ExprIterator Candidates) const {
for (auto I = Candidates; I != expr_end(); ++I) {
const MCInst *ReachingInst = *I;
if (ErrorOr<const FrameIndexEntry &> FIEY = FA.getFIEFor(*ReachingInst)) {
assert(FIEY->IsLoad == 1);
if (StoreFIE.StackOffset + StoreFIE.Size > FIEY->StackOffset &&
StoreFIE.StackOffset < FIEY->StackOffset + FIEY->Size &&
StoreFIE.RegOrImm != FIEY->RegOrImm)
return true;
}
}
return false;
}
bool StackReachingUses::isStoreUsed(const FrameIndexEntry &StoreFIE,
ExprIterator Candidates,
bool IncludeLocalAccesses) const {
for (auto I = Candidates; I != expr_end(); ++I) {
const MCInst *ReachingInst = *I;
if (IncludeLocalAccesses) {
if (ErrorOr<const FrameIndexEntry &> FIEY = FA.getFIEFor(*ReachingInst)) {
assert(FIEY->IsLoad == 1);
if (StoreFIE.StackOffset + StoreFIE.Size > FIEY->StackOffset &&
StoreFIE.StackOffset < FIEY->StackOffset + FIEY->Size)
return true;
}
}
ErrorOr<const ArgAccesses &> Args = FA.getArgAccessesFor(*ReachingInst);
if (!Args)
continue;
if (Args->AssumeEverything)
return true;
for (ArgInStackAccess FIEY : Args->Set)
if (StoreFIE.StackOffset + StoreFIE.Size > FIEY.StackOffset &&
StoreFIE.StackOffset < FIEY.StackOffset + FIEY.Size)
return true;
}
return false;
}
void StackReachingUses::preflight() {
LLVM_DEBUG(dbgs() << "Starting StackReachingUses on \"" << Func.getPrintName()
<< "\"\n");
// Populate our universe of tracked expressions. We are interested in
// tracking reaching loads from frame position at any given point of the
// program.
for (BinaryBasicBlock &BB : Func) {
for (MCInst &Inst : BB) {
if (ErrorOr<const FrameIndexEntry &> FIE = FA.getFIEFor(Inst)) {
if (FIE->IsLoad == true) {
Expressions.push_back(&Inst);
ExprToIdx[&Inst] = NumInstrs++;
continue;
}
}
ErrorOr<const ArgAccesses &> AA = FA.getArgAccessesFor(Inst);
if (AA && (!AA->Set.empty() || AA->AssumeEverything)) {
Expressions.push_back(&Inst);
ExprToIdx[&Inst] = NumInstrs++;
}
}
}
}
bool StackReachingUses::doesXKillsY(const MCInst *X, const MCInst *Y) {
// if X is a store to the same stack location and the bytes fetched is a
// superset of those bytes affected by the load in Y, return true
ErrorOr<const FrameIndexEntry &> FIEX = FA.getFIEFor(*X);
ErrorOr<const FrameIndexEntry &> FIEY = FA.getFIEFor(*Y);
if (FIEX && FIEY) {
if (FIEX->IsSimple == true && FIEY->IsSimple == true &&
FIEX->IsStore == true && FIEY->IsLoad == true &&
FIEX->StackOffset <= FIEY->StackOffset &&
FIEX->StackOffset + FIEX->Size >= FIEY->StackOffset + FIEY->Size)
return true;
}
return false;
}
BitVector StackReachingUses::computeNext(const MCInst &Point,
const BitVector &Cur) {
BitVector Next = Cur;
// Kill
for (auto I = expr_begin(Next), E = expr_end(); I != E; ++I) {
assert(*I != nullptr && "Lost pointers");
if (doesXKillsY(&Point, *I)) {
LLVM_DEBUG(dbgs() << "\t\t\tKilling ");
LLVM_DEBUG((*I)->dump());
Next.reset(I.getBitVectorIndex());
}
};
// Gen
if (ErrorOr<const FrameIndexEntry &> FIE = FA.getFIEFor(Point)) {
if (FIE->IsLoad == true)
Next.set(ExprToIdx[&Point]);
}
ErrorOr<const ArgAccesses &> AA = FA.getArgAccessesFor(Point);
if (AA && (!AA->Set.empty() || AA->AssumeEverything))
Next.set(ExprToIdx[&Point]);
return Next;
}
} // namespace bolt
} // namespace llvm