Beispiel #1
0
void TempScopInfo::buildLoopBounds(TempScop &Scop) {
  Region &R = Scop.getMaxRegion();
  unsigned MaxLoopDepth = 0;

  for (Region::block_iterator I = R.block_begin(), E = R.block_end();
       I != E; ++I) {
    Loop *L = LI->getLoopFor(I->getNodeAs<BasicBlock>());

    if (!L || !R.contains(L))
      continue;

    if (LoopBounds.find(L) != LoopBounds.end())
      continue;

    LoopBounds[L] = SCEVAffFunc(SCEVAffFunc::Eq);
    const SCEV *LoopCount = SE->getBackedgeTakenCount(L);
    buildAffineFunction(LoopCount, LoopBounds[L], Scop.getMaxRegion(),
                        Scop.getParamSet());

    Loop *OL = R.outermostLoopInRegion(L);
    unsigned LoopDepth = L->getLoopDepth() - OL->getLoopDepth() + 1;

    if (LoopDepth > MaxLoopDepth)
      MaxLoopDepth = LoopDepth;
  }

  Scop.MaxLoopDepth = MaxLoopDepth;
}
Beispiel #2
0
//===----------------------------------------------------------------------===//
/// Scop class implement
Scop::Scop(TempScop &tempScop, LoopInfo &LI, ScalarEvolution &ScalarEvolution)
           : SE(&ScalarEvolution), R(tempScop.getMaxRegion()),
           MaxLoopDepth(tempScop.getMaxLoopDepth()) {
  isl_ctx *ctx = isl_ctx_alloc();

  ParamSetType &Params = tempScop.getParamSet();
  Parameters.insert(Parameters.begin(), Params.begin(), Params.end());

  isl_dim *dim = isl_dim_set_alloc(ctx, getNumParams(), 0);

  // TODO: Insert relations between parameters.
  // TODO: Insert constraints on parameters.
  Context = isl_set_universe (dim);

  SmallVector<Loop*, 8> NestLoops;
  SmallVector<unsigned, 8> Scatter;

  Scatter.assign(MaxLoopDepth + 1, 0);

  // Build the iteration domain, access functions and scattering functions
  // traversing the region tree.
  buildScop(tempScop, getRegion(), NestLoops, Scatter, LI);
  Stmts.push_back(new ScopStmt(*this, Scatter));

  assert(NestLoops.empty() && "NestLoops not empty at top level!");
}
Beispiel #3
0
void ScopStmt::addConditionsToDomain(TempScop &tempScop,
                                     const Region &CurRegion) {
  isl_dim *dim = isl_set_get_dim(Domain);
  const Region *TopR = tempScop.getMaxRegion().getParent(),
               *CurR = &CurRegion;
  const BasicBlock *CurEntry = BB;

  // Build BB condition constrains, by traveling up the region tree.
  do {
    assert(CurR && "We exceed the top region?");
    // Skip when multiple regions share the same entry.
    if (CurEntry != CurR->getEntry()) {
      if (const BBCond *Cnd = tempScop.getBBCond(CurEntry))
        for (BBCond::const_iterator I = Cnd->begin(), E = Cnd->end();
             I != E; ++I) {
          isl_set *c = toConditionSet(*I, dim);
          Domain = isl_set_intersect(Domain, c);
        }
    }
    CurEntry = CurR->getEntry();
    CurR = CurR->getParent();
  } while (TopR != CurR);

  isl_dim_free(dim);
}
Beispiel #4
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void TempScopInfo::buildLoopBounds(TempScop &Scop) {
  Region &R = Scop.getMaxRegion();
  unsigned MaxLoopDepth = 0;

  for (Region::block_iterator I = R.block_begin(), E = R.block_end(); I != E;
       ++I) {
    Loop *L = LI->getLoopFor(*I);

    if (!L || !R.contains(L))
      continue;

    if (LoopBounds.find(L) != LoopBounds.end())
      continue;

    const SCEV *BackedgeTakenCount = SE->getBackedgeTakenCount(L);
    LoopBounds[L] = BackedgeTakenCount;

    Loop *OL = R.outermostLoopInRegion(L);
    unsigned LoopDepth = L->getLoopDepth() - OL->getLoopDepth() + 1;

    if (LoopDepth > MaxLoopDepth)
      MaxLoopDepth = LoopDepth;
  }

  Scop.MaxLoopDepth = MaxLoopDepth;
}
Beispiel #5
0
void TempScopInfo::buildAffineCondition(Value &V, bool inverted,
                                         Comparison **Comp,
                                         TempScop &Scop) const {
  Region &R = Scop.getMaxRegion();
  ParamSetType &Params = Scop.getParamSet();
  if (ConstantInt *C = dyn_cast<ConstantInt>(&V)) {
    // If this is always true condition, we will create 1 >= 0,
    // otherwise we will create 1 == 0.
    SCEVAffFunc *AffLHS = new SCEVAffFunc(SE->getConstant(C->getType(), 0),
                                          SCEVAffFunc::Eq, R, Params, LI, SE);
    SCEVAffFunc *AffRHS = new SCEVAffFunc(SE->getConstant(C->getType(), 1),
                                          SCEVAffFunc::Eq, R, Params, LI, SE);
    if (C->isOne() == inverted)
      *Comp = new Comparison(AffRHS, AffLHS, ICmpInst::ICMP_NE);
    else
      *Comp = new Comparison(AffLHS, AffLHS, ICmpInst::ICMP_EQ);

    return;
  }

  ICmpInst *ICmp = dyn_cast<ICmpInst>(&V);
  assert(ICmp && "Only ICmpInst of constant as condition supported!");

  const SCEV *LHS = SE->getSCEV(ICmp->getOperand(0)),
             *RHS = SE->getSCEV(ICmp->getOperand(1));

  ICmpInst::Predicate Pred = ICmp->getPredicate();

  // Invert the predicate if needed.
  if (inverted)
    Pred = ICmpInst::getInversePredicate(Pred);

  SCEVAffFunc *AffLHS = new SCEVAffFunc(LHS, SCEVAffFunc::Eq, R, Params, LI,
                                        SE);
  SCEVAffFunc *AffRHS = new SCEVAffFunc(RHS, SCEVAffFunc::Eq, R, Params, LI,
                                        SE);

  switch (Pred) {
  case ICmpInst::ICMP_UGT:
  case ICmpInst::ICMP_UGE:
  case ICmpInst::ICMP_ULT:
  case ICmpInst::ICMP_ULE:
    // TODO: At the moment we need to see everything as signed. This is an
    //       correctness issue that needs to be solved.
    //AffLHS->setUnsigned();
    //AffRHS->setUnsigned();
    break;
  default:
    break;
  }

  *Comp = new Comparison(AffLHS, AffRHS, Pred);
}
Beispiel #6
0
Scop::Scop(TempScop &tempScop, LoopInfo &LI, ScalarEvolution &ScalarEvolution,
           isl_ctx *Context)
    : SE(&ScalarEvolution), R(tempScop.getMaxRegion()),
      MaxLoopDepth(tempScop.getMaxLoopDepth()) {
  IslCtx = Context;
  buildContext();

  SmallVector<Loop *, 8> NestLoops;
  SmallVector<unsigned, 8> Scatter;

  Scatter.assign(MaxLoopDepth + 1, 0);

  // Build the iteration domain, access functions and scattering functions
  // traversing the region tree.
  buildScop(tempScop, getRegion(), NestLoops, Scatter, LI);

  realignParams();
  addParameterBounds();

  assert(NestLoops.empty() && "NestLoops not empty at top level!");
}