Пример #1
0
static void replaceLoad(LoadInst *LI, SILValue val, AllocStackInst *ASI) {
  ProjectionPath projections(val->getType());
  SILValue op = LI->getOperand();
  while (op != ASI) {
    assert(isa<StructElementAddrInst>(op) || isa<TupleElementAddrInst>(op));
    SILInstruction *Inst = cast<SILInstruction>(op);
    projections.push_back(Projection(Inst));
    op = Inst->getOperand(0);
  }
  SILBuilder builder(LI);
  for (auto iter = projections.rbegin(); iter != projections.rend(); ++iter) {
    const Projection &projection = *iter;
    val = projection.createObjectProjection(builder, LI->getLoc(), val).get();
  }
  op = LI->getOperand();
  LI->replaceAllUsesWith(val);
  LI->eraseFromParent();
  while (op != ASI && op->use_empty()) {
    assert(isa<StructElementAddrInst>(op) || isa<TupleElementAddrInst>(op));
    SILInstruction *Inst = cast<SILInstruction>(op);
    SILValue next = Inst->getOperand(0);
    Inst->eraseFromParent();
    op = next;
  }
}
Пример #2
0
static bool
constantFoldStringConcatenation(ApplyInst *AI,
                                llvm::SetVector<SILInstruction *> &WorkList) {
  SILBuilder B(AI);
  // Try to apply the string literal concatenation optimization.
  auto *Concatenated = tryToConcatenateStrings(AI, B);
  // Bail if string literal concatenation could not be performed.
  if (!Concatenated)
    return false;

  // Replace all uses of the old instruction by a new instruction.
  AI->replaceAllUsesWith(Concatenated);

  auto RemoveCallback = [&](SILInstruction *DeadI) { WorkList.remove(DeadI); };
  // Remove operands that are not used anymore.
  // Even if they are apply_inst, it is safe to
  // do so, because they can only be applies
  // of functions annotated as string.utf16
  // or string.utf16.
  for (auto &Op : AI->getAllOperands()) {
    SILValue Val = Op.get();
    Op.drop();
    if (Val->use_empty()) {
      auto *DeadI = dyn_cast<SILInstruction>(Val);
      recursivelyDeleteTriviallyDeadInstructions(DeadI, /*force*/ true,
                                                 RemoveCallback);
      WorkList.remove(DeadI);
    }
  }
  // Schedule users of the new instruction for constant folding.
  // We only need to schedule the string.concat invocations.
  for (auto AIUse : Concatenated->getUses()) {
    if (isApplyOfStringConcat(*AIUse->getUser())) {
      WorkList.insert(AIUse->getUser());
    }
  }
  // Delete the old apply instruction.
  recursivelyDeleteTriviallyDeadInstructions(AI, /*force*/ true,
                                             RemoveCallback);
  return true;
}
Пример #3
0
void MemoryToRegisters::removeSingleBlockAllocation(AllocStackInst *ASI) {
  DEBUG(llvm::dbgs() << "*** Promoting in-block: " << *ASI);

  SILBasicBlock *BB = ASI->getParent();

  // The default value of the AllocStack is NULL because we don't have
  // uninitialized variables in Swift.
  SILValue RunningVal = SILValue();

  // For all instructions in the block.
  for (auto BBI = BB->begin(), E = BB->end(); BBI != E;) {
    SILInstruction *Inst = &*BBI;
    ++BBI;

    // Remove instructions that we are loading from. Replace the loaded value
    // with our running value.
    if (isLoadFromStack(Inst, ASI)) {
      if (!RunningVal) {
        assert(ASI->getElementType().isVoid() &&
               "Expected initialization of non-void type!");
        RunningVal = SILUndef::get(ASI->getElementType(), ASI->getModule());
      }
      replaceLoad(cast<LoadInst>(Inst), RunningVal, ASI);
      NumInstRemoved++;
      continue;
    }

    // Remove stores and record the value that we are saving as the running
    // value.
    if (auto *SI = dyn_cast<StoreInst>(Inst)) {
      if (SI->getDest() == ASI) {
        RunningVal = SI->getSrc();
        Inst->eraseFromParent();
        NumInstRemoved++;
        continue;
      }
    }

    // Replace debug_value_addr with debug_value of the promoted value.
    if (auto *DVAI = dyn_cast<DebugValueAddrInst>(Inst)) {
      if (DVAI->getOperand() == ASI) {
        if (RunningVal) {
          promoteDebugValueAddr(DVAI, RunningVal, B);
        } else {
          // Drop debug_value_addr of uninitialized void values.
          assert(ASI->getElementType().isVoid() &&
                 "Expected initialization of non-void type!");
          DVAI->eraseFromParent();
        }
      }
      continue;
    }

    // Replace destroys with a release of the value.
    if (auto *DAI = dyn_cast<DestroyAddrInst>(Inst)) {
      if (DAI->getOperand() == ASI) {
        replaceDestroy(DAI, RunningVal);
      }
      continue;
    }

    // Remove deallocation.
    if (auto *DSI = dyn_cast<DeallocStackInst>(Inst)) {
      if (DSI->getOperand() == ASI) {
        Inst->eraseFromParent();
        NumInstRemoved++;
        // No need to continue scanning after deallocation.
        break;
      }
    }

    SILValue InstVal = Inst;
    
    // Remove dead address instructions that may be uses of the allocation.
    while (InstVal->use_empty() && (isa<StructElementAddrInst>(InstVal) ||
                                    isa<TupleElementAddrInst>(InstVal))) {
      SILInstruction *I = cast<SILInstruction>(InstVal);
      InstVal = I->getOperand(0);
      I->eraseFromParent();
      NumInstRemoved++;
    }
  }
}