lib/Analysis/BlockFrequencyInfoImpl.cpp

*9880d681SAndroid Build Coastguard Worker//===- BlockFrequencyImplInfo.cpp - Block Frequency Info Implementation ---===//
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker//                     The LLVM Compiler Infrastructure
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// This file is distributed under the University of Illinois Open Source
*9880d681SAndroid Build Coastguard Worker// License. See LICENSE.TXT for details.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker//===----------------------------------------------------------------------===//
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// Loops should be simplified before this analysis.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker//===----------------------------------------------------------------------===//
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker#include "llvm/Analysis/BlockFrequencyInfoImpl.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/ADT/SCCIterator.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/IR/Function.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/Support/raw_ostream.h"
*9880d681SAndroid Build Coastguard Worker#include <numeric>
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerusing namespace llvm;
*9880d681SAndroid Build Coastguard Workerusing namespace llvm::bfi_detail;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker#define DEBUG_TYPE "block-freq"
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard WorkerScaledNumber<uint64_t> BlockMass::toScaled() const {
*9880d681SAndroid Build Coastguard Worker  if (isFull())
*9880d681SAndroid Build Coastguard Worker    return ScaledNumber<uint64_t>(1, 0);
*9880d681SAndroid Build Coastguard Worker  return ScaledNumber<uint64_t>(getMass() + 1, -64);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard WorkerLLVM_DUMP_METHOD void BlockMass::dump() const { print(dbgs()); }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic char getHexDigit(int N) {
*9880d681SAndroid Build Coastguard Worker  assert(N < 16);
*9880d681SAndroid Build Coastguard Worker  if (N < 10)
*9880d681SAndroid Build Coastguard Worker    return '0' + N;
*9880d681SAndroid Build Coastguard Worker  return 'a' + N - 10;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerraw_ostream &BlockMass::print(raw_ostream &OS) const {
*9880d681SAndroid Build Coastguard Worker  for (int Digits = 0; Digits < 16; ++Digits)
*9880d681SAndroid Build Coastguard Worker    OS << getHexDigit(Mass >> (60 - Digits * 4) & 0xf);
*9880d681SAndroid Build Coastguard Worker  return OS;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workernamespace {
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workertypedef BlockFrequencyInfoImplBase::BlockNode BlockNode;
*9880d681SAndroid Build Coastguard Workertypedef BlockFrequencyInfoImplBase::Distribution Distribution;
*9880d681SAndroid Build Coastguard Workertypedef BlockFrequencyInfoImplBase::Distribution::WeightList WeightList;
*9880d681SAndroid Build Coastguard Workertypedef BlockFrequencyInfoImplBase::Scaled64 Scaled64;
*9880d681SAndroid Build Coastguard Workertypedef BlockFrequencyInfoImplBase::LoopData LoopData;
*9880d681SAndroid Build Coastguard Workertypedef BlockFrequencyInfoImplBase::Weight Weight;
*9880d681SAndroid Build Coastguard Workertypedef BlockFrequencyInfoImplBase::FrequencyData FrequencyData;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// \brief Dithering mass distributer.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// This class splits up a single mass into portions by weight, dithering to
*9880d681SAndroid Build Coastguard Worker/// spread out error.  No mass is lost.  The dithering precision depends on the
*9880d681SAndroid Build Coastguard Worker/// precision of the product of \a BlockMass and \a BranchProbability.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// The distribution algorithm follows.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker///  1. Initialize by saving the sum of the weights in \a RemWeight and the
*9880d681SAndroid Build Coastguard Worker///     mass to distribute in \a RemMass.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker///  2. For each portion:
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker///      1. Construct a branch probability, P, as the portion's weight divided
*9880d681SAndroid Build Coastguard Worker///         by the current value of \a RemWeight.
*9880d681SAndroid Build Coastguard Worker///      2. Calculate the portion's mass as \a RemMass times P.
*9880d681SAndroid Build Coastguard Worker///      3. Update \a RemWeight and \a RemMass at each portion by subtracting
*9880d681SAndroid Build Coastguard Worker///         the current portion's weight and mass.
*9880d681SAndroid Build Coastguard Workerstruct DitheringDistributer {
*9880d681SAndroid Build Coastguard Worker  uint32_t RemWeight;
*9880d681SAndroid Build Coastguard Worker  BlockMass RemMass;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  DitheringDistributer(Distribution &Dist, const BlockMass &Mass);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  BlockMass takeMass(uint32_t Weight);
*9880d681SAndroid Build Coastguard Worker};
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker} // end anonymous namespace
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard WorkerDitheringDistributer::DitheringDistributer(Distribution &Dist,
*9880d681SAndroid Build Coastguard Worker                                           const BlockMass &Mass) {
*9880d681SAndroid Build Coastguard Worker  Dist.normalize();
*9880d681SAndroid Build Coastguard Worker  RemWeight = Dist.Total;
*9880d681SAndroid Build Coastguard Worker  RemMass = Mass;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard WorkerBlockMass DitheringDistributer::takeMass(uint32_t Weight) {
*9880d681SAndroid Build Coastguard Worker  assert(Weight && "invalid weight");
*9880d681SAndroid Build Coastguard Worker  assert(Weight <= RemWeight);
*9880d681SAndroid Build Coastguard Worker  BlockMass Mass = RemMass * BranchProbability(Weight, RemWeight);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Decrement totals (dither).
*9880d681SAndroid Build Coastguard Worker  RemWeight -= Weight;
*9880d681SAndroid Build Coastguard Worker  RemMass -= Mass;
*9880d681SAndroid Build Coastguard Worker  return Mass;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid Distribution::add(const BlockNode &Node, uint64_t Amount,
*9880d681SAndroid Build Coastguard Worker                       Weight::DistType Type) {
*9880d681SAndroid Build Coastguard Worker  assert(Amount && "invalid weight of 0");
*9880d681SAndroid Build Coastguard Worker  uint64_t NewTotal = Total + Amount;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Check for overflow.  It should be impossible to overflow twice.
*9880d681SAndroid Build Coastguard Worker  bool IsOverflow = NewTotal < Total;
*9880d681SAndroid Build Coastguard Worker  assert(!(DidOverflow && IsOverflow) && "unexpected repeated overflow");
*9880d681SAndroid Build Coastguard Worker  DidOverflow |= IsOverflow;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Update the total.
*9880d681SAndroid Build Coastguard Worker  Total = NewTotal;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Save the weight.
*9880d681SAndroid Build Coastguard Worker  Weights.push_back(Weight(Type, Node, Amount));
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic void combineWeight(Weight &W, const Weight &OtherW) {
*9880d681SAndroid Build Coastguard Worker  assert(OtherW.TargetNode.isValid());
*9880d681SAndroid Build Coastguard Worker  if (!W.Amount) {
*9880d681SAndroid Build Coastguard Worker    W = OtherW;
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  assert(W.Type == OtherW.Type);
*9880d681SAndroid Build Coastguard Worker  assert(W.TargetNode == OtherW.TargetNode);
*9880d681SAndroid Build Coastguard Worker  assert(OtherW.Amount && "Expected non-zero weight");
*9880d681SAndroid Build Coastguard Worker  if (W.Amount > W.Amount + OtherW.Amount)
*9880d681SAndroid Build Coastguard Worker    // Saturate on overflow.
*9880d681SAndroid Build Coastguard Worker    W.Amount = UINT64_MAX;
*9880d681SAndroid Build Coastguard Worker  else
*9880d681SAndroid Build Coastguard Worker    W.Amount += OtherW.Amount;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic void combineWeightsBySorting(WeightList &Weights) {
*9880d681SAndroid Build Coastguard Worker  // Sort so edges to the same node are adjacent.
*9880d681SAndroid Build Coastguard Worker  std::sort(Weights.begin(), Weights.end(),
*9880d681SAndroid Build Coastguard Worker            [](const Weight &L,
*9880d681SAndroid Build Coastguard Worker               const Weight &R) { return L.TargetNode < R.TargetNode; });
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Combine adjacent edges.
*9880d681SAndroid Build Coastguard Worker  WeightList::iterator O = Weights.begin();
*9880d681SAndroid Build Coastguard Worker  for (WeightList::const_iterator I = O, L = O, E = Weights.end(); I != E;
*9880d681SAndroid Build Coastguard Worker       ++O, (I = L)) {
*9880d681SAndroid Build Coastguard Worker    *O = *I;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Find the adjacent weights to the same node.
*9880d681SAndroid Build Coastguard Worker    for (++L; L != E && I->TargetNode == L->TargetNode; ++L)
*9880d681SAndroid Build Coastguard Worker      combineWeight(*O, *L);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Erase extra entries.
*9880d681SAndroid Build Coastguard Worker  Weights.erase(O, Weights.end());
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic void combineWeightsByHashing(WeightList &Weights) {
*9880d681SAndroid Build Coastguard Worker  // Collect weights into a DenseMap.
*9880d681SAndroid Build Coastguard Worker  typedef DenseMap<BlockNode::IndexType, Weight> HashTable;
*9880d681SAndroid Build Coastguard Worker  HashTable Combined(NextPowerOf2(2 * Weights.size()));
*9880d681SAndroid Build Coastguard Worker  for (const Weight &W : Weights)
*9880d681SAndroid Build Coastguard Worker    combineWeight(Combined[W.TargetNode.Index], W);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Check whether anything changed.
*9880d681SAndroid Build Coastguard Worker  if (Weights.size() == Combined.size())
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Fill in the new weights.
*9880d681SAndroid Build Coastguard Worker  Weights.clear();
*9880d681SAndroid Build Coastguard Worker  Weights.reserve(Combined.size());
*9880d681SAndroid Build Coastguard Worker  for (const auto &I : Combined)
*9880d681SAndroid Build Coastguard Worker    Weights.push_back(I.second);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic void combineWeights(WeightList &Weights) {
*9880d681SAndroid Build Coastguard Worker  // Use a hash table for many successors to keep this linear.
*9880d681SAndroid Build Coastguard Worker  if (Weights.size() > 128) {
*9880d681SAndroid Build Coastguard Worker    combineWeightsByHashing(Weights);
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  combineWeightsBySorting(Weights);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic uint64_t shiftRightAndRound(uint64_t N, int Shift) {
*9880d681SAndroid Build Coastguard Worker  assert(Shift >= 0);
*9880d681SAndroid Build Coastguard Worker  assert(Shift < 64);
*9880d681SAndroid Build Coastguard Worker  if (!Shift)
*9880d681SAndroid Build Coastguard Worker    return N;
*9880d681SAndroid Build Coastguard Worker  return (N >> Shift) + (UINT64_C(1) & N >> (Shift - 1));
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid Distribution::normalize() {
*9880d681SAndroid Build Coastguard Worker  // Early exit for termination nodes.
*9880d681SAndroid Build Coastguard Worker  if (Weights.empty())
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Only bother if there are multiple successors.
*9880d681SAndroid Build Coastguard Worker  if (Weights.size() > 1)
*9880d681SAndroid Build Coastguard Worker    combineWeights(Weights);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Early exit when combined into a single successor.
*9880d681SAndroid Build Coastguard Worker  if (Weights.size() == 1) {
*9880d681SAndroid Build Coastguard Worker    Total = 1;
*9880d681SAndroid Build Coastguard Worker    Weights.front().Amount = 1;
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Determine how much to shift right so that the total fits into 32-bits.
*9880d681SAndroid Build Coastguard Worker  //
*9880d681SAndroid Build Coastguard Worker  // If we shift at all, shift by 1 extra.  Otherwise, the lower limit of 1
*9880d681SAndroid Build Coastguard Worker  // for each weight can cause a 32-bit overflow.
*9880d681SAndroid Build Coastguard Worker  int Shift = 0;
*9880d681SAndroid Build Coastguard Worker  if (DidOverflow)
*9880d681SAndroid Build Coastguard Worker    Shift = 33;
*9880d681SAndroid Build Coastguard Worker  else if (Total > UINT32_MAX)
*9880d681SAndroid Build Coastguard Worker    Shift = 33 - countLeadingZeros(Total);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Early exit if nothing needs to be scaled.
*9880d681SAndroid Build Coastguard Worker  if (!Shift) {
*9880d681SAndroid Build Coastguard Worker    // If we didn't overflow then combineWeights() shouldn't have changed the
*9880d681SAndroid Build Coastguard Worker    // sum of the weights, but let's double-check.
*9880d681SAndroid Build Coastguard Worker    assert(Total == std::accumulate(Weights.begin(), Weights.end(), UINT64_C(0),
*9880d681SAndroid Build Coastguard Worker                                    [](uint64_t Sum, const Weight &W) {
*9880d681SAndroid Build Coastguard Worker                      return Sum + W.Amount;
*9880d681SAndroid Build Coastguard Worker                    }) &&
*9880d681SAndroid Build Coastguard Worker           "Expected total to be correct");
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Recompute the total through accumulation (rather than shifting it) so that
*9880d681SAndroid Build Coastguard Worker  // it's accurate after shifting and any changes combineWeights() made above.
*9880d681SAndroid Build Coastguard Worker  Total = 0;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Sum the weights to each node and shift right if necessary.
*9880d681SAndroid Build Coastguard Worker  for (Weight &W : Weights) {
*9880d681SAndroid Build Coastguard Worker    // Scale down below UINT32_MAX.  Since Shift is larger than necessary, we
*9880d681SAndroid Build Coastguard Worker    // can round here without concern about overflow.
*9880d681SAndroid Build Coastguard Worker    assert(W.TargetNode.isValid());
*9880d681SAndroid Build Coastguard Worker    W.Amount = std::max(UINT64_C(1), shiftRightAndRound(W.Amount, Shift));
*9880d681SAndroid Build Coastguard Worker    assert(W.Amount <= UINT32_MAX);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Update the total.
*9880d681SAndroid Build Coastguard Worker    Total += W.Amount;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  assert(Total <= UINT32_MAX);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid BlockFrequencyInfoImplBase::clear() {
*9880d681SAndroid Build Coastguard Worker  // Swap with a default-constructed std::vector, since std::vector<>::clear()
*9880d681SAndroid Build Coastguard Worker  // does not actually clear heap storage.
*9880d681SAndroid Build Coastguard Worker  std::vector<FrequencyData>().swap(Freqs);
*9880d681SAndroid Build Coastguard Worker  std::vector<WorkingData>().swap(Working);
*9880d681SAndroid Build Coastguard Worker  Loops.clear();
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// \brief Clear all memory not needed downstream.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// Releases all memory not used downstream.  In particular, saves Freqs.
*9880d681SAndroid Build Coastguard Workerstatic void cleanup(BlockFrequencyInfoImplBase &BFI) {
*9880d681SAndroid Build Coastguard Worker  std::vector<FrequencyData> SavedFreqs(std::move(BFI.Freqs));
*9880d681SAndroid Build Coastguard Worker  BFI.clear();
*9880d681SAndroid Build Coastguard Worker  BFI.Freqs = std::move(SavedFreqs);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerbool BlockFrequencyInfoImplBase::addToDist(Distribution &Dist,
*9880d681SAndroid Build Coastguard Worker                                           const LoopData *OuterLoop,
*9880d681SAndroid Build Coastguard Worker                                           const BlockNode &Pred,
*9880d681SAndroid Build Coastguard Worker                                           const BlockNode &Succ,
*9880d681SAndroid Build Coastguard Worker                                           uint64_t Weight) {
*9880d681SAndroid Build Coastguard Worker  if (!Weight)
*9880d681SAndroid Build Coastguard Worker    Weight = 1;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  auto isLoopHeader = [&OuterLoop](const BlockNode &Node) {
*9880d681SAndroid Build Coastguard Worker    return OuterLoop && OuterLoop->isHeader(Node);
*9880d681SAndroid Build Coastguard Worker  };
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  BlockNode Resolved = Working[Succ.Index].getResolvedNode();
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker#ifndef NDEBUG
*9880d681SAndroid Build Coastguard Worker  auto debugSuccessor = [&](const char *Type) {
*9880d681SAndroid Build Coastguard Worker    dbgs() << "  =>"
*9880d681SAndroid Build Coastguard Worker           << " [" << Type << "] weight = " << Weight;
*9880d681SAndroid Build Coastguard Worker    if (!isLoopHeader(Resolved))
*9880d681SAndroid Build Coastguard Worker      dbgs() << ", succ = " << getBlockName(Succ);
*9880d681SAndroid Build Coastguard Worker    if (Resolved != Succ)
*9880d681SAndroid Build Coastguard Worker      dbgs() << ", resolved = " << getBlockName(Resolved);
*9880d681SAndroid Build Coastguard Worker    dbgs() << "\n";
*9880d681SAndroid Build Coastguard Worker  };
*9880d681SAndroid Build Coastguard Worker  (void)debugSuccessor;
*9880d681SAndroid Build Coastguard Worker#endif
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  if (isLoopHeader(Resolved)) {
*9880d681SAndroid Build Coastguard Worker    DEBUG(debugSuccessor("backedge"));
*9880d681SAndroid Build Coastguard Worker    Dist.addBackedge(Resolved, Weight);
*9880d681SAndroid Build Coastguard Worker    return true;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  if (Working[Resolved.Index].getContainingLoop() != OuterLoop) {
*9880d681SAndroid Build Coastguard Worker    DEBUG(debugSuccessor("  exit  "));
*9880d681SAndroid Build Coastguard Worker    Dist.addExit(Resolved, Weight);
*9880d681SAndroid Build Coastguard Worker    return true;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  if (Resolved < Pred) {
*9880d681SAndroid Build Coastguard Worker    if (!isLoopHeader(Pred)) {
*9880d681SAndroid Build Coastguard Worker      // If OuterLoop is an irreducible loop, we can't actually handle this.
*9880d681SAndroid Build Coastguard Worker      assert((!OuterLoop || !OuterLoop->isIrreducible()) &&
*9880d681SAndroid Build Coastguard Worker             "unhandled irreducible control flow");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // Irreducible backedge.  Abort.
*9880d681SAndroid Build Coastguard Worker      DEBUG(debugSuccessor("abort!!!"));
*9880d681SAndroid Build Coastguard Worker      return false;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If "Pred" is a loop header, then this isn't really a backedge; rather,
*9880d681SAndroid Build Coastguard Worker    // OuterLoop must be irreducible.  These false backedges can come only from
*9880d681SAndroid Build Coastguard Worker    // secondary loop headers.
*9880d681SAndroid Build Coastguard Worker    assert(OuterLoop && OuterLoop->isIrreducible() && !isLoopHeader(Resolved) &&
*9880d681SAndroid Build Coastguard Worker           "unhandled irreducible control flow");
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  DEBUG(debugSuccessor(" local  "));
*9880d681SAndroid Build Coastguard Worker  Dist.addLocal(Resolved, Weight);
*9880d681SAndroid Build Coastguard Worker  return true;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerbool BlockFrequencyInfoImplBase::addLoopSuccessorsToDist(
*9880d681SAndroid Build Coastguard Worker    const LoopData *OuterLoop, LoopData &Loop, Distribution &Dist) {
*9880d681SAndroid Build Coastguard Worker  // Copy the exit map into Dist.
*9880d681SAndroid Build Coastguard Worker  for (const auto &I : Loop.Exits)
*9880d681SAndroid Build Coastguard Worker    if (!addToDist(Dist, OuterLoop, Loop.getHeader(), I.first,
*9880d681SAndroid Build Coastguard Worker                   I.second.getMass()))
*9880d681SAndroid Build Coastguard Worker      // Irreducible backedge.
*9880d681SAndroid Build Coastguard Worker      return false;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  return true;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// \brief Compute the loop scale for a loop.
*9880d681SAndroid Build Coastguard Workervoid BlockFrequencyInfoImplBase::computeLoopScale(LoopData &Loop) {
*9880d681SAndroid Build Coastguard Worker  // Compute loop scale.
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << "compute-loop-scale: " << getLoopName(Loop) << "\n");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Infinite loops need special handling. If we give the back edge an infinite
*9880d681SAndroid Build Coastguard Worker  // mass, they may saturate all the other scales in the function down to 1,
*9880d681SAndroid Build Coastguard Worker  // making all the other region temperatures look exactly the same. Choose an
*9880d681SAndroid Build Coastguard Worker  // arbitrary scale to avoid these issues.
*9880d681SAndroid Build Coastguard Worker  //
*9880d681SAndroid Build Coastguard Worker  // FIXME: An alternate way would be to select a symbolic scale which is later
*9880d681SAndroid Build Coastguard Worker  // replaced to be the maximum of all computed scales plus 1. This would
*9880d681SAndroid Build Coastguard Worker  // appropriately describe the loop as having a large scale, without skewing
*9880d681SAndroid Build Coastguard Worker  // the final frequency computation.
*9880d681SAndroid Build Coastguard Worker  const Scaled64 InfiniteLoopScale(1, 12);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // LoopScale == 1 / ExitMass
*9880d681SAndroid Build Coastguard Worker  // ExitMass == HeadMass - BackedgeMass
*9880d681SAndroid Build Coastguard Worker  BlockMass TotalBackedgeMass;
*9880d681SAndroid Build Coastguard Worker  for (auto &Mass : Loop.BackedgeMass)
*9880d681SAndroid Build Coastguard Worker    TotalBackedgeMass += Mass;
*9880d681SAndroid Build Coastguard Worker  BlockMass ExitMass = BlockMass::getFull() - TotalBackedgeMass;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Block scale stores the inverse of the scale. If this is an infinite loop,
*9880d681SAndroid Build Coastguard Worker  // its exit mass will be zero. In this case, use an arbitrary scale for the
*9880d681SAndroid Build Coastguard Worker  // loop scale.
*9880d681SAndroid Build Coastguard Worker  Loop.Scale =
*9880d681SAndroid Build Coastguard Worker      ExitMass.isEmpty() ? InfiniteLoopScale : ExitMass.toScaled().inverse();
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << " - exit-mass = " << ExitMass << " (" << BlockMass::getFull()
*9880d681SAndroid Build Coastguard Worker               << " - " << TotalBackedgeMass << ")\n"
*9880d681SAndroid Build Coastguard Worker               << " - scale = " << Loop.Scale << "\n");
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// \brief Package up a loop.
*9880d681SAndroid Build Coastguard Workervoid BlockFrequencyInfoImplBase::packageLoop(LoopData &Loop) {
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << "packaging-loop: " << getLoopName(Loop) << "\n");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Clear the subloop exits to prevent quadratic memory usage.
*9880d681SAndroid Build Coastguard Worker  for (const BlockNode &M : Loop.Nodes) {
*9880d681SAndroid Build Coastguard Worker    if (auto *Loop = Working[M.Index].getPackagedLoop())
*9880d681SAndroid Build Coastguard Worker      Loop->Exits.clear();
*9880d681SAndroid Build Coastguard Worker    DEBUG(dbgs() << " - node: " << getBlockName(M.Index) << "\n");
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  Loop.IsPackaged = true;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker#ifndef NDEBUG
*9880d681SAndroid Build Coastguard Workerstatic void debugAssign(const BlockFrequencyInfoImplBase &BFI,
*9880d681SAndroid Build Coastguard Worker                        const DitheringDistributer &D, const BlockNode &T,
*9880d681SAndroid Build Coastguard Worker                        const BlockMass &M, const char *Desc) {
*9880d681SAndroid Build Coastguard Worker  dbgs() << "  => assign " << M << " (" << D.RemMass << ")";
*9880d681SAndroid Build Coastguard Worker  if (Desc)
*9880d681SAndroid Build Coastguard Worker    dbgs() << " [" << Desc << "]";
*9880d681SAndroid Build Coastguard Worker  if (T.isValid())
*9880d681SAndroid Build Coastguard Worker    dbgs() << " to " << BFI.getBlockName(T);
*9880d681SAndroid Build Coastguard Worker  dbgs() << "\n";
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker#endif
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid BlockFrequencyInfoImplBase::distributeMass(const BlockNode &Source,
*9880d681SAndroid Build Coastguard Worker                                                LoopData *OuterLoop,
*9880d681SAndroid Build Coastguard Worker                                                Distribution &Dist) {
*9880d681SAndroid Build Coastguard Worker  BlockMass Mass = Working[Source.Index].getMass();
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << "  => mass:  " << Mass << "\n");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Distribute mass to successors as laid out in Dist.
*9880d681SAndroid Build Coastguard Worker  DitheringDistributer D(Dist, Mass);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  for (const Weight &W : Dist.Weights) {
*9880d681SAndroid Build Coastguard Worker    // Check for a local edge (non-backedge and non-exit).
*9880d681SAndroid Build Coastguard Worker    BlockMass Taken = D.takeMass(W.Amount);
*9880d681SAndroid Build Coastguard Worker    if (W.Type == Weight::Local) {
*9880d681SAndroid Build Coastguard Worker      Working[W.TargetNode.Index].getMass() += Taken;
*9880d681SAndroid Build Coastguard Worker      DEBUG(debugAssign(*this, D, W.TargetNode, Taken, nullptr));
*9880d681SAndroid Build Coastguard Worker      continue;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Backedges and exits only make sense if we're processing a loop.
*9880d681SAndroid Build Coastguard Worker    assert(OuterLoop && "backedge or exit outside of loop");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Check for a backedge.
*9880d681SAndroid Build Coastguard Worker    if (W.Type == Weight::Backedge) {
*9880d681SAndroid Build Coastguard Worker      OuterLoop->BackedgeMass[OuterLoop->getHeaderIndex(W.TargetNode)] += Taken;
*9880d681SAndroid Build Coastguard Worker      DEBUG(debugAssign(*this, D, W.TargetNode, Taken, "back"));
*9880d681SAndroid Build Coastguard Worker      continue;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // This must be an exit.
*9880d681SAndroid Build Coastguard Worker    assert(W.Type == Weight::Exit);
*9880d681SAndroid Build Coastguard Worker    OuterLoop->Exits.push_back(std::make_pair(W.TargetNode, Taken));
*9880d681SAndroid Build Coastguard Worker    DEBUG(debugAssign(*this, D, W.TargetNode, Taken, "exit"));
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic void convertFloatingToInteger(BlockFrequencyInfoImplBase &BFI,
*9880d681SAndroid Build Coastguard Worker                                     const Scaled64 &Min, const Scaled64 &Max) {
*9880d681SAndroid Build Coastguard Worker  // Scale the Factor to a size that creates integers.  Ideally, integers would
*9880d681SAndroid Build Coastguard Worker  // be scaled so that Max == UINT64_MAX so that they can be best
*9880d681SAndroid Build Coastguard Worker  // differentiated.  However, in the presence of large frequency values, small
*9880d681SAndroid Build Coastguard Worker  // frequencies are scaled down to 1, making it impossible to differentiate
*9880d681SAndroid Build Coastguard Worker  // small, unequal numbers. When the spread between Min and Max frequencies
*9880d681SAndroid Build Coastguard Worker  // fits well within MaxBits, we make the scale be at least 8.
*9880d681SAndroid Build Coastguard Worker  const unsigned MaxBits = 64;
*9880d681SAndroid Build Coastguard Worker  const unsigned SpreadBits = (Max / Min).lg();
*9880d681SAndroid Build Coastguard Worker  Scaled64 ScalingFactor;
*9880d681SAndroid Build Coastguard Worker  if (SpreadBits <= MaxBits - 3) {
*9880d681SAndroid Build Coastguard Worker    // If the values are small enough, make the scaling factor at least 8 to
*9880d681SAndroid Build Coastguard Worker    // allow distinguishing small values.
*9880d681SAndroid Build Coastguard Worker    ScalingFactor = Min.inverse();
*9880d681SAndroid Build Coastguard Worker    ScalingFactor <<= 3;
*9880d681SAndroid Build Coastguard Worker  } else {
*9880d681SAndroid Build Coastguard Worker    // If the values need more than MaxBits to be represented, saturate small
*9880d681SAndroid Build Coastguard Worker    // frequency values down to 1 by using a scaling factor that benefits large
*9880d681SAndroid Build Coastguard Worker    // frequency values.
*9880d681SAndroid Build Coastguard Worker    ScalingFactor = Scaled64(1, MaxBits) / Max;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Translate the floats to integers.
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << "float-to-int: min = " << Min << ", max = " << Max
*9880d681SAndroid Build Coastguard Worker               << ", factor = " << ScalingFactor << "\n");
*9880d681SAndroid Build Coastguard Worker  for (size_t Index = 0; Index < BFI.Freqs.size(); ++Index) {
*9880d681SAndroid Build Coastguard Worker    Scaled64 Scaled = BFI.Freqs[Index].Scaled * ScalingFactor;
*9880d681SAndroid Build Coastguard Worker    BFI.Freqs[Index].Integer = std::max(UINT64_C(1), Scaled.toInt<uint64_t>());
*9880d681SAndroid Build Coastguard Worker    DEBUG(dbgs() << " - " << BFI.getBlockName(Index) << ": float = "
*9880d681SAndroid Build Coastguard Worker                 << BFI.Freqs[Index].Scaled << ", scaled = " << Scaled
*9880d681SAndroid Build Coastguard Worker                 << ", int = " << BFI.Freqs[Index].Integer << "\n");
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// \brief Unwrap a loop package.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// Visits all the members of a loop, adjusting their BlockData according to
*9880d681SAndroid Build Coastguard Worker/// the loop's pseudo-node.
*9880d681SAndroid Build Coastguard Workerstatic void unwrapLoop(BlockFrequencyInfoImplBase &BFI, LoopData &Loop) {
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << "unwrap-loop-package: " << BFI.getLoopName(Loop)
*9880d681SAndroid Build Coastguard Worker               << ": mass = " << Loop.Mass << ", scale = " << Loop.Scale
*9880d681SAndroid Build Coastguard Worker               << "\n");
*9880d681SAndroid Build Coastguard Worker  Loop.Scale *= Loop.Mass.toScaled();
*9880d681SAndroid Build Coastguard Worker  Loop.IsPackaged = false;
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << "  => combined-scale = " << Loop.Scale << "\n");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Propagate the head scale through the loop.  Since members are visited in
*9880d681SAndroid Build Coastguard Worker  // RPO, the head scale will be updated by the loop scale first, and then the
*9880d681SAndroid Build Coastguard Worker  // final head scale will be used for updated the rest of the members.
*9880d681SAndroid Build Coastguard Worker  for (const BlockNode &N : Loop.Nodes) {
*9880d681SAndroid Build Coastguard Worker    const auto &Working = BFI.Working[N.Index];
*9880d681SAndroid Build Coastguard Worker    Scaled64 &F = Working.isAPackage() ? Working.getPackagedLoop()->Scale
*9880d681SAndroid Build Coastguard Worker                                       : BFI.Freqs[N.Index].Scaled;
*9880d681SAndroid Build Coastguard Worker    Scaled64 New = Loop.Scale * F;
*9880d681SAndroid Build Coastguard Worker    DEBUG(dbgs() << " - " << BFI.getBlockName(N) << ": " << F << " => " << New
*9880d681SAndroid Build Coastguard Worker                 << "\n");
*9880d681SAndroid Build Coastguard Worker    F = New;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid BlockFrequencyInfoImplBase::unwrapLoops() {
*9880d681SAndroid Build Coastguard Worker  // Set initial frequencies from loop-local masses.
*9880d681SAndroid Build Coastguard Worker  for (size_t Index = 0; Index < Working.size(); ++Index)
*9880d681SAndroid Build Coastguard Worker    Freqs[Index].Scaled = Working[Index].Mass.toScaled();
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  for (LoopData &Loop : Loops)
*9880d681SAndroid Build Coastguard Worker    unwrapLoop(*this, Loop);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid BlockFrequencyInfoImplBase::finalizeMetrics() {
*9880d681SAndroid Build Coastguard Worker  // Unwrap loop packages in reverse post-order, tracking min and max
*9880d681SAndroid Build Coastguard Worker  // frequencies.
*9880d681SAndroid Build Coastguard Worker  auto Min = Scaled64::getLargest();
*9880d681SAndroid Build Coastguard Worker  auto Max = Scaled64::getZero();
*9880d681SAndroid Build Coastguard Worker  for (size_t Index = 0; Index < Working.size(); ++Index) {
*9880d681SAndroid Build Coastguard Worker    // Update min/max scale.
*9880d681SAndroid Build Coastguard Worker    Min = std::min(Min, Freqs[Index].Scaled);
*9880d681SAndroid Build Coastguard Worker    Max = std::max(Max, Freqs[Index].Scaled);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Convert to integers.
*9880d681SAndroid Build Coastguard Worker  convertFloatingToInteger(*this, Min, Max);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Clean up data structures.
*9880d681SAndroid Build Coastguard Worker  cleanup(*this);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Print out the final stats.
*9880d681SAndroid Build Coastguard Worker  DEBUG(dump());
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard WorkerBlockFrequency
*9880d681SAndroid Build Coastguard WorkerBlockFrequencyInfoImplBase::getBlockFreq(const BlockNode &Node) const {
*9880d681SAndroid Build Coastguard Worker  if (!Node.isValid())
*9880d681SAndroid Build Coastguard Worker    return 0;
*9880d681SAndroid Build Coastguard Worker  return Freqs[Node.Index].Integer;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard WorkerOptional<uint64_t>
*9880d681SAndroid Build Coastguard WorkerBlockFrequencyInfoImplBase::getBlockProfileCount(const Function &F,
*9880d681SAndroid Build Coastguard Worker                                                 const BlockNode &Node) const {
*9880d681SAndroid Build Coastguard Worker  auto EntryCount = F.getEntryCount();
*9880d681SAndroid Build Coastguard Worker  if (!EntryCount)
*9880d681SAndroid Build Coastguard Worker    return None;
*9880d681SAndroid Build Coastguard Worker  // Use 128 bit APInt to do the arithmetic to avoid overflow.
*9880d681SAndroid Build Coastguard Worker  APInt BlockCount(128, EntryCount.getValue());
*9880d681SAndroid Build Coastguard Worker  APInt BlockFreq(128, getBlockFreq(Node).getFrequency());
*9880d681SAndroid Build Coastguard Worker  APInt EntryFreq(128, getEntryFreq());
*9880d681SAndroid Build Coastguard Worker  BlockCount *= BlockFreq;
*9880d681SAndroid Build Coastguard Worker  BlockCount = BlockCount.udiv(EntryFreq);
*9880d681SAndroid Build Coastguard Worker  return BlockCount.getLimitedValue();
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard WorkerScaled64
*9880d681SAndroid Build Coastguard WorkerBlockFrequencyInfoImplBase::getFloatingBlockFreq(const BlockNode &Node) const {
*9880d681SAndroid Build Coastguard Worker  if (!Node.isValid())
*9880d681SAndroid Build Coastguard Worker    return Scaled64::getZero();
*9880d681SAndroid Build Coastguard Worker  return Freqs[Node.Index].Scaled;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid BlockFrequencyInfoImplBase::setBlockFreq(const BlockNode &Node,
*9880d681SAndroid Build Coastguard Worker                                              uint64_t Freq) {
*9880d681SAndroid Build Coastguard Worker  assert(Node.isValid() && "Expected valid node");
*9880d681SAndroid Build Coastguard Worker  assert(Node.Index < Freqs.size() && "Expected legal index");
*9880d681SAndroid Build Coastguard Worker  Freqs[Node.Index].Integer = Freq;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstd::string
*9880d681SAndroid Build Coastguard WorkerBlockFrequencyInfoImplBase::getBlockName(const BlockNode &Node) const {
*9880d681SAndroid Build Coastguard Worker  return std::string();
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstd::string
*9880d681SAndroid Build Coastguard WorkerBlockFrequencyInfoImplBase::getLoopName(const LoopData &Loop) const {
*9880d681SAndroid Build Coastguard Worker  return getBlockName(Loop.getHeader()) + (Loop.isIrreducible() ? "**" : "*");
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerraw_ostream &
*9880d681SAndroid Build Coastguard WorkerBlockFrequencyInfoImplBase::printBlockFreq(raw_ostream &OS,
*9880d681SAndroid Build Coastguard Worker                                           const BlockNode &Node) const {
*9880d681SAndroid Build Coastguard Worker  return OS << getFloatingBlockFreq(Node);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerraw_ostream &
*9880d681SAndroid Build Coastguard WorkerBlockFrequencyInfoImplBase::printBlockFreq(raw_ostream &OS,
*9880d681SAndroid Build Coastguard Worker                                           const BlockFrequency &Freq) const {
*9880d681SAndroid Build Coastguard Worker  Scaled64 Block(Freq.getFrequency(), 0);
*9880d681SAndroid Build Coastguard Worker  Scaled64 Entry(getEntryFreq(), 0);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  return OS << Block / Entry;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid IrreducibleGraph::addNodesInLoop(const BFIBase::LoopData &OuterLoop) {
*9880d681SAndroid Build Coastguard Worker  Start = OuterLoop.getHeader();
*9880d681SAndroid Build Coastguard Worker  Nodes.reserve(OuterLoop.Nodes.size());
*9880d681SAndroid Build Coastguard Worker  for (auto N : OuterLoop.Nodes)
*9880d681SAndroid Build Coastguard Worker    addNode(N);
*9880d681SAndroid Build Coastguard Worker  indexNodes();
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid IrreducibleGraph::addNodesInFunction() {
*9880d681SAndroid Build Coastguard Worker  Start = 0;
*9880d681SAndroid Build Coastguard Worker  for (uint32_t Index = 0; Index < BFI.Working.size(); ++Index)
*9880d681SAndroid Build Coastguard Worker    if (!BFI.Working[Index].isPackaged())
*9880d681SAndroid Build Coastguard Worker      addNode(Index);
*9880d681SAndroid Build Coastguard Worker  indexNodes();
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid IrreducibleGraph::indexNodes() {
*9880d681SAndroid Build Coastguard Worker  for (auto &I : Nodes)
*9880d681SAndroid Build Coastguard Worker    Lookup[I.Node.Index] = &I;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid IrreducibleGraph::addEdge(IrrNode &Irr, const BlockNode &Succ,
*9880d681SAndroid Build Coastguard Worker                               const BFIBase::LoopData *OuterLoop) {
*9880d681SAndroid Build Coastguard Worker  if (OuterLoop && OuterLoop->isHeader(Succ))
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker  auto L = Lookup.find(Succ.Index);
*9880d681SAndroid Build Coastguard Worker  if (L == Lookup.end())
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker  IrrNode &SuccIrr = *L->second;
*9880d681SAndroid Build Coastguard Worker  Irr.Edges.push_back(&SuccIrr);
*9880d681SAndroid Build Coastguard Worker  SuccIrr.Edges.push_front(&Irr);
*9880d681SAndroid Build Coastguard Worker  ++SuccIrr.NumIn;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workernamespace llvm {
*9880d681SAndroid Build Coastguard Workertemplate <> struct GraphTraits<IrreducibleGraph> {
*9880d681SAndroid Build Coastguard Worker  typedef bfi_detail::IrreducibleGraph GraphT;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  typedef const GraphT::IrrNode NodeType;
*9880d681SAndroid Build Coastguard Worker  typedef GraphT::IrrNode::iterator ChildIteratorType;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  static const NodeType *getEntryNode(const GraphT &G) {
*9880d681SAndroid Build Coastguard Worker    return G.StartIrr;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  static ChildIteratorType child_begin(NodeType *N) { return N->succ_begin(); }
*9880d681SAndroid Build Coastguard Worker  static ChildIteratorType child_end(NodeType *N) { return N->succ_end(); }
*9880d681SAndroid Build Coastguard Worker};
*9880d681SAndroid Build Coastguard Worker} // end namespace llvm
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// \brief Find extra irreducible headers.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// Find entry blocks and other blocks with backedges, which exist when \c G
*9880d681SAndroid Build Coastguard Worker/// contains irreducible sub-SCCs.
*9880d681SAndroid Build Coastguard Workerstatic void findIrreducibleHeaders(
*9880d681SAndroid Build Coastguard Worker    const BlockFrequencyInfoImplBase &BFI,
*9880d681SAndroid Build Coastguard Worker    const IrreducibleGraph &G,
*9880d681SAndroid Build Coastguard Worker    const std::vector<const IrreducibleGraph::IrrNode *> &SCC,
*9880d681SAndroid Build Coastguard Worker    LoopData::NodeList &Headers, LoopData::NodeList &Others) {
*9880d681SAndroid Build Coastguard Worker  // Map from nodes in the SCC to whether it's an entry block.
*9880d681SAndroid Build Coastguard Worker  SmallDenseMap<const IrreducibleGraph::IrrNode *, bool, 8> InSCC;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // InSCC also acts the set of nodes in the graph.  Seed it.
*9880d681SAndroid Build Coastguard Worker  for (const auto *I : SCC)
*9880d681SAndroid Build Coastguard Worker    InSCC[I] = false;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  for (auto I = InSCC.begin(), E = InSCC.end(); I != E; ++I) {
*9880d681SAndroid Build Coastguard Worker    auto &Irr = *I->first;
*9880d681SAndroid Build Coastguard Worker    for (const auto *P : make_range(Irr.pred_begin(), Irr.pred_end())) {
*9880d681SAndroid Build Coastguard Worker      if (InSCC.count(P))
*9880d681SAndroid Build Coastguard Worker        continue;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // This is an entry block.
*9880d681SAndroid Build Coastguard Worker      I->second = true;
*9880d681SAndroid Build Coastguard Worker      Headers.push_back(Irr.Node);
*9880d681SAndroid Build Coastguard Worker      DEBUG(dbgs() << "  => entry = " << BFI.getBlockName(Irr.Node) << "\n");
*9880d681SAndroid Build Coastguard Worker      break;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  assert(Headers.size() >= 2 &&
*9880d681SAndroid Build Coastguard Worker         "Expected irreducible CFG; -loop-info is likely invalid");
*9880d681SAndroid Build Coastguard Worker  if (Headers.size() == InSCC.size()) {
*9880d681SAndroid Build Coastguard Worker    // Every block is a header.
*9880d681SAndroid Build Coastguard Worker    std::sort(Headers.begin(), Headers.end());
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Look for extra headers from irreducible sub-SCCs.
*9880d681SAndroid Build Coastguard Worker  for (const auto &I : InSCC) {
*9880d681SAndroid Build Coastguard Worker    // Entry blocks are already headers.
*9880d681SAndroid Build Coastguard Worker    if (I.second)
*9880d681SAndroid Build Coastguard Worker      continue;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    auto &Irr = *I.first;
*9880d681SAndroid Build Coastguard Worker    for (const auto *P : make_range(Irr.pred_begin(), Irr.pred_end())) {
*9880d681SAndroid Build Coastguard Worker      // Skip forward edges.
*9880d681SAndroid Build Coastguard Worker      if (P->Node < Irr.Node)
*9880d681SAndroid Build Coastguard Worker        continue;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // Skip predecessors from entry blocks.  These can have inverted
*9880d681SAndroid Build Coastguard Worker      // ordering.
*9880d681SAndroid Build Coastguard Worker      if (InSCC.lookup(P))
*9880d681SAndroid Build Coastguard Worker        continue;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // Store the extra header.
*9880d681SAndroid Build Coastguard Worker      Headers.push_back(Irr.Node);
*9880d681SAndroid Build Coastguard Worker      DEBUG(dbgs() << "  => extra = " << BFI.getBlockName(Irr.Node) << "\n");
*9880d681SAndroid Build Coastguard Worker      break;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    if (Headers.back() == Irr.Node)
*9880d681SAndroid Build Coastguard Worker      // Added this as a header.
*9880d681SAndroid Build Coastguard Worker      continue;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // This is not a header.
*9880d681SAndroid Build Coastguard Worker    Others.push_back(Irr.Node);
*9880d681SAndroid Build Coastguard Worker    DEBUG(dbgs() << "  => other = " << BFI.getBlockName(Irr.Node) << "\n");
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  std::sort(Headers.begin(), Headers.end());
*9880d681SAndroid Build Coastguard Worker  std::sort(Others.begin(), Others.end());
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic void createIrreducibleLoop(
*9880d681SAndroid Build Coastguard Worker    BlockFrequencyInfoImplBase &BFI, const IrreducibleGraph &G,
*9880d681SAndroid Build Coastguard Worker    LoopData *OuterLoop, std::list<LoopData>::iterator Insert,
*9880d681SAndroid Build Coastguard Worker    const std::vector<const IrreducibleGraph::IrrNode *> &SCC) {
*9880d681SAndroid Build Coastguard Worker  // Translate the SCC into RPO.
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << " - found-scc\n");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  LoopData::NodeList Headers;
*9880d681SAndroid Build Coastguard Worker  LoopData::NodeList Others;
*9880d681SAndroid Build Coastguard Worker  findIrreducibleHeaders(BFI, G, SCC, Headers, Others);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  auto Loop = BFI.Loops.emplace(Insert, OuterLoop, Headers.begin(),
*9880d681SAndroid Build Coastguard Worker                                Headers.end(), Others.begin(), Others.end());
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Update loop hierarchy.
*9880d681SAndroid Build Coastguard Worker  for (const auto &N : Loop->Nodes)
*9880d681SAndroid Build Coastguard Worker    if (BFI.Working[N.Index].isLoopHeader())
*9880d681SAndroid Build Coastguard Worker      BFI.Working[N.Index].Loop->Parent = &*Loop;
*9880d681SAndroid Build Coastguard Worker    else
*9880d681SAndroid Build Coastguard Worker      BFI.Working[N.Index].Loop = &*Loop;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workeriterator_range<std::list<LoopData>::iterator>
*9880d681SAndroid Build Coastguard WorkerBlockFrequencyInfoImplBase::analyzeIrreducible(
*9880d681SAndroid Build Coastguard Worker    const IrreducibleGraph &G, LoopData *OuterLoop,
*9880d681SAndroid Build Coastguard Worker    std::list<LoopData>::iterator Insert) {
*9880d681SAndroid Build Coastguard Worker  assert((OuterLoop == nullptr) == (Insert == Loops.begin()));
*9880d681SAndroid Build Coastguard Worker  auto Prev = OuterLoop ? std::prev(Insert) : Loops.end();
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  for (auto I = scc_begin(G); !I.isAtEnd(); ++I) {
*9880d681SAndroid Build Coastguard Worker    if (I->size() < 2)
*9880d681SAndroid Build Coastguard Worker      continue;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Translate the SCC into RPO.
*9880d681SAndroid Build Coastguard Worker    createIrreducibleLoop(*this, G, OuterLoop, Insert, *I);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  if (OuterLoop)
*9880d681SAndroid Build Coastguard Worker    return make_range(std::next(Prev), Insert);
*9880d681SAndroid Build Coastguard Worker  return make_range(Loops.begin(), Insert);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid
*9880d681SAndroid Build Coastguard WorkerBlockFrequencyInfoImplBase::updateLoopWithIrreducible(LoopData &OuterLoop) {
*9880d681SAndroid Build Coastguard Worker  OuterLoop.Exits.clear();
*9880d681SAndroid Build Coastguard Worker  for (auto &Mass : OuterLoop.BackedgeMass)
*9880d681SAndroid Build Coastguard Worker    Mass = BlockMass::getEmpty();
*9880d681SAndroid Build Coastguard Worker  auto O = OuterLoop.Nodes.begin() + 1;
*9880d681SAndroid Build Coastguard Worker  for (auto I = O, E = OuterLoop.Nodes.end(); I != E; ++I)
*9880d681SAndroid Build Coastguard Worker    if (!Working[I->Index].isPackaged())
*9880d681SAndroid Build Coastguard Worker      *O++ = *I;
*9880d681SAndroid Build Coastguard Worker  OuterLoop.Nodes.erase(O, OuterLoop.Nodes.end());
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid BlockFrequencyInfoImplBase::adjustLoopHeaderMass(LoopData &Loop) {
*9880d681SAndroid Build Coastguard Worker  assert(Loop.isIrreducible() && "this only makes sense on irreducible loops");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Since the loop has more than one header block, the mass flowing back into
*9880d681SAndroid Build Coastguard Worker  // each header will be different. Adjust the mass in each header loop to
*9880d681SAndroid Build Coastguard Worker  // reflect the masses flowing through back edges.
*9880d681SAndroid Build Coastguard Worker  //
*9880d681SAndroid Build Coastguard Worker  // To do this, we distribute the initial mass using the backedge masses
*9880d681SAndroid Build Coastguard Worker  // as weights for the distribution.
*9880d681SAndroid Build Coastguard Worker  BlockMass LoopMass = BlockMass::getFull();
*9880d681SAndroid Build Coastguard Worker  Distribution Dist;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << "adjust-loop-header-mass:\n");
*9880d681SAndroid Build Coastguard Worker  for (uint32_t H = 0; H < Loop.NumHeaders; ++H) {
*9880d681SAndroid Build Coastguard Worker    auto &HeaderNode = Loop.Nodes[H];
*9880d681SAndroid Build Coastguard Worker    auto &BackedgeMass = Loop.BackedgeMass[Loop.getHeaderIndex(HeaderNode)];
*9880d681SAndroid Build Coastguard Worker    DEBUG(dbgs() << " - Add back edge mass for node "
*9880d681SAndroid Build Coastguard Worker                 << getBlockName(HeaderNode) << ": " << BackedgeMass << "\n");
*9880d681SAndroid Build Coastguard Worker    if (BackedgeMass.getMass() > 0)
*9880d681SAndroid Build Coastguard Worker      Dist.addLocal(HeaderNode, BackedgeMass.getMass());
*9880d681SAndroid Build Coastguard Worker    else
*9880d681SAndroid Build Coastguard Worker      DEBUG(dbgs() << "   Nothing added. Back edge mass is zero\n");
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  DitheringDistributer D(Dist, LoopMass);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  DEBUG(dbgs() << " Distribute loop mass " << LoopMass
*9880d681SAndroid Build Coastguard Worker               << " to headers using above weights\n");
*9880d681SAndroid Build Coastguard Worker  for (const Weight &W : Dist.Weights) {
*9880d681SAndroid Build Coastguard Worker    BlockMass Taken = D.takeMass(W.Amount);
*9880d681SAndroid Build Coastguard Worker    assert(W.Type == Weight::Local && "all weights should be local");
*9880d681SAndroid Build Coastguard Worker    Working[W.TargetNode.Index].getMass() = Taken;
*9880d681SAndroid Build Coastguard Worker    DEBUG(debugAssign(*this, D, W.TargetNode, Taken, nullptr));
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}