Beispiel #1
0
void region_prune_arcs(RegionDesc& region) {
  FTRACE(4, "region_prune_arcs\n");

  region.sortBlocks();
  auto const sortedBlocks = region.blocks();

  // Maps region block ids to their RPO ids.
  auto blockToRPO = std::unordered_map<RegionDesc::BlockId,uint32_t>{};

  auto blockInfos = std::vector<BlockInfo>(sortedBlocks.size());
  auto workQ = dataflow_worklist<uint32_t>(sortedBlocks.size());
  for (auto rpoID = uint32_t{0}; rpoID < sortedBlocks.size(); ++rpoID) {
    auto const& b = sortedBlocks[rpoID];
    auto& binfo = blockInfos[rpoID];
    binfo.blockID = b->id();
    blockToRPO[binfo.blockID] = rpoID;
  }
  workQ.push(0);
  blockInfos[0].in = entry_state(region);

  FTRACE(4, "Iterating:\n");
  do {
    auto const rpoID = workQ.pop();
    auto& binfo = blockInfos[rpoID];
    FTRACE(4, "B{}\n", binfo.blockID);

    binfo.out = binfo.in;
    apply_transfer_function(
      binfo.out,
      region.block(binfo.blockID)->postConds()
    );

    for (auto& succ : region.succs(binfo.blockID)) {
      auto const succRPO = blockToRPO.find(succ);
      assertx(succRPO != end(blockToRPO));
      auto& succInfo = blockInfos[succRPO->second];
      if (preconds_may_pass(*region.block(succInfo.blockID), binfo.out)) {
        if (merge_into(succInfo.in, binfo.out)) {
          FTRACE(5, "  -> {}\n", succInfo.blockID);
          workQ.push(succRPO->second);
        }
      }
    }
  } while (!workQ.empty());

  FTRACE(2, "\nPostConds fixed point:\n{}\n",
    [&] () -> std::string {
      auto ret = std::string{};
      for (auto& s : blockInfos) {
        folly::format(&ret, "B{}:\n{}", s.blockID, show(s.in));
      }
      return ret;
    }()
  );

  // Now remove any edge that looks like it will unconditionally fail type
  // predictions, and completely remove any block that can't be reached.
  using ArcIDs = std::pair<RegionDesc::BlockId,RegionDesc::BlockId>;
  auto toRemove = std::vector<ArcIDs>{};
  for (auto rpoID = uint32_t{0}; rpoID < sortedBlocks.size(); ++rpoID) {
    auto const& binfo = blockInfos[rpoID];

    for (auto& succ : region.succs(binfo.blockID)) {
      auto const succRPO = blockToRPO.find(succ);
      assertx(succRPO != end(blockToRPO));
      auto const& succInfo = blockInfos[succRPO->second];
      if (!binfo.in.initialized ||
          !succInfo.in.initialized ||
          !preconds_may_pass(*region.block(succInfo.blockID), binfo.out)) {
        FTRACE(2, "Pruning arc: B{} -> B{}\n",
               binfo.blockID,
               succInfo.blockID);
        toRemove.emplace_back(binfo.blockID, succInfo.blockID);
      }
    }

    for (auto& r : toRemove) region.removeArc(r.first, r.second);
    toRemove.clear();
  }

  // Get rid of the completely unreachable blocks, now that any arcs to/from
  // them are gone.
  for (auto rpoID = uint32_t{0}; rpoID < sortedBlocks.size(); ++rpoID) {
    auto const& binfo = blockInfos[rpoID];
    if (!binfo.in.initialized) {
      FTRACE(2, "Pruning block: B{}\n", binfo.blockID);
      region.deleteBlock(binfo.blockID);
    }
  }
  FTRACE(2, "\n");
}
Beispiel #2
0
void region_prune_arcs(RegionDesc& region) {
  FTRACE(4, "region_prune_arcs\n");

  region.sortBlocks();
  auto const sortedBlocks = region.blocks();

  // Maps region block ids to their RPO ids.
  auto blockToRPO = std::unordered_map<RegionDesc::BlockId,uint32_t>{};

  auto blockInfos = std::vector<BlockInfo>(sortedBlocks.size());
  auto workQ = dataflow_worklist<uint32_t>(sortedBlocks.size());
  for (auto rpoID = uint32_t{0}; rpoID < sortedBlocks.size(); ++rpoID) {
    auto const& b = sortedBlocks[rpoID];
    auto& binfo = blockInfos[rpoID];
    binfo.blockID = b->id();
    blockToRPO[binfo.blockID] = rpoID;
  }
  workQ.push(0);
  blockInfos[0].in = entry_state(region);

  FTRACE(4, "Iterating:\n");
  do {
    auto const rpoID = workQ.pop();
    auto& binfo = blockInfos[rpoID];
    FTRACE(4, "B{}\n", binfo.blockID);

    /*
     * This code currently assumes inlined functions were entirely contained
     * within a single profiling translation, and will need updates if we
     * inline bigger things in a way visible to region selection.
     *
     * Note: inlined blocks /may/ have postConditions, if they are the last
     * blocks from profiling translations.  Currently any locations referred to
     * in postconditions for these blocks are for the outermost caller, so this
     * code handles that correctly.
     */
    if (region.block(binfo.blockID)->inlineLevel() != 0) {
      assertx(region.block(binfo.blockID)->typePreConditions().empty());
    }

    binfo.out = binfo.in;
    apply_transfer_function(
      binfo.out,
      region.block(binfo.blockID)->postConds()
    );

    for (auto& succ : region.succs(binfo.blockID)) {
      auto const succRPO = blockToRPO.find(succ);
      assertx(succRPO != end(blockToRPO));
      auto& succInfo = blockInfos[succRPO->second];
      if (preconds_may_pass(*region.block(succInfo.blockID), binfo.out)) {
        if (merge_into(succInfo.in, binfo.out)) {
          FTRACE(5, "  -> {}\n", succInfo.blockID);
          workQ.push(succRPO->second);
        }
      }
    }
  } while (!workQ.empty());

  FTRACE(2, "\nPostConds fixed point:\n{}\n",
    [&] () -> std::string {
      auto ret = std::string{};
      for (auto& s : blockInfos) {
        folly::format(&ret, "B{}:\n{}", s.blockID, show(s.in));
      }
      return ret;
    }()
  );

  // Now remove any edge that looks like it will unconditionally fail type
  // predictions, and completely remove any block that can't be reached.
  using ArcIDs = std::pair<RegionDesc::BlockId,RegionDesc::BlockId>;
  auto toRemove = std::vector<ArcIDs>{};
  for (auto rpoID = uint32_t{0}; rpoID < sortedBlocks.size(); ++rpoID) {
    auto const& binfo = blockInfos[rpoID];

    for (auto& succ : region.succs(binfo.blockID)) {
      auto const succRPO = blockToRPO.find(succ);
      assertx(succRPO != end(blockToRPO));
      auto const& succInfo = blockInfos[succRPO->second];
      if (!binfo.in.initialized ||
          !succInfo.in.initialized ||
          !preconds_may_pass(*region.block(succInfo.blockID), binfo.out)) {
        FTRACE(2, "Pruning arc: B{} -> B{}\n",
               binfo.blockID,
               succInfo.blockID);
        toRemove.emplace_back(binfo.blockID, succInfo.blockID);
      }
    }

    for (auto& r : toRemove) region.removeArc(r.first, r.second);
    toRemove.clear();
  }

  // Get rid of the completely unreachable blocks, now that any arcs to/from
  // them are gone.
  for (auto rpoID = uint32_t{0}; rpoID < sortedBlocks.size(); ++rpoID) {
    auto const& binfo = blockInfos[rpoID];
    if (!binfo.in.initialized) {
      FTRACE(2, "Pruning block: B{}\n", binfo.blockID);
      region.deleteBlock(binfo.blockID);
    }
  }
  FTRACE(2, "\n");
}