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#include <iostream>
#include <sstream>
#include <vector>

#include <queue>
#include <map>
#include <boost/program_options.hpp>
#include <boost/shared_ptr.hpp>

#include "filelib.h"
#include "alignment_io.h"

#include <boost/algorithm/string.hpp>
#include <boost/regex.hpp>
#include <boost/algorithm/string/regex.hpp>

#include <nanomsg/nn.h>
#include <nanomsg/pair.h>
#include "nn.hpp"

namespace po = boost::program_options;
using namespace std;

struct Command {
  virtual ~Command() {}
  virtual string Name() const = 0;

  // returns 1 for alignment grid output [default]
  // returns 2 if Summary() should be called [for AER, etc]
  virtual int Result() const { return 1; }

  virtual bool RequiresTwoOperands() const { return true; }
  virtual void Apply(const Array2D<bool>& a, const Array2D<bool>& b, Array2D<bool>* x) = 0;
  void EnsureSize(const Array2D<bool>& a, const Array2D<bool>& b, Array2D<bool>* x) {
    x->resize(max(a.width(), b.width()), max(a.height(), b.height()));
  }
  static bool Safe(const Array2D<bool>& a, int i, int j) {
    if (i >= 0 && j >= 0 && i < static_cast<int>(a.width()) && j < static_cast<int>(a.height()))
      return a(i,j);
    else
      return false;
  }
  virtual void Summary() { assert(!"Summary should have been overridden"); }
};

// compute fmeasure, second alignment is reference, first is hyp
struct FMeasureCommand : public Command {
  FMeasureCommand() : matches(), num_predicted(), num_in_ref() {}
  int Result() const { return 2; }
  string Name() const { return "fmeasure"; }
  bool RequiresTwoOperands() const { return true; }
  void Apply(const Array2D<bool>& hyp, const Array2D<bool>& ref, Array2D<bool>* x) {
    (void) x;   // AER just computes statistics, not an alignment
    unsigned i_len = ref.width();
    unsigned j_len = ref.height();
    for (unsigned i = 0; i < i_len; ++i) {
      for (unsigned j = 0; j < j_len; ++j) {
        if (ref(i,j)) {
          ++num_in_ref;
          if (Safe(hyp, i, j)) ++matches;
        }
      }
    }
    for (unsigned i = 0; i < hyp.width(); ++i)
      for (unsigned j = 0; j < hyp.height(); ++j)
        if (hyp(i,j)) ++num_predicted;
  }
  void Summary() {
    if (num_predicted == 0 || num_in_ref == 0) {
      cerr << "Insufficient statistics to compute f-measure!\n";
      abort();
    }
    const double prec = static_cast<double>(matches) / num_predicted;
    const double rec = static_cast<double>(matches) / num_in_ref;
    cout << "P: " << prec << endl;
    cout << "R: " << rec << endl;
    const double f = (2.0 * prec * rec) / (rec + prec);
    cout << "F: " << f << endl;
  }
  int matches;
  int num_predicted;
  int num_in_ref;
};

struct DisplayCommand : public Command {
  string Name() const { return "display"; }
  bool RequiresTwoOperands() const { return false; }
  void Apply(const Array2D<bool>& in, const Array2D<bool>&, Array2D<bool>* x) {
    *x = in;
    cout << *x << endl;
  }
};

struct ConvertCommand : public Command {
  string Name() const { return "convert"; }
  bool RequiresTwoOperands() const { return false; }
  void Apply(const Array2D<bool>& in, const Array2D<bool>&, Array2D<bool>* x) {
    *x = in;
  }
};

struct InvertCommand : public Command {
  string Name() const { return "invert"; }
  bool RequiresTwoOperands() const { return false; }
  void Apply(const Array2D<bool>& in, const Array2D<bool>&, Array2D<bool>* x) {
    Array2D<bool>& res = *x;
    res.resize(in.height(), in.width());
    for (unsigned i = 0; i < in.height(); ++i)
      for (unsigned j = 0; j < in.width(); ++j)
        res(i, j) = in(j, i);
  }
};

struct IntersectCommand : public Command {
  string Name() const { return "intersect"; }
  bool RequiresTwoOperands() const { return true; }
  void Apply(const Array2D<bool>& a, const Array2D<bool>& b, Array2D<bool>* x) {
    EnsureSize(a, b, x);
    Array2D<bool>& res = *x;
    for (unsigned i = 0; i < a.width(); ++i)
      for (unsigned j = 0; j < a.height(); ++j)
        res(i, j) = Safe(a, i, j) && Safe(b, i, j);
  }
};

struct UnionCommand : public Command {
  string Name() const { return "union"; }
  bool RequiresTwoOperands() const { return true; }
  void Apply(const Array2D<bool>& a, const Array2D<bool>& b, Array2D<bool>* x) {
    EnsureSize(a, b, x);
    Array2D<bool>& res = *x;
    for (unsigned i = 0; i < res.width(); ++i)
      for (unsigned j = 0; j < res.height(); ++j)
        res(i, j) = Safe(a, i, j) || Safe(b, i, j);
  }
};

struct RefineCommand : public Command {
  RefineCommand() {
    neighbors_.push_back(make_pair(1,0));
    neighbors_.push_back(make_pair(-1,0));
    neighbors_.push_back(make_pair(0,1));
    neighbors_.push_back(make_pair(0,-1));
  }
  bool RequiresTwoOperands() const { return true; }

  void Align(unsigned i, unsigned j) {
    res_(i, j) = true;
    is_i_aligned_[i] = true;
    is_j_aligned_[j] = true;
  }

  bool IsNeighborAligned(int i, int j) const {
    for (unsigned k = 0; k < neighbors_.size(); ++k) {
      const int di = neighbors_[k].first;
      const int dj = neighbors_[k].second;
      if (Safe(res_, i + di, j + dj))
        return true;
    }
    return false;
  }

  bool IsNeitherAligned(int i, int j) const {
    return !(is_i_aligned_[i] || is_j_aligned_[j]);
  }

  bool IsOneOrBothUnaligned(int i, int j) const {
    return !(is_i_aligned_[i] && is_j_aligned_[j]);
  }

  bool KoehnAligned(int i, int j) const {
    return IsOneOrBothUnaligned(i, j) && IsNeighborAligned(i, j);
  }

  typedef bool (RefineCommand::*Predicate)(int i, int j) const;

 protected:
  void InitRefine(
      const Array2D<bool>& a,
      const Array2D<bool>& b) {
    res_.clear();
    EnsureSize(a, b, &res_);
    in_.clear(); un_.clear(); is_i_aligned_.clear(); is_j_aligned_.clear();
    EnsureSize(a, b, &in_);
    EnsureSize(a, b, &un_);
    is_i_aligned_.resize(res_.width(), false);
    is_j_aligned_.resize(res_.height(), false);
    for (unsigned i = 0; i < in_.width(); ++i)
      for (unsigned j = 0; j < in_.height(); ++j) {
        un_(i, j) = Safe(a, i, j) || Safe(b, i, j);
        in_(i, j) = Safe(a, i, j) && Safe(b, i, j);
        if (in_(i, j)) Align(i, j);
    }
  }
  // "grow" the resulting alignment using the points in adds
  // if they match the constraints determined by pred
  void Grow(Predicate pred, bool idempotent, const Array2D<bool>& adds) {
    if (idempotent) {
      for (unsigned i = 0; i < adds.width(); ++i)
        for (unsigned j = 0; j < adds.height(); ++j) {
          if (adds(i, j) && !res_(i, j) &&
              (this->*pred)(i, j)) Align(i, j);
        }
      return;
    }
    set<pair<int, int> > p;
    for (unsigned i = 0; i < adds.width(); ++i)
      for (unsigned j = 0; j < adds.height(); ++j)
        if (adds(i, j) && !res_(i, j))
          p.insert(make_pair(i, j));
    bool keep_going = !p.empty();
    while (keep_going) {
      keep_going = false;
      set<pair<int, int> > added;
      for (set<pair<int, int> >::iterator pi = p.begin(); pi != p.end(); ++pi) {
        if ((this->*pred)(pi->first, pi->second)) {
          Align(pi->first, pi->second);
          added.insert(make_pair(pi->first, pi->second));
          keep_going = true;
        }
      }
      for (set<pair<int, int> >::iterator ai = added.begin(); ai != added.end(); ++ai)
        p.erase(*ai);
    }
  }
  Array2D<bool> res_;  // refined alignment
  Array2D<bool> in_;   // intersection alignment
  Array2D<bool> un_;   // union alignment
  vector<bool> is_i_aligned_;
  vector<bool> is_j_aligned_;
  vector<pair<int,int> > neighbors_;
};

struct DiagCommand : public RefineCommand {
  DiagCommand() {
    neighbors_.push_back(make_pair(1,1));
    neighbors_.push_back(make_pair(-1,1));
    neighbors_.push_back(make_pair(1,-1));
    neighbors_.push_back(make_pair(-1,-1));
  }
};

struct GDCommand : public DiagCommand {
  string Name() const { return "grow-diag"; }
  void Apply(const Array2D<bool>& a, const Array2D<bool>& b, Array2D<bool>* x) {
    InitRefine(a, b);
    Grow(&RefineCommand::KoehnAligned, false, un_);
    *x = res_;
  }
};

struct GDFCommand : public DiagCommand {
  string Name() const { return "grow-diag-final"; }
  void Apply(const Array2D<bool>& a, const Array2D<bool>& b, Array2D<bool>* x) {
    InitRefine(a, b);
    Grow(&RefineCommand::KoehnAligned, false, un_);
    Grow(&RefineCommand::IsOneOrBothUnaligned, true, a);
    Grow(&RefineCommand::IsOneOrBothUnaligned, true, b);
    *x = res_;
  }
};

struct GDFACommand : public DiagCommand {
  string Name() const { return "grow-diag-final-and"; }
  void Apply(const Array2D<bool>& a, const Array2D<bool>& b, Array2D<bool>* x) {
    InitRefine(a, b);
    Grow(&RefineCommand::KoehnAligned, false, un_);
    Grow(&RefineCommand::IsNeitherAligned, true, a);
    Grow(&RefineCommand::IsNeitherAligned, true, b);
    *x = res_;
  }
};

map<string, boost::shared_ptr<Command> > commands;

void InitCommandLine(unsigned argc, char** argv, po::variables_map* conf) {
  po::options_description opts("Configuration options");
  ostringstream os;
  os << "Operation to perform:";
  for (map<string, boost::shared_ptr<Command> >::iterator it = commands.begin();
       it != commands.end(); ++it) {
    os << ' ' << it->first;
  }
  string cstr = os.str();
  opts.add_options()
        ("command,c", po::value<string>()->default_value("convert"), cstr.c_str())
        ("sock_url,S", po::value<string>()->default_value("tcp://127.0.0.1:60665"))
        ("help,h", "Print this help message and exit");
  po::options_description clo("Command line options");
  po::options_description dcmdline_options;
  dcmdline_options.add(opts);

  po::store(parse_command_line(argc, argv, dcmdline_options), *conf);
  po::notify(*conf);

  if (conf->count("help") || conf->count("command") == 0) {
    cerr << dcmdline_options << endl;
    exit(1);
  }
  const string cmd = (*conf)["command"].as<string>();
  if (commands.count(cmd) == 0) {
    cerr << "Don't understand command: " << cmd << endl;
    exit(1);
  }
}

template<class C> static void AddCommand() {
  C* c = new C;
  commands[c->Name()].reset(c);
}

int main(int argc, char **argv) {
  AddCommand<ConvertCommand>();
  AddCommand<DisplayCommand>();
  AddCommand<InvertCommand>();
  AddCommand<IntersectCommand>();
  AddCommand<UnionCommand>();
  AddCommand<GDCommand>();
  AddCommand<GDFCommand>();
  AddCommand<GDFACommand>();
  AddCommand<FMeasureCommand>();
  po::variables_map conf;
  InitCommandLine(argc, argv, &conf);
  Command& cmd = *commands[conf["command"].as<string>()];

  nn::socket sock(AF_SP, NN_PAIR);
  string url = conf["sock_url"].as<string>();
  sock.bind(url.c_str());
  int to = 100;
  sock.setsockopt(NN_SOL_SOCKET, NN_RCVTIMEO, &to, sizeof (to));
  string hello = "hello";
  sock.send(hello.c_str(), hello.size()+1, 0);

  while (true) {
    char* buf = NULL;
    size_t sz = sock.recv(&buf, NN_MSG, 0);
    if (buf) {
      const string in(buf, buf+sz);
      nn::freemsg(buf);
      if (in == "shutdown") {
        string off = "off";
        sock.send(off.c_str(), off.size()+1, 0);
        break;
      }
      vector<string> parts;
      boost::algorithm::split_regex(parts, in, boost::regex(" \\|\\|\\| "));
      boost::shared_ptr<Array2D<bool> > out(new Array2D<bool>);
      boost::shared_ptr<Array2D<bool> > a1 = AlignmentIO::ReadPharaohAlignmentGrid(parts[0]);
      boost::shared_ptr<Array2D<bool> > a2 = AlignmentIO::ReadPharaohAlignmentGrid(parts[1]);
      cmd.Apply(*a1, *a2, out.get());
      ostringstream os;
      if (cmd.Result() == 1) {
        AlignmentIO::SerializePharaohFormat(*out, &os);
      } else {
        // error
      }
      sock.send(os.str().c_str(), os.str().size()+1, 0);
    }
  }

  return 0;
}