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#include <iostream>
#include <vector>
#include <utility>
#include <tr1/unordered_map>

#include <boost/functional/hash.hpp>
#include <boost/program_options.hpp>
#include <boost/program_options/variables_map.hpp>
#include <boost/lexical_cast.hpp>

#include "tdict.h"
#include "fdict.h"
#include "wordid.h"
#include "filelib.h"

using namespace std;
using namespace std::tr1;
namespace po = boost::program_options;

static const size_t MAX_LINE_LENGTH = 100000;
WordID kBOS, kEOS, kDIVIDER, kGAP;
int kCOUNT;

void InitCommandLine(int argc, char** argv, po::variables_map* conf) {
  po::options_description opts("Configuration options");
  opts.add_options()
        ("input,i", po::value<string>()->default_value("-"), "Input file")
        ("phrases,p", po::value<string>(), "File contatining phrases of interest")
        ("phrase_context_size,S", po::value<int>()->default_value(2), "Use this many words of context on left and write when writing base phrase contexts")
        ("combiner_size,c", po::value<size_t>()->default_value(800000), "Number of unique items to store in cache before writing rule counts. Set to 1 to disable cache. Set to 0 for no limit.")
        ("silent", "Write nothing to stderr except errors")
        ("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("input") != 1 || conf->count("phrases") != 1) {
    cerr << "\nUsage: extractor_monolingual [-options]\n";
    cerr << dcmdline_options << endl;
    exit(1);
  }
}

struct TrieNode
{
  TrieNode(int l) : finish(false), length(l) {};
  ~TrieNode()
  {
    for (unordered_map<int, TrieNode*>::iterator
         it = next.begin(); it != next.end(); ++it)
      delete it->second;
    next.clear();
  }

  TrieNode *follow(int token)
  {
    unordered_map<int, TrieNode*>::iterator
      found = next.find(token);
    if (found != next.end())
      return found->second;
    else
      return 0;
  }

  void insert(const vector<int> &tokens)
  {
    insert(tokens.begin(), tokens.end());
  }

  void insert(vector<int>::const_iterator begin, vector<int>::const_iterator end)
  {
    if (begin == end)
      finish = true;
    else
    {
      int token = *begin;
      unordered_map<int, TrieNode*>::iterator 
        nit = next.find(token);
      if (nit == next.end())
        nit = next.insert(make_pair(token, new TrieNode(length+1))).first;
      ++begin;
      nit->second->insert(begin, end);
    }
  }

  bool finish;
  int length;
  unordered_map<int, TrieNode*> next;
};

struct CountCombiner {
  CountCombiner(const size_t& csize) : combiner_size(csize) {
    if (csize == 0) { cerr << "Using unlimited combiner cache.\n"; }
  }
  ~CountCombiner() {
    if (!cache.empty()) WriteAndClearCache();
  }

  void Count(const vector<WordID>& key,
             const vector<WordID>& val,
             const int count_type)
  {
    if (combiner_size != 1) {
      cache[key][val] += count_type;
      if (combiner_size > 1 && cache.size() > combiner_size)
        WriteAndClearCache();
    } else {
      cout << TD::GetString(key) << '\t' << TD::GetString(val) << " ||| C=" << count_type << "\n";
    }
  }

 private:
  void WriteAndClearCache() {
    for (unordered_map<vector<WordID>, Vec2PhraseCount, boost::hash<vector<WordID> > >::iterator it = cache.begin();
         it != cache.end(); ++it) {
      cout << TD::GetString(it->first) << '\t';
      const Vec2PhraseCount& vals = it->second;
      bool needdiv = false;
      for (Vec2PhraseCount::const_iterator vi = vals.begin(); vi != vals.end(); ++vi) {
        if (needdiv) cout << " ||| "; else needdiv = true;
        cout << TD::GetString(vi->first) << " ||| C=" << vi->second;
      }
      cout << '\n';
    }
    cout << flush;
    cache.clear();
  }

  const size_t combiner_size;
  typedef unordered_map<vector<WordID>, int, boost::hash<vector<WordID> > > Vec2PhraseCount;
  unordered_map<vector<WordID>, Vec2PhraseCount, boost::hash<vector<WordID> > > cache;
};

void WriteContext(const vector<int>& sentence, int start, int end, int ctx_size, CountCombiner &combiner) 
{
  vector<WordID> phrase, context;
  for (int i = start; i < end; ++i)
      phrase.push_back(sentence[i]);

  for (int i = ctx_size; i > 0; --i)
    context.push_back(sentence[start-i]);
  context.push_back(kGAP);
  for (int i = 0; i < ctx_size; ++i)
    context.push_back(sentence[end+i]);

  combiner.Count(phrase, context, 1);
}

inline bool IsWhitespace(char c) { 
    return c == ' ' || c == '\t'; 
}

inline void SkipWhitespace(const char* buf, int* ptr) {
  while (buf[*ptr] && IsWhitespace(buf[*ptr])) { ++(*ptr); }
}

vector<int> ReadSentence(const char *buf, int padding)
{
  int ptr = 0;
  SkipWhitespace(buf, &ptr);
  int start = ptr;
  vector<int> sentence;
  for (int i = 0; i < padding; ++i)
    sentence.push_back(kBOS);

  while (char c = buf[ptr])
  {
    if (!IsWhitespace(c)) 
      ++ptr; 
    else {
      sentence.push_back(TD::Convert(string(buf, start, ptr-start)));
      SkipWhitespace(buf, &ptr);
      start = ptr;
    }
  }
  for (int i = 0; i < padding; ++i)
    sentence.push_back(kEOS);

  return sentence;
}

int main(int argc, char** argv) 
{
  po::variables_map conf;
  InitCommandLine(argc, argv, &conf);
  kBOS = TD::Convert("<s>");
  kEOS = TD::Convert("</s>");
  kDIVIDER = TD::Convert("|||");
  kGAP = TD::Convert("<PHRASE>");
  kCOUNT = FD::Convert("C");

  bool silent = conf.count("silent") > 0;
  const int ctx_size = conf["phrase_context_size"].as<int>();
  CountCombiner cc(conf["combiner_size"].as<size_t>());

  char buf[MAX_LINE_LENGTH];
  TrieNode phrase_trie(0);
  ReadFile rpf(conf["phrases"].as<string>());
  istream& pin = *rpf.stream();
  while (pin) {
      pin.getline(buf, MAX_LINE_LENGTH);
      phrase_trie.insert(ReadSentence(buf, 0));
  }

  ReadFile rif(conf["input"].as<string>());
  istream &iin = *rif.stream();
  int line = 0;
  while (iin) {
    ++line;
    iin.getline(buf, MAX_LINE_LENGTH);
    //cout << "line: " << line << " '" << buf << "'" << endl;
    if (buf[0] == 0) continue;
    if (!silent) {
      if (line % 200 == 0) cerr << '.';
      if (line % 8000 == 0) cerr << " [" << line << "]\n" << flush;
    }

    vector<int> sentence = ReadSentence(buf, ctx_size);
    //cout << "sentence: " << TD::GetString(sentence) << endl;
    vector<TrieNode*> tries;
    for (int i = ctx_size; i < (int)sentence.size() - ctx_size; ++i)
    {
      //cout << "i: " << i << " token: " << TD::Convert(sentence[i]) << " tries: " << tries.size() << endl;
      vector<TrieNode*> tries_prime;
      tries.push_back(&phrase_trie);
      for (vector<TrieNode*>::iterator tit = tries.begin(); tit != tries.end(); ++tit)
      {
        TrieNode* next = (*tit)->follow(sentence[i]);
        if (next != 0)
        {
          //cout << "\tfollowed edge: " << next->finish << endl;
          if (next->finish)
            WriteContext(sentence, i + 1 - next->length, i + 1, ctx_size, cc);
          tries_prime.push_back(next);
        }
      }
      swap(tries, tries_prime);
    }
    //cout << "/sentence" << endl;
  }
  if (!silent) cerr << endl;
  return 0;
}