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#include "dtrain.h"
bool
dtrain_init(int argc, char** argv, po::variables_map* cfg)
{
po::options_description ini("Configuration File Options");
ini.add_options()
("input", po::value<string>()->default_value("-"), "input file")
("output", po::value<string>()->default_value("-"), "output weights file (or VOID)")
("input_weights", po::value<string>(), "input weights file (e.g. from previous iteration)")
("decoder_config", po::value<string>(), "configuration file for cdec")
("k", po::value<unsigned>()->default_value(100), "size of kbest or sample from forest")
("sample_from", po::value<string>()->default_value("kbest"), "where to get translations from")
("filter", po::value<string>()->default_value("unique"), "filter kbest list")
("pair_sampling", po::value<string>()->default_value("all"), "how to sample pairs: all, rand")
("N", po::value<unsigned>()->default_value(3), "N for Ngrams")
("epochs", po::value<unsigned>()->default_value(2), "# of iterations T")
("scorer", po::value<string>()->default_value("stupid_bleu"), "scoring metric")
("stop_after", po::value<unsigned>()->default_value(0), "stop after X input sentences")
("print_weights", po::value<string>(), "weights to print on each iteration")
("hstreaming", po::value<bool>()->zero_tokens(), "run in hadoop streaming mode")
("learning_rate", po::value<double>()->default_value(0.0005), "learning rate")
("gamma", po::value<double>()->default_value(0.), "gamma for SVM (0 for perceptron)")
("tmp", po::value<string>()->default_value("/tmp"), "temp dir to use")
("noup", po::value<bool>()->zero_tokens(), "do not update weights");
po::options_description cl("Command Line Options");
cl.add_options()
("config,c", po::value<string>(), "dtrain config file")
("quiet,q", po::value<bool>()->zero_tokens(), "be quiet")
("verbose,v", po::value<bool>()->zero_tokens(), "be verbose");
cl.add(ini);
po::store(parse_command_line(argc, argv, cl), *cfg);
if (cfg->count("config")) {
ifstream ini_f((*cfg)["config"].as<string>().c_str());
po::store(po::parse_config_file(ini_f, ini), *cfg);
}
po::notify(*cfg);
if (!cfg->count("decoder_config")) {
cerr << cl << endl;
return false;
}
if (cfg->count("hstreaming") && (*cfg)["output"].as<string>() != "-") {
cerr << "When using 'hstreaming' the 'output' param should be '-'.";
return false;
}
if ((*cfg)["filter"].as<string>() != "unique"
&& (*cfg)["filter"].as<string>() != "no") {
cerr << "Wrong 'filter' param: '" << (*cfg)["filter"].as<string>() << "', use 'unique' or 'no'." << endl;
}
if ((*cfg)["pair_sampling"].as<string>() != "all"
&& (*cfg)["pair_sampling"].as<string>() != "rand") {
cerr << "Wrong 'pair_sampling' param: '" << (*cfg)["pair_sampling"].as<string>() << "', use 'all' or 'rand'." << endl;
}
if ((*cfg)["sample_from"].as<string>() != "kbest"
&& (*cfg)["sample_from"].as<string>() != "forest") {
cerr << "Wrong 'sample_from' param: '" << (*cfg)["sample_from"].as<string>() << "', use 'kbest' or 'forest'." << endl;
}
return true;
}
int
main(int argc, char** argv)
{
// handle most parameters
po::variables_map cfg;
if (!dtrain_init(argc, argv, &cfg)) exit(1); // something is wrong
bool quiet = false;
if (cfg.count("quiet")) quiet = true;
bool verbose = false;
if (cfg.count("verbose")) verbose = true;
bool noup = false;
if (cfg.count("noup")) noup = true;
bool hstreaming = false;
if (cfg.count("hstreaming")) {
hstreaming = true;
quiet = true;
}
const unsigned k = cfg["k"].as<unsigned>();
const unsigned N = cfg["N"].as<unsigned>();
const unsigned T = cfg["epochs"].as<unsigned>();
const unsigned stop_after = cfg["stop_after"].as<unsigned>();
const string filter_type = cfg["filter"].as<string>();
const string sample_from = cfg["sample_from"].as<string>();
const string pair_sampling = cfg["pair_sampling"].as<string>();
vector<string> print_weights;
if (cfg.count("print_weights"))
boost::split(print_weights, cfg["print_weights"].as<string>(), boost::is_any_of(" "));
// setup decoder
register_feature_functions();
SetSilent(true);
ReadFile ini_rf(cfg["decoder_config"].as<string>());
if (!quiet)
cerr << setw(25) << "cdec cfg " << "'" << cfg["decoder_config"].as<string>() << "'" << endl;
Decoder decoder(ini_rf.stream());
// scoring metric/scorer
string scorer_str = cfg["scorer"].as<string>();
LocalScorer* scorer;
if (scorer_str == "bleu") {
} else if (scorer_str == "stupid_bleu") {
scorer = dynamic_cast<StupidBleuScorer*>(new StupidBleuScorer);
} else if (scorer_str == "smooth_bleu") {
scorer = dynamic_cast<SmoothBleuScorer*>(new SmoothBleuScorer);
} else if (scorer_str == "approx_bleu") {
scorer = dynamic_cast<StupidBleuScorer*>(new StupidBleuScorer); // FIXME
} else {
cerr << "Don't know scoring metric: '" << scorer_str << "', exiting." << endl;
exit(1);
}
vector<score_t> bleu_weights;
scorer->Init(N, bleu_weights);
if (!quiet) cerr << setw(26) << "scorer '" << scorer_str << "'" << endl << endl;
// setup decoder observer
MT19937 rng; // random number generator
HypSampler* observer;
if (sample_from == "kbest")
observer = dynamic_cast<KBestGetter*>(new KBestGetter(k, filter_type));
else
observer = dynamic_cast<KSampler*>(new KSampler(k, &rng));
observer->SetScorer(scorer);
// init weights
Weights weights;
if (cfg.count("input_weights")) weights.InitFromFile(cfg["input_weights"].as<string>());
SparseVector<double> lambdas;
weights.InitSparseVector(&lambdas);
vector<double> dense_weights;
// meta params for perceptron, SVM
double eta = cfg["learning_rate"].as<double>();
double gamma = cfg["gamma"].as<double>();
lambdas.add_value(FD::Convert("__bias"), 0);
// input
string input_fn = cfg["input"].as<string>();
ReadFile input(input_fn);
// buffer input for t > 0
vector<string> src_str_buf; // source strings
vector<vector<WordID> > ref_ids_buf; // references as WordID vecs
// this is for writing the grammar buffer file
char grammar_buf_fn[1024];
strcpy(grammar_buf_fn, cfg["tmp"].as<string>().c_str());
strcat(grammar_buf_fn, "/dtrain-grammars-XXXXXX");
mkstemp(grammar_buf_fn);
ogzstream grammar_buf_out;
grammar_buf_out.open(grammar_buf_fn);
unsigned in_sz = 999999999; // input index, input size
vector<pair<score_t,score_t> > all_scores;
score_t max_score = 0.;
unsigned best_it = 0;
float overall_time = 0.;
// output cfg
if (!quiet) {
cerr << _p5;
cerr << endl << "dtrain" << endl << "Parameters:" << endl;
cerr << setw(25) << "k " << k << endl;
cerr << setw(25) << "N " << N << endl;
cerr << setw(25) << "T " << T << endl;
if (cfg.count("stop-after"))
cerr << setw(25) << "stop_after " << stop_after << endl;
if (cfg.count("input_weights"))
cerr << setw(25) << "weights in" << cfg["input_weights"].as<string>() << endl;
cerr << setw(25) << "input " << "'" << cfg["input"].as<string>() << "'" << endl;
cerr << setw(25) << "output " << "'" << cfg["output"].as<string>() << "'" << endl;
if (sample_from == "kbest")
cerr << setw(25) << "filter " << "'" << filter_type << "'" << endl;
cerr << setw(25) << "learning rate " << eta << endl;
cerr << setw(25) << "gamma " << gamma << endl;
cerr << setw(25) << "sample from " << "'" << sample_from << "'" << endl;
cerr << setw(25) << "pairs " << "'" << pair_sampling << "'" << endl;
if (!verbose) cerr << "(a dot represents " << DTRAIN_DOTS << " lines of input)" << endl;
}
for (unsigned t = 0; t < T; t++) // T epochs
{
time_t start, end;
time(&start);
igzstream grammar_buf_in;
if (t > 0) grammar_buf_in.open(grammar_buf_fn);
score_t score_sum = 0., model_sum = 0.;
unsigned ii = 0;
if (!quiet) cerr << "Iteration #" << t+1 << " of " << T << "." << endl;
while(true)
{
string in;
bool next = false, stop = false; // next iteration or premature stop
if (t == 0) {
if(!getline(*input, in)) next = true;
} else {
if (ii == in_sz) next = true; // stop if we reach the end of our input
}
// stop after X sentences (but still iterate for those)
if (stop_after > 0 && stop_after == ii && !next) stop = true;
// produce some pretty output
if (!quiet && !verbose) {
if (ii == 0) cerr << " ";
if ((ii+1) % (DTRAIN_DOTS) == 0) {
cerr << ".";
cerr.flush();
}
if ((ii+1) % (20*DTRAIN_DOTS) == 0) {
cerr << " " << ii+1 << endl;
if (!next && !stop) cerr << " ";
}
if (stop) {
if (ii % (20*DTRAIN_DOTS) != 0) cerr << " " << ii << endl;
cerr << "Stopping after " << stop_after << " input sentences." << endl;
} else {
if (next) {
if (ii % (20*DTRAIN_DOTS) != 0) cerr << " " << ii << endl;
}
}
}
// next iteration
if (next || stop) break;
// weights
dense_weights.clear();
weights.InitFromVector(lambdas);
weights.InitVector(&dense_weights);
decoder.SetWeights(dense_weights);
// getting input
vector<string> in_split; // input: sid\tsrc\tref\tpsg
vector<WordID> ref_ids; // reference as vector<WordID>
if (t == 0) {
// handling input
boost::split(in_split, in, boost::is_any_of("\t"));
// getting reference
vector<string> ref_tok;
boost::split(ref_tok, in_split[2], boost::is_any_of(" "));
register_and_convert(ref_tok, ref_ids);
ref_ids_buf.push_back(ref_ids);
// process and set grammar
bool broken_grammar = true;
for (string::iterator ti = in_split[3].begin(); ti != in_split[3].end(); ti++) {
if (!isspace(*ti)) {
broken_grammar = false;
break;
}
}
if (broken_grammar) continue;
boost::replace_all(in_split[3], " __NEXT__RULE__ ", "\n"); // TODO
in_split[3] += "\n";
grammar_buf_out << in_split[3] << DTRAIN_GRAMMAR_DELIM << " " << in_split[0] << endl;
decoder.SetSentenceGrammarFromString(in_split[3]);
src_str_buf.push_back(in_split[1]);
// decode
observer->SetRef(ref_ids);
decoder.Decode(in_split[1], observer);
} else {
// get buffered grammar
string grammar_str;
while (true) {
string rule;
getline(grammar_buf_in, rule);
if (boost::starts_with(rule, DTRAIN_GRAMMAR_DELIM)) break;
grammar_str += rule + "\n";
}
decoder.SetSentenceGrammarFromString(grammar_str);
// decode
observer->SetRef(ref_ids_buf[ii]);
decoder.Decode(src_str_buf[ii], observer);
}
// get (scored) samples
vector<ScoredHyp>* samples = observer->GetSamples();
if (verbose) {
cout << "[ref: '";
if (t > 0) cout << ref_ids_buf[ii];
else cout << ref_ids;
cout << endl;
cout << _p5 << _np << "1best: " << "'" << (*samples)[0].w << "'" << endl;
cout << "SCORE=" << (*samples)[0].score << ",model="<< (*samples)[0].model << endl;
cout << "F{" << (*samples)[0].f << "} ]" << endl << endl;
}
score_sum += (*samples)[0].score;
model_sum += (*samples)[0].model;
//////////////////////////////////////////////////////////
// UPDATE WEIGHTS
if (!noup) {
vector<pair<ScoredHyp,ScoredHyp> > pairs;
if (pair_sampling == "all")
sample_all_pairs(samples, pairs);
if (pair_sampling == "rand")
sample_rand_pairs(samples, pairs, &rng);
for (vector<pair<ScoredHyp,ScoredHyp> >::iterator ti = pairs.begin();
ti != pairs.end(); ti++) {
SparseVector<double> dv;
if (ti->first.score - ti->second.score < 0) {
dv = ti->second.f - ti->first.f;
//} else {
//dv = ti->first - ti->second;
//}
dv.add_value(FD::Convert("__bias"), -1);
//SparseVector<double> reg;
//reg = lambdas * (2 * gamma);
//dv -= reg;
lambdas += dv * eta;
if (verbose) {
/*cerr << "{{ f("<< ti->first_rank <<") > f(" << ti->second_rank << ") but g(i)="<< ti->first_score <<" < g(j)="<< ti->second_score << " so update" << endl;
cerr << " i " << TD::GetString(samples->sents[ti->first_rank]) << endl;
cerr << " " << samples->feats[ti->first_rank] << endl;
cerr << " j " << TD::GetString(samples->sents[ti->second_rank]) << endl;
cerr << " " << samples->feats[ti->second_rank] << endl;
cerr << " diff vec: " << dv << endl;
cerr << " lambdas after update: " << lambdas << endl;
cerr << "}}" << endl;*/
}
} else {
//SparseVector<double> reg;
//reg = lambdas * (2 * gamma);
//lambdas += reg * (-eta);
}
}
//double l2 = lambdas.l2norm();
//if (l2) lambdas /= lambdas.l2norm();
}
//////////////////////////////////////////////////////////
++ii;
if (hstreaming) cerr << "reporter:counter:dtrain,sid," << ii << endl;
} // input loop
if (t == 0) {
in_sz = ii; // remember size of input (# lines)
grammar_buf_out.close();
} else {
grammar_buf_in.close();
}
// print some stats
score_t score_avg = score_sum/(score_t)in_sz;
score_t model_avg = model_sum/(score_t)in_sz;
score_t score_diff, model_diff;
if (t > 0) {
score_diff = score_avg - all_scores[t-1].first;
model_diff = model_avg - all_scores[t-1].second;
} else {
score_diff = score_avg;
model_diff = model_avg;
}
if (!quiet) {
cerr << _p5 << _p << "WEIGHTS" << endl;
for (vector<string>::iterator it = print_weights.begin(); it != print_weights.end(); it++) {
cerr << setw(16) << *it << " = " << lambdas.get(FD::Convert(*it)) << endl;
}
cerr << " ---" << endl;
cerr << _np << " 1best avg score: " << score_avg;
cerr << _p << " (" << score_diff << ")" << endl;
cerr << _np << "1best avg model score: " << model_avg;
cerr << _p << " (" << model_diff << ")" << endl;
}
pair<score_t,score_t> remember;
remember.first = score_avg;
remember.second = model_avg;
all_scores.push_back(remember);
if (score_avg > max_score) {
max_score = score_avg;
best_it = t;
}
time (&end);
float time_diff = difftime(end, start);
overall_time += time_diff;
if (!quiet) {
cerr << _p2 << _np << "(time " << time_diff/60. << " min, ";
cerr << time_diff/(float)in_sz<< " s/S)" << endl;
}
if (t+1 != T && !quiet) cerr << endl;
if (noup) break;
} // outer loop
unlink(grammar_buf_fn);
if (!noup) {
if (!quiet) cerr << endl << "writing weights file '" << cfg["output"].as<string>() << "' ...";
if (cfg["output"].as<string>() == "-") {
cout << _p9;
for (SparseVector<double>::const_iterator ti = lambdas.begin();
ti != lambdas.end(); ++ti) {
if (ti->second == 0) continue;
cout << _np << FD::Convert(ti->first) << "\t" << ti->second << endl;
}
if (hstreaming) cout << "__SHARD_COUNT__\t1" << endl;
} else if (cfg["output"].as<string>() != "VOID") {
weights.InitFromVector(lambdas);
weights.WriteToFile(cfg["output"].as<string>(), true);
}
if (!quiet) cerr << "done" << endl;
}
if (!quiet) {
cerr << _p5 << _np << endl << "---" << endl << "Best iteration: ";
cerr << best_it+1 << " [SCORE '" << scorer_str << "'=" << max_score << "]." << endl;
cerr << _p2 << "This took " << overall_time/60. << " min." << endl;
}
return 0;
}
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