diff options
author | Patrick Simianer <p@simianer.de> | 2013-05-02 09:09:59 +0200 |
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committer | Patrick Simianer <p@simianer.de> | 2013-05-02 09:09:59 +0200 |
commit | 9e50f0237413180fba11b500c9dce5c600e3c157 (patch) | |
tree | 556fc31d231353c853a864afffddd43dc525549a /training/latent_svm/latent_svm.cc | |
parent | d18024a41cbc1b54db88d499571349a6234b6db8 (diff) | |
parent | 14ed53426726202813a8e82d706b44266f015fe1 (diff) |
Merge remote-tracking branch 'upstream/master'
Diffstat (limited to 'training/latent_svm/latent_svm.cc')
-rw-r--r-- | training/latent_svm/latent_svm.cc | 412 |
1 files changed, 412 insertions, 0 deletions
diff --git a/training/latent_svm/latent_svm.cc b/training/latent_svm/latent_svm.cc new file mode 100644 index 00000000..ab9c1d5d --- /dev/null +++ b/training/latent_svm/latent_svm.cc @@ -0,0 +1,412 @@ +/* +Points to note regarding variable names: +total_loss and prev_loss actually refer not to loss, but the metric (usually BLEU) +*/ +#include <sstream> +#include <iostream> +#include <vector> +#include <cassert> +#include <cmath> + +//boost libraries +#include <boost/shared_ptr.hpp> +#include <boost/program_options.hpp> +#include <boost/program_options/variables_map.hpp> + +//cdec libraries +#include "config.h" +#include "hg_sampler.h" +#include "sentence_metadata.h" +#include "scorer.h" +#include "verbose.h" +#include "viterbi.h" +#include "hg.h" +#include "prob.h" +#include "kbest.h" +#include "ff_register.h" +#include "decoder.h" +#include "filelib.h" +#include "fdict.h" +#include "weights.h" +#include "sparse_vector.h" +#include "sampler.h" + +using namespace std; +using boost::shared_ptr; +namespace po = boost::program_options; + +bool invert_score; +boost::shared_ptr<MT19937> rng; //random seed ptr + +void RandomPermutation(int len, vector<int>* p_ids) { + vector<int>& ids = *p_ids; + ids.resize(len); + for (int i = 0; i < len; ++i) ids[i] = i; + for (int i = len; i > 0; --i) { + int j = rng->next() * i; + if (j == i) i--; + swap(ids[i-1], ids[j]); + } +} + +bool InitCommandLine(int argc, char** argv, po::variables_map* conf) { + po::options_description opts("Configuration options"); + opts.add_options() + ("weights,w",po::value<string>(),"[REQD] Input feature weights file") + ("input,i",po::value<string>(),"[REQD] Input source file for development set") + ("passes,p", po::value<int>()->default_value(15), "Number of passes through the training data") + ("weights_write_interval,n", po::value<int>()->default_value(1000), "Number of lines between writing out weights") + ("reference,r",po::value<vector<string> >(), "[REQD] Reference translation(s) (tokenized text file)") + ("mt_metric,m",po::value<string>()->default_value("ibm_bleu"), "Scoring metric (ibm_bleu, nist_bleu, koehn_bleu, ter, combi)") + ("regularizer_strength,C", po::value<double>()->default_value(0.01), "regularization strength") + ("mt_metric_scale,s", po::value<double>()->default_value(1.0), "Cost function is -mt_metric_scale*BLEU") + ("costaug_log_bleu,l", "Flag converts BLEU to log space. Cost function is thus -mt_metric_scale*log(BLEU). Not on by default") + ("average,A", "Average the weights (this is a weighted average due to the scaling factor)") + ("mu,u", po::value<double>()->default_value(0.0), "weight (between 0 and 1) to scale model score by for oracle selection") + ("stepsize_param,a", po::value<double>()->default_value(0.01), "Stepsize parameter, during optimization") + ("stepsize_reduce,t", "Divide step size by sqrt(number of examples seen so far), as per Ratliff et al., 2007") + ("metric_threshold,T", po::value<double>()->default_value(0.0), "Threshold for diff between oracle BLEU and cost-aug BLEU for updating the weights") + ("check_positive,P", "Check that the loss is positive before updating") + ("k_best_size,k", po::value<int>()->default_value(250), "Size of hypothesis list to search for oracles") + ("best_ever,b", "Keep track of the best hypothesis we've ever seen (metric score), and use that as the reference") + ("random_seed,S", po::value<uint32_t>(), "Random seed (if not specified, /dev/random will be used)") + ("decoder_config,c",po::value<string>(),"Decoder configuration file"); + po::options_description clo("Command line options"); + clo.add_options() + ("config", po::value<string>(), "Configuration file") + ("help,h", "Print this help message and exit"); + po::options_description dconfig_options, dcmdline_options; + dconfig_options.add(opts); + dcmdline_options.add(opts).add(clo); + + po::store(parse_command_line(argc, argv, dcmdline_options), *conf); + if (conf->count("config")) { + ifstream config((*conf)["config"].as<string>().c_str()); + po::store(po::parse_config_file(config, dconfig_options), *conf); + } + po::notify(*conf); + + if (conf->count("help") || !conf->count("weights") || !conf->count("input") || !conf->count("decoder_config") || !conf->count("reference")) { + cerr << dcmdline_options << endl; + return false; + } + return true; +} + +double scaling_trick = 1; // see http://blog.smola.org/post/940672544/fast-quadratic-regularization-for-online-learning +/*computes and returns cost augmented score for negative example selection*/ +double cost_augmented_score(const LogVal<double> model_score, const double mt_metric_score, const double mt_metric_scale, const bool logbleu) { + if(logbleu) { + if(mt_metric_score != 0) + // NOTE: log(model_score) is just the model score feature weights * features + return log(model_score) * scaling_trick + (- mt_metric_scale * log(mt_metric_score)); + else + return -1000000; + } + // NOTE: log(model_score) is just the model score feature weights * features + return log(model_score) * scaling_trick + (- mt_metric_scale * mt_metric_score); +} + +/*computes and returns mu score, for oracle selection*/ +double muscore(const vector<weight_t>& feature_weights, const SparseVector<double>& feature_values, const double mt_metric_score, const double mu, const bool logbleu) { + if(logbleu) { + if(mt_metric_score != 0) + return feature_values.dot(feature_weights) * mu + (1 - mu) * log(mt_metric_score); + else + return feature_values.dot(feature_weights) * mu + (1 - mu) * (-1000000); // log(0) is -inf + } + return feature_values.dot(feature_weights) * mu + (1 - mu) * mt_metric_score; +} + +static const double kMINUS_EPSILON = -1e-6; + +struct HypothesisInfo { + SparseVector<double> features; + double mt_metric_score; + // The model score changes when the feature weights change, so it is not stored here + // It must be recomputed every time +}; + +struct GoodOracle { + shared_ptr<HypothesisInfo> good; +}; + +struct TrainingObserver : public DecoderObserver { + TrainingObserver(const int k, + const DocScorer& d, + vector<GoodOracle>* o, + const vector<weight_t>& feat_weights, + const double metric_scale, + const double Mu, + const bool bestever, + const bool LogBleu) : ds(d), feature_weights(feat_weights), oracles(*o), kbest_size(k), mt_metric_scale(metric_scale), mu(Mu), best_ever(bestever), log_bleu(LogBleu) {} + const DocScorer& ds; + const vector<weight_t>& feature_weights; + vector<GoodOracle>& oracles; + shared_ptr<HypothesisInfo> cur_best; + shared_ptr<HypothesisInfo> cur_costaug_best; + shared_ptr<HypothesisInfo> cur_ref; + const int kbest_size; + const double mt_metric_scale; + const double mu; + const bool best_ever; + const bool log_bleu; + + const HypothesisInfo& GetCurrentBestHypothesis() const { + return *cur_best; + } + + const HypothesisInfo& GetCurrentCostAugmentedHypothesis() const { + return *cur_costaug_best; + } + + const HypothesisInfo& GetCurrentReference() const { + return *cur_ref; + } + + virtual void NotifyTranslationForest(const SentenceMetadata& smeta, Hypergraph* hg) { + UpdateOracles(smeta.GetSentenceID(), *hg); + } + + shared_ptr<HypothesisInfo> MakeHypothesisInfo(const SparseVector<double>& feats, const double metric) { + shared_ptr<HypothesisInfo> h(new HypothesisInfo); + h->features = feats; + h->mt_metric_score = metric; + return h; + } + + void UpdateOracles(int sent_id, const Hypergraph& forest) { + //shared_ptr<HypothesisInfo>& cur_ref = oracles[sent_id].good; + cur_ref = oracles[sent_id].good; + if(!best_ever) + cur_ref.reset(); + + KBest::KBestDerivations<vector<WordID>, ESentenceTraversal> kbest(forest, kbest_size); + double costaug_best_score = 0; + + for (int i = 0; i < kbest_size; ++i) { + const KBest::KBestDerivations<vector<WordID>, ESentenceTraversal>::Derivation* d = + kbest.LazyKthBest(forest.nodes_.size() - 1, i); + if (!d) break; + double mt_metric_score = ds[sent_id]->ScoreCandidate(d->yield)->ComputeScore(); //this might need to change!! + const SparseVector<double>& feature_vals = d->feature_values; + double costaugmented_score = cost_augmented_score(d->score, mt_metric_score, mt_metric_scale, log_bleu); //note that d->score, i.e., model score, is passed in + if (i == 0) { //i.e., setting up cur_best to be model score highest, and initializing costaug_best + cur_best = MakeHypothesisInfo(feature_vals, mt_metric_score); + cur_costaug_best = cur_best; + costaug_best_score = costaugmented_score; + } + if (costaugmented_score > costaug_best_score) { // kbest_mira's cur_bad, i.e., "fear" derivation + cur_costaug_best = MakeHypothesisInfo(feature_vals, mt_metric_score); + costaug_best_score = costaugmented_score; + } + double cur_muscore = mt_metric_score; + if (!cur_ref) // kbest_mira's cur_good, i.e., "hope" derivation + cur_ref = MakeHypothesisInfo(feature_vals, cur_muscore); + else { + double cur_ref_muscore = cur_ref->mt_metric_score; + if(mu > 0) { //select oracle with mixture of model score and BLEU + cur_ref_muscore = muscore(feature_weights, cur_ref->features, cur_ref->mt_metric_score, mu, log_bleu); + cur_muscore = muscore(feature_weights, d->feature_values, mt_metric_score, mu, log_bleu); + } + if (cur_muscore > cur_ref_muscore) //replace oracle + cur_ref = MakeHypothesisInfo(feature_vals, mt_metric_score); + } + } + } +}; + +void ReadTrainingCorpus(const string& fname, vector<string>* c) { + ReadFile rf(fname); + istream& in = *rf.stream(); + string line; + while(in) { + getline(in, line); + if (!in) break; + c->push_back(line); + } +} + +bool ApproxEqual(double a, double b) { + if (a == b) return true; + return (fabs(a-b)/fabs(b)) < 0.000001; +} + +int main(int argc, char** argv) { + register_feature_functions(); + SetSilent(true); // turn off verbose decoder output + + po::variables_map conf; + if (!InitCommandLine(argc, argv, &conf)) return 1; + + if (conf.count("random_seed")) + rng.reset(new MT19937(conf["random_seed"].as<uint32_t>())); + else + rng.reset(new MT19937); + + const bool best_ever = conf.count("best_ever") > 0; + vector<string> corpus; + ReadTrainingCorpus(conf["input"].as<string>(), &corpus); + + const string metric_name = conf["mt_metric"].as<string>(); //set up scoring; this may need to be changed!! + + ScoreType type = ScoreTypeFromString(metric_name); + if (type == TER) { + invert_score = true; + } else { + invert_score = false; + } + DocScorer ds(type, conf["reference"].as<vector<string> >(), ""); + cerr << "Loaded " << ds.size() << " references for scoring with " << metric_name << endl; + if (ds.size() != corpus.size()) { + cerr << "Mismatched number of references (" << ds.size() << ") and sources (" << corpus.size() << ")\n"; + return 1; + } + + ReadFile ini_rf(conf["decoder_config"].as<string>()); + Decoder decoder(ini_rf.stream()); + + // load initial weights + vector<weight_t>& decoder_weights = decoder.CurrentWeightVector(); //equivalent to "dense_weights" vector in kbest_mira.cc + SparseVector<weight_t> sparse_weights; //equivaelnt to kbest_mira.cc "lambdas" + Weights::InitFromFile(conf["weights"].as<string>(), &decoder_weights); + Weights::InitSparseVector(decoder_weights, &sparse_weights); + + //initializing other algorithm and output parameters + const double c = conf["regularizer_strength"].as<double>(); + const int weights_write_interval = conf["weights_write_interval"].as<int>(); + const double mt_metric_scale = conf["mt_metric_scale"].as<double>(); + const double mu = conf["mu"].as<double>(); + const double metric_threshold = conf["metric_threshold"].as<double>(); + const double stepsize_param = conf["stepsize_param"].as<double>(); //step size in structured SGD optimization step + const bool stepsize_reduce = conf.count("stepsize_reduce") > 0; + const bool costaug_log_bleu = conf.count("costaug_log_bleu") > 0; + const bool average = conf.count("average") > 0; + const bool checkpositive = conf.count("check_positive") > 0; + + assert(corpus.size() > 0); + vector<GoodOracle> oracles(corpus.size()); + TrainingObserver observer(conf["k_best_size"].as<int>(), // kbest size + ds, // doc scorer + &oracles, + decoder_weights, + mt_metric_scale, + mu, + best_ever, + costaug_log_bleu); + int cur_sent = 0; + int line_count = 0; + int normalizer = 0; + double total_loss = 0; + double prev_loss = 0; + int dots = 0; // progess bar + int cur_pass = 0; + SparseVector<double> tot; + tot += sparse_weights; //add initial weights to total + normalizer++; //add 1 to normalizer + int max_iteration = conf["passes"].as<int>(); + string msg = "# LatentSVM tuned weights"; + vector<int> order; + int interval_counter = 0; + RandomPermutation(corpus.size(), &order); //shuffle corpus + while (line_count <= max_iteration * corpus.size()) { //loop over all (passes * num sentences) examples + //if ((interval_counter * 40 / weights_write_interval) > dots) { ++dots; cerr << '.'; } //check this + if ((cur_sent * 40 / corpus.size()) > dots) { ++dots; cerr << '.';} + if (interval_counter == weights_write_interval) { //i.e., we need to write out weights + sparse_weights *= scaling_trick; + tot *= scaling_trick; + scaling_trick = 1; + cerr << " [SENTENCE NUMBER= " << cur_sent << "\n"; + cerr << " [AVG METRIC LAST INTERVAL =" << ((total_loss - prev_loss) / weights_write_interval) << "]\n"; + cerr << " [AVG METRIC THIS PASS THUS FAR =" << (total_loss / cur_sent) << "]\n"; + cerr << " [TOTAL LOSS: =" << total_loss << "\n"; + Weights::ShowLargestFeatures(decoder_weights); + //dots = 0; + interval_counter = 0; + prev_loss = total_loss; + if (average){ + SparseVector<double> x = tot; + x /= normalizer; + ostringstream sa; + sa << "weights.latentsvm-" << line_count/weights_write_interval << "-avg.gz"; + x.init_vector(&decoder_weights); + Weights::WriteToFile(sa.str(), decoder_weights, true, &msg); + } + else { + ostringstream os; + os << "weights.latentsvm-" << line_count/weights_write_interval << ".gz"; + sparse_weights.init_vector(&decoder_weights); + Weights::WriteToFile(os.str(), decoder_weights, true, &msg); + } + } + if (corpus.size() == cur_sent) { //i.e., finished a pass + //cerr << " [AVG METRIC LAST PASS=" << (document_metric_score / corpus.size()) << "]\n"; + cerr << " [AVG METRIC LAST PASS=" << (total_loss / corpus.size()) << "]\n"; + cerr << " TOTAL LOSS: " << total_loss << "\n"; + Weights::ShowLargestFeatures(decoder_weights); + cur_sent = 0; + total_loss = 0; + dots = 0; + if(average) { + SparseVector<double> x = tot; + x /= normalizer; + ostringstream sa; + sa << "weights.latentsvm-pass" << (cur_pass < 10 ? "0" : "") << cur_pass << "-avg.gz"; + x.init_vector(&decoder_weights); + Weights::WriteToFile(sa.str(), decoder_weights, true, &msg); + } + else { + ostringstream os; + os << "weights.latentsvm-pass" << (cur_pass < 10 ? "0" : "") << cur_pass << ".gz"; + Weights::WriteToFile(os.str(), decoder_weights, true, &msg); + } + cur_pass++; + RandomPermutation(corpus.size(), &order); + } + if (cur_sent == 0) { //i.e., starting a new pass + cerr << "PASS " << (line_count / corpus.size() + 1) << endl; + } + sparse_weights.init_vector(&decoder_weights); // copy sparse_weights to the decoder weights + decoder.SetId(order[cur_sent]); //assign current sentence + decoder.Decode(corpus[order[cur_sent]], &observer); // decode/update oracles + + const HypothesisInfo& cur_best = observer.GetCurrentBestHypothesis(); //model score best + const HypothesisInfo& cur_costaug = observer.GetCurrentCostAugmentedHypothesis(); //(model + cost) best; cost = -metric_scale*log(BLEU) or -metric_scale*BLEU + //const HypothesisInfo& cur_ref = *oracles[order[cur_sent]].good; //this oracle-best line only picks based on BLEU + const HypothesisInfo& cur_ref = observer.GetCurrentReference(); //if mu > 0, this mu-mixed oracle will be picked; otherwise, only on BLEU + total_loss += cur_best.mt_metric_score; + + double step_size = stepsize_param; + if (stepsize_reduce){ // w_{t+1} = w_t - stepsize_t * grad(Loss) + step_size /= (sqrt(cur_sent+1.0)); + } + //actual update step - compute gradient, and modify sparse_weights + if(cur_ref.mt_metric_score - cur_costaug.mt_metric_score > metric_threshold) { + const double loss = (cur_costaug.features.dot(decoder_weights) - cur_ref.features.dot(decoder_weights)) * scaling_trick + mt_metric_scale * (cur_ref.mt_metric_score - cur_costaug.mt_metric_score); + if (!checkpositive || loss > 0.0) { //can update either all the time if check positive is off, or only when loss > 0 if it's on + sparse_weights -= cur_costaug.features * step_size / ((1.0-2.0*step_size*c)*scaling_trick); // cost augmented hyp orig - + sparse_weights += cur_ref.features * step_size / ((1.0-2.0*step_size*c)*scaling_trick); // ref orig + + } + } + scaling_trick *= (1.0 - 2.0 * step_size * c); + + tot += sparse_weights; //for averaging purposes + normalizer++; //for averaging purposes + line_count++; + interval_counter++; + cur_sent++; + } + cerr << endl; + if(average) { + tot /= normalizer; + tot.init_vector(decoder_weights); + msg = "# Latent SSVM tuned weights (averaged vector)"; + Weights::WriteToFile("weights.latentsvm-final-avg.gz", decoder_weights, true, &msg); + cerr << "Optimization complete.\n" << "AVERAGED WEIGHTS: weights.latentsvm-final-avg.gz\n"; + } else { + Weights::WriteToFile("weights.latentsvm-final.gz", decoder_weights, true, &msg); + cerr << "Optimization complete.\n"; + } + return 0; +} + |