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|
#include <sstream>
#include <iostream>
#include <fstream>
#include <vector>
#include <cassert>
#include <cmath>
#include <tr1/memory>
#include <boost/program_options.hpp>
#include <boost/program_options/variables_map.hpp>
#include "stringlib.h"
#include "verbose.h"
#include "hg.h"
#include "prob.h"
#include "inside_outside.h"
#include "ff_register.h"
#include "decoder.h"
#include "filelib.h"
#include "online_optimizer.h"
#include "fdict.h"
#include "weights.h"
#include "sparse_vector.h"
#include "sampler.h"
#ifdef HAVE_MPI
#include <boost/mpi/timer.hpp>
#include <boost/mpi.hpp>
namespace mpi = boost::mpi;
#endif
using namespace std;
namespace po = boost::program_options;
bool InitCommandLine(int argc, char** argv, po::variables_map* conf) {
po::options_description opts("Configuration options");
opts.add_options()
("input_weights,w",po::value<string>(),"Input feature weights file")
("frozen_features,z",po::value<string>(), "List of features not to optimize")
("training_data,t",po::value<string>(),"Training data corpus")
("training_agenda,a",po::value<string>(), "Text file listing a series of configuration files and the number of iterations to train using each configuration successively")
("minibatch_size_per_proc,s", po::value<unsigned>()->default_value(5), "Number of training instances evaluated per processor in each minibatch")
("optimization_method,m", po::value<string>()->default_value("sgd"), "Optimization method (sgd)")
("random_seed,S", po::value<uint32_t>(), "Random seed (if not specified, /dev/random will be used)")
("eta_0,e", po::value<double>()->default_value(0.2), "Initial learning rate for SGD (eta_0)")
("L1,1","Use L1 regularization")
("regularization_strength,C", po::value<double>()->default_value(1.0), "Regularization strength (C)");
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("training_data") || !conf->count("training_agenda")) {
cerr << dcmdline_options << endl;
return false;
}
return true;
}
void ReadTrainingCorpus(const string& fname, int rank, int size, vector<string>* c, vector<int>* order) {
ReadFile rf(fname);
istream& in = *rf.stream();
string line;
int id = 0;
while(in) {
getline(in, line);
if (!in) break;
if (id % size == rank) {
c->push_back(line);
order->push_back(id);
}
++id;
}
}
static const double kMINUS_EPSILON = -1e-6;
struct TrainingObserver : public DecoderObserver {
void Reset() {
acc_grad.clear();
acc_obj = 0;
total_complete = 0;
}
void SetLocalGradientAndObjective(vector<double>* g, double* o) const {
*o = acc_obj;
for (SparseVector<prob_t>::const_iterator it = acc_grad.begin(); it != acc_grad.end(); ++it)
(*g)[it->first] = it->second.as_float();
}
virtual void NotifyDecodingStart(const SentenceMetadata& smeta) {
cur_model_exp.clear();
cur_obj = 0;
state = 1;
}
// compute model expectations, denominator of objective
virtual void NotifyTranslationForest(const SentenceMetadata& smeta, Hypergraph* hg) {
assert(state == 1);
state = 2;
const prob_t z = InsideOutside<prob_t,
EdgeProb,
SparseVector<prob_t>,
EdgeFeaturesAndProbWeightFunction>(*hg, &cur_model_exp);
cur_obj = log(z);
cur_model_exp /= z;
}
// compute "empirical" expectations, numerator of objective
virtual void NotifyAlignmentForest(const SentenceMetadata& smeta, Hypergraph* hg) {
assert(state == 2);
state = 3;
SparseVector<prob_t> ref_exp;
const prob_t ref_z = InsideOutside<prob_t,
EdgeProb,
SparseVector<prob_t>,
EdgeFeaturesAndProbWeightFunction>(*hg, &ref_exp);
ref_exp /= ref_z;
double log_ref_z;
#if 0
if (crf_uniform_empirical) {
log_ref_z = ref_exp.dot(feature_weights);
} else {
log_ref_z = log(ref_z);
}
#else
log_ref_z = log(ref_z);
#endif
// rounding errors means that <0 is too strict
if ((cur_obj - log_ref_z) < kMINUS_EPSILON) {
cerr << "DIFF. ERR! log_model_z < log_ref_z: " << cur_obj << " " << log_ref_z << endl;
exit(1);
}
assert(!std::isnan(log_ref_z));
ref_exp -= cur_model_exp;
acc_grad += ref_exp;
acc_obj += (cur_obj - log_ref_z);
}
virtual void NotifyDecodingComplete(const SentenceMetadata& smeta) {
if (state == 3) {
++total_complete;
} else {
}
}
void GetGradient(SparseVector<double>* g) const {
g->clear();
for (SparseVector<prob_t>::const_iterator it = acc_grad.begin(); it != acc_grad.end(); ++it)
g->set_value(it->first, it->second.as_float());
}
int total_complete;
SparseVector<prob_t> cur_model_exp;
SparseVector<prob_t> acc_grad;
double acc_obj;
double cur_obj;
int state;
};
#ifdef HAVE_MPI
namespace boost { namespace mpi {
template<>
struct is_commutative<std::plus<SparseVector<double> >, SparseVector<double> >
: mpl::true_ { };
} } // end namespace boost::mpi
#endif
bool LoadAgenda(const string& file, vector<pair<string, int> >* a) {
ReadFile rf(file);
istream& in = *rf.stream();
string line;
while(in) {
getline(in, line);
if (!in) break;
if (line.empty()) continue;
if (line[0] == '#') continue;
int sc = 0;
if (line.size() < 3) return false;
for (int i = 0; i < line.size(); ++i) { if (line[i] == ' ') ++sc; }
if (sc != 1) { cerr << "Too many spaces in line: " << line << endl; return false; }
size_t d = line.find(" ");
pair<string, int> x;
x.first = line.substr(0,d);
x.second = atoi(line.substr(d+1).c_str());
a->push_back(x);
if (!FileExists(x.first)) {
cerr << "Can't find file " << x.first << endl;
return false;
}
}
return true;
}
int main(int argc, char** argv) {
cerr << "THIS SOFTWARE IS DEPRECATED YOU SHOULD USE mpi_flex_optimize\n";
#ifdef HAVE_MPI
mpi::environment env(argc, argv);
mpi::communicator world;
const int size = world.size();
const int rank = world.rank();
#else
const int size = 1;
const int rank = 0;
#endif
if (size > 1) SetSilent(true); // turn off verbose decoder output
register_feature_functions();
std::tr1::shared_ptr<MT19937> rng;
po::variables_map conf;
if (!InitCommandLine(argc, argv, &conf))
return 1;
vector<pair<string, int> > agenda;
if (!LoadAgenda(conf["training_agenda"].as<string>(), &agenda))
return 1;
if (rank == 0)
cerr << "Loaded agenda defining " << agenda.size() << " training epochs\n";
assert(agenda.size() > 0);
if (1) { // hack to load the feature hash functions -- TODO this should not be in cdec.ini
const string& cur_config = agenda[0].first;
const unsigned max_iteration = agenda[0].second;
ReadFile ini_rf(cur_config);
Decoder decoder(ini_rf.stream());
}
// load initial weights
vector<weight_t> init_weights;
if (conf.count("input_weights"))
Weights::InitFromFile(conf["input_weights"].as<string>(), &init_weights);
vector<int> frozen_fids;
if (conf.count("frozen_features")) {
ReadFile rf(conf["frozen_features"].as<string>());
istream& in = *rf.stream();
string line;
while(in) {
getline(in, line);
if (line.empty()) continue;
if (line[0] == ' ' || line[line.size() - 1] == ' ') { line = Trim(line); }
frozen_fids.push_back(FD::Convert(line));
}
if (rank == 0) cerr << "Freezing " << frozen_fids.size() << " features.\n";
}
vector<string> corpus;
vector<int> ids;
ReadTrainingCorpus(conf["training_data"].as<string>(), rank, size, &corpus, &ids);
assert(corpus.size() > 0);
std::tr1::shared_ptr<OnlineOptimizer> o;
std::tr1::shared_ptr<LearningRateSchedule> lr;
const unsigned size_per_proc = conf["minibatch_size_per_proc"].as<unsigned>();
if (size_per_proc > corpus.size()) {
cerr << "Minibatch size must be smaller than corpus size!\n";
return 1;
}
size_t total_corpus_size = 0;
#ifdef HAVE_MPI
reduce(world, corpus.size(), total_corpus_size, std::plus<size_t>(), 0);
#else
total_corpus_size = corpus.size();
#endif
if (rank == 0) {
cerr << "Total corpus size: " << total_corpus_size << endl;
const unsigned batch_size = size_per_proc * size;
// TODO config
lr.reset(new ExponentialDecayLearningRate(batch_size, conf["eta_0"].as<double>()));
const string omethod = conf["optimization_method"].as<string>();
if (omethod == "sgd") {
const double C = conf["regularization_strength"].as<double>();
o.reset(new CumulativeL1OnlineOptimizer(lr, total_corpus_size, C, frozen_fids));
} else {
assert(!"fail");
}
}
if (conf.count("random_seed"))
rng.reset(new MT19937(conf["random_seed"].as<uint32_t>()));
else
rng.reset(new MT19937);
SparseVector<double> x;
Weights::InitSparseVector(init_weights, &x);
TrainingObserver observer;
int write_weights_every_ith = 100; // TODO configure
int titer = -1;
for (int ai = 0; ai < agenda.size(); ++ai) {
const string& cur_config = agenda[ai].first;
const unsigned max_iteration = agenda[ai].second;
if (rank == 0)
cerr << "STARTING TRAINING EPOCH " << (ai+1) << ". CONFIG=" << cur_config << endl;
// load cdec.ini and set up decoder
ReadFile ini_rf(cur_config);
Decoder decoder(ini_rf.stream());
vector<weight_t>& lambdas = decoder.CurrentWeightVector();
if (ai == 0) { lambdas.swap(init_weights); init_weights.clear(); }
if (rank == 0)
o->ResetEpoch(); // resets the learning rate-- TODO is this good?
int iter = -1;
bool converged = false;
while (!converged) {
#ifdef HAVE_MPI
mpi::timer timer;
#endif
x.init_vector(&lambdas);
++iter; ++titer;
observer.Reset();
if (rank == 0) {
converged = (iter == max_iteration);
Weights::SanityCheck(lambdas);
static int cc = 0; ++cc; if (cc > 1) { Weights::ShowLargestFeatures(lambdas); }
string fname = "weights.cur.gz";
if (iter % write_weights_every_ith == 0) {
ostringstream o; o << "weights.epoch_" << (ai+1) << '.' << iter << ".gz";
fname = o.str();
}
if (converged && ((ai+1)==agenda.size())) { fname = "weights.final.gz"; }
ostringstream vv;
vv << "total iter=" << titer << " (of current config iter=" << iter << ") minibatch=" << size_per_proc << " sentences/proc x " << size << " procs. num_feats=" << x.size() << '/' << FD::NumFeats() << " passes_thru_data=" << (titer * size_per_proc / static_cast<double>(corpus.size())) << " eta=" << lr->eta(titer);
const string svv = vv.str();
cerr << svv << endl;
Weights::WriteToFile(fname, lambdas, true, &svv);
}
for (int i = 0; i < size_per_proc; ++i) {
int ei = corpus.size() * rng->next();
int id = ids[ei];
decoder.SetId(id);
decoder.Decode(corpus[ei], &observer);
}
SparseVector<double> local_grad, g;
observer.GetGradient(&local_grad);
#ifdef HAVE_MPI
reduce(world, local_grad, g, std::plus<SparseVector<double> >(), 0);
#else
g.swap(local_grad);
#endif
local_grad.clear();
if (rank == 0) {
g /= (size_per_proc * size);
o->UpdateWeights(g, FD::NumFeats(), &x);
}
#ifdef HAVE_MPI
broadcast(world, x, 0);
broadcast(world, converged, 0);
world.barrier();
if (rank == 0) { cerr << " ELAPSED TIME THIS ITERATION=" << timer.elapsed() << endl; }
#endif
}
}
return 0;
}
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