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author | Chris Dyer <cdyer@cs.cmu.edu> | 2012-10-11 14:06:32 -0400 |
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committer | Chris Dyer <cdyer@cs.cmu.edu> | 2012-10-11 14:06:32 -0400 |
commit | 9339c80d465545aec5a6dccfef7c83ca715bf11f (patch) | |
tree | 64c56d558331edad1db3832018c80e799551c39a /gi/pf/cbgi.cc | |
parent | 438dac41810b7c69fa10203ac5130d20efa2da9f (diff) | |
parent | afd7da3b2338661657ad0c4e9eec681e014d37bf (diff) |
Merge branch 'master' of https://github.com/redpony/cdec
Diffstat (limited to 'gi/pf/cbgi.cc')
-rw-r--r-- | gi/pf/cbgi.cc | 330 |
1 files changed, 0 insertions, 330 deletions
diff --git a/gi/pf/cbgi.cc b/gi/pf/cbgi.cc deleted file mode 100644 index 97f1ba34..00000000 --- a/gi/pf/cbgi.cc +++ /dev/null @@ -1,330 +0,0 @@ -#include <queue> -#include <sstream> -#include <iostream> - -#include <boost/unordered_map.hpp> -#include <boost/functional/hash.hpp> - -#include "sampler.h" -#include "filelib.h" -#include "hg_io.h" -#include "hg.h" -#include "ccrp_nt.h" -#include "trule.h" -#include "inside_outside.h" - -using namespace std; -using namespace std::tr1; - -double log_poisson(unsigned x, const double& lambda) { - assert(lambda > 0.0); - return log(lambda) * x - lgamma(x + 1) - lambda; -} - -double log_decay(unsigned x, const double& b) { - assert(b > 1.0); - assert(x > 0); - return log(b - 1) - x * log(b); -} - -struct SimpleBase { - SimpleBase(unsigned esize, unsigned fsize, unsigned ntsize = 144) : - uniform_e(-log(esize)), - uniform_f(-log(fsize)), - uniform_nt(-log(ntsize)) { - } - - // binomial coefficient - static double choose(unsigned n, unsigned k) { - return exp(lgamma(n + 1) - lgamma(k + 1) - lgamma(n - k + 1)); - } - - // count the number of patterns of terminals and NTs in the rule, given elen and flen - static double log_number_of_patterns(const unsigned flen, const unsigned elen) { - static vector<vector<double> > counts; - if (elen >= counts.size()) counts.resize(elen + 1); - if (flen >= counts[elen].size()) counts[elen].resize(flen + 1); - double& count = counts[elen][flen]; - if (count) return log(count); - const unsigned max_arity = min(elen, flen); - for (unsigned a = 0; a <= max_arity; ++a) - count += choose(elen, a) * choose(flen, a); - return log(count); - } - - // return logp0 of rule | LHS - double operator()(const TRule& rule) const { - const unsigned flen = rule.f_.size(); - const unsigned elen = rule.e_.size(); -#if 0 - double p = 0; - p += log_poisson(flen, 0.5); // flen ~Pois(0.5) - p += log_poisson(elen, flen); // elen | flen ~Pois(flen) - p -= log_number_of_patterns(flen, elen); // pattern | flen,elen ~Uniform - for (unsigned i = 0; i < flen; ++i) { // for each position in f-RHS - if (rule.f_[i] <= 0) // according to pattern - p += uniform_nt; // draw NT ~Uniform - else - p += uniform_f; // draw f terminal ~Uniform - } - p -= lgamma(rule.Arity() + 1); // draw permutation ~Uniform - for (unsigned i = 0; i < elen; ++i) { // for each position in e-RHS - if (rule.e_[i] > 0) // according to pattern - p += uniform_e; // draw e|f term ~Uniform - // TODO this should prob be model 1 - } -#else - double p = 0; - bool is_abstract = rule.f_[0] <= 0; - p += log(0.5); - if (is_abstract) { - if (flen == 2) p += log(0.99); else p += log(0.01); - } else { - p += log_decay(flen, 3); - } - - for (unsigned i = 0; i < flen; ++i) { // for each position in f-RHS - if (rule.f_[i] <= 0) // according to pattern - p += uniform_nt; // draw NT ~Uniform - else - p += uniform_f; // draw f terminal ~Uniform - } -#endif - return p; - } - const double uniform_e; - const double uniform_f; - const double uniform_nt; - vector<double> arities; -}; - -MT19937* rng = NULL; - -template <typename Base> -struct MHSamplerEdgeProb { - MHSamplerEdgeProb(const Hypergraph& hg, - const map<int, CCRP_NoTable<TRule> >& rdp, - const Base& logp0, - const bool exclude_multiword_terminals) : edge_probs(hg.edges_.size()) { - for (int i = 0; i < edge_probs.size(); ++i) { - const TRule& rule = *hg.edges_[i].rule_; - const map<int, CCRP_NoTable<TRule> >::const_iterator it = rdp.find(rule.lhs_); - assert(it != rdp.end()); - const CCRP_NoTable<TRule>& crp = it->second; - edge_probs[i].logeq(crp.logprob(rule, logp0(rule))); - if (exclude_multiword_terminals && rule.f_[0] > 0 && rule.f_.size() > 1) - edge_probs[i] = prob_t::Zero(); - } - } - inline prob_t operator()(const Hypergraph::Edge& e) const { - return edge_probs[e.id_]; - } - prob_t DerivationProb(const vector<int>& d) const { - prob_t p = prob_t::One(); - for (unsigned i = 0; i < d.size(); ++i) - p *= edge_probs[d[i]]; - return p; - } - vector<prob_t> edge_probs; -}; - -template <typename Base> -struct ModelAndData { - ModelAndData() : - base_lh(prob_t::One()), - logp0(10000, 10000), - mh_samples(), - mh_rejects() {} - - void SampleCorpus(const string& hgpath, int i); - void ResampleHyperparameters() { - for (map<int, CCRP_NoTable<TRule> >::iterator it = rules.begin(); it != rules.end(); ++it) - it->second.resample_hyperparameters(rng); - } - - CCRP_NoTable<TRule>& RuleCRP(int lhs) { - map<int, CCRP_NoTable<TRule> >::iterator it = rules.find(lhs); - if (it == rules.end()) { - rules.insert(make_pair(lhs, CCRP_NoTable<TRule>(1,1))); - it = rules.find(lhs); - } - return it->second; - } - - void IncrementRule(const TRule& rule) { - CCRP_NoTable<TRule>& crp = RuleCRP(rule.lhs_); - if (crp.increment(rule)) { - prob_t p; p.logeq(logp0(rule)); - base_lh *= p; - } - } - - void DecrementRule(const TRule& rule) { - CCRP_NoTable<TRule>& crp = RuleCRP(rule.lhs_); - if (crp.decrement(rule)) { - prob_t p; p.logeq(logp0(rule)); - base_lh /= p; - } - } - - void DecrementDerivation(const Hypergraph& hg, const vector<int>& d) { - for (unsigned i = 0; i < d.size(); ++i) { - const TRule& rule = *hg.edges_[d[i]].rule_; - DecrementRule(rule); - } - } - - void IncrementDerivation(const Hypergraph& hg, const vector<int>& d) { - for (unsigned i = 0; i < d.size(); ++i) { - const TRule& rule = *hg.edges_[d[i]].rule_; - IncrementRule(rule); - } - } - - prob_t Likelihood() const { - prob_t p = prob_t::One(); - for (map<int, CCRP_NoTable<TRule> >::const_iterator it = rules.begin(); it != rules.end(); ++it) { - prob_t q; q.logeq(it->second.log_crp_prob()); - p *= q; - } - p *= base_lh; - return p; - } - - void ResampleDerivation(const Hypergraph& hg, vector<int>* sampled_derivation); - - map<int, CCRP_NoTable<TRule> > rules; // [lhs] -> distribution over RHSs - prob_t base_lh; - SimpleBase logp0; - vector<vector<int> > samples; // sampled derivations - unsigned int mh_samples; - unsigned int mh_rejects; -}; - -template <typename Base> -void ModelAndData<Base>::SampleCorpus(const string& hgpath, int n) { - vector<Hypergraph> hgs(n); hgs.clear(); - boost::unordered_map<TRule, unsigned> acc; - map<int, unsigned> tot; - for (int i = 0; i < n; ++i) { - ostringstream os; - os << hgpath << '/' << i << ".json.gz"; - if (!FileExists(os.str())) continue; - hgs.push_back(Hypergraph()); - ReadFile rf(os.str()); - HypergraphIO::ReadFromJSON(rf.stream(), &hgs.back()); - } - cerr << "Read " << hgs.size() << " alignment hypergraphs.\n"; - samples.resize(hgs.size()); - const unsigned SAMPLES = 2000; - const unsigned burnin = 3 * SAMPLES / 4; - const unsigned every = 20; - for (unsigned s = 0; s < SAMPLES; ++s) { - if (s % 10 == 0) { - if (s > 0) { cerr << endl; ResampleHyperparameters(); } - cerr << "[" << s << " LLH=" << log(Likelihood()) << " REJECTS=" << ((double)mh_rejects / mh_samples) << " LHS's=" << rules.size() << " base=" << log(base_lh) << "] "; - } - cerr << '.'; - for (unsigned i = 0; i < hgs.size(); ++i) { - ResampleDerivation(hgs[i], &samples[i]); - if (s > burnin && s % every == 0) { - for (unsigned j = 0; j < samples[i].size(); ++j) { - const TRule& rule = *hgs[i].edges_[samples[i][j]].rule_; - ++acc[rule]; - ++tot[rule.lhs_]; - } - } - } - } - cerr << endl; - for (boost::unordered_map<TRule,unsigned>::iterator it = acc.begin(); it != acc.end(); ++it) { - cout << it->first << " MyProb=" << log(it->second)-log(tot[it->first.lhs_]) << endl; - } -} - -template <typename Base> -void ModelAndData<Base>::ResampleDerivation(const Hypergraph& hg, vector<int>* sampled_deriv) { - vector<int> cur; - cur.swap(*sampled_deriv); - - const prob_t p_cur = Likelihood(); - DecrementDerivation(hg, cur); - if (cur.empty()) { - // first iteration, create restaurants - for (int i = 0; i < hg.edges_.size(); ++i) - RuleCRP(hg.edges_[i].rule_->lhs_); - } - MHSamplerEdgeProb<SimpleBase> wf(hg, rules, logp0, cur.empty()); -// MHSamplerEdgeProb<SimpleBase> wf(hg, rules, logp0, false); - const prob_t q_cur = wf.DerivationProb(cur); - vector<prob_t> node_probs; - Inside<prob_t, MHSamplerEdgeProb<SimpleBase> >(hg, &node_probs, wf); - queue<unsigned> q; - q.push(hg.nodes_.size() - 3); - while(!q.empty()) { - unsigned cur_node_id = q.front(); -// cerr << "NODE=" << cur_node_id << endl; - q.pop(); - const Hypergraph::Node& node = hg.nodes_[cur_node_id]; - const unsigned num_in_edges = node.in_edges_.size(); - unsigned sampled_edge = 0; - if (num_in_edges == 1) { - sampled_edge = node.in_edges_[0]; - } else { - prob_t z; - assert(num_in_edges > 1); - SampleSet<prob_t> ss; - for (unsigned j = 0; j < num_in_edges; ++j) { - const Hypergraph::Edge& edge = hg.edges_[node.in_edges_[j]]; - prob_t p = wf.edge_probs[edge.id_]; // edge proposal prob - for (unsigned k = 0; k < edge.tail_nodes_.size(); ++k) - p *= node_probs[edge.tail_nodes_[k]]; - ss.add(p); -// cerr << log(ss[j]) << " ||| " << edge.rule_->AsString() << endl; - z += p; - } -// for (unsigned j = 0; j < num_in_edges; ++j) { -// const Hypergraph::Edge& edge = hg.edges_[node.in_edges_[j]]; -// cerr << exp(log(ss[j] / z)) << " ||| " << edge.rule_->AsString() << endl; -// } -// cerr << " --- \n"; - sampled_edge = node.in_edges_[rng->SelectSample(ss)]; - } - sampled_deriv->push_back(sampled_edge); - const Hypergraph::Edge& edge = hg.edges_[sampled_edge]; - for (unsigned j = 0; j < edge.tail_nodes_.size(); ++j) { - q.push(edge.tail_nodes_[j]); - } - } - IncrementDerivation(hg, *sampled_deriv); - -// cerr << "sampled derivation contains " << sampled_deriv->size() << " edges\n"; -// cerr << "DERIV:\n"; -// for (int i = 0; i < sampled_deriv->size(); ++i) { -// cerr << " " << hg.edges_[(*sampled_deriv)[i]].rule_->AsString() << endl; -// } - - if (cur.empty()) return; // accept first sample - - ++mh_samples; - // only need to do MH if proposal is different to current state - if (cur != *sampled_deriv) { - const prob_t q_prop = wf.DerivationProb(*sampled_deriv); - const prob_t p_prop = Likelihood(); - if (!rng->AcceptMetropolisHastings(p_prop, p_cur, q_prop, q_cur)) { - ++mh_rejects; - DecrementDerivation(hg, *sampled_deriv); - IncrementDerivation(hg, cur); - swap(cur, *sampled_deriv); - } - } -} - -int main(int argc, char** argv) { - rng = new MT19937; - ModelAndData<SimpleBase> m; - m.SampleCorpus("./hgs", 50); - // m.SampleCorpus("./btec/hgs", 5000); - return 0; -} - |