diff options
author | Patrick Simianer <p@simianer.de> | 2011-10-19 14:02:34 +0200 |
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committer | Patrick Simianer <p@simianer.de> | 2011-10-19 14:02:34 +0200 |
commit | 9beaeb42b71fa504bfa41a402cb17eb6ac4001af (patch) | |
tree | 0add4afabc526391753e4e6b9443a7bf21e3e2c3 /gi/pf/pfbrat.cc | |
parent | ce3b4db94d40c111ede321ac6de2bb061a81c4af (diff) | |
parent | 09297047e446f49804d3f48bf320cdbd38d6396a (diff) |
merge upstream/master
Diffstat (limited to 'gi/pf/pfbrat.cc')
-rw-r--r-- | gi/pf/pfbrat.cc | 543 |
1 files changed, 543 insertions, 0 deletions
diff --git a/gi/pf/pfbrat.cc b/gi/pf/pfbrat.cc new file mode 100644 index 00000000..7b60ef23 --- /dev/null +++ b/gi/pf/pfbrat.cc @@ -0,0 +1,543 @@ +#include <iostream> +#include <tr1/memory> +#include <queue> + +#include <boost/functional.hpp> +#include <boost/multi_array.hpp> +#include <boost/program_options.hpp> +#include <boost/program_options/variables_map.hpp> + +#include "viterbi.h" +#include "hg.h" +#include "trule.h" +#include "tdict.h" +#include "filelib.h" +#include "dict.h" +#include "sampler.h" +#include "ccrp_nt.h" +#include "cfg_wfst_composer.h" + +using namespace std; +using namespace tr1; +namespace po = boost::program_options; + +static unsigned kMAX_SRC_PHRASE; +static unsigned kMAX_TRG_PHRASE; +struct FSTState; + +double log_poisson(unsigned x, const double& lambda) { + assert(lambda > 0.0); + return log(lambda) * x - lgamma(x + 1) - lambda; +} + +struct ConditionalBase { + explicit ConditionalBase(const double m1mixture, const unsigned vocab_e_size, const string& model1fname) : + kM1MIXTURE(m1mixture), + kUNIFORM_MIXTURE(1.0 - m1mixture), + kUNIFORM_TARGET(1.0 / vocab_e_size), + kNULL(TD::Convert("<eps>")) { + assert(m1mixture >= 0.0 && m1mixture <= 1.0); + assert(vocab_e_size > 0); + LoadModel1(model1fname); + } + + void LoadModel1(const string& fname) { + cerr << "Loading Model 1 parameters from " << fname << " ..." << endl; + ReadFile rf(fname); + istream& in = *rf.stream(); + string line; + unsigned lc = 0; + while(getline(in, line)) { + ++lc; + int cur = 0; + int start = 0; + while(cur < line.size() && line[cur] != ' ') { ++cur; } + assert(cur != line.size()); + line[cur] = 0; + const WordID src = TD::Convert(&line[0]); + ++cur; + start = cur; + while(cur < line.size() && line[cur] != ' ') { ++cur; } + assert(cur != line.size()); + line[cur] = 0; + WordID trg = TD::Convert(&line[start]); + const double logprob = strtod(&line[cur + 1], NULL); + if (src >= ttable.size()) ttable.resize(src + 1); + ttable[src][trg].logeq(logprob); + } + cerr << " read " << lc << " parameters.\n"; + } + + // return logp0 of rule.e_ | rule.f_ + prob_t operator()(const TRule& rule) const { + const int flen = rule.f_.size(); + const int elen = rule.e_.size(); + prob_t uniform_src_alignment; uniform_src_alignment.logeq(-log(flen + 1)); + prob_t p; + p.logeq(log_poisson(elen, flen + 0.01)); // elen | flen ~Pois(flen + 0.01) + for (int i = 0; i < elen; ++i) { // for each position i in e-RHS + const WordID trg = rule.e_[i]; + prob_t tp = prob_t::Zero(); + for (int j = -1; j < flen; ++j) { + const WordID src = j < 0 ? kNULL : rule.f_[j]; + const map<WordID, prob_t>::const_iterator it = ttable[src].find(trg); + if (it != ttable[src].end()) { + tp += kM1MIXTURE * it->second; + } + tp += kUNIFORM_MIXTURE * kUNIFORM_TARGET; + } + tp *= uniform_src_alignment; // draw a_i ~uniform + p *= tp; // draw e_i ~Model1(f_a_i) / uniform + } + return p; + } + + const prob_t kM1MIXTURE; // Model 1 mixture component + const prob_t kUNIFORM_MIXTURE; // uniform mixture component + const prob_t kUNIFORM_TARGET; + const WordID kNULL; + vector<map<WordID, prob_t> > ttable; +}; + +void InitCommandLine(int argc, char** argv, po::variables_map* conf) { + po::options_description opts("Configuration options"); + opts.add_options() + ("samples,s",po::value<unsigned>()->default_value(1000),"Number of samples") + ("input,i",po::value<string>(),"Read parallel data from") + ("max_src_phrase",po::value<unsigned>()->default_value(3),"Maximum length of source language phrases") + ("max_trg_phrase",po::value<unsigned>()->default_value(3),"Maximum length of target language phrases") + ("model1,m",po::value<string>(),"Model 1 parameters (used in base distribution)") + ("model1_interpolation_weight",po::value<double>()->default_value(0.95),"Mixing proportion of model 1 with uniform target distribution") + ("random_seed,S",po::value<uint32_t>(), "Random seed"); + 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("input") == 0)) { + cerr << dcmdline_options << endl; + exit(1); + } +} + +void ReadParallelCorpus(const string& filename, + vector<vector<WordID> >* f, + vector<vector<int> >* e, + set<int>* vocab_f, + set<int>* vocab_e) { + f->clear(); + e->clear(); + vocab_f->clear(); + vocab_e->clear(); + istream* in; + if (filename == "-") + in = &cin; + else + in = new ifstream(filename.c_str()); + assert(*in); + string line; + const WordID kDIV = TD::Convert("|||"); + vector<WordID> tmp; + while(*in) { + getline(*in, line); + if (line.empty() && !*in) break; + e->push_back(vector<int>()); + f->push_back(vector<int>()); + vector<int>& le = e->back(); + vector<int>& lf = f->back(); + tmp.clear(); + TD::ConvertSentence(line, &tmp); + bool isf = true; + for (unsigned i = 0; i < tmp.size(); ++i) { + const int cur = tmp[i]; + if (isf) { + if (kDIV == cur) { isf = false; } else { + lf.push_back(cur); + vocab_f->insert(cur); + } + } else { + assert(cur != kDIV); + le.push_back(cur); + vocab_e->insert(cur); + } + } + assert(isf == false); + } + if (in != &cin) delete in; +} + +struct UniphraseLM { + UniphraseLM(const vector<vector<int> >& corpus, + const set<int>& vocab, + const po::variables_map& conf) : + phrases_(1,1), + gen_(1,1), + corpus_(corpus), + uniform_word_(1.0 / vocab.size()), + gen_p0_(0.5), + p_end_(0.5), + use_poisson_(conf.count("poisson_length") > 0) {} + + void ResampleHyperparameters(MT19937* rng) { + phrases_.resample_hyperparameters(rng); + gen_.resample_hyperparameters(rng); + cerr << " " << phrases_.concentration(); + } + + CCRP_NoTable<vector<int> > phrases_; + CCRP_NoTable<bool> gen_; + vector<vector<bool> > z_; // z_[i] is there a phrase boundary after the ith word + const vector<vector<int> >& corpus_; + const double uniform_word_; + const double gen_p0_; + const double p_end_; // in base length distribution, p of the end of a phrase + const bool use_poisson_; +}; + +struct Reachability { + boost::multi_array<bool, 4> edges; // edges[src_covered][trg_covered][x][trg_delta] is this edge worth exploring? + boost::multi_array<short, 2> max_src_delta; // msd[src_covered][trg_covered] -- the largest src delta that's valid + + Reachability(int srclen, int trglen, int src_max_phrase_len, int trg_max_phrase_len) : + edges(boost::extents[srclen][trglen][src_max_phrase_len+1][trg_max_phrase_len+1]), + max_src_delta(boost::extents[srclen][trglen]) { + ComputeReachability(srclen, trglen, src_max_phrase_len, trg_max_phrase_len); + } + + private: + struct SState { + SState() : prev_src_covered(), prev_trg_covered() {} + SState(int i, int j) : prev_src_covered(i), prev_trg_covered(j) {} + int prev_src_covered; + int prev_trg_covered; + }; + + struct NState { + NState() : next_src_covered(), next_trg_covered() {} + NState(int i, int j) : next_src_covered(i), next_trg_covered(j) {} + int next_src_covered; + int next_trg_covered; + }; + + void ComputeReachability(int srclen, int trglen, int src_max_phrase_len, int trg_max_phrase_len) { + typedef boost::multi_array<vector<SState>, 2> array_type; + array_type a(boost::extents[srclen + 1][trglen + 1]); + a[0][0].push_back(SState()); + for (int i = 0; i < srclen; ++i) { + for (int j = 0; j < trglen; ++j) { + if (a[i][j].size() == 0) continue; + const SState prev(i,j); + for (int k = 1; k <= src_max_phrase_len; ++k) { + if ((i + k) > srclen) continue; + for (int l = 1; l <= trg_max_phrase_len; ++l) { + if ((j + l) > trglen) continue; + a[i + k][j + l].push_back(prev); + } + } + } + } + a[0][0].clear(); + cerr << "Final cell contains " << a[srclen][trglen].size() << " back pointers\n"; + assert(a[srclen][trglen].size() > 0); + + typedef boost::multi_array<bool, 2> rarray_type; + rarray_type r(boost::extents[srclen + 1][trglen + 1]); +// typedef boost::multi_array<vector<NState>, 2> narray_type; +// narray_type b(boost::extents[srclen + 1][trglen + 1]); + r[srclen][trglen] = true; + for (int i = srclen; i >= 0; --i) { + for (int j = trglen; j >= 0; --j) { + vector<SState>& prevs = a[i][j]; + if (!r[i][j]) { prevs.clear(); } +// const NState nstate(i,j); + for (int k = 0; k < prevs.size(); ++k) { + r[prevs[k].prev_src_covered][prevs[k].prev_trg_covered] = true; + int src_delta = i - prevs[k].prev_src_covered; + edges[prevs[k].prev_src_covered][prevs[k].prev_trg_covered][src_delta][j - prevs[k].prev_trg_covered] = true; + short &msd = max_src_delta[prevs[k].prev_src_covered][prevs[k].prev_trg_covered]; + if (src_delta > msd) msd = src_delta; +// b[prevs[k].prev_src_covered][prevs[k].prev_trg_covered].push_back(nstate); + } + } + } + assert(!edges[0][0][1][0]); + assert(!edges[0][0][0][1]); + assert(!edges[0][0][0][0]); + cerr << " MAX SRC DELTA[0][0] = " << max_src_delta[0][0] << endl; + assert(max_src_delta[0][0] > 0); + //cerr << "First cell contains " << b[0][0].size() << " forward pointers\n"; + //for (int i = 0; i < b[0][0].size(); ++i) { + // cerr << " -> (" << b[0][0][i].next_src_covered << "," << b[0][0][i].next_trg_covered << ")\n"; + //} + } +}; + +ostream& operator<<(ostream& os, const FSTState& q); +struct FSTState { + explicit FSTState(int src_size) : + trg_covered_(), + src_covered_(), + src_coverage_(src_size) {} + + FSTState(short trg_covered, short src_covered, const vector<bool>& src_coverage, const vector<short>& src_prefix) : + trg_covered_(trg_covered), + src_covered_(src_covered), + src_coverage_(src_coverage), + src_prefix_(src_prefix) { + if (src_coverage_.size() == src_covered) { + assert(src_prefix.size() == 0); + } + } + + // if we extend by the word at src_position, what are + // the next states that are reachable and lie on a valid + // path to the final state? + vector<FSTState> Extensions(int src_position, int src_len, int trg_len, const Reachability& r) const { + assert(src_position < src_coverage_.size()); + if (src_coverage_[src_position]) { + cerr << "Trying to extend " << *this << " with position " << src_position << endl; + abort(); + } + vector<bool> ncvg = src_coverage_; + ncvg[src_position] = true; + + vector<FSTState> res; + const int trg_remaining = trg_len - trg_covered_; + if (trg_remaining <= 0) { + cerr << "Target appears to have been covered: " << *this << " (trg_len=" << trg_len << ",trg_covered=" << trg_covered_ << ")" << endl; + abort(); + } + const int src_remaining = src_len - src_covered_; + if (src_remaining <= 0) { + cerr << "Source appears to have been covered: " << *this << endl; + abort(); + } + + for (int tc = 1; tc <= kMAX_TRG_PHRASE; ++tc) { + if (r.edges[src_covered_][trg_covered_][src_prefix_.size() + 1][tc]) { + int nc = src_prefix_.size() + 1 + src_covered_; + res.push_back(FSTState(trg_covered_ + tc, nc, ncvg, vector<short>())); + } + } + + if ((src_prefix_.size() + 1) < r.max_src_delta[src_covered_][trg_covered_]) { + vector<short> nsp = src_prefix_; + nsp.push_back(src_position); + res.push_back(FSTState(trg_covered_, src_covered_, ncvg, nsp)); + } + + if (res.size() == 0) { + cerr << *this << " can't be extended!\n"; + abort(); + } + return res; + } + + short trg_covered_, src_covered_; + vector<bool> src_coverage_; + vector<short> src_prefix_; +}; +bool operator<(const FSTState& q, const FSTState& r) { + if (q.trg_covered_ != r.trg_covered_) return q.trg_covered_ < r.trg_covered_; + if (q.src_covered_!= r.src_covered_) return q.src_covered_ < r.src_covered_; + if (q.src_coverage_ != r.src_coverage_) return q.src_coverage_ < r.src_coverage_; + return q.src_prefix_ < r.src_prefix_; +} + +ostream& operator<<(ostream& os, const FSTState& q) { + os << "[" << q.trg_covered_ << " : "; + for (int i = 0; i < q.src_coverage_.size(); ++i) + os << q.src_coverage_[i]; + os << " : <"; + for (int i = 0; i < q.src_prefix_.size(); ++i) { + if (i != 0) os << ' '; + os << q.src_prefix_[i]; + } + return os << ">]"; +} + +struct MyModel { + MyModel(ConditionalBase& rcp0) : rp0(rcp0) {} + typedef unordered_map<vector<WordID>, CCRP_NoTable<TRule>, boost::hash<vector<WordID> > > SrcToRuleCRPMap; + + void DecrementRule(const TRule& rule) { + SrcToRuleCRPMap::iterator it = rules.find(rule.f_); + assert(it != rules.end()); + it->second.decrement(rule); + if (it->second.num_customers() == 0) rules.erase(it); + } + + void IncrementRule(const TRule& rule) { + SrcToRuleCRPMap::iterator it = rules.find(rule.f_); + if (it == rules.end()) { + CCRP_NoTable<TRule> crp(1,1); + it = rules.insert(make_pair(rule.f_, crp)).first; + } + it->second.increment(rule); + } + + // conditioned on rule.f_ + prob_t RuleConditionalProbability(const TRule& rule) const { + const prob_t base = rp0(rule); + SrcToRuleCRPMap::const_iterator it = rules.find(rule.f_); + if (it == rules.end()) { + return base; + } else { + const double lp = it->second.logprob(rule, log(base)); + prob_t q; q.logeq(lp); + return q; + } + } + + const ConditionalBase& rp0; + SrcToRuleCRPMap rules; +}; + +struct MyFST : public WFST { + MyFST(const vector<WordID>& ssrc, const vector<WordID>& strg, MyModel* m) : + src(ssrc), trg(strg), + r(src.size(),trg.size(),kMAX_SRC_PHRASE, kMAX_TRG_PHRASE), + model(m) { + FSTState in(src.size()); + cerr << " INIT: " << in << endl; + init = GetNode(in); + for (int i = 0; i < in.src_coverage_.size(); ++i) in.src_coverage_[i] = true; + in.src_covered_ = src.size(); + in.trg_covered_ = trg.size(); + cerr << "FINAL: " << in << endl; + final = GetNode(in); + } + virtual const WFSTNode* Final() const; + virtual const WFSTNode* Initial() const; + + const WFSTNode* GetNode(const FSTState& q); + map<FSTState, boost::shared_ptr<WFSTNode> > m; + const vector<WordID>& src; + const vector<WordID>& trg; + Reachability r; + const WFSTNode* init; + const WFSTNode* final; + MyModel* model; +}; + +struct MyNode : public WFSTNode { + MyNode(const FSTState& q, MyFST* fst) : state(q), container(fst) {} + virtual vector<pair<const WFSTNode*, TRulePtr> > ExtendInput(unsigned srcindex) const; + const FSTState state; + mutable MyFST* container; +}; + +vector<pair<const WFSTNode*, TRulePtr> > MyNode::ExtendInput(unsigned srcindex) const { + cerr << "EXTEND " << state << " with " << srcindex << endl; + vector<FSTState> ext = state.Extensions(srcindex, container->src.size(), container->trg.size(), container->r); + vector<pair<const WFSTNode*,TRulePtr> > res(ext.size()); + for (unsigned i = 0; i < ext.size(); ++i) { + res[i].first = container->GetNode(ext[i]); + if (ext[i].src_prefix_.size() == 0) { + const unsigned trg_from = state.trg_covered_; + const unsigned trg_to = ext[i].trg_covered_; + const unsigned prev_prfx_size = state.src_prefix_.size(); + res[i].second.reset(new TRule); + res[i].second->lhs_ = -TD::Convert("X"); + vector<WordID>& src = res[i].second->f_; + vector<WordID>& trg = res[i].second->e_; + src.resize(prev_prfx_size + 1); + for (unsigned j = 0; j < prev_prfx_size; ++j) + src[j] = container->src[state.src_prefix_[j]]; + src[prev_prfx_size] = container->src[srcindex]; + for (unsigned j = trg_from; j < trg_to; ++j) + trg.push_back(container->trg[j]); + res[i].second->scores_.set_value(FD::Convert("Proposal"), log(container->model->RuleConditionalProbability(*res[i].second))); + } + } + return res; +} + +const WFSTNode* MyFST::GetNode(const FSTState& q) { + boost::shared_ptr<WFSTNode>& res = m[q]; + if (!res) { + res.reset(new MyNode(q, this)); + } + return &*res; +} + +const WFSTNode* MyFST::Final() const { + return final; +} + +const WFSTNode* MyFST::Initial() const { + return init; +} + +int main(int argc, char** argv) { + po::variables_map conf; + InitCommandLine(argc, argv, &conf); + kMAX_TRG_PHRASE = conf["max_trg_phrase"].as<unsigned>(); + kMAX_SRC_PHRASE = conf["max_src_phrase"].as<unsigned>(); + + if (!conf.count("model1")) { + cerr << argv[0] << "Please use --model1 to specify model 1 parameters\n"; + return 1; + } + shared_ptr<MT19937> prng; + if (conf.count("random_seed")) + prng.reset(new MT19937(conf["random_seed"].as<uint32_t>())); + else + prng.reset(new MT19937); + MT19937& rng = *prng; + + vector<vector<int> > corpuse, corpusf; + set<int> vocabe, vocabf; + ReadParallelCorpus(conf["input"].as<string>(), &corpusf, &corpuse, &vocabf, &vocabe); + cerr << "f-Corpus size: " << corpusf.size() << " sentences\n"; + cerr << "f-Vocabulary size: " << vocabf.size() << " types\n"; + cerr << "f-Corpus size: " << corpuse.size() << " sentences\n"; + cerr << "f-Vocabulary size: " << vocabe.size() << " types\n"; + assert(corpusf.size() == corpuse.size()); + + ConditionalBase lp0(conf["model1_interpolation_weight"].as<double>(), + vocabe.size(), + conf["model1"].as<string>()); + MyModel m(lp0); + + TRule x("[X] ||| kAnwntR myN ||| at the convent ||| 0"); + m.IncrementRule(x); + TRule y("[X] ||| nY dyN ||| gave ||| 0"); + m.IncrementRule(y); + + + MyFST fst(corpusf[0], corpuse[0], &m); + ifstream in("./kimura.g"); + assert(in); + CFG_WFSTComposer comp(fst); + Hypergraph hg; + bool succeed = comp.Compose(&in, &hg); + hg.PrintGraphviz(); + if (succeed) { cerr << "SUCCESS.\n"; } else { cerr << "FAILURE REPORTED.\n"; } + +#if 0 + ifstream in2("./amnabooks.g"); + assert(in2); + MyFST fst2(corpusf[1], corpuse[1], &m); + CFG_WFSTComposer comp2(fst2); + Hypergraph hg2; + bool succeed2 = comp2.Compose(&in2, &hg2); + if (succeed2) { cerr << "SUCCESS.\n"; } else { cerr << "FAILURE REPORTED.\n"; } +#endif + + SparseVector<double> w; w.set_value(FD::Convert("Proposal"), 1.0); + hg.Reweight(w); + cerr << ViterbiFTree(hg) << endl; + return 0; +} + |