#include "csplit.h" #include #include "filelib.h" #include "stringlib.h" #include "hg.h" #include "tdict.h" #include "grammar.h" #include "sentence_metadata.h" using namespace std; struct CompoundSplitImpl { CompoundSplitImpl(const boost::program_options::variables_map& conf) : fugen_elements_(true), // TODO configure min_size_(3), kXCAT(TD::Convert("X")*-1), kWORDBREAK_RULE(new TRule("[X] ||| # ||| #")), kTEMPLATE_RULE(new TRule("[X] ||| [X,1] ? ||| [1] ?")), kGOAL_RULE(new TRule("[Goal] ||| [X,1] ||| [1]")), kFUGEN_S(FD::Convert("FugS")), kFUGEN_N(FD::Convert("FugN")) {} void PasteTogetherStrings(const vector& chars, const int i, const int j, string* yield) { int size = 0; for (int k=i; kresize(size); int cur = 0; for (int k=i; k& chars, Hypergraph* forest) { vector nodes(chars.size()+1, -1); nodes[0] = forest->AddNode(kXCAT)->id_; // source const int left_rule = forest->AddEdge(kWORDBREAK_RULE, Hypergraph::TailNodeVector())->id_; forest->ConnectEdgeToHeadNode(left_rule, nodes[0]); const int max_split_ = chars.size() - min_size_ + 1; for (int i = min_size_; i < max_split_; ++i) nodes[i] = forest->AddNode(kXCAT)->id_; assert(nodes.back() == -1); nodes.back() = forest->AddNode(kXCAT)->id_; // sink for (int i = 0; i < max_split_; ++i) { if (nodes[i] < 0) continue; for (int j = i + min_size_; j <= chars.size(); ++j) { if (nodes[j] < 0) continue; string yield; PasteTogetherStrings(chars, i, j, &yield); // cerr << "[" << i << "," << j << "] " << yield << endl; TRulePtr rule = TRulePtr(new TRule(*kTEMPLATE_RULE)); rule->e_[1] = rule->f_[1] = TD::Convert(yield); // cerr << rule->AsString() << endl; int edge = forest->AddEdge( rule, Hypergraph::TailNodeVector(1, nodes[i]))->id_; forest->ConnectEdgeToHeadNode(edge, nodes[j]); forest->edges_[edge].i_ = i; forest->edges_[edge].j_ = j; // handle "fugenelemente" here // don't delete "fugenelemente" at the end of words if (fugen_elements_ && j != chars.size()) { const int len = yield.size(); string alt; int fid = 0; if (len > (min_size_ + 2) && yield[len-1] == 's' && yield[len-2] == 'e') { alt = yield.substr(0, len - 2); fid = kFUGEN_S; } else if (len > (min_size_ + 1) && yield[len-1] == 's') { alt = yield.substr(0, len - 1); fid = kFUGEN_S; } else if (len > (min_size_ + 2) && yield[len-2] == 'e' && yield[len-1] == 'n') { alt = yield.substr(0, len - 1); fid = kFUGEN_N; } if (alt.size()) { TRulePtr altrule = TRulePtr(new TRule(*rule)); altrule->e_[1] = TD::Convert(alt); // cerr << altrule->AsString() << endl; int edge = forest->AddEdge( altrule, Hypergraph::TailNodeVector(1, nodes[i]))->id_; forest->ConnectEdgeToHeadNode(edge, nodes[j]); forest->edges_[edge].feature_values_.set_value(fid, 1.0); forest->edges_[edge].i_ = i; forest->edges_[edge].j_ = j; } } } } // add goal rule Hypergraph::TailNodeVector tail(1, forest->nodes_.size() - 1); Hypergraph::Node* goal = forest->AddNode(TD::Convert("Goal")*-1); Hypergraph::Edge* hg_edge = forest->AddEdge(kGOAL_RULE, tail); forest->ConnectEdgeToHeadNode(hg_edge, goal); } private: const bool fugen_elements_; const int min_size_; const WordID kXCAT; const TRulePtr kWORDBREAK_RULE; const TRulePtr kTEMPLATE_RULE; const TRulePtr kGOAL_RULE; const int kFUGEN_S; const int kFUGEN_N; }; CompoundSplit::CompoundSplit(const boost::program_options::variables_map& conf) : pimpl_(new CompoundSplitImpl(conf)) {} static void SplitUTF8String(const string& in, vector* out) { out->resize(in.size()); int i = 0; int c = 0; while (i < in.size()) { const int len = UTF8Len(in[i]); assert(len); (*out)[c] = in.substr(i, len); ++c; i += len; } out->resize(c); } bool CompoundSplit::Translate(const string& input, SentenceMetadata* smeta, const vector& weights, Hypergraph* forest) { if (input.find(" ") != string::npos) { cerr << " BAD INPUT: " << input << "\n CompoundSplit expects single words\n"; abort(); } vector in; SplitUTF8String(input, &in); smeta->SetSourceLength(in.size()); // TODO do utf8 or somethign for (int i = 0; i < in.size(); ++i) smeta->src_lattice_.push_back(vector(1, LatticeArc(TD::Convert(in[i]), 0.0, 1))); pimpl_->BuildTrellis(in, forest); forest->Reweight(weights); return true; }