void Group::GenerateCode(CodeTextCtrl *codectrl, Report *reportctrl) const { #if 0 codectrl->Append(wxT("/*\n===========================================\nMembers:\n")); for (List<Member *>::Iterator i = MemberIterator(); !i; i++) { codectrl->Append(wxT("\t")).Append((*i)->GetName()).Append(wxT("\t")).Append((*i)->ToString()).Append(wxT("\n")); } codectrl->Append(wxT("Properties:\n")); for (List<Property *>::Iterator i = PropertyIterator(); !i; i++) { codectrl->Append(wxT("\t")).Append((*i)->GetName()).Append(wxT("\t")).Append((*i)->ToString()).Append(wxT("\n")); } codectrl->Append(wxT("Inputs:\n")); for (List<InputPort *>::Iterator i = InputIterator(); !i; i++) { codectrl->Append(wxT("\t")).Append((*i)->GetMember(wxT("Name"))->GetString()).Append(wxT("\n")); } codectrl->Append(wxT("Outputs:\n")); for (List<OutputPort *>::Iterator i = OutputIterator(); !i; i++) { codectrl->Append(wxT("\t")).Append((*i)->GetMember(wxT("Name"))->GetString()).Append(wxT("\n")); } codectrl->Append(wxT("===========================================\n*/\n")); #endif }
OutputIterator Connection::GetOutputs() { prechecksNoCommandsList(); mpd_send_outputs(m_connection.get()); checkErrors(); return OutputIterator(m_connection.get(), defaultFetcher<Output>(mpd_recv_output)); }
int main(int argc, char ** argv) { utils::mpi_world mpi_world(argc, argv); const int mpi_rank = MPI::COMM_WORLD.Get_rank(); const int mpi_size = MPI::COMM_WORLD.Get_size(); try { options(argc, argv); cicada::optimize::LineSearch::value_min = value_lower; cicada::optimize::LineSearch::value_max = value_upper; if (scorer_list) { std::cout << cicada::eval::Scorer::lists(); return 0; } if (int(yield_sentence) + yield_alignment + yield_span > 1) throw std::runtime_error("specify either sentence|alignment|span yield"); if (int(yield_sentence) + yield_alignment + yield_span == 0) yield_sentence = true; if (weights_file.empty() || ! boost::filesystem::exists(weights_file)) throw std::runtime_error("no weight file? " + weights_file.string()); if (direction_name.empty()) throw std::runtime_error("no direction?"); // read reference set scorer_document_type scorers(scorer_name); read_refset(refset_files, scorers); if (mpi_rank == 0 && debug) std::cerr << "# of references: " << scorers.size() << std::endl; // read test set if (mpi_rank == 0 && debug) std::cerr << "reading hypergraphs" << std::endl; hypergraph_set_type graphs(scorers.size()); read_tstset(tstset_files, graphs); weight_set_type weights; { utils::compress_istream is(weights_file, 1024 * 1024); is >> weights; } weight_set_type direction; direction[direction_name] = 1.0; segment_document_type segments(graphs.size()); compute_envelope(scorers, graphs, weights, direction, segments); if (mpi_rank == 0) { line_search_type line_search(debug); utils::compress_ostream os(output_file, 1024 * 1024); line_search(segments, value_lower, value_upper, OutputIterator(os, weights[direction_name])); } } catch (const std::exception& err) { std::cerr << "error: " << err.what() << std::endl; return 1; } return 0; }