#include #include "cmd_line_parser/parser.hpp" #include "mm_file/mm_file.hpp" #include "tinyformat/tinyformat.h" cmd_line_parser::parser make_parser(int argc, char** argv) { cmd_line_parser::parser p(argc, argv); p.add("input_idx", "Input filepath of trie index"); p.add("max_num_results", "The max number of results (default=10)", "-n", false); return p; } template int predictive_search(const cmd_line_parser::parser& p) { const auto input_idx = p.get("input_idx"); const auto max_num_results = p.get("max_num_results", 10); const mm::file_source fin(input_idx.c_str(), mm::advice::sequential); const auto trie = xcdat::mmap(fin.data()); struct result_type { std::uint64_t id; std::string str; }; std::vector results; results.reserve(1ULL << 10); for (std::string str; std::getline(std::cin, str);) { results.clear(); auto itr = trie.make_predictive_iterator(str); while (itr.next()) { results.push_back({itr.id(), itr.decoded()}); } tfm::printfln("%d found", results.size()); for (std::uint64_t i = 0; i < std::min(results.size(), max_num_results); i++) { const auto& r = results[i]; tfm::printfln("%d\t%s", r.id, r.str); } } return 0; } int main(int argc, char** argv) { #ifndef NDEBUG tfm::warnfln("The code is running in debug mode."); #endif std::ios::sync_with_stdio(false); auto p = make_parser(argc, argv); if (!p.parse()) { return 1; } const auto input_idx = p.get("input_idx"); const auto flag = xcdat::get_flag(input_idx); switch (flag) { case 7: return predictive_search(p); case 8: return predictive_search(p); default: break; } p.help(); return 1; }