#include "verbly.h" namespace verbly { adjective::adjective(const data& _data, int _id) : word(_data, _id) { } std::string adjective::base_form() const { return _base_form; } std::string adjective::comparative_form() const { return _comparative_form; } std::string adjective::superlative_form() const { return _superlative_form; } adjective::positioning adjective::position() const { return _position; } bool adjective::has_comparative_form() const { return !_comparative_form.empty(); } bool adjective::has_superlative_form() const { return !_superlative_form.empty(); } bool adjective::has_position() const { return _position != adjective::positioning::undefined; } adjective_query adjective::antonyms() const { return _data.adjectives().antonym_of(*this); } adjective_query adjective::synonyms() const { return _data.adjectives().synonym_of(*this); } adjective_query adjective::generalizations() const { return _data.adjectives().generalization_of(*this); } adjective_query adjective::specifications() const { return _data.adjectives().specification_of(*this); } noun_query adjective::anti_pertainyms() const { return _data.nouns().anti_pertainym_of(*this); } adverb_query adjective::mannernyms() const { return _data.adverbs().mannernym_of(*this); } noun_query adjective::attributes() const { return _data.nouns().attribute_of(*this); } adjective_query::adjective_query(const data& _data) : _data(_data) { } adjective_query& adjective_query::limit(int _limit) { if ((_limit > 0) || (_limit == unlimited)) { this->_limit = _limit; } return *this; } adjective_query& adjective_query::random(bool _random) { this->_random = _random; return *this; } adjective_query& adjective_query::except(const adjective& _word) { _except.push_back(_word); return *this; } adjective_query& adjective_query::rhymes_with(const word& _word) { for (auto rhyme : _word.rhyme_phonemes()) { _rhymes.push_back(rhyme); } if (dynamic_cast(&_word) != nullptr) { _except.push_back(dynamic_cast(_word)); } return *this; } adjective_query& adjective_query::has_pronunciation(bool _has_prn) { this->_has_prn = _has_prn; return *this; } adjective_query& adjective_query::is_variant(bool _is_variant) { this->_is_variant = _is_variant; return *this; } adjective_query& adjective_query::variant_of(const noun& _noun) { _variant_of.push_back(_noun); return *this; } adjective_query& adjective_query::not_variant_of(const noun& _noun) { _not_variant_of.push_back(_noun); return *this; } adjective_query& adjective_query::has_antonyms(bool _is_antonymic) { this->_is_antonymic = _is_antonymic; return *this; } adjective_query& adjective_query::antonym_of(const adjective& _adj) { _antonym_of.push_back(_adj); return *this; } adjective_query& adjective_query::not_antonym_of(const adjective& _adj) { _not_antonym_of.push_back(_adj); return *this; } adjective_query& adjective_query::has_synonyms(bool _is_synonymic) { this->_is_synonymic = _is_synonymic; return *this; } adjective_query& adjective_query::synonym_of(const adjective& _adj) { _synonym_of.push_back(_adj); return *this; } adjective_query& adjective_query::not_synonym_of(const adjective& _adj) { _not_synonym_of.push_back(_adj); return *this; } adjective_query& adjective_query::is_generalization(bool _is_generalization) { this->_is_generalization = _is_generalization; return *this; } adjective_query& adjective_query::generalization_of(const adjective& _adj) { _generalization_of.push_back(_adj); return *this; } adjective_query& adjective_query::not_generalization_of(const adjective& _adj) { _not_generalization_of.push_back(_adj); return *this; } adjective_query& adjective_query::is_specification(bool _is_specification) { this->_is_specification = _is_specification; return *this; } adjective_query& adjective_query::specification_of(const adjective& _adj) { _specification_of.push_back(_adj); return *this; } adjective_query& adjective_query::not_specification_of(const adjective& _adj) { _not_specification_of.push_back(_adj); return *this; } adjective_query& adjective_query::is_pertainymic(bool _is_pertainymic) { this->_is_pertainymic = _is_pertainymic; return *this; } adjective_query& adjective_query::pertainym_of(const noun& _noun) { _pertainym_of.push_back(_noun); return *this; } adjective_query& adjective_query::is_mannernymic(bool _is_mannernymic) { this->_is_mannernymic = _is_mannernymic; return *this; } adjective_query& adjective_query::anti_mannernym_of(const adverb& _adv) { _anti_mannernym_of.push_back(_adv); return *this; } adjective_query& adjective_query::derived_from(const word& _w) { if (dynamic_cast(&_w) != nullptr) { _derived_from_adjective.push_back(dynamic_cast(_w)); } else if (dynamic_cast(&_w) != nullptr) { _derived_from_adverb.push_back(dynamic_cast(_w)); } else if (dynamic_cast(&_w) != nullptr) { _derived_from_noun.push_back(dynamic_cast(_w)); } return *this; } adjective_query& adjective_query::not_derived_from(const word& _w) { if (dynamic_cast(&_w) != nullptr) { _not_derived_from_adjective.push_back(dynamic_cast(_w)); } else if (dynamic_cast(&_w) != nullptr) { _not_derived_from_adverb.push_back(dynamic_cast(_w)); } else if (dynamic_cast(&_w) != nullptr) { _not_derived_from_noun.push_back(dynamic_cast(_w)); } return *this; } std::list adjective_query::run() const { std::stringstream construct; construct << "SELECT adjective_id, base_form, comparative, superlative, position FROM adjectives"; std::list conditions; if (_has_prn) { conditions.push_back("adjective_id IN (SELECT adjective_id FROM adjective_pronunciations)"); } if (!_rhymes.empty()) { std::list clauses(_rhymes.size(), "pronunciation LIKE @RHMPRN"); std::string cond = "adjective_id IN (SELECT adjective_id FROM adjective_pronunciations WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } for (auto except : _except) { conditions.push_back("adjective_id != @EXCID"); } if (_requires_comparative_form) { conditions.push_back("comparative IS NOT NULL"); } if (_requires_superlative_form) { conditions.push_back("superlative IS NOT NULL"); } if (_position != adjective::positioning::undefined) { switch (_position) { case adjective::positioning::predicate: conditions.push_back("position = 'p'"); break; case adjective::positioning::attributive: conditions.push_back("position = 'a'"); break; case adjective::positioning::postnominal: conditions.push_back("position = 'i'"); break; } } if (_is_variant) { conditions.push_back("adjective_id IN (SELECT adjective_id FROM variation)"); } if (!_variant_of.empty()) { std::list clauses(_variant_of.size(), "noun_id = @ATTRID"); std::string cond = "adjective_id IN (SELECT adjective_id FROM variation WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_not_variant_of.empty()) { std::list clauses(_not_variant_of.size(), "noun_id = @NATTRID"); std::string cond = "adjective_id NOT IN (SELECT adjective_id FROM variation WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (_is_antonymic) { conditions.push_back("adjective_id IN (SELECT adjective_2_id FROM adjective_antonymy)"); } if (!_antonym_of.empty()) { std::list clauses(_antonym_of.size(), "adjective_1_id = @ANTID"); std::string cond = "adjective_id IN (SELECT adjective_2_id FROM adjective_antonymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_not_antonym_of.empty()) { std::list clauses(_not_antonym_of.size(), "adjective_1_id = @NANTID"); std::string cond = "adjective_id NOT IN (SELECT adjective_2_id FROM adjective_antonymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (_is_synonymic) { conditions.push_back("adjective_id IN (SELECT adjective_2_id FROM adjective_synonymy)"); } if (!_synonym_of.empty()) { std::list clauses(_synonym_of.size(), "adjective_1_id = @SYNID"); std::string cond = "adjective_id IN (SELECT adjective_2_id FROM adjective_synonymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_not_synonym_of.empty()) { std::list clauses(_not_synonym_of.size(), "adjective_1_id = @NSYNID"); std::string cond = "adjective_id NOT IN (SELECT adjective_2_id FROM adjective_synonymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (_is_generalization) { conditions.push_back("adjective_id IN (SELECT general_id FROM specification)"); } if (!_generalization_of.empty()) { std::list clauses(_generalization_of.size(), "specific_id = @SPECID"); std::string cond = "adjective_id IN (SELECT general_id FROM specification WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_not_generalization_of.empty()) { std::list clauses(_not_generalization_of.size(), "specific_id = @NSPECID"); std::string cond = "adjective_id NOT IN (SELECT general_id FROM specification WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (_is_specification) { conditions.push_back("adjective_id IN (SELECT specific_id FROM specification)"); } if (!_specification_of.empty()) { std::list clauses(_specification_of.size(), "general_id = @GENID"); std::string cond = "adjective_id IN (SELECT specific_id FROM specification WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_not_specification_of.empty()) { std::list clauses(_not_specification_of.size(), "general_id = @NGENID"); std::string cond = "adjective_id NOT IN (SELECT specific_id FROM specification WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (_is_pertainymic) { conditions.push_back("adjective_id IN (SELECT pertainym_id FROM pertainymy)"); } if (!_pertainym_of.empty()) { std::list clauses(_pertainym_of.size(), "noun_id = @APERID"); std::string cond = "adjective_id IN (SELECT pertainym_id FROM pertainymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (_is_mannernymic) { conditions.push_back("adjective_id IN (SELECT adjective_id FROM mannernymy)"); } if (!_anti_mannernym_of.empty()) { std::list clauses(_anti_mannernym_of.size(), "mannernym_id = @MANID"); std::string cond = "adjective_id IN (SELECT adjective_id FROM mannernymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_derived_from_adjective.empty()) { std::list clauses(_derived_from_adjective.size(), "adjective_2_id = @DERADJ"); std::string cond = "adjective_id IN (SELECT adjective_1_id FROM adjective_adjective_derivation WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_not_derived_from_adjective.empty()) { std::list clauses(_not_derived_from_adjective.size(), "adjective_2_id = @NDERADJ"); std::string cond = "adjective_id NOT IN (SELECT adjective_1_id FROM adjective_adjective_derivation WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_derived_from_adverb.empty()) { std::list clauses(_derived_from_adverb.size(), "adverb_id = @DERADV"); std::string cond = "adjective_id IN (SELECT adjective_id FROM adjective_adverb_derivation WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_not_derived_from_adverb.empty()) { std::list clauses(_not_derived_from_adverb.size(), "adverb_id = @NDERADV"); std::string cond = "adjective_id NOT IN (SELECT adjective_id FROM adjective_adverb_derivation WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_derived_from_noun.empty()) { std::list clauses(_derived_from_noun.size(), "noun_id = @DERN"); std::string cond = "adjective_id IN (SELECT adjective_id FROM noun_adjective_derivation WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!_not_derived_from_noun.empty()) { std::list clauses(_not_derived_from_noun.size(), "noun_id = @NDERN"); std::string cond = "adjective_id NOT IN (SELECT adjective_id FROM noun_adjective_derivation WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")"; conditions.push_back(cond); } if (!conditions.empty()) { construct << " WHERE "; construct << verbly::implode(std::begin(conditions), std::end(conditions), " AND "); } if (_random) { construct << " ORDER BY RANDOM()"; } if (_limit != unlimited) { construct << " LIMIT " << _limit; } sqlite3_stmt* ppstmt; std::string query = construct.str(); if (sqlite3_prepare_v2(_data.ppdb, query.c_str(), query.length(), &ppstmt, NULL) != SQLITE_OK) { throw std::runtime_error(sqlite3_errmsg(_data.ppdb)); } if (!_rhymes.empty()) { int i = 0; for (auto rhyme : _rhymes) { std::string rhymer = "%" + rhyme; sqlite3_bind_text(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@RHMPRN"), rhymer.c_str(), rhymer.length(), SQLITE_STATIC); i++; } } for (auto except : _except) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@EXCID"), except._id); } for (auto attribute : _variant_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@ATTRID"), attribute._id); } for (auto attribute : _not_variant_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@NATTRID"), attribute._id); } for (auto antonym : _antonym_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@ANTID"), antonym._id); } for (auto antonym : _not_antonym_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@NANTID"), antonym._id); } for (auto synonym : _synonym_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@SYNID"), synonym._id); } for (auto synonym : _not_synonym_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@NSYNID"), synonym._id); } for (auto specific : _generalization_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@SPECID"), specific._id); } for (auto specific : _not_generalization_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@NSPECID"), specific._id); } for (auto general : _specification_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@GENID"), general._id); } for (auto general : _not_specification_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@NGENID"), general._id); } for (auto n : _pertainym_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@APERID"), n._id); } for (auto mannernym : _anti_mannernym_of) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@MANID"), mannernym._id); } for (auto adj : _derived_from_adjective) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@DERADJ"), adj._id); } for (auto adj : _not_derived_from_adjective) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@NDERADJ"), adj._id); } for (auto adv : _derived_from_adverb) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@DERADV"), adv._id); } for (auto adv : _not_derived_from_adverb) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@NDERADV"), adv._id); } for (auto n : _derived_from_noun) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@DERN"), n._id); } for (auto n : _not_derived_from_noun) { sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@NDERN"), n._id); } std::list output; while (sqlite3_step(ppstmt) == SQLITE_ROW) { adjective tnc {_data, sqlite3_column_int(ppstmt, 0)}; tnc._base_form = std::string(reinterpret_cast(sqlite3_column_text(ppstmt, 1))); if (sqlite3_column_type(ppstmt, 2) != SQLITE_NULL) { tnc._comparative_form = std::string(reinterpret_cast(sqlite3_column_text(ppstmt, 2))); } if (sqlite3_column_type(ppstmt, 3) != SQLITE_NULL) { tnc._superlative_form = std::string(reinterpret_cast(sqlite3_column_text(ppstmt, 3))); } if (sqlite3_column_type(ppstmt, 4) != SQLITE_NULL) { std::string adjpos(reinterpret_cast(sqlite3_column_text(ppstmt, 4))); if (adjpos == "p") { tnc._position = adjective::positioning::predicate; } else if (adjpos == "a") { tnc._position = adjective::positioning::attributive; } else if (adjpos == "i") { tnc._position = adjective::positioning::postnominal; } } output.push_back(tnc); } sqlite3_finalize(ppstmt); for (auto& adjective : output) { query = "SELECT pronunciation FROM adjective_pronunciations WHERE adjective_id = ?"; if (sqlite3_prepare_v2(_data.ppdb, query.c_str(), query.length(), &ppstmt, NULL) != SQLITE_OK) { throw std::runtime_error(sqlite3_errmsg(_data.ppdb)); } sqlite3_bind_int(ppstmt, 1, adjective._id); while (sqlite3_step(ppstmt) == SQLITE_ROW) { std::string pronunciation(reinterpret_cast(sqlite3_column_text(ppstmt, 0))); auto phonemes = verbly::split>(pronunciation, " "); adjective.pronunciations.push_back(phonemes); } sqlite3_finalize(ppstmt); } return output; } };