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#include "verbly.h"
namespace verbly {
adverb::adverb(const data& _data, int _id) : word(_data, _id)
{
}
std::string adverb::base_form() const
{
return _base_form;
}
std::string adverb::comparative_form() const
{
return _comparative_form;
}
std::string adverb::superlative_form() const
{
return _superlative_form;
}
bool adverb::has_comparative_form() const
{
return !_comparative_form.empty();
}
bool adverb::has_superlative_form() const
{
return !_superlative_form.empty();
}
adverb_query adverb::antonyms() const
{
return _data.adverbs().antonym_of(*this);
}
adverb_query adverb::synonyms() const
{
return _data.adverbs().synonym_of(*this);
}
adjective_query adverb::anti_mannernyms() const
{
return _data.adjectives().anti_mannernym_of(*this);
}
adverb_query::adverb_query(const data& _data) : _data(_data)
{
}
adverb_query& adverb_query::limit(int _limit)
{
if ((_limit > 0) || (_limit == unlimited))
{
this->_limit = _limit;
}
return *this;
}
adverb_query& adverb_query::random(bool _random)
{
this->_random = _random;
return *this;
}
adverb_query& adverb_query::except(const adverb& _word)
{
_except.push_back(_word);
return *this;
}
adverb_query& adverb_query::rhymes_with(const word& _word)
{
for (auto rhyme : _word.rhyme_phonemes())
{
_rhymes.push_back(rhyme);
}
if (dynamic_cast<const adverb*>(&_word) != nullptr)
{
_except.push_back(dynamic_cast<const adverb&>(_word));
}
return *this;
}
adverb_query& adverb_query::has_pronunciation(bool _has_prn)
{
this->_has_prn = _has_prn;
return *this;
}
adverb_query& adverb_query::requires_comparative_form(bool _arg)
{
_requires_comparative_form = _arg;
return *this;
}
adverb_query& adverb_query::requires_superlative_form(bool _arg)
{
_requires_superlative_form = _arg;
return *this;
}
adverb_query& adverb_query::has_antonyms(bool _arg)
{
_has_antonyms = _arg;
return *this;
}
adverb_query& adverb_query::antonym_of(const adverb& _adv)
{
_antonym_of.push_back(_adv);
return *this;
}
adverb_query& adverb_query::not_antonym_of(const adverb& _adv)
{
_not_antonym_of.push_back(_adv);
return *this;
}
adverb_query& adverb_query::has_synonyms(bool _arg)
{
_has_synonyms = _arg;
return *this;
}
adverb_query& adverb_query::synonym_of(const adverb& _adv)
{
_synonym_of.push_back(_adv);
return *this;
}
adverb_query& adverb_query::not_synonym_of(const adverb& _adv)
{
_not_synonym_of.push_back(_adv);
return *this;
}
adverb_query& adverb_query::is_mannernymic(bool _arg)
{
_is_mannernymic = _arg;
return *this;
}
adverb_query& adverb_query::mannernym_of(const adjective& _adj)
{
_mannernym_of.push_back(_adj);
return *this;
}
std::list<adverb> adverb_query::run() const
{
std::stringstream construct;
construct << "SELECT adverb_id, base_form, comparative, superlative FROM adverbs";
std::list<std::string> conditions;
if (_has_prn)
{
conditions.push_back("adverb_id IN (SELECT adverb_id FROM adverb_pronunciations)");
}
if (!_rhymes.empty())
{
std::list<std::string> clauses(_rhymes.size(), "pronunciation LIKE @RHMPRN");
std::string cond = "adverb_id IN (SELECT adverb_id FROM adverb_pronunciations WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")";
conditions.push_back(cond);
}
for (auto except : _except)
{
conditions.push_back("adverb_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 (_has_antonyms)
{
conditions.push_back("adverb_id IN (SELECT adverb_2_id FROM adverb_antonymy)");
}
if (!_antonym_of.empty())
{
std::list<std::string> clauses(_antonym_of.size(), "adverb_1_id = @ANTID");
std::string cond = "adverb_id IN (SELECT adverb_2_id FROM adverb_antonymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")";
conditions.push_back(cond);
}
if (!_not_antonym_of.empty())
{
std::list<std::string> clauses(_not_antonym_of.size(), "adverb_1_id = @NANTID");
std::string cond = "adverb_id NOT IN (SELECT adverb_2_id FROM adverb_antonymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")";
conditions.push_back(cond);
}
if (_has_synonyms)
{
conditions.push_back("adverb_id IN (SELECT adverb_2_id FROM adverb_synonymy)");
}
if (!_synonym_of.empty())
{
std::list<std::string> clauses(_synonym_of.size(), "adverb_1_id = @SYNID");
std::string cond = "adverb_id IN (SELECT adverb_2_id FROM adverb_synonymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")";
conditions.push_back(cond);
}
if (!_not_synonym_of.empty())
{
std::list<std::string> clauses(_not_synonym_of.size(), "adverb_1_id = @NSYNID");
std::string cond = "adverb_id NOT IN (SELECT adverb_2_id FROM adverb_synonymy WHERE " + verbly::implode(std::begin(clauses), std::end(clauses), " OR ") + ")";
conditions.push_back(cond);
}
if (_is_mannernymic)
{
conditions.push_back("adverb_id IN (SELECT mannernym_id FROM mannernymy)");
}
if (!_mannernym_of.empty())
{
std::list<std::string> clauses(_mannernym_of.size(), "adjective_id = @AMANID");
std::string cond = "adverb_id IN (SELECT mannernym_id FROM mannernymy 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 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 adj : _mannernym_of)
{
sqlite3_bind_int(ppstmt, sqlite3_bind_parameter_index(ppstmt, "@AMANID"), adj._id);
}
std::list<adverb> output;
while (sqlite3_step(ppstmt) == SQLITE_ROW)
{
adverb tnc {_data, sqlite3_column_int(ppstmt, 0)};
tnc._base_form = std::string(reinterpret_cast<const char*>(sqlite3_column_text(ppstmt, 1)));
if (sqlite3_column_type(ppstmt, 2) != SQLITE_NULL)
{
tnc._comparative_form = std::string(reinterpret_cast<const char*>(sqlite3_column_text(ppstmt, 2)));
}
if (sqlite3_column_type(ppstmt, 3) != SQLITE_NULL)
{
tnc._superlative_form = std::string(reinterpret_cast<const char*>(sqlite3_column_text(ppstmt, 3)));
}
output.push_back(tnc);
}
sqlite3_finalize(ppstmt);
for (auto& adverb : output)
{
query = "SELECT pronunciation FROM adverb_pronunciations WHERE adverb_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, adverb._id);
while (sqlite3_step(ppstmt) == SQLITE_ROW)
{
std::string pronunciation(reinterpret_cast<const char*>(sqlite3_column_text(ppstmt, 0)));
auto phonemes = verbly::split<std::list<std::string>>(pronunciation, " ");
adverb.pronunciations.push_back(phonemes);
}
sqlite3_finalize(ppstmt);
}
return output;
}
};
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