#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include enum Height { kTop, kMiddle, kBottom, kHeightCount }; enum Colour { kWhite, kBlack, kRed, kBlue, kPurple, kBrown, kYellow, kColourCount }; const std::string COLOUR_EMOJIS[kColourCount] = { "⬜️", "⬛️", "🟥", "🟦", "🟪", "🟫", "🟨" }; class lingo { public: lingo(std::mt19937& rng) : rng_(rng) {} void run(const std::string& configpath) { YAML::Node config = YAML::LoadFile(configpath); bot_ = std::make_unique(config["discord_token"].as()); bot_->on_ready([this](const dpp::ready_t& event) { if (dpp::run_once()) { dpp::slashcommand newcommand("newpuzzle", "Generate a new LINGO puzzle", bot_->me.id); bot_->global_command_create(newcommand); } }); bot_->on_slashcommand([this](const dpp::slashcommand_t& event) { if (event.command.get_command_name() == "newpuzzle") { event.thinking(true); std::thread genpuzz(&lingo::generatePuzzle, this, event.command.get_channel().id); genpuzz.detach(); } }); bot_->on_message_create([this](const dpp::message_create_t& event) { std::lock_guard answer_lock(answers_mutex_); if (answer_by_message_.count(static_cast(event.msg.message_reference.message_id))) { std::string canonical_answer = hatkirby::lowercase(answer_by_message_[event.msg.message_reference.message_id]); std::string canonical_attempt = hatkirby::lowercase(event.msg.content); while (canonical_attempt.find("||") != std::string::npos) { canonical_attempt.erase(canonical_attempt.find("||"), 2); } if (canonical_attempt == canonical_answer) { bot_->message_add_reaction(event.msg.id, event.msg.channel_id, "✅"); } else { bot_->message_add_reaction(event.msg.id, event.msg.channel_id, "❌"); } } }); bot_->start(); dpp::snowflake channel(config["discord_channel"].as()); database_ = std::make_unique(config["verbly_datafile"].as()); for (;;) { std::thread genpuzz(&lingo::generatePuzzle, this, channel); genpuzz.detach(); std::this_thread::sleep_for(std::chrono::hours(24)); } } private: void generatePuzzle(dpp::snowflake channel) { std::set> filters = { {kTop, kPurple}, {kTop, kWhite}, {kTop, kYellow}, {kTop, kRed}, {kTop, kBlue}, {kMiddle, kYellow}, {kMiddle, kRed}, {kMiddle, kBlue}, {kMiddle, kPurple}, {kBottom, kWhite}, {kBottom, kBlack}, {kBottom, kRed}, {kBottom, kBlue}, }; verbly::filter wordFilter = (verbly::form::proper == false); verbly::filter cleanFilter = !(verbly::word::usageDomains %= (verbly::notion::wnid == 106718862)) // ethnic slurs && !(verbly::notion::wnid == 110630093); // "spastic" bool generated = false; while (!generated) { try { int hints = 0; std::array, kHeightCount> parts; for (int height = 0; height < static_cast(kHeightCount); height++) { if (std::bernoulli_distribution(0.5)(rng_)) { int colour = std::uniform_int_distribution(0, static_cast(kColourCount)-1)(rng_); if (filters.count({static_cast(height), static_cast(colour)})) { parts[static_cast(height)] = static_cast(colour); hints++; } } } if (hints < 2) { continue; } verbly::filter forwardFilter = cleanFilter && (verbly::form::proper == false); for (int i=0; i(kHeightCount); i++) { Height height = static_cast(i); std::optional& colour = parts[i]; if (!colour.has_value()) { continue; } switch (*colour) { case kWhite: { switch (height) { case kBottom: { forwardFilter &= (verbly::word::synonyms %= wordFilter); break; } case kTop: { forwardFilter &= (verbly::form::pronunciations %= verbly::filter("homophones", false, (verbly::pronunciation::forms %= (wordFilter && verbly::filter( verbly::form::id, verbly::filter::comparison::field_does_not_equal, verbly::form::id))))); break; } default: break; // Not supposed yet. } break; } case kBlack: { switch (height) { case kBottom: { forwardFilter &= (verbly::word::antonyms %= wordFilter); break; } default: break; // Not supposed yet. } break; } case kBrown: { switch (height) { case kBottom: { forwardFilter &= (verbly::notion::causes %= wordFilter); break; } default: break; // Not supposed yet. } break; } case kRed: { switch (height) { case kTop: { forwardFilter &= (verbly::pronunciation::holophones %= wordFilter); break; } case kMiddle: { forwardFilter &= (verbly::form::holographs %= wordFilter); break; } case kBottom: { forwardFilter &= (verbly::notion::partMeronyms %= wordFilter); break; } default: break; // Not supposed yet. } break; } case kBlue: { switch (height) { case kTop: { forwardFilter &= (verbly::pronunciation::merophones %= wordFilter); break; } case kMiddle: { forwardFilter &= (verbly::form::merographs %= wordFilter); break; } case kBottom: { forwardFilter &= (verbly::notion::partHolonyms %= wordFilter); break; } default: break; // Not supposed yet. } break; } case kPurple: { switch (height) { case kMiddle: { forwardFilter &= (verbly::form::merographs %= (verbly::form::length >= 4 && (verbly::form::holographs %= wordFilter))); break; } case kTop: { forwardFilter &= (verbly::pronunciation::rhymes %= wordFilter); break; } default: break; // Not supposed yet. } break; } case kYellow: { switch (height) { case kTop: { forwardFilter &= (verbly::pronunciation::anaphones %= (wordFilter && verbly::filter( verbly::pronunciation::id, verbly::filter::comparison::field_does_not_equal, verbly::pronunciation::id))); break; } case kMiddle: { forwardFilter &= (verbly::form::anagrams %= (wordFilter && verbly::filter( verbly::form::id, verbly::filter::comparison::field_does_not_equal, verbly::form::id))); break; } default: break; // Not supposed yet. } break; } default: break; // Not supposed yet. } } verbly::form solution = database_->forms(forwardFilter).first(); std::ostringstream msg_stream; for (int i=0; i(kHeightCount); i++) { Height height = static_cast(i); std::optional& colour = parts[i]; if (colour.has_value()) { verbly::filter questionFilter; switch (*colour) { case kWhite: { switch (height) { case kBottom: { questionFilter = (verbly::word::synonyms %= solution); break; } case kTop: { questionFilter = (verbly::form::pronunciations %= verbly::filter("homophones", false, (verbly::pronunciation::forms %= ((verbly::filter)solution && verbly::filter( verbly::form::id, verbly::filter::comparison::field_does_not_equal, verbly::form::id))))); break; } default: break; // Not supposed yet. } break; } case kBlack: { switch (height) { case kBottom: { questionFilter = (verbly::word::antonyms %= solution); break; } default: break; // Not supposed yet. } break; } case kBrown: { switch (height) { case kBottom: { questionFilter = (verbly::notion::effects %= solution); break; } default: break; // Not supposed yet. } break; } case kBlue: { switch (height) { case kTop: { questionFilter = (verbly::pronunciation::holophones %= solution); break; } case kMiddle: { questionFilter = (verbly::form::holographs %= solution); break; } case kBottom: { /*questionFilter = ((verbly::notion::fullMemberHolonyms %= solution) || (verbly::notion::fullPartHolonyms %= solution) || (verbly::notion::fullSubstanceHolonyms %= solution));*/ //questionFilter &= !(verbly::notion::words %= solution); questionFilter = (verbly::notion::partMeronyms %= solution); break; } default: break; // Not supposed yet. } break; } case kRed: { switch (height) { case kTop: { questionFilter = (verbly::pronunciation::merophones %= solution); break; } case kMiddle: { questionFilter = (verbly::form::merographs %= solution); break; } case kBottom: { /*questionFilter = ((verbly::notion::fullMemberMeronyms %= solution) || (verbly::notion::fullPartMeronyms %= solution) || (verbly::notion::fullSubstanceMeronyms %= solution));*/ questionFilter = (verbly::notion::partHolonyms %= solution); //questionFilter &= !(verbly::notion::words %= solution); break; } default: break; // Not supposed yet. } break; } case kPurple: { switch (height) { case kTop: { questionFilter = (verbly::pronunciation::rhymes %= solution); break; } case kMiddle: { questionFilter = (verbly::form::merographs %= (verbly::form::length >= 4 && (verbly::form::holographs %= solution))); break; } default: break; // Not supposed yet. } break; } case kYellow: { switch (height) { case kTop: { questionFilter = (verbly::pronunciation::anaphones %= ((verbly::filter)solution && verbly::filter( verbly::pronunciation::id, verbly::filter::comparison::field_does_not_equal, verbly::pronunciation::id))); break; } case kMiddle: { questionFilter = (verbly::form::anagrams %= ((verbly::filter)solution && verbly::filter( verbly::form::id, verbly::filter::comparison::field_does_not_equal, verbly::form::id))); break; } default: break; // Not supposed yet. } break; } default: break; // Not supposed yet. } verbly::form questionPart = database_->forms(questionFilter && cleanFilter).first(); msg_stream << COLOUR_EMOJIS[*colour] << " " << questionPart.getText() << std::endl; } else { msg_stream << "▪️" << std::endl; } } msg_stream << "(" << solution.getText().size() << ")"; std::string message_text = msg_stream.str(); std::cout << message_text << std::endl << std::endl << solution.getText() << std::endl; dpp::message message(channel, message_text); bot_->message_create(message, [this, &solution](const dpp::confirmation_callback_t& userdata) { const auto& posted_msg = std::get(userdata.value); std::lock_guard answer_lock(answers_mutex_); if (answer_by_message_.size() > 3000) { answer_by_message_.clear(); } answer_by_message_[posted_msg.id] = solution.getText(); }); generated = true; } catch (const std::exception& ex) { std::cout << ex.what() << std::endl; } std::this_thread::sleep_for(std::chrono::minutes(1)); } } std::mt19937& rng_; std::unique_ptr bot_; std::unique_ptr database_; std::map answer_by_message_; std::mutex answers_mutex_; }; int main(int argc, char** argv) { std::random_device randomDevice; std::mt19937 rng{randomDevice()}; if (argc != 2) { std::cout << "usage: lingo [configfile]" << std::endl; return -1; } lingo lingo(rng); lingo.run(argv[1]); return 0; }