#include #include #include #include #include #include #include #include #include #include #include #include #include #include const std::vector moods = {"party", "chill", "crazy", "happy", "sad", "instrumental", "vocal"}; int main(int argc, char** argv) { if (argc != 2) { std::cout << "usage: cadence [configfile]" << std::endl; return -1; } std::string configfile(argv[1]); YAML::Node config = YAML::LoadFile(configfile); // Set up the Twitter client. twitter::auth auth; auth.setConsumerKey(config["consumer_key"].as()); auth.setConsumerSecret(config["consumer_secret"].as()); auth.setAccessKey(config["access_key"].as()); auth.setAccessSecret(config["access_secret"].as()); twitter::client client(auth); // Read in the forms file. std::map> groups; std::ifstream datafile(config["forms"].as()); if (!datafile.is_open()) { std::cout << "Could not find forms file." << std::endl; return 1; } bool newgroup = true; std::string line; std::string curgroup; while (getline(datafile, line)) { if (line.back() == '\r') { line.pop_back(); } if (newgroup) { curgroup = line; newgroup = false; } else { if (line.empty()) { newgroup = true; } else { groups[curgroup].push_back(line); } } } // Initialize the random number generator. std::random_device random_device; std::mt19937 random_engine{random_device()}; // Connect to the AcousticBrainz data file. hatkirby::database abdb( config["acoustic_datafile"].as(), hatkirby::dbmode::read); for (;;) { std::cout << "Generating tweet..." << std::endl; std::string mood = moods[std::uniform_int_distribution(0, moods.size()-1)(random_engine)]; hatkirby::row song = abdb.queryFirst( "SELECT title, artist FROM songs WHERE category = ? ORDER BY RANDOM() LIMIT 1", { mood }); std::string songTitle = mpark::get(song[0]); std::string songArtist = mpark::get(song[1]); std::string action = "{" + hatkirby::uppercase(mood) + "}"; int tknloc; while ((tknloc = action.find("{")) != std::string::npos) { std::string token = action.substr(tknloc+1, action.find("}")-tknloc-1); std::string modifier; int modloc; if ((modloc = token.find(":")) != std::string::npos) { modifier = token.substr(modloc+1); token = token.substr(0, modloc); } std::string canontkn; std::transform(std::begin(token), std::end(token), std::back_inserter(canontkn), [] (char ch) { return std::toupper(ch); }); std::string result; if (canontkn == "\\N") { result = "\n"; } else if (canontkn == "ARTIST") { result = songArtist; } else if (canontkn == "SONG") { result = "\"" + songTitle + "\""; } else if (groups.count(canontkn)) { auto& group = groups.at(canontkn); std::uniform_int_distribution dist(0, group.size() - 1); result = group[dist(random_engine)]; } else { std::cout << "Badly formatted forms file:" << std::endl; std::cout << "No such form as " + canontkn << std::endl; return 1; } if (modifier == "indefinite") { if ((result.length() > 1) && (isupper(result[0])) && (isupper(result[1]))) { result = "an " + result; } else if ((result[0] == 'a') || (result[0] == 'e') || (result[0] == 'i') || (result[0] == 'o') || (result[0] == 'u')) { result = "an " + result; } else { result = "a " + result; } } std::string finalresult; if (islower(token[0])) { std::transform(std::begin(result), std::end(result), std::back_inserter(finalresult), [] (char ch) { return std::tolower(ch); }); } else if (isupper(token[0]) && !isupper(token[1])) { auto words = hatkirby::split>(result, " "); for (auto& word : words) { word[0] = std::toupper(word[0]); } finalresult = hatkirby::implode(std::begin(words), std::end(words), " "); } else { finalresult = result; } action.replace(tknloc, action.find("}")-tknloc+1, finalresult); } if (action.size() <= 140) { try { client.updateStatus(action); std::cout << action << std::endl; } catch (const twitter::twitter_error& e) { std::cout << "Twitter error: " << e.what() << std::endl; } std::cout << "Waiting..." << std::endl; std::this_thread::sleep_for(std::chrono::hours(1)); std::cout << std::endl; } else { std::cout << "Tweet was too long, regenerating." << std::endl; } } }