#include #include #include #include #include #include "audioInput/WaveFileReader.h" #include "phoneExtraction.h" #include "mouthAnimation.h" #include "appInfo.h" #include "NiceCmdLineOutput.h" #include "ProgressBar.h" using std::exception; using std::string; using std::unique_ptr; using std::map; using std::chrono::duration; using std::chrono::duration_cast; using boost::filesystem::path; using boost::property_tree::ptree; string getMessage(const exception& e) { string result(e.what()); try { std::rethrow_if_nested(e); } catch(const exception& innerException) { result += "\n" + getMessage(innerException); } catch(...) {} return result; } unique_ptr createAudioStream(path filePath) { try { return unique_ptr(new WaveFileReader(filePath)); } catch (...) { std::throw_with_nested(std::runtime_error("Could not open sound file.") ); } } string formatDuration(duration seconds) { return fmt::format("{0:.2f}", seconds.count()); } ptree createXmlTree(const path& filePath, const map& phones, const map& shapes) { ptree tree; // Add sound file path tree.add("rhubarbResult.info.soundFile", filePath.string()); // Add phones for (auto it = phones.cbegin(), itNext = ++phones.cbegin(); itNext != phones.cend(); ++it, ++itNext) { auto pair = *it; auto nextPair = *itNext; ptree& phoneElement = tree.add("rhubarbResult.phones.phone", pair.second); phoneElement.add(".start", formatDuration(pair.first)); phoneElement.add(".duration", formatDuration(nextPair.first - pair.first)); } // Add mouth cues for (auto it = shapes.cbegin(), itNext = ++shapes.cbegin(); itNext != shapes.cend(); ++it, ++itNext) { auto pair = *it; auto nextPair = *itNext; ptree& mouthCueElement = tree.add("rhubarbResult.mouthCues.mouthCue", pair.second); mouthCueElement.add(".start", formatDuration(pair.first)); mouthCueElement.add(".duration", formatDuration(nextPair.first - pair.first)); } return tree; } int main(int argc, char *argv[]) { // Define command-line parameters const char argumentValueSeparator = ' '; TCLAP::CmdLine cmd(appName, argumentValueSeparator, appVersion); cmd.setExceptionHandling(false); cmd.setOutput(new NiceCmdLineOutput()); TCLAP::UnlabeledValueArg inputFileName("inputFile", "The input file. Must be a sound file in WAVE format.", true, "", "string", cmd); try { // Parse command line cmd.parse(argc, argv); // Detect phones const int columnWidth = 30; std::cerr << std::left; std::cerr << std::setw(columnWidth) << "Analyzing input file"; map phones; { ProgressBar progressBar; phones = detectPhones([&inputFileName]() { return createAudioStream(inputFileName.getValue()); }, progressBar); } std::cerr << "Done" << std::endl; // Generate mouth shapes std::cerr << std::setw(columnWidth) << "Generating mouth shapes"; map shapes = animate(phones); std::cerr << "Done" << std::endl; std::cerr << std::endl; // Print XML ptree xmlTree = createXmlTree(inputFileName.getValue(), phones, shapes); boost::property_tree::write_xml(std::cout, xmlTree, boost::property_tree::xml_writer_settings(' ', 2)); return 0; } catch (TCLAP::ArgException& e) { // Error parsing command-line args. cmd.getOutput()->failure(cmd, e); return 1; } catch (TCLAP::ExitException&) { // A built-in TCLAP command (like --help) has finished. Exit application. return 0; } catch (const exception& e) { // Generic error std::cerr << "An error occurred. " << getMessage(e); return 1; } }