// -*- c-basic-offset: 4 -*- /* Rosegarden A sequencer and musical notation editor. This program is Copyright 2000-2008 Guillaume Laurent , Chris Cannam , Richard Bown The moral right of the authors to claim authorship of this work has been asserted. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ // Accepts a file handle positioned somewhere in sample data (could // be at the start) along with the necessary meta information for // decoding (channels, bits per sample) and turns the sample data // into peak data and generates a BWF format peak chunk file. This // file can exist by itself (in the case this is being generated // by a WAV) or be accomodated inside a BWF format file. // // #include #include #include #include "PeakFileManager.h" #include "AudioFile.h" #include "RealTime.h" #include "PeakFile.h" namespace Rosegarden { PeakFileManager::PeakFileManager(): m_updatePercentage(0), m_currentPeakFile(0) {} PeakFileManager::~PeakFileManager() {} // Inserts PeakFile based on AudioFile if it doesn't already exist bool PeakFileManager::insertAudioFile(AudioFile *audioFile) { std::vector::iterator it; for (it = m_peakFiles.begin(); it != m_peakFiles.end(); it++) { if ((*it)->getAudioFile()->getId() == audioFile->getId()) return false; } /* std::cout << "PeakFileManager::insertAudioFile - creating peak file " << m_peakFiles.size() + 1 << " for \"" << audioFile->getFilename() << "\"" << std::endl; */ // Insert m_peakFiles.push_back(new PeakFile(audioFile)); return true; } // Removes peak file from PeakFileManager - doesn't affect audioFile // bool PeakFileManager::removeAudioFile(AudioFile *audioFile) { std::vector::iterator it; for (it = m_peakFiles.begin(); it != m_peakFiles.end(); it++) { if ((*it)->getAudioFile()->getId() == audioFile->getId()) { if (m_currentPeakFile == *it) m_currentPeakFile = 0; delete *it; m_peakFiles.erase(it); return true; } } return false; } // Auto-insert PeakFile into manager if it doesn't already exist // PeakFile* PeakFileManager::getPeakFile(AudioFile *audioFile) { std::vector::iterator it; PeakFile *ptr = 0; while (ptr == 0) { for (it = m_peakFiles.begin(); it != m_peakFiles.end(); it++) if ((*it)->getAudioFile()->getId() == audioFile->getId()) ptr = *it; // If nothing is found then insert and retry // if (ptr == 0) { // Insert - if we fail we return as empty // if (insertAudioFile(audioFile) == false) return 0; } } return ptr; } // Does a given AudioFile have a valid peak file or peak chunk? // bool PeakFileManager::hasValidPeaks(AudioFile *audioFile) { if (audioFile->getType() == WAV) { // Check external peak file PeakFile *peakFile = getPeakFile(audioFile); if (peakFile == 0) { #ifdef DEBUG_PEAKFILEMANAGER std::cerr << "PeakFileManager::hasValidPeaks - no peak file found" << std::endl; #endif return false; } // If it doesn't open and parse correctly if (peakFile->open() == false) return false; // or if the data is old or invalid if (peakFile->isValid() == false) return false; } else if (audioFile->getType() == BWF) { // check internal peak chunk } else { #ifdef DEBUG_PEAKFILEMANAGER std::cout << "PeakFileManager::hasValidPeaks - unsupported file type" << std::endl; #endif return false; } return true; } // Generate the peak file. Checks to see if peak file exists // already and if so if it's up to date. If it isn't then we // regenerate. // void PeakFileManager::generatePeaks(AudioFile *audioFile, unsigned short updatePercentage) { #ifdef DEBUG_PEAKFILEMANAGER std::cout << "PeakFileManager::generatePeaks - generating peaks for \"" << audioFile->getFilename() << "\"" << std::endl; #endif if (audioFile->getType() == WAV) { m_currentPeakFile = getPeakFile(audioFile); TQObject::connect(m_currentPeakFile, TQT_SIGNAL(setProgress(int)), this, TQT_SIGNAL(setProgress(int))); // Just write out a peak file // if (m_currentPeakFile->write(updatePercentage) == false) { std::cerr << "Can't write peak file for " << audioFile->getFilename() << " - no preview generated" << std::endl; throw BadPeakFileException (audioFile->getFilename(), __FILE__, __LINE__); } // The m_currentPeakFile might have been cancelled (see stopPreview()) // if (m_currentPeakFile) { // close writes out important things m_currentPeakFile->close(); m_currentPeakFile->disconnect(); } } else if (audioFile->getType() == BWF) { // write the file out and incorporate the peak chunk } else { #ifdef DEBUG_PEAKFILEMANAGER std::cerr << "PeakFileManager::generatePeaks - unsupported file type" << std::endl; #endif return ; } m_currentPeakFile = 0; } std::vector PeakFileManager::getPreview(AudioFile *audioFile, const RealTime &startTime, const RealTime &endTime, int width, bool showMinima) { std::vector rV; // If we've got no channels then the audio file hasn't // completed (recording) - so don't generate a preview // if (audioFile->getChannels() == 0) return rV; if (audioFile->getType() == WAV) { PeakFile *peakFile = getPeakFile(audioFile); // just write out a peak file try { peakFile->open(); rV = peakFile->getPreview(startTime, endTime, width, showMinima); } catch (SoundFile::BadSoundFileException e) { #ifdef DEBUG_PEAKFILEMANAGER std::cout << "PeakFileManager::getPreview " << "\"" << e << "\"" << std::endl; #else ; #endif throw BadPeakFileException(e); } } else if (audioFile->getType() == BWF) { // write the file out and incorporate the peak chunk } #ifdef DEBUG_PEAKFILEMANAGER else { std::cerr << "PeakFileManager::getPreview - unsupported file type" << std::endl; } #endif return rV; } void PeakFileManager::clear() { std::vector::iterator it; for (it = m_peakFiles.begin(); it != m_peakFiles.end(); it++) delete (*it); m_peakFiles.erase(m_peakFiles.begin(), m_peakFiles.end()); m_currentPeakFile = 0; } std::vector PeakFileManager::getSplitPoints(AudioFile *audioFile, const RealTime &startTime, const RealTime &endTime, int threshold, const RealTime &minTime) { PeakFile *peakFile = getPeakFile(audioFile); if (peakFile == 0) return std::vector(); return peakFile->getSplitPoints(startTime, endTime, threshold, minTime); } void PeakFileManager::stopPreview() { if (m_currentPeakFile) { // Stop processing // TQString fileName = TQString(m_currentPeakFile->getFilename().data()); m_currentPeakFile->setProcessingPeaks(false); m_currentPeakFile->disconnect(); TQFile file(fileName); bool removed = file.remove(); #ifdef DEBUG_PEAKFILEMANAGER if (removed) { std::cout << "PeakFileManager::stopPreview() - removed preview" << std::endl; } #endif //delete m_currentPeakFile; m_currentPeakFile = 0; } } } #include "PeakFileManager.moc"