// -*- 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 an AudioFIle and turns the sample data into peak data for // storage in a peak file or a BWF format peak chunk. Pixmaps or // sample data is returned to callers on demand using these cached // values. // // #ifndef _PEAKFILEMANAGER_H_ #define _PEAKFILEMANAGER_H_ #include #include #include #include #include #include "PeakFile.h" namespace Rosegarden { class AudioFile; class RealTime; class PeakFileManager : public TQObject { Q_OBJECT TQ_OBJECT public: // updatePercentage tells this object how often to throw a // percentage complete message - active between 0-100 only // if it's set to 5 then we send an update exception every // five percent. The percentage complete is sent with // each exception. // PeakFileManager(); virtual ~PeakFileManager(); class BadPeakFileException : public Exception { public: BadPeakFileException(std::string path) : Exception("Bad peak file " + path), m_path(path) { } BadPeakFileException(std::string path, std::string file, int line) : Exception("Bad peak file " + path, file, line), m_path(path) { } BadPeakFileException(const SoundFile::BadSoundFileException &e) : Exception("Bad peak file (malformed audio?) " + e.getPath()), m_path(e.getPath()) { } ~BadPeakFileException() throw() { } std::string getPath() const { return m_path; } private: std::string m_path; }; private: PeakFileManager(const PeakFileManager &pFM); PeakFileManager& operator=(const PeakFileManager &); public: // Check that a given audio file has a valid and up to date // peak file or peak chunk. // bool hasValidPeaks(AudioFile *audioFile); // throw BadSoundFileException, BadPeakFileException // Generate a peak file from file details - if the peak file already // exists _and_ it's up to date then we don't do anything. For BWF // files we generate an internal peak chunk. // // void generatePeaks(AudioFile *audioFile, unsigned short updatePercentage); // throw BadSoundFileException, BadPeakFileException // Get a vector of floats as the preview // std::vector getPreview(AudioFile *audioFile, const RealTime &startTime, const RealTime &endTime, int width, bool showMinima); // throw BadSoundFileException, BadPeakFileException // Remove cache for a single audio file (if audio file to be deleted etc) // bool removeAudioFile(AudioFile *audioFile); // Clear down // void clear(); // Get split points for a peak file // std::vector getSplitPoints(AudioFile *audioFile, const RealTime &startTime, const RealTime &endTime, int threshold, const RealTime &minTime); std::vector::const_iterator begin() const { return m_peakFiles.begin(); } std::vector::const_iterator end() const { return m_peakFiles.end(); } // Stop a preview during its build // void stopPreview(); signals: void setProgress(int); protected: // Add and remove from our PeakFile cache // bool insertAudioFile(AudioFile *audioFile); PeakFile* getPeakFile(AudioFile *audioFile); std::vector m_peakFiles; unsigned short m_updatePercentage; // how often we send updates // Whilst processing - the current PeakFile // PeakFile *m_currentPeakFile; }; } #endif // _PEAKFILEMANAGER_H_