// -*- c-indentation-style:"stroustrup" 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. */ #include #include #include #include "SoundFile.h" #include "RealTime.h" #ifndef _PEAKFILE_H_ #define _PEAKFILE_H_ // A PeakFile is generated to the BWF Supplement 3 Peak Envelope Chunk // format as defined here: // // http://www.ebu.ch/pmc_bwf.html // // To comply with BWF format files this chunk can be embedded into // the sample file itself (writeToHandle()) or used to generate an // external peak file (write()). At the moment the only type of file // with an embedded peak chunk is the BWF file itself. // // namespace Rosegarden { class AudioFile; typedef std::pair SplitPointPair; class PeakFile : public TQObject, public SoundFile { Q_OBJECT public: PeakFile(AudioFile *audioFile); virtual ~PeakFile(); // Copy constructor // PeakFile(const PeakFile &); // Standard file methods // virtual bool open(); virtual void close(); // Write to standard peak file // virtual bool write(); // Write the file, emit progress signal and process app events // virtual bool write(unsigned short updatePercentage); // Write peak chunk to file handle (BWF) // bool writeToHandle(std::ofstream *file, unsigned short updatePercentage); // Is the peak file valid and up to date? // bool isValid(); // Vital file stats // void printStats(); // Get a preview of a section of the audio file where that section // is "width" pixels. // std::vector getPreview(const RealTime &startTime, const RealTime &endTime, int width, bool showMinima); AudioFile* getAudioFile() { return m_audioFile; } const AudioFile* getAudioFile() const { return m_audioFile; } // Scan to a peak and scan forward a number of peaks // bool scanToPeak(int peak); bool scanForward(int numberOfPeaks); // Find threshold crossing points // std::vector getSplitPoints(const RealTime &startTime, const RealTime &endTime, int threshold, const RealTime &minLength); // Accessors // int getVersion() const { return m_version; } int getFormat() const { return m_format; } int getPointsPerValue() const { return m_pointsPerValue; } int getBlockSize() const { return m_blockSize; } int getChannels() const { return m_channels; } int getNumberOfPeaks() const { return m_numberOfPeaks; } int getPositionPeakOfPeaks() const { return m_positionPeakOfPeaks; } int getOffsetToPeaks() const { return m_offsetToPeaks; } int getBodyBytes() const { return m_bodyBytes; } TQDateTime getModificationTime() const { return m_modificationTime; } std::streampos getChunkStartPosition() const { return m_chunkStartPosition; } bool isProcessingPeaks() const { return m_keepProcessing; } void setProcessingPeaks(bool value) { m_keepProcessing = value; } signals: void setProgress(int); protected: // Write the peak header and the peaks themselves // void writeHeader(std::ofstream *file); void writePeaks(unsigned short updatePercentage, std::ofstream *file); // Get the position of a peak for a given time // int getPeak(const RealTime &time); // And the time of a peak // RealTime getTime(int peak); // Parse the header // void parseHeader(); AudioFile *m_audioFile; // Some Peak Envelope Chunk parameters // int m_version; int m_format; // bytes in peak value (1 or 2) int m_pointsPerValue; int m_blockSize; int m_channels; int m_numberOfPeaks; int m_positionPeakOfPeaks; int m_offsetToPeaks; int m_bodyBytes; // Peak timestamp // TQDateTime m_modificationTime; std::streampos m_chunkStartPosition; // For cacheing of peak information in memory we use the last query // parameters as our key to the cached data. // RealTime m_lastPreviewStartTime; RealTime m_lastPreviewEndTime; int m_lastPreviewWidth; bool m_lastPreviewShowMinima; std::vector m_lastPreviewCache; // Do we actually want to keep processing this peakfile? // In case we get a cancel. // bool m_keepProcessing; std::string m_peakCache; }; } #endif // _PEAKFILE_H_