k3b/libk3b/plugin/k3baudiodecoder.h

/* 
 *
 * $Id: k3baudiodecoder.h 619556 2007-01-03 17:38:12Z trueg $
 * Copyright (C) 2003 Sebastian Trueg <trueg@k3b.org>
 *
 * This file is part of the K3b project.
 * Copyright (C) 1998-2007 Sebastian Trueg <trueg@k3b.org>
 *
 * 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" for the exact licensing terms.
 */

#ifndef _K3B_AUDIO_DECODER_H_
#define _K3B_AUDIO_DECODER_H_


#include <k3bplugin.h>
#include <k3bmsf.h>
#include "k3b_export.h"
#include <kurl.h>



/**
 * Abstract streaming class for all the audio input.
 * Has to output data in the following format:
 * MSBLeft LSBLeft MSBRight LSBRight (big endian byte order)
 *
 * Instances are created by K3bAudioDecoderFactory
 **/
class LIBK3B_EXPORT K3bAudioDecoder : public TQObject
{
  TQ_OBJECT
  

 public:
  K3bAudioDecoder( TQObject* parent = 0, const char* name = 0 );
  virtual ~K3bAudioDecoder();


  /**
   * Set the file to decode. Be aware that one cannot rely 
   * on the file length until analyseFile() has been called.
   */
  void setFilename( const TQString& );

  /**
   * Since this may take a while depending on the filetype it is best
   * to run it in a separate thread.
   *
   * This method will also call initDecoder().
   */
  bool analyseFile();

  /**
   * @return true if the file was successfully analysed by analyseFile.
   */
  bool isValid() const;

  /**
   * Initialize the decoding.
   * Normally there is no need to call this as analyseFile already does so.
   */
  bool initDecoder();

  /**
   * initialize the decoding.
   * @param startOffset the number of frames to skip at the beginning of the file.
   *
   * This is the same as calling: initDecoder() and seek(startOffset)
   */
  bool initDecoder( const K3b::Msf& startOffset );

  enum MetaDataField {
    META_TITLE,
    META_ARTIST,
    META_SONGWRITER,
    META_COMPOSER,
    META_COMMENT
  };

  /**
   * This should at least support "Title" and "Artist"
   *
   * the default implementation returns the infos set via @p addMetaInfo
   * and uses KFileMetaInfo if none was set
   */ 
  virtual TQString metaInfo( MetaDataField );

  /**
   * The filetype is only used for informational purposes.
   * It is not necessary but highly recommended to implement this method
   * as it enhances usability.
   * @returne The filetype of the decoded file.
   */
  virtual TQString fileType() const { return TQString(); }

  /**
   * This method may be reimplemented to provide technical information about
   * the file. It should return localized strings.
   *
   * the default implementation returns the infos set via @p addTechnicalInfo
   */
  virtual TQStringList supportedTechnicalInfos() const;

  /**
   * The framework will call this method with all strings returned by the
   * supportedTechnicalInfos() method. It should return localized strings.
   *
   * the default implementation returns the infos set via @p addTechnicalInfo
   */
  virtual TQString technicalInfo( const TQString& ) const;

  /**
   * returnes -1 on error, 0 when finished, length of data otherwise
   * takes care of padding
   * calls decodeInternal() to actually decode data
   *
   * Fill the data buffer with maximal maxLen bytes.
   */
  int decode( char* data, int maxLen );

  /**
   * Cleanup after decoding like closing files.
   * Be aware that this is the counterpart to @p initDecoder().
   *
   * There might happen multiple calls to initDecoder() and cleanup(). 
   */
  virtual void cleanup();

  /**
   * Seek to the position pos.
   * Decoding is started new. That means that the data will be padded to
   * length() - pos.
   * returnes true on success;
   */
  bool seek( const K3b::Msf& pos );

  /**
   * Be aware that one cannot rely 
   * on the file length until analyseFile() has been called.
   */
  virtual K3b::Msf length() const { return m_length; }

  const TQString& filename() const { return m_fileName; }

  // some helper methods
  static void fromFloatTo16BitBeSigned( float* src, char* dest, int samples );
  static void from16bitBeSignedToFloat( char* src, float* dest, int samples );
  static void from8BitTo16BitBeSigned( char* src, char* dest, int samples );

 protected:
  /**
   * Use this method if using the default implementation of @p metaInfo
   */
  void addMetaInfo( MetaDataField, const TQString& );

  /**
   * Use this method if using the default implementation of @p technicalInfo
   * and @p supportedTechnicalInfos.
   */
  void addTechnicalInfo( const TQString&, const TQString& );

  /**
   * This will be called once before the first call to decodeInternal.
   * Use it to initialize decoding structures if necessary.
   *
   * There might happen multiple calls to initDecoder() and cleanup(). 
   */
  virtual bool initDecoderInternal() = 0;

  /**
   * This method should analyze the file to determine the exact length,
   * the samplerate in Hz, and the number of channels. The framework takes care of
   * resampling and converting mono to stereo data.
   * This method may be time consuming.
   */
  virtual bool analyseFileInternal( K3b::Msf& length, int& samplerate, int& channels ) = 0;

  /**
   * fill the already allocated data with maximal maxLen bytes of decoded samples.
   * The framework will take care of padding or cutting the decoded data as well
   * as resampling to 44100 Hz and converting mono samples to stereo.
   */
  virtual int decodeInternal( char* data, int maxLen ) = 0;

  virtual bool seekInternal( const K3b::Msf& ) { return false; }

 private:
  int resample( char* data, int maxLen );

  TQString m_fileName;
  K3b::Msf m_length;

  class Private;
  Private* d;
};



/**
 * PluginFactory that needs to be subclassed in order to create an
 * audio decoder.
 * We need this because K3b uses multiple AudioDecoders of the same type at the 
 * same time.
 */
class LIBK3B_EXPORT K3bAudioDecoderFactory : public K3bPlugin
{
  TQ_OBJECT
  

 public:
  K3bAudioDecoderFactory( TQObject* parent = 0, const char* name = 0 )
    : K3bPlugin( parent, name ) {
  }

  virtual ~K3bAudioDecoderFactory() {
  }

  TQString group() const { return "AudioDecoder"; }

  /**
   * K3b uses this flag to decide which plugins to test first
   * when searching for an audio decoder.
   *
   * Decoders that are specialized on one format are favored over
   * multi-format-decoders.
   */
  virtual bool multiFormatDecoder() const { return false; }

  /**
   * This is the most important method of the AudioDecoderFactory.
   * It is used to determine if a certain file can be decoded by the
   * decoder this factory creates.
   * It is important that this method does not work lazy since it will
   * be called with urls to every kind of files and if it returns true
   * a decoder of this type is used for the file.
   */
  virtual bool canDecode( const KURL& filename ) = 0;

  virtual K3bAudioDecoder* createDecoder( TQObject* parent = 0, const char* name = 0 ) const = 0;

  /**
   * Searching for an audiodecoder for @p filename.
   *
   * It first searches the single format decoder and the the multiformat decoder.
   *
   * @returns a newly created decoder on success and 0 when no decoder could be found.
   */
  static K3bAudioDecoder* createDecoder( const KURL& url );
};

#endif