Exemple #1
0
Kumu::PathList_t&
Kumu::FindInPath(const IPathMatch& Pattern, const std::string& SearchDir,
		  Kumu::PathList_t& FoundPaths, bool one_shot, char separator)
{
  char name_buf[MaxFilePath];
  DirScanner Dir;

  if ( KM_SUCCESS(Dir.Open(SearchDir.c_str())) )
    {
      while ( KM_SUCCESS(Dir.GetNext(name_buf)) )
	{
	  if ( name_buf[0] == '.' ) continue; // no hidden files
	  std::string tmp_path = SearchDir + separator + name_buf;

	  if ( PathIsDirectory(tmp_path.c_str()) )
	    FindInPath(Pattern, tmp_path, FoundPaths, one_shot, separator);
	  
	  else if ( Pattern.Match(name_buf) )
	    {
	      FoundPaths.push_back(SearchDir + separator + name_buf);
	      if ( one_shot )
		break;
	    }
	}
    }

  return FoundPaths;
}
Exemple #2
0
Result_t
h__DeletePath(const std::string& pathname)
{
  if ( pathname.empty() )
    return RESULT_NULL_STR;

  Result_t result = RESULT_OK;

  if ( ! PathIsDirectory(pathname) )
    {
      result = DeleteFile(pathname);
    }
  else
    {
      {
	DirScanner TestDir;
	char       next_file[Kumu::MaxFilePath];
	result = TestDir.Open(pathname.c_str());

	while ( KM_SUCCESS(result) && KM_SUCCESS(TestDir.GetNext(next_file)) )
	  {
	    if ( next_file[0] == '.' )
	      {
		if ( next_file[1] ==  0 )
		  continue; // don't delete 'this'
		
		if ( next_file[1] == '.' && next_file[2] ==  0 )
		  continue; // don't delete 'this' parent
	      }

	    result = h__DeletePath(pathname + std::string("/") + next_file);
	  }
      }

      if ( _rmdir(pathname.c_str()) != 0 )
	{
	  switch ( errno )
	    {
	    case ENOENT:
	    case ENOTDIR:
	      result = RESULT_NOTAFILE;
	      break;

	    case EROFS:
	    case EBUSY:
	    case EACCES:
	    case EPERM:
	      result = RESULT_NO_PERM;
	      break;

	    default:
	      DefaultLogSink().Error("DeletePath %s: %s\n", pathname.c_str(), strerror(errno));
	      result = RESULT_FAIL;
	    }
	}
    }

  return result;
}
Result_t
ASDCP::AtmosSyncChannelMixer::OpenRead(const Kumu::PathList_t& argv, const Rational& PictureRate)
{
  Result_t result = RESULT_OK;
  PathList_t::iterator fi;
  Kumu::PathList_t file_list;
  PCM::AudioDescriptor tmpDesc;

  if ( argv.size() == 1 && PathIsDirectory(argv.front()) )
  {
    DirScanner Dir;
    char name_buf[MaxFilePath];
    result = Dir.Open(argv.front().c_str());

    if ( KM_SUCCESS(result) )
      result = Dir.GetNext(name_buf);

    while ( KM_SUCCESS(result) )
	{
	  if ( name_buf[0] != '.' ) // no hidden files
      {
        std::string tmp_path = argv.front() + "/" + name_buf;
        file_list.push_back(tmp_path);
      }

	  result = Dir.GetNext(name_buf);
	}

    if ( result == RESULT_ENDOFFILE )
	{
	  result = RESULT_OK;
	  file_list.sort();
	}
  }
  else
  {
    file_list = argv;
  }

  for ( fi = file_list.begin(); KM_SUCCESS(result) && fi != file_list.end(); ++fi )
  {
    result = OpenRead(*fi, PictureRate);
  }

  if ( ASDCP_SUCCESS(result) && (m_ChannelCount < ATMOS::SYNC_CHANNEL))
  {
    // atmos sync channel has not been added
    result = MixInSilenceChannels();
    if ( ASDCP_SUCCESS(result) )
      result = MixInAtmosSyncChannel();
  }

  if ( ASDCP_SUCCESS(result) )
  {
    m_ADesc.ChannelCount = m_ChannelCount;
    m_ADesc.AvgBps = (ui32_t)(ceil(m_ADesc.AudioSamplingRate.Quotient()) * m_ADesc.BlockAlign);
  }
  else
  {
    clear();
  }

  return result;
}
Result_t
ASDCP::PCMParserList::OpenRead(const Kumu::PathList_t& argv, const Rational& PictureRate)
{
  Result_t result = RESULT_OK;
  PathList_t::iterator fi;
  Kumu::PathList_t file_list;

  if ( argv.size() == 1 && PathIsDirectory(argv.front()) )
    {
      DirScanner Dir;
      char name_buf[MaxFilePath];
      result = Dir.Open(argv.front().c_str());

      if ( KM_SUCCESS(result) )
	result = Dir.GetNext(name_buf);

      while ( KM_SUCCESS(result) )
	{
	  if ( name_buf[0] != '.' ) // no hidden files
	    {
	      std::string tmp_path = argv.front() + "/" + name_buf;
	      file_list.push_back(tmp_path);
	    }

	  result = Dir.GetNext(name_buf);
	}

      if ( result == RESULT_ENDOFFILE )
	{
	  result = RESULT_OK;
	  file_list.sort();
	}
    }
  else
    {
      file_list = argv;
    }

  for ( fi = file_list.begin(); KM_SUCCESS(result) && fi != file_list.end(); ++fi )
    {
      mem_ptr<ParserInstance> I = new ParserInstance;
      result = I->OpenRead(fi->c_str(), PictureRate);

      if ( ASDCP_SUCCESS(result) )
	{
	  if ( fi == file_list.begin() )
	    {
	      m_ADesc = I->ADesc;
	    }
	  else
	    {
	      if ( I->ADesc.AudioSamplingRate != m_ADesc.AudioSamplingRate )
		{
		  DefaultLogSink().Error("AudioSamplingRate mismatch in PCM parser list.");
		  return RESULT_FORMAT;
		}

	      if ( I->ADesc.QuantizationBits  != m_ADesc.QuantizationBits )
		{
		  DefaultLogSink().Error("QuantizationBits mismatch in PCM parser list.");
		  return RESULT_FORMAT;
		}

	      if ( I->ADesc.ContainerDuration < m_ADesc.ContainerDuration )
		m_ADesc.ContainerDuration = I->ADesc.ContainerDuration;

	      m_ADesc.BlockAlign += I->ADesc.BlockAlign;
	    }

	  m_ChannelCount += I->ADesc.ChannelCount;
	}

      if ( ASDCP_SUCCESS(result) )
	result = I->FB.Capacity(PCM::CalcFrameBufferSize(m_ADesc));

      if ( ASDCP_SUCCESS(result) )
	{
	  push_back(I);
	  I.release();
	}
    }

  if ( ASDCP_SUCCESS(result) )
    {
      m_ADesc.ChannelCount = m_ChannelCount;
      m_ADesc.AvgBps = (ui32_t)(ceil(m_ADesc.AudioSamplingRate.Quotient()) * m_ADesc.BlockAlign);
    }
  else
    {
      clear();
    }

  return result;
}