Пример #1
0
void ControlToolBar::StartScrolling()
{
   using Mode = AudacityProject::PlaybackScroller::Mode;
   const auto project = GetActiveProject();
   if (project) {
      auto mode = Mode::Centered;

      if (gAudioIO->GetNumCaptureChannels() > 0) {
         // recording

         // Display a fixed recording head while scrolling the waves continuously.
         // If you overdub, you may want to anticipate some context in existing tracks,
         // so center the head.  If not, put it rightmost to display as much wave as we can.
         bool duplex;
         gPrefs->Read(wxT("/AudioIO/Duplex"), &duplex, true);

         if (duplex) {
            // See if there is really anything being overdubbed
            if (gAudioIO->GetNumPlaybackChannels() == 0)
               // No.
               duplex = false;
         }

         if (!duplex)
            mode = Mode::Right;
      }

      project->GetPlaybackScroller().Activate(mode);
   }
}
Пример #2
0
void ControlToolBar::StopScrolling()
{
   const auto project = GetActiveProject();
   if(project)
      project->GetPlaybackScroller().Activate
         (AudacityProject::PlaybackScroller::Mode::Off);
}
Пример #3
0
void ControlToolBar::OnPlay(wxCommandEvent & WXUNUSED(evt))
{
   auto doubleClicked = mPlay->IsDoubleClicked();
   mPlay->ClearDoubleClicked();

   auto p = GetActiveProject();

   if (doubleClicked)
      p->GetPlaybackScroller().Activate(true);
   else {
      if (!CanStopAudioStream())
         return;

      StopPlaying();

      if (p) p->TP_DisplaySelection();

      PlayDefault();
      UpdateStatusBar(p);
   }
}
Пример #4
0
void ControlToolBar::OnRecord(wxCommandEvent &evt)
{
   auto doubleClicked = mRecord->IsDoubleClicked();
   mRecord->ClearDoubleClicked();

   if (doubleClicked) {
      // Display a fixed recording head while scrolling the waves continuously.
      // If you overdub, you may want to anticipate some context in existing tracks,
      // so center the head.  If not, put it rightmost to display as much wave as we can.
      const auto project = GetActiveProject();
      bool duplex;
      gPrefs->Read(wxT("/AudioIO/Duplex"), &duplex, true);

      if (duplex) {
         // See if there is really anything being overdubbed
         if (gAudioIO->GetNumPlaybackChannels() == 0)
            // No.
            duplex = false;
      }

      using Mode = AudacityProject::PlaybackScroller::Mode;
      project->GetPlaybackScroller().Activate(duplex ? Mode::Centered : Mode::Right);
      return;
   }

   if (gAudioIO->IsBusy()) {
      if (!CanStopAudioStream() || 0 == gAudioIO->GetNumCaptureChannels())
         mRecord->PopUp();
      else
         mRecord->PushDown();
      return;
   }
   AudacityProject *p = GetActiveProject();

   if( evt.GetInt() == 1 ) // used when called by keyboard shortcut. Default (0) ignored.
      mRecord->SetShift(true);
   if( evt.GetInt() == 2 )
      mRecord->SetShift(false);

   SetRecord(true, mRecord->WasShiftDown());

   if (p) {
      TrackList *trackList = p->GetTracks();
      TrackListIterator it(trackList);
      if(it.First() == NULL)
         mRecord->SetShift(false);
      double t0 = p->GetSel0();
      double t1 = p->GetSel1();
      if (t1 == t0)
         t1 = 1000000000.0;     // record for a long, long time (tens of years)

      /* TODO: set up stereo tracks if that is how the user has set up
       * their preferences, and choose sample format based on prefs */
      WaveTrackArray newRecordingTracks, playbackTracks;
#ifdef EXPERIMENTAL_MIDI_OUT
      NoteTrackArray midiTracks;
#endif
      bool duplex;
      gPrefs->Read(wxT("/AudioIO/Duplex"), &duplex, true);

      if(duplex){
         playbackTracks = trackList->GetWaveTrackArray(false);
#ifdef EXPERIMENTAL_MIDI_OUT
         midiTracks = trackList->GetNoteTrackArray(false);
#endif
     }
      else {
         playbackTracks = WaveTrackArray();
#ifdef EXPERIMENTAL_MIDI_OUT
         midiTracks = NoteTrackArray();
#endif
     }

      // If SHIFT key was down, the user wants append to tracks
      int recordingChannels = 0;
      TrackList tracksCopy{};
      bool tracksCopied = false;
      bool shifted = mRecord->WasShiftDown();
      if (shifted) {
         bool sel = false;
         double allt0 = t0;

         // Find the maximum end time of selected and all wave tracks
         // Find whether any tracks were selected.  (If any are selected,
         // record only into them; else if tracks exist, record into all.)
         for (Track *tt = it.First(); tt; tt = it.Next()) {
            if (tt->GetKind() == Track::Wave) {
               WaveTrack *wt = static_cast<WaveTrack *>(tt);
               if (wt->GetEndTime() > allt0) {
                  allt0 = wt->GetEndTime();
               }

               if (tt->GetSelected()) {
                  sel = true;
                  if (wt->GetEndTime() > t0) {
                     t0 = wt->GetEndTime();
                  }
               }
            }
         }

         // Use end time of all wave tracks if none selected
         if (!sel) {
            t0 = allt0;
         }

         // Pad selected/all wave tracks to make them all the same length
         // Remove recording tracks from the list of tracks for duplex ("overdub")
         // playback.
         for (Track *tt = it.First(); tt; tt = it.Next()) {
            if (tt->GetKind() == Track::Wave && (tt->GetSelected() || !sel)) {
               WaveTrack *wt = static_cast<WaveTrack *>(tt);
               if (duplex) {
                  auto end = playbackTracks.end();
                  auto it = std::find(playbackTracks.begin(), end, wt);
                  if (it != end)
                     playbackTracks.erase(it);
               }
               t1 = wt->GetEndTime();
               if (t1 < t0) {
                  if (!tracksCopied) {
                     tracksCopied = true;
                     tracksCopy = *trackList;
                  }

                  auto newTrack = p->GetTrackFactory()->NewWaveTrack();
                  newTrack->InsertSilence(0.0, t0 - t1);
                  newTrack->Flush();
                  wt->Clear(t1, t0);
                  bool bResult = wt->Paste(t1, newTrack.get());
                  wxASSERT(bResult); // TO DO: Actually handle this.
                  wxUnusedVar(bResult);
               }
               newRecordingTracks.push_back(wt);
            }
         }

         t1 = 1000000000.0;     // record for a long, long time (tens of years)
      }
      else {
         bool recordingNameCustom, useTrackNumber, useDateStamp, useTimeStamp;
         wxString defaultTrackName, defaultRecordingTrackName;
         int numTracks = 0;

         for (Track *tt = it.First(); tt; tt = it.Next()) {
            if (tt->GetKind() == Track::Wave && !tt->GetLinked())
               numTracks++;
         }
         numTracks++;
         
         recordingChannels = gPrefs->Read(wxT("/AudioIO/RecordChannels"), 2);

         gPrefs->Read(wxT("/GUI/TrackNames/RecordingNameCustom"), &recordingNameCustom, false);
         gPrefs->Read(wxT("/GUI/TrackNames/TrackNumber"), &useTrackNumber, false);
         gPrefs->Read(wxT("/GUI/TrackNames/DateStamp"), &useDateStamp, false);
         gPrefs->Read(wxT("/GUI/TrackNames/TimeStamp"), &useTimeStamp, false);
         /* i18n-hint: The default name for an audio track. */
         gPrefs->Read(wxT("/GUI/TrackNames/DefaultTrackName"),&defaultTrackName, _("Audio Track"));
         gPrefs->Read(wxT("/GUI/TrackNames/RecodingTrackName"), &defaultRecordingTrackName, defaultTrackName);

         wxString baseTrackName = recordingNameCustom? defaultRecordingTrackName : defaultTrackName;

         for (int c = 0; c < recordingChannels; c++) {
            auto newTrack = p->GetTrackFactory()->NewWaveTrack();

            newTrack->SetOffset(t0);
            wxString nameSuffix = wxString(wxT(""));

            if (useTrackNumber) {
               nameSuffix += wxString::Format(wxT("%d"), numTracks + c);
            }

            if (useDateStamp) {
               if (!nameSuffix.IsEmpty()) {
                  nameSuffix += wxT("_");
               }
               nameSuffix += wxDateTime::Now().FormatISODate();
            }

            if (useTimeStamp) {
               if (!nameSuffix.IsEmpty()) {
                  nameSuffix += wxT("_");
               }
               nameSuffix += wxDateTime::Now().FormatISOTime();
            }

            // ISO standard would be nice, but ":" is unsafe for file name.
            nameSuffix.Replace(wxT(":"), wxT("-"));

            if (baseTrackName.IsEmpty()) {
               newTrack->SetName(nameSuffix);
            }
            else if (nameSuffix.IsEmpty()) {
               newTrack->SetName(baseTrackName);
            }
            else {
               newTrack->SetName(baseTrackName + wxT("_") + nameSuffix);
            }

            if (recordingChannels > 2)
              newTrack->SetMinimized(true);

            if (recordingChannels == 2) {
               if (c == 0) {
                  newTrack->SetChannel(Track::LeftChannel);
                  newTrack->SetLinked(true);
               }
               else {
                  newTrack->SetChannel(Track::RightChannel);
               }
            }
            else {
               newTrack->SetChannel( Track::MonoChannel );
            }

            // Let the list hold the track, and keep a pointer to it
            newRecordingTracks.push_back(
               static_cast<WaveTrack*>(
                  trackList->Add(
                     std::move(newTrack))));
         }
      }

      //Automated Input Level Adjustment Initialization
      #ifdef EXPERIMENTAL_AUTOMATED_INPUT_LEVEL_ADJUSTMENT
         gAudioIO->AILAInitialize();
      #endif

      AudioIOStartStreamOptions options(p->GetDefaultPlayOptions());
      int token = gAudioIO->StartStream(playbackTracks,
                                        newRecordingTracks,
#ifdef EXPERIMENTAL_MIDI_OUT
                                        midiTracks,
#endif
                                        t0, t1, options);

      bool success = (token != 0);

      if (success) {
         p->SetAudioIOToken(token);
         mBusyProject = p;
      }
      else {
         if (shifted) {
            // Restore the tracks to remove any inserted silence
            if (tracksCopied)
               *trackList = std::move(tracksCopy);
         }
         else {
            // msmeyer: Delete recently added tracks if opening stream fails
            for (unsigned int i = 0; i < newRecordingTracks.size(); i++) {
               trackList->Remove(newRecordingTracks[i]);
            }
         }

         // msmeyer: Show error message if stream could not be opened
         wxMessageBox(_("Error while opening sound device. Please check the recording device settings and the project sample rate."),
                      _("Error"), wxOK | wxICON_EXCLAMATION, this);

         SetPlay(false);
         SetStop(false);
         SetRecord(false);
      }
   }
   UpdateStatusBar(GetActiveProject());
}