Ejemplo n.º 1
0
bool EffectAutoDuck::Init()
{
   mControlTrack = NULL;

   TrackListIterator iter(inputTracks());
   Track *t = iter.First();

   bool lastWasSelectedWaveTrack = false;
   const WaveTrack *controlTrackCandidate = NULL;

   while(t)
   {
      if (lastWasSelectedWaveTrack && !t->GetSelected() &&
          t->GetKind() == Track::Wave)
      {
         // This could be the control track, so remember it
         controlTrackCandidate = (WaveTrack*)t;
      }

      lastWasSelectedWaveTrack = false;

      if (t->GetSelected())
      {
         if (t->GetKind() == Track::Wave)
         {
            lastWasSelectedWaveTrack = true;
         }
         else
         {
            Effect::MessageBox(
               _("You selected a track which does not contain audio. AutoDuck can only process audio tracks."),
               /* i18n-hint: Auto duck is the name of an effect that 'ducks' (reduces the volume)
                * of the audio automatically when there is sound on another track.  Not as
                * in 'Donald-Duck'!*/
               wxICON_ERROR);
            return false;
         }
      }

      t = iter.Next();
   }

   if (!controlTrackCandidate)
   {
      Effect::MessageBox(
         _("Auto Duck needs a control track which must be placed below the selected track(s)."),
         wxICON_ERROR);
      return false;
   }

   mControlTrack = controlTrackCandidate;

   return true;
}
Ejemplo n.º 2
0
// Returns a state constant.
wxAccStatus TrackPanelAx::GetState( int childId, long* state )
{
#if defined(__WXMSW__)
   if( childId > 0 )
   {
      Track *t = FindTrack( childId );

      *state = wxACC_STATE_SYSTEM_FOCUSABLE | wxACC_STATE_SYSTEM_SELECTABLE;
      if (t)
      {
         if( t == mFocusedTrack )
         {
            *state |= wxACC_STATE_SYSTEM_FOCUSED;
         }

         if( t->GetSelected() )
         {
            *state |= wxACC_STATE_SYSTEM_SELECTED;
         }
      }
   }
   else     // childId == wxACC_SELF
   {
      *state = wxACC_STATE_SYSTEM_FOCUSABLE + wxACC_STATE_SYSTEM_FOCUSED;
   }
#endif

#if defined(__WXMAC__)
   *state = wxACC_STATE_SYSTEM_FOCUSABLE | wxACC_STATE_SYSTEM_SELECTABLE;

   if( childId > 0 )
   {
      Track *t = FindTrack( childId );

      if (t)
      {
         if( t == mFocusedTrack )
         {
            *state |= wxACC_STATE_SYSTEM_FOCUSED;
         }

         if( t->GetSelected() )
         {
            *state |= wxACC_STATE_SYSTEM_SELECTED;
         }
      }
   }
#endif

   return wxACC_OK;
}
Ejemplo n.º 3
0
//
// private methods
//
// Use these two methods to copy the input tracks to mOutputTracks, if 
// doing the processing on them, and replacing the originals only on success (and not cancel).
// Copy the group tracks that have tracks selected
void Effect::CopyInputTracks(int trackType)
{
   // Reset map
   mIMap.Clear();
   mOMap.Clear();

   mOutputTracks = new TrackList();
   mOutputTracksType = trackType;

   //iterate over tracks of type trackType (All types if Track::All)
   TrackListOfKindIterator aIt(trackType, mTracks);
   t2bHash added;

   for (Track *aTrack = aIt.First(); aTrack; aTrack = aIt.Next()) {

      // Include selected tracks, plus sync-lock selected tracks for Track::All.
      if (aTrack->GetSelected() ||
            (trackType == Track::All && aTrack->IsSyncLockSelected()))
      {
         Track *o = aTrack->Duplicate();
         mOutputTracks->Add(o);
         mIMap.Add(aTrack);
         mOMap.Add(o);
      }
   }
}
Ejemplo n.º 4
0
int TrackList::GetNumExportChannels(bool selectionOnly)
{
   /* counters for tracks panned different places */
   int numLeft = 0;
   int numRight = 0;
   int numMono = 0;
   /* track iteration kit */
   Track *tr;
   TrackListIterator iter;

   for (tr = iter.First(this); tr != NULL; tr = iter.Next()) {

      // Want only unmuted wave tracks.
      if ((tr->GetKind() != Track::Wave) || tr->GetMute())
         continue;

      // do we only want selected ones?
      if (selectionOnly && !(tr->GetSelected())) {
         //want selected but this one is not
         continue;
      }

      // Found a left channel
      if (tr->GetChannel() == Track::LeftChannel) {
         numLeft++;
      }

      // Found a right channel
      else if (tr->GetChannel() == Track::RightChannel) {
         numRight++;
      }

      // Found a mono channel, but it may be panned
      else if (tr->GetChannel() == Track::MonoChannel) {
         float pan = ((WaveTrack*)tr)->GetPan();

         // Figure out what kind of channel it should be
         if (pan == -1.0) {   // panned hard left
            numLeft++;
         }
         else if (pan == 1.0) {  // panned hard right
            numRight++;
         }
         else if (pan == 0) { // panned dead center
            numMono++;
         }
         else {   // panned somewhere else
            numLeft++;
            numRight++;
         }
      }
   }

   // if there is stereo content, report 2, else report 1
   if (numRight > 0 || numLeft > 0) {
      return 2;
   }

   return 1;
}
Ejemplo n.º 5
0
void FreqWindow::GetAudio()
{
   int selcount = 0;
   int i;
   bool warning = false;
   //wxLogDebug(wxT("Entering FreqWindow::GetAudio()"));
   TrackListIterator iter(p->GetTracks());
   Track *t = iter.First();
   while (t) {
      if (t->GetSelected() && t->GetKind() == Track::Wave) {
         WaveTrack *track = (WaveTrack *)t;
         if (selcount==0) {
            mRate = track->GetRate();
            sampleCount start, end;
            start = track->TimeToLongSamples(p->mViewInfo.sel0);
            end = track->TimeToLongSamples(p->mViewInfo.sel1);
            mDataLen = (sampleCount)(end - start);
            if (mDataLen > 10485760) {
               warning = true;
               mDataLen = 10485760;
            }
            if (mBuffer) {
               delete [] mBuffer;
            }
            mBuffer = new float[mDataLen];
            track->Get((samplePtr)mBuffer, floatSample, start, mDataLen);
         }
         else {
            if (track->GetRate() != mRate) {
               wxMessageBox(_("To plot the spectrum, all selected tracks must be the same sample rate."));
               delete[] mBuffer;
               mBuffer = NULL;
               return;
            }
            sampleCount start;
            start = track->TimeToLongSamples(p->mViewInfo.sel0);
            float *buffer2 = new float[mDataLen];
            track->Get((samplePtr)buffer2, floatSample, start, mDataLen);
            for(i=0; i<mDataLen; i++)
               mBuffer[i] += buffer2[i];
            delete[] buffer2;
         }
         selcount++;
      }
      t = iter.Next();
   }
   
   if (selcount == 0)
      return;

   if (warning) {
      wxString msg;
      msg.Printf(_("Too much audio was selected.  Only the first %.1f seconds of audio will be analyzed."),
                          (mDataLen / mRate));
      //wxLogDebug(wxT("About to show length warning message"));
      wxMessageBox(msg);
      //wxLogDebug(wxT("Length warning message done"));
   }
   //wxLogDebug(wxT("Leaving FreqWindow::GetAudio()"));
}
Ejemplo n.º 6
0
void FreqWindow::GetAudio()
{
   mData.reset();
   mDataLen = 0;

   int selcount = 0;
   bool warning = false;
   TrackListIterator iter(p->GetTracks());
   Track *t = iter.First();
   while (t) {
      if (t->GetSelected() && t->GetKind() == Track::Wave) {
         WaveTrack *track = (WaveTrack *)t;
         if (selcount==0) {
            mRate = track->GetRate();
            auto start = track->TimeToLongSamples(p->mViewInfo.selectedRegion.t0());
            auto end = track->TimeToLongSamples(p->mViewInfo.selectedRegion.t1());
            auto dataLen = end - start;
            if (dataLen > 10485760) {
               warning = true;
               mDataLen = 10485760;
            }
            else
               // dataLen is not more than 10 * 2 ^ 20
               mDataLen = dataLen.as_size_t();
            mData = Floats{ mDataLen };
            // Don't allow throw for bad reads
            track->Get((samplePtr)mData.get(), floatSample, start, mDataLen,
                       fillZero, false);
         }
         else {
            if (track->GetRate() != mRate) {
               AudacityMessageBox(_("To plot the spectrum, all selected tracks must be the same sample rate."));
               mData.reset();
               mDataLen = 0;
               return;
            }
            auto start = track->TimeToLongSamples(p->mViewInfo.selectedRegion.t0());
            Floats buffer2{ mDataLen };
            // Again, stop exceptions
            track->Get((samplePtr)buffer2.get(), floatSample, start, mDataLen,
                       fillZero, false);
            for (size_t i = 0; i < mDataLen; i++)
               mData[i] += buffer2[i];
         }
         selcount++;
      }
      t = iter.Next();
   }

   if (selcount == 0)
      return;

   if (warning) {
      wxString msg;
      msg.Printf(_("Too much audio was selected.  Only the first %.1f seconds of audio will be analyzed."),
                          (mDataLen / mRate));
      AudacityMessageBox(msg);
   }
}
Ejemplo n.º 7
0
// Gets the name of the specified object.
wxAccStatus TrackPanelAx::GetName( int childId, wxString* name )
{
#if defined(__WXMSW__)
   if( childId == wxACC_SELF )
   {
      *name = _( "TrackView" );
   }
   else
   {
      Track *t = FindTrack( childId );

      if( t == NULL )
      {
         return wxACC_FAIL;
      }
      else
      {
         *name = t->GetName();
         if( *name == t->GetDefaultName() )
         {
            /* i18n-hint: The %d is replaced by th enumber of the track.*/
            name->Printf(_("Track %d"), TrackNum( t ) );
         }

         // LLL: Remove these during "refactor"
         if( t->GetMute() )
         {
            /* i18n-hint: This is for screen reader software and indicates that
               on this track mute is on.*/
            *name->Append( _( " Mute On" ) );
         }
         
         if( t->GetSolo() )
         {
            /* i18n-hint: This is for screen reader software and indicates that
               on this track solo is on.*/
            *name->Append( _( " Solo On" ) );
         }
         if( t->GetSelected() )
         {
            /* i18n-hint: This is for screen reader software and indicates that
               this track is selected.*/
            *name->Append( _( " Select On" ) );
         }
      }
   }

   return wxACC_OK;
#endif

#if defined(__WXMAC__)
   return wxACC_NOT_IMPLEMENTED;
#endif
}
Ejemplo n.º 8
0
bool EffectReverse::Process()
{
   //Track::All is needed because Reverse should move the labels too
   this->CopyInputTracks(Track::All); // Set up mOutputTracks.
   bool bGoodResult = true;

   TrackListIterator iter(mOutputTracks);
   Track *t = iter.First();
   int count = 0;
   while (t) {
      if (t->GetKind() == Track::Wave &&
            (t->GetSelected() || t->IsSyncLockSelected()))
      {
         WaveTrack *track = (WaveTrack*)t;

         if (mT1 > mT0) {
            sampleCount start = track->TimeToLongSamples(mT0);
            sampleCount end = track->TimeToLongSamples(mT1);
            sampleCount len = (sampleCount)(end - start);

            if (!ProcessOneWave(count, track, start, len))
            {
               bGoodResult = false;
               break;
            }
         }
      }
      else if (t->GetKind() == Track::Label &&
            (t->GetSelected() || t->IsSyncLockSelected()))
      {
         LabelTrack *track = (LabelTrack*)t;
         track->ChangeLabelsOnReverse(mT0, mT1);
      }
      t = iter.Next();
      count++;
   }

   this->ReplaceProcessedTracks(bGoodResult); 
   return bGoodResult;
}
Ejemplo n.º 9
0
void ContrastDialog::OnUseSelectionB(wxCommandEvent & event)
{
   AudacityProject *p = GetActiveProject();
   TrackListIterator iter(p->GetTracks());
   Track *t = iter.First();
   while (t) {
      if (t->GetSelected() && t->GetKind() == Track::Wave) {
         mBackgroundStartT->SetTimeValue(p->mViewInfo.sel0);
         mBackgroundEndT->SetTimeValue(p->mViewInfo.sel1);
         break;
      }
      t = iter.Next();
   }
   bBGset = true;
   OnGetBackgroundDB(event);
}
Ejemplo n.º 10
0
void EditToolBar::EnableDisableButtons()
{
   AudacityProject *p = GetActiveProject();
   if (!p) return;

   // Is anything selected?
   bool selection = false;
   TrackListIterator iter(p->GetTracks());
   for (Track *t = iter.First(); t; t = iter.Next())
      if (t->GetSelected()) {
         selection = true;
         break;
      }
   selection &= (p->GetSel0() < p->GetSel1());

   mButtons[ETBCutID]->SetEnabled(selection);
   mButtons[ETBCopyID]->SetEnabled(selection);
   mButtons[ETBTrimID]->SetEnabled(selection);
   mButtons[ETBSilenceID]->SetEnabled(selection);

   mButtons[ETBUndoID]->SetEnabled(p->GetUndoManager()->UndoAvailable());
   mButtons[ETBRedoID]->SetEnabled(p->GetUndoManager()->RedoAvailable());

   bool tracks = (!p->GetTracks()->IsEmpty());

   mButtons[ETBZoomInID]->SetEnabled(tracks && (p->ZoomInAvailable()));
   mButtons[ETBZoomOutID]->SetEnabled(tracks && (p->ZoomOutAvailable()) );

   #if 0 // Disabled for version 1.2.0 since it doesn't work quite right...
   mButtons[ETBZoomToggleID]->SetEnabled(tracks);
   #endif

   mButtons[ETBZoomSelID]->SetEnabled(selection);
   mButtons[ETBZoomFitID]->SetEnabled(tracks);

   mButtons[ETBPasteID]->SetEnabled(p->Clipboard());

#ifdef EXPERIMENTAL_SYNC_LOCK
   bool bSyncLockTracks;
   gPrefs->Read(wxT("/GUI/SyncLockTracks"), &bSyncLockTracks, false);

   if (bSyncLockTracks)
      mButtons[ETBSyncLockID]->PushDown();
   else
      mButtons[ETBSyncLockID]->PopUp();
#endif
}
Ejemplo n.º 11
0
wxAccStatus TrackPanelAx::GetValue( int WXUNUSED(childId), wxString* WXUNUSED(strValue) )
#endif
{
#if defined(__WXMSW__)
   return wxACC_NOT_IMPLEMENTED;
#endif

#if defined(__WXMAC__)
   if( childId == wxACC_SELF )
   {
      *strValue = _( "TrackView" );
   }
   else
   {
      Track *t = FindTrack( childId );

      if( t == NULL )
      {
         return wxACC_FAIL;
      }
      else
      {
         *strValue = t->GetName();
         if( *strValue == t->GetDefaultName() )
         {
            strValue->Printf(_("Track %d"), TrackNum( t ) );
         }

         // LLL: Remove these during "refactor"
         if( t->GetMute() )
         {
            strValue->Append( _( " Mute On" ) );
         }

         if( t->GetSolo() )
         {
            strValue->Append( _( " Solo On" ) );
         }
         if( t->GetSelected() )
         {
            strValue->Append( _( " Select On" ) );
         }
      }
   }
   return wxACC_OK;
#endif
}
void TranscriptionToolBar::EnableDisableButtons()
{
#ifdef EXPERIMENTAL_VOICE_DETECTION
   AudacityProject *p = GetActiveProject();
   if (!p) return;
   // Is anything selected?
   bool selection = false;
   TrackListIterator iter(p->GetTracks());
   for (Track *t = iter.First(); t; t = iter.Next())
      if (t->GetSelected()) {
         selection = true;
         break;
      }
   selection &= (p->GetSel0() < p->GetSel1());

   mButtons[TTB_Calibrate]->SetEnabled(selection);
#endif
}
Ejemplo n.º 13
0
// Gets the name of the specified object.
wxAccStatus TrackPanelAx::GetName( int childId, wxString* name )
{
   if( childId == wxACC_SELF )
   {
      *name = _( "TrackView" );
   }
   else
   {
      Track *t = FindTrack( childId );

      if( t == NULL )
      {
         *name = _( "Track Accessible out of sync" );
         return wxACC_FAIL;
      }
      else
      {
         *name = t->GetName();
         if( *name == t->GetDefaultName() )
         {
            name->Printf(_("Track %d"), TrackNum( t ) );
         }

         // LLL: Remove these during "refactor"
         if( t->GetMute() )
         {
            *name->Append( _( " Mute On" ) );
         }
         
         if( t->GetSolo() )
         {
            *name->Append( _( " Solo On" ) );
         }
         if( t->GetSelected() )
         {
            *name->Append( _( " Select On" ) );
         }
      }
   }

   return wxACC_OK;
}
Ejemplo n.º 14
0
bool EffectSilence::Process()
{
   double length = mT1 - mT0;

   if (length <= 0.0)
      length = sDefaultGenerateLen;

   //Iterate over each track
   TrackListIterator iter(mTracks);
   Track *track = iter.First();
   while (track) {
      if (track->GetSelected())
         track->InsertSilence(mT0, length);
      
      //Iterate to the next track
      track = iter.Next();
   }

   return true;
}
Ejemplo n.º 15
0
void OnToggle(const CommandContext &context)
{
   auto &project = context.project;
   auto trackPanel = project.GetTrackPanel();
   auto &selectionState = project.GetSelectionState();

   Track *t;

   t = trackPanel->GetFocusedTrack();   // Get currently focused track
   if (!t)
      return;

   selectionState.SelectTrack
      ( *t, !t->GetSelected(), true );
   trackPanel->EnsureVisible( t );
   project.ModifyState(false);

   trackPanel->GetAx().Updated();

   return;
}
Ejemplo n.º 16
0
void Effect::CountWaveTracks()
{
   mNumTracks = 0;
   mNumGroups = 0;

   TrackListOfKindIterator iter(Track::Wave, mTracks);
   Track *t = iter.First();

   while(t) {
      if (!t->GetSelected()) {
         t = iter.Next();
         continue;
      }
      
      if (t->GetKind() == Track::Wave) {
         mNumTracks++;
         if (!t->GetLinked())
            mNumGroups++;
      }
      t = iter.Next();
   }
}
Ejemplo n.º 17
0
void ControlToolBar::SetupCutPreviewTracks(double WXUNUSED(playStart), double cutStart,
                                           double cutEnd, double  WXUNUSED(playEnd))
{
   ClearCutPreviewTracks();
   AudacityProject *p = GetActiveProject();
   if (p) {
      // Find first selected track (stereo or mono) and duplicate it
      Track *track1 = NULL, *track2 = NULL;
      TrackListIterator it(p->GetTracks());
      for (Track *t = it.First(); t; t = it.Next())
      {
         if (t->GetKind() == Track::Wave && t->GetSelected())
         {
            track1 = t;
            track2 = t->GetLink();
            break;
         }
      }

      if (track1)
      {
         // Duplicate and change tracks
         auto new1 = track1->Duplicate();
         new1->Clear(cutStart, cutEnd);
         decltype(new1) new2{};
         if (track2)
         {
            new2 = track2->Duplicate();
            new2->Clear(cutStart, cutEnd);
         }

         mCutPreviewTracks = new TrackList();
         mCutPreviewTracks->Add(std::move(new1));
         if (track2)
            mCutPreviewTracks->Add(std::move(new2));
      }
   }
}
Ejemplo n.º 18
0
bool Track::IsSyncLockSelected() const
{
#ifdef EXPERIMENTAL_SYNC_LOCK
   AudacityProject *p = GetActiveProject();
   if (!p || !p->IsSyncLocked())
      return false;

   SyncLockedTracksIterator git(mList);
   Track *t = git.StartWith(const_cast<Track*>(this));

   if (!t) {
      // Not in a sync-locked group.
      return ((this->GetKind() == Track::Wave) || (this->GetKind() == Track::Label)) && GetSelected();
   }

   for (; t; t = git.Next()) {
      if (t->GetSelected())
         return true;
   }
#endif

   return false;
}
Ejemplo n.º 19
0
void EditToolBar::EnableDisableButtons()
{
   AudacityProject *p = GetActiveProject();
   if (!p) return;

   // Is anything selected?
   bool selection = false;
   TrackListIterator iter(p->GetTracks());
   for (Track *t = iter.First(); t; t = iter.Next())
      if (t->GetSelected()) {
         selection = true;
         break;
      }
   selection &= (p->GetSel0() < p->GetSel1());
   
   mButtons[ETBCutID]->SetEnabled(selection);
   mButtons[ETBCopyID]->SetEnabled(selection);
   mButtons[ETBTrimID]->SetEnabled(selection);
   mButtons[ETBSilenceID]->SetEnabled(selection);

   mButtons[ETBUndoID]->SetEnabled(p->GetUndoManager()->UndoAvailable());
   mButtons[ETBRedoID]->SetEnabled(p->GetUndoManager()->RedoAvailable());

   bool tracks = (!p->GetTracks()->IsEmpty());

   mButtons[ETBZoomInID]->SetEnabled(tracks && (p->GetZoom() < gMaxZoom));
   mButtons[ETBZoomOutID]->SetEnabled(tracks && (p->GetZoom() > gMinZoom) );

   #if 0 // Disabled for version 1.2.0 since it doesn't work quite right...
   mButtons[ETBZoomToggleID]->SetEnabled(tracks);
   #endif

   mButtons[ETBZoomSelID]->SetEnabled(selection);
   mButtons[ETBZoomFitID]->SetEnabled(tracks);

   mButtons[ETBPasteID]->SetEnabled(p->Clipboard());
}
Ejemplo n.º 20
0
// Returns a state constant.
wxAccStatus TrackPanelAx::GetState( int childId, long* state )
{
  *state = wxACC_STATE_SYSTEM_FOCUSABLE | wxACC_STATE_SYSTEM_SELECTABLE;

   if( childId > 0 )
   {
      Track *t = FindTrack( childId );

      if (t)
      {
         if( t == mFocusedTrack )
         {
            *state |= wxACC_STATE_SYSTEM_FOCUSED;
         }

         if( t->GetSelected() )
         {
            *state |= wxACC_STATE_SYSTEM_SELECTED;
         }
      }
   }

   return wxACC_OK;
}
Ejemplo n.º 21
0
//------------------------- Processing methods -------------------------
bool EffectSineSweepGenerator::Process()
{
   // taken `as is` from Audacity`s Generator.cpp to resolve
   // a vc++ linking problem...
   
   if (mDuration < 0.0)
      return false;

   BeforeGenerate();

   // Set up mOutputTracks. This effect needs Track::All for grouping
   this->CopyInputTracks(Track::All);

   // Iterate over the tracks
   bool bGoodResult = true;
   int ntrack = 0;
   TrackListIterator iter(mOutputTracks);
   Track* t = iter.First();

   while (t != NULL)
   {
      if (t->GetKind() == Track::Wave && t->GetSelected()) 
      {
         WaveTrack* track = (WaveTrack*)t;
         
         bool editClipCanMove = true;
         //gPrefs->Read(wxT("/GUI/EditClipCanMove"), &editClipCanMove, true);

         //if we can't move clips, and we're generating into an empty space,
         //make sure there's room.
         if (!editClipCanMove &&
             track->IsEmpty(mT0, mT1+1.0/track->GetRate()) &&
             !track->IsEmpty(mT0, mT0+mDuration-(mT1-mT0)-1.0/track->GetRate()))
         {
             wxMessageBox(_("There is not enough room available to generate the audio"),
                          _("Error"), wxICON_STOP);   
            Failure();
            return false;
         }

         if (mDuration > 0.0)
         {
            // Create a temporary track
            WaveTrack *tmp = mFactory->NewWaveTrack(track->GetSampleFormat(),
                                                    track->GetRate());
            //BeforeTrack(*track);

            // Fill it with data
            if (!GenerateTrack(tmp, *track, ntrack))
               bGoodResult = false;
            else 
            {
               // Transfer the data from the temporary track to the actual one
               tmp->Flush();
               SetTimeWarper(new AFStepTimeWarper(mT0+mDuration, mDuration-(mT1-mT0)));
               bGoodResult = track->ClearAndPaste(mT0, mT1, tmp, true,
                     false, GetTimeWarper());
               delete tmp;
            }

            if (!bGoodResult) 
            {
               Failure();
               return false;
            }
         }
         else
         {
            // If the duration is zero, there's no need to actually
            // generate anything
            track->Clear(mT0, mT1);
         }

         ntrack++;
      }
      else if (t->IsSyncLockSelected()) 
      {
         t->SyncLockAdjust(mT1, mT0 + mDuration);
      }
      // Move on to the next track
      t = iter.Next();
   }

   Success();

   this->ReplaceProcessedTracks(bGoodResult);

   mT1 = mT0 + mDuration; // Update selection.

   return true;
}
Ejemplo n.º 22
0
ExportMixerDialog::ExportMixerDialog( TrackList *tracks, bool selectionOnly,
                                      int maxNumChannels, wxWindow *parent, wxWindowID id, const wxString &title,
                                      const wxPoint &position, const wxSize& size, long style ) :
    wxDialog( parent, id, title, position, size, style | wxRESIZE_BORDER )
{
    int numTracks = 0;
    TrackListIterator iter( tracks );

    for( Track *t = iter.First(); t; t = iter.Next() )
        if( t->GetKind() == Track::Wave && ( t->GetSelected() || !selectionOnly ) )
        {
            numTracks++;
            if( t->GetChannel() == Track::LeftChannel )
            {
                mTrackNames.Add( t->GetName() + _( " - Left" ) );
                mTrackNames.Add( t->GetName() + _( " - Right" ) );
                t = iter.Next();
                numTracks++;
            }
            else
                mTrackNames.Add( t->GetName() );
        }

    mMixerSpec = new MixerSpec( numTracks, maxNumChannels );

    wxBoxSizer *vertSizer = new wxBoxSizer( wxVERTICAL );

    wxWindow *mixerPanel = new ExportMixerPanel( mMixerSpec, mTrackNames, this,
            ID_MIXERPANEL, wxDefaultPosition, wxSize( 400, -1 ) );
    vertSizer->Add( mixerPanel, 1, wxEXPAND | wxALIGN_CENTRE | wxALL, 5 );

    wxBoxSizer *horSizer = new wxBoxSizer( wxHORIZONTAL );

    mChannelsText = new wxStaticText( this, -1,
                                      wxString::Format( _( "Output Channels: %2d" ),
                                              mMixerSpec->GetNumChannels() ) );
    horSizer->Add( mChannelsText, 0, wxALIGN_LEFT | wxALL, 5 );

    wxSlider *channels = new wxSlider( this, ID_SLIDER_CHANNEL,
                                       mMixerSpec->GetNumChannels(), 1, mMixerSpec->GetMaxNumChannels(),
                                       wxDefaultPosition, wxSize( 300, -1 ) );
    horSizer->Add( channels, 0, wxEXPAND | wxALL, 5 );

    vertSizer->Add( horSizer, 0, wxALIGN_CENTRE | wxALL, 5 );

    horSizer = new wxBoxSizer( wxHORIZONTAL );

    wxButton *cancel = new wxButton( this, wxID_CANCEL, _( "&Cancel" ) );
    horSizer->Add( cancel, 0, wxALIGN_CENTRE | wxALL, 5 );

    wxButton *ok = new wxButton( this, wxID_OK, _( "&OK" ) );
    ok->SetDefault();
    horSizer->Add( ok, 0, wxALIGN_CENTRE | wxALL, 5 );

    vertSizer->Add( horSizer, 0, wxALIGN_CENTRE | wxALL, 5 );

    SetAutoLayout( true );
    SetSizer( vertSizer );
    vertSizer->Fit( this );
    vertSizer->SetSizeHints( this );

    SetSizeHints( 640, 480, 20000, 20000 );

    SetSize( 640, 480 );
}
Ejemplo n.º 23
0
// Gets the name of the specified object.
wxAccStatus TrackPanelAx::GetName( int childId, wxString* name )
{
#if defined(__WXMSW__)
   if( childId == wxACC_SELF )
   {
      *name = _( "TrackView" );
   }
   else
   {
      Track *t = FindTrack( childId );

      if( t == NULL )
      {
         return wxACC_FAIL;
      }
      else
      {
         *name = t->GetName();
         if( *name == t->GetDefaultName() )
         {
            /* i18n-hint: The %d is replaced by th enumber of the track.*/
            name->Printf(_("Track %d"), TrackNum( t ) );
         }

         if (t->GetKind() == Track::Label)
         {
            /* i18n-hint: This is for screen reader software and indicates that
               this is a Label track.*/
            name->Append( wxT(" ") + wxString(_("Label Track")));
         }
         else if (t->GetKind() == Track::Time)
         {
            /* i18n-hint: This is for screen reader software and indicates that
               this is a Time track.*/
            name->Append( wxT(" ") + wxString(_("Time Track")));
         }
         else if (t->GetKind() == Track::Note)
         {
            /* i18n-hint: This is for screen reader software and indicates that
               this is a Note track.*/
            name->Append( wxT(" ") + wxString(_("Note Track")));
         }

         // LLL: Remove these during "refactor"
         if( t->GetMute() )
         {
            // The following comment also applies to the solo, selected,
            // and synclockselected states.
            // Many of translations of the strings with a leading space omitted
            // the leading space. Therefore a space has been added using wxT(" ").
            // Because screen readers won't be affected by multiple spaces, the
            // leading spaces have not been removed, so that no new translations are needed.
            /* i18n-hint: This is for screen reader software and indicates that
               on this track mute is on.*/
            name->Append( wxT(" ") + wxString(_( " Mute On" )) );
         }

         if( t->GetSolo() )
         {
            /* i18n-hint: This is for screen reader software and indicates that
               on this track solo is on.*/
            name->Append( wxT(" ") + wxString(_( " Solo On" )) );
         }
         if( t->GetSelected() )
         {
            /* i18n-hint: This is for screen reader software and indicates that
               this track is selected.*/
            name->Append( wxT(" ") + wxString(_( " Select On" )) );
         }
         if( t->IsSyncLockSelected() )
         {
            /* i18n-hint: This is for screen reader software and indicates that
               this track is shown with a sync-locked icon.*/
            // The absence of a dash between Sync and Locked is deliberate -
            // if present, Jaws reads it as "dash".
            name->Append( wxT(" ") + wxString(_( " Sync Lock Selected" )) );
         }
      }
   }

   return wxACC_OK;
#endif

#if defined(__WXMAC__)
   return wxACC_NOT_IMPLEMENTED;
#endif
}
Ejemplo n.º 24
0
bool MixAndRender(TrackList *tracks, TrackFactory *trackFactory,
                  double rate, sampleFormat format,
                  double startTime, double endTime,
                  WaveTrack **newLeft, WaveTrack **newRight)
{
   // This function was formerly known as "Quick Mix".  It takes one or
   // more tracks as input; of all tracks that are selected, it mixes
   // them together, applying any envelopes, amplitude gain, panning,
   // and real-time effects in the process.  The resulting pair of
   // tracks (stereo) are "rendered" and have no effects, gain, panning,
   // or envelopes.

   WaveTrack **waveArray;
   Track *t;
   int numWaves = 0;
   int numMono = 0;
   bool mono = false;
   int w;

   TrackListIterator iter(tracks);

   t = iter.First();
   while (t) {
      if (t->GetSelected() && t->GetKind() == Track::Wave) {
         numWaves++;
         float pan = ((WaveTrack*)t)->GetPan();
         if (t->GetChannel() == Track::MonoChannel && pan == 0)
            numMono++;
      }
      t = iter.Next();
   }

   if (numMono == numWaves)
      mono = true;

   double totalTime = 0.0;

   waveArray = new WaveTrack *[numWaves];
   w = 0;
   t = iter.First();
   while (t) {
      if (t->GetSelected() && t->GetKind() == Track::Wave) {
         waveArray[w++] = (WaveTrack *) t;
         if (t->GetEndTime() > totalTime)
            totalTime = t->GetEndTime();
      }
      t = iter.Next();
   }

   WaveTrack *mixLeft = trackFactory->NewWaveTrack(format, rate);
   mixLeft->SetName(_("Mix"));
   WaveTrack *mixRight = 0;
   if (mono) {
      mixLeft->SetChannel(Track::MonoChannel);
   }
   else {
      mixRight = trackFactory->NewWaveTrack(format, rate);
      mixRight->SetName(_("Mix"));
      mixLeft->SetChannel(Track::LeftChannel);
      mixRight->SetChannel(Track::RightChannel);
      mixLeft->SetLinked(true);
      mixRight->SetTeamed(true);
   }

   int maxBlockLen = mixLeft->GetIdealBlockSize();

   if (startTime == endTime) {
      startTime = 0.0;
      endTime = totalTime;
   }

   Mixer *mixer = new Mixer(numWaves, waveArray, tracks->GetTimeTrack(),
                            startTime, endTime, mono ? 1 : 2, maxBlockLen, false,
                            rate, format);

   wxYield();
   GetActiveProject()->ProgressShow(_NoAcc("&Mix and Render"),
                                    _("Mixing and rendering tracks"));
   wxBusyCursor busy;
   
   bool cancelling = false;
   while(!cancelling) {
      sampleCount blockLen = mixer->Process(maxBlockLen);

      if (blockLen == 0)
         break;

      if (mono) {
         samplePtr buffer = mixer->GetBuffer();
         mixLeft->Append(buffer, format, blockLen);
      }
      else {
         samplePtr buffer;
         buffer = mixer->GetBuffer(0);
         mixLeft->Append(buffer, format, blockLen);
         buffer = mixer->GetBuffer(1);
         mixRight->Append(buffer, format, blockLen);
      }

      int progressvalue = int (1000 * (mixer->MixGetCurrentTime() / totalTime));
      cancelling = !GetActiveProject()->ProgressUpdate(progressvalue);
   }

   GetActiveProject()->ProgressHide();

   mixLeft->Flush();
   *newLeft = mixLeft;
   if (!mono) {
      mixRight->Flush();
      *newRight = mixRight;
   }

#if 0
   int elapsedMS = wxGetElapsedTime();
   double elapsedTime = elapsedMS * 0.001;
   double maxTracks = totalTime / (elapsedTime / numWaves);

   // Note: these shouldn't be translated - they're for debugging
   // and profiling only.
   printf("      Tracks: %d\n", numWaves);
   printf("  Mix length: %f sec\n", totalTime);
   printf("Elapsed time: %f sec\n", elapsedTime);
   printf("Max number of tracks to mix in real time: %f\n", maxTracks);
#endif

   delete[] waveArray;
   delete mixer;

   return true;
}
Ejemplo n.º 25
0
bool Generator::Process()
{
   if (GetDuration() < 0.0)
      return false;


   // Set up mOutputTracks.
   // This effect needs Track::All for sync-lock grouping.
   this->CopyInputTracks(Track::All);

   // Iterate over the tracks
   bool bGoodResult = true;
   int ntrack = 0;
   TrackListIterator iter(mOutputTracks);
   Track* t = iter.First();

   while (t != NULL)
   {
      if (t->GetKind() == Track::Wave && t->GetSelected()) {
         WaveTrack* track = (WaveTrack*)t;

         bool editClipCanMove;
         gPrefs->Read(wxT("/GUI/EditClipCanMove"), &editClipCanMove, true);

         //if we can't move clips, and we're generating into an empty space,
         //make sure there's room.
         if (!editClipCanMove &&
             track->IsEmpty(mT0, mT1+1.0/track->GetRate()) &&
             !track->IsEmpty(mT0, mT0+GetDuration()-(mT1-mT0)-1.0/track->GetRate()))
         {
            wxMessageBox(
                  _("There is not enough room available to generate the audio"),
                  _("Error"), wxICON_STOP);
            Failure();
            return false;
         }

         if (GetDuration() > 0.0)
         {
            AudacityProject *p = GetActiveProject();
            // Create a temporary track
            std::unique_ptr<WaveTrack> tmp(
               mFactory->NewWaveTrack(track->GetSampleFormat(),
               track->GetRate())
            );
            BeforeTrack(*track);
            BeforeGenerate();

            // Fill it with data
            if (!GenerateTrack(&*tmp, *track, ntrack))
               bGoodResult = false;
            else {
               // Transfer the data from the temporary track to the actual one
               tmp->Flush();
               SetTimeWarper(new StepTimeWarper(mT0+GetDuration(), GetDuration()-(mT1-mT0)));
               bGoodResult = track->ClearAndPaste(p->GetSel0(), p->GetSel1(), &*tmp, true,
                     false, GetTimeWarper());
            }

            if (!bGoodResult) {
               Failure();
               return false;
            }
         }
         else
         {
            // If the duration is zero, there's no need to actually
            // generate anything
            track->Clear(mT0, mT1);
         }

         ntrack++;
      }
      else if (t->IsSyncLockSelected()) {
         t->SyncLockAdjust(mT1, mT0 + GetDuration());
      }
      // Move on to the next track
      t = iter.Next();
   }

   Success();

   this->ReplaceProcessedTracks(bGoodResult);

   mT1 = mT0 + GetDuration(); // Update selection.

   return true;
}
Ejemplo n.º 26
0
void ControlToolBar::OnRecord(wxCommandEvent &evt)
{
   if (gAudioIO->IsBusy()) {
      mRecord->PopUp();
      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 *t = p->GetTracks();
      TrackListIterator it(t);
      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 = t->GetWaveTrackArray(false);
#ifdef EXPERIMENTAL_MIDI_OUT
         midiTracks = t->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;
      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)
                  playbackTracks.Remove(wt);
               t1 = wt->GetEndTime();
               if (t1 < t0) {
                  WaveTrack *newTrack = p->GetTrackFactory()->NewWaveTrack();
                  newTrack->InsertSilence(0.0, t0 - t1);
                  newTrack->Flush();
                  wt->Clear(t1, t0);
                  bool bResult = wt->Paste(t1, newTrack);
                  wxASSERT(bResult); // TO DO: Actually handle this.
                  delete newTrack;
               }
               newRecordingTracks.Add(wt);
            }
         }

         t1 = 1000000000.0;     // record for a long, long time (tens of years)
      }
      else {
         recordingChannels = gPrefs->Read(wxT("/AudioIO/RecordChannels"), 2);
         for (int c = 0; c < recordingChannels; c++) {
            WaveTrack *newTrack = p->GetTrackFactory()->NewWaveTrack();

            newTrack->SetOffset(t0);

            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 );
            }

            newRecordingTracks.Add(newTrack);
         }

         // msmeyer: StartStream calls a callback which triggers auto-save, so
         // we add the tracks where recording is done into now. We remove them
         // later if starting the stream fails
         for (unsigned int i = 0; i < newRecordingTracks.GetCount(); i++)
            t->Add(newRecordingTracks[i]);
      }

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

      int token = gAudioIO->StartStream(playbackTracks,
                                        newRecordingTracks,
#ifdef EXPERIMENTAL_MIDI_OUT
                                        midiTracks,
#endif
                                        t->GetTimeTrack(),
                                        p->GetRate(), t0, t1, p);

      bool success = (token != 0);

      if (success) {
         p->SetAudioIOToken(token);
         mBusyProject = p;
      }
      else {
         // msmeyer: Delete recently added tracks if opening stream fails
         if (!shifted) {
            for (unsigned int i = 0; i < newRecordingTracks.GetCount(); i++) {
               t->Remove(newRecordingTracks[i]);
               delete 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);
      }
   }
}
Ejemplo n.º 27
0
bool EffectChangeSpeed::Process()
{
   // Similar to EffectSoundTouch::Process()

   // Iterate over each track.
   // Track::All is needed because this effect needs to introduce 
   // silence in the sync-lock group tracks to keep sync
   this->CopyInputTracks(Track::All); // Set up mOutputTracks.
   bool bGoodResult = true;

   TrackListIterator iter(mOutputTracks);
   Track* t;
   mCurTrackNum = 0;
   mMaxNewLength = 0.0;

   mFactor = 100.0 / (100.0 + mPercentChange);

   t = iter.First();
   while (t != NULL)
   {
      if (t->GetKind() == Track::Label) {
         if (t->GetSelected() || t->IsSyncLockSelected())
         {
            if (!ProcessLabelTrack(t)) {
               bGoodResult = false;
               break;
            }
         }
      }
      else if (t->GetKind() == Track::Wave && t->GetSelected())
      {
         WaveTrack *pOutWaveTrack = (WaveTrack*)t;
         //Get start and end times from track
         mCurT0 = pOutWaveTrack->GetStartTime();
         mCurT1 = pOutWaveTrack->GetEndTime();

         //Set the current bounds to whichever left marker is
         //greater and whichever right marker is less:
         mCurT0 = wxMax(mT0, mCurT0);
         mCurT1 = wxMin(mT1, mCurT1);

         // Process only if the right marker is to the right of the left marker
         if (mCurT1 > mCurT0) {
            //Transform the marker timepoints to samples
            sampleCount start = pOutWaveTrack->TimeToLongSamples(mCurT0);
            sampleCount end = pOutWaveTrack->TimeToLongSamples(mCurT1);

            //ProcessOne() (implemented below) processes a single track
            if (!ProcessOne(pOutWaveTrack, start, end))
            {
               bGoodResult = false;
               break;
            }
         }
         mCurTrackNum++;
      }
      else if (t->IsSyncLockSelected())
      {
         t->SyncLockAdjust(mT1, mT0 + (mT1 - mT0) * mFactor);
      }

      //Iterate to the next track
      t=iter.Next();
   }

   if (bGoodResult)
      ReplaceProcessedTracks(bGoodResult);

   mT1 = mT0 + mMaxNewLength; // Update selection.

   return bGoodResult;
}
Ejemplo n.º 28
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());
}
Ejemplo n.º 29
0
bool EffectTruncSilence::DoRemoval
(const RegionList &silences, unsigned iGroup, unsigned nGroups, Track *firstTrack, Track *lastTrack,
 double &totalCutLen)
{
   //
   // Now remove the silent regions from all selected / sync-lock selected tracks.
   //

   // Loop over detected regions in reverse (so cuts don't change time values
   // down the line)
   int whichReg = 0;
   RegionList::const_reverse_iterator rit;
   for (rit = silences.rbegin(); rit != silences.rend(); ++rit)
   {
      const Region &region = *rit;
      const Region *const r = &region;

      // Progress dialog and cancellation. Do additional cleanup before return.
      const double frac = detectFrac +
         (1 - detectFrac) * (iGroup + whichReg / double(silences.size())) / nGroups;
      if (TotalProgress(frac))
      {
         ReplaceProcessedTracks(false);
         return false;
      }

      // Intersection may create regions smaller than allowed; ignore them.
      // Allow one nanosecond extra for consistent results with exact milliseconds of allowed silence.
      if ((r->end - r->start) < (mInitialAllowedSilence - 0.000000001))
         continue;

      // Find NEW silence length as requested
      double inLength = r->end - r->start;
      double outLength;

      switch (mActionIndex)
      {
      case kTruncate:
         outLength = std::min(mTruncLongestAllowedSilence, inLength);
         break;
      case kCompress:
         outLength = mInitialAllowedSilence +
                        (inLength - mInitialAllowedSilence) * mSilenceCompressPercent / 100.0;
         break;
      default: // Not currently used.
         outLength = std::min(mInitialAllowedSilence +
                              (inLength - mInitialAllowedSilence) * mSilenceCompressPercent / 100.0,
                           mTruncLongestAllowedSilence);
      }

      double cutLen = inLength - outLength;
      totalCutLen += cutLen;

      TrackListIterator iterOut(mOutputTracks);
      bool lastSeen = false;
      for (Track *t = iterOut.StartWith(firstTrack); t && !lastSeen; t = iterOut.Next())
      {
         lastSeen = (t == lastTrack);
         if (!(t->GetSelected() || t->IsSyncLockSelected()))
            continue;

         // Don't waste time past the end of a track
         if (t->GetEndTime() < r->start)
            continue;

         double cutStart = (r->start + r->end - cutLen) / 2;
         double cutEnd = cutStart + cutLen;
         if (t->GetKind() == Track::Wave)
         {
            // In WaveTracks, clear with a cross-fade
            WaveTrack *const wt = static_cast<WaveTrack*>(t);
            sampleCount blendFrames = mBlendFrameCount;
            // Round start/end times to frame boundaries
            cutStart = wt->LongSamplesToTime(wt->TimeToLongSamples(cutStart));
            cutEnd = wt->LongSamplesToTime(wt->TimeToLongSamples(cutEnd));

            // Make sure the cross-fade does not affect non-silent frames
            if (wt->LongSamplesToTime(blendFrames) > inLength)
            {
               blendFrames = wt->TimeToLongSamples(inLength);
            }

            // Perform cross-fade in memory
            float *buf1 = new float[blendFrames];
            float *buf2 = new float[blendFrames];
            sampleCount t1 = wt->TimeToLongSamples(cutStart) - blendFrames / 2;
            sampleCount t2 = wt->TimeToLongSamples(cutEnd) - blendFrames / 2;

            wt->Get((samplePtr)buf1, floatSample, t1, blendFrames);
            wt->Get((samplePtr)buf2, floatSample, t2, blendFrames);

            for (sampleCount i = 0; i < blendFrames; ++i)
            {
               buf1[i] = ((blendFrames-i) * buf1[i] + i * buf2[i]) /
                         (double)blendFrames;
            }

            // Perform the cut
            wt->Clear(cutStart, cutEnd);

            // Write cross-faded data
            wt->Set((samplePtr)buf1, floatSample, t1, blendFrames);

            delete [] buf1;
            delete [] buf2;
         }
         else
            // Non-wave tracks: just do a sync-lock adjust
            t->SyncLockAdjust(cutEnd, cutStart);
      }
      ++whichReg;
   }

   return true;
}
Ejemplo n.º 30
0
bool EffectAutoDuck::Init()
{
   gPrefs->Read(wxT("/Effects/AutoDuck/DuckAmountDb"),
      &mDuckAmountDb, PARAM_DEFAULT_DUCK_AMOUNT_DB);
   gPrefs->Read(wxT("/Effects/AutoDuck/InnerFadeDownLen"),
      &mInnerFadeDownLen, PARAM_DEFAULT_INNER_FADE_DOWN_LEN);
   gPrefs->Read(wxT("/Effects/AutoDuck/InnerFadeUpLen"),
      &mInnerFadeUpLen, PARAM_DEFAULT_INNER_FADE_UP_LEN);
   gPrefs->Read(wxT("/Effects/AutoDuck/OuterFadeDownLen"),
      &mOuterFadeDownLen, PARAM_DEFAULT_OUTER_FADE_DOWN_LEN);
   gPrefs->Read(wxT("/Effects/AutoDuck/OuterFadeUpLen"),
      &mOuterFadeUpLen, PARAM_DEFAULT_OUTER_FADE_UP_LEN);
   gPrefs->Read(wxT("/Effects/AutoDuck/ThresholdDb"),
      &mThresholdDb, PARAM_DEFAULT_THRESHOLD_DB);
   gPrefs->Read(wxT("/Effects/AutoDuck/MaximumPause"),
      &mMaximumPause, PARAM_DEFAULT_MAXIMUM_PAUSE);

   mControlTrack = NULL;
   
   TrackListIterator iter(mTracks);
   Track *t = iter.First();
   
   bool lastWasSelectedWaveTrack = false;
   WaveTrack *controlTrackCandidate = NULL;
   
   while(t)
   {
      if (lastWasSelectedWaveTrack && !t->GetSelected() &&
          t->GetKind() == Track::Wave)
      {
         // This could be the control track, so remember it
         controlTrackCandidate = (WaveTrack*)t;
      }

      lastWasSelectedWaveTrack = false;
      
      if (t->GetSelected())
      {
         if (t->GetKind() == Track::Wave)
         {
            lastWasSelectedWaveTrack = true;
         } else
         {
            wxMessageBox(
               _("You selected a track which does not contain audio. AutoDuck can only process audio tracks."),
               /* i18n-hint: Auto duck is the name of an effect that 'ducks' (reduces the volume) 
                * of the audio automatically when there is sound on another track.  Not as 
                * in 'Donald-Duck'!*/
               _("Auto Duck"), wxICON_ERROR, mParent);
            return false;
         }
      }

      t = iter.Next();
   }
   
   if (!controlTrackCandidate)
   {
      wxMessageBox(
         _("Auto Duck needs a control track which must be placed below the selected track(s)."),
         _("Auto Duck"), wxICON_ERROR, mParent);
      return false;
   }
   
   mControlTrack = controlTrackCandidate;

   return true;
}