Ejemplo n.º 1
0
bool LabelDialog::TransferDataFromWindow()
{
   int cnt = mData.size();
   int i;
   TrackListIterator iter(mTracks);
   Track *t;
   int tndx = 0;

   // Clear all label tracks of labels
   for (t = iter.First(); t; t = iter.Next()) {
      if (t->GetKind() == Track::Label) {
         LabelTrack *lt = (LabelTrack *)t;
         tndx++;

         for (i = lt->GetNumLabels() - 1; i >= 0 ; i--) {
            lt->DeleteLabel(i);
         }
      }
   }

   // Create any added tracks
   while (tndx < (int)mTrackNames.GetCount() - 1) {

      // Extract the name
      wxString name = mTrackNames[tndx + 1].AfterFirst(wxT('-')).Mid(1);

      // Create the NEW track and add to track list
      auto newTrack = mFactory.NewLabelTrack();
      newTrack->SetName(name);
      mTracks->Add(std::move(newTrack));
      tndx++;
   }

   // Repopulate with updated labels
   for (i = 0; i < cnt; i++) {
      RowData &rd = mData[i];

      // Look for track with matching index
      tndx = 1;
      for (t = iter.First(); t; t = iter.Next()) {
         if (t->GetKind() == Track::Label && rd.index == tndx++) {
            break;
         }
      }
      wxASSERT(t);
      if (!t)
         return false;

      // Add the label to it
      ((LabelTrack *) t)->AddLabel(rd.selectedRegion, rd.title);
      ((LabelTrack *) t)->Unselect();
   }

   return true;
}
Ejemplo n.º 2
0
bool LabelDialog::TransferDataFromWindow()
{
   int cnt = mData.GetCount();
   int i;
   TrackListIterator iter(mTracks);
   Track *t;
   int tndx = 0;

   // Clear all label tracks of labels
   for (t = iter.First(); t; t = iter.Next()) {
      if (t->GetKind() == Track::Label) {
         LabelTrack *lt = (LabelTrack *)t;
         tndx++;

         for (i = lt->GetNumLabels() - 1; i >= 0 ; i--) {
            lt->DeleteLabel(i);
         }
      }
   }

   // Create any added tracks
   while (tndx < (int)mTrackNames.GetCount() - 1) {

      // Extract the name
      wxString name = mTrackNames[tndx + 1].AfterFirst(wxT('-')).Mid(1);

      // Create the new track and add to track list
      LabelTrack *newTrack = new LabelTrack(mDirManager);
      newTrack->SetName(name);
      mTracks->Add(newTrack);
      tndx++;
   }

   // Repopulate with updated labels
   for (i = 0; i < cnt; i++) {
      RowData *rd = mData[i];

      // Look for track with matching index
      tndx = 1;
      for (t = iter.First(); t; t = iter.Next()) {
         if (t->GetKind() == Track::Label && rd->index == tndx++) {
            break;
         }
      }

      // Add the label to it
      if (!rd->title.IsEmpty()) {
         ((LabelTrack *) t)->AddLabel(rd->stime, rd->etime, rd->title);
         ((LabelTrack *) t)->Unselect();
      }
   }

   return true;
}
Ejemplo n.º 3
0
void SnapManager::Reinit()
{
   int snapTo = mProject->GetSnapTo();
   double rate = mProject->GetRate();
   wxString format = mProject->GetSelectionFormat();

   // No need to reinit if these are still the same
   if (snapTo == mSnapTo && rate == mRate && format == mFormat)
   {
      return;
   }

   // Save NEW settings
   mSnapTo = snapTo;
   mRate = rate;
   mFormat = format;

   mSnapPoints.clear();

   // Grab time-snapping prefs (unless otherwise requested)
   mSnapToTime = false;

   // Look up the format string
   if (mSnapTo != SNAP_OFF && !mNoTimeSnap)
   {
      mSnapToTime = true;
      mConverter.SetSampleRate(mRate);
      mConverter.SetFormatName(mFormat);
   }

   // Add a SnapPoint at t=0
   mSnapPoints.push_back(SnapPoint{});

   TrackListConstIterator iter(mTracks);
   for (const Track *track = iter.First();  track; track = iter.Next())
   {
      if (mTrackExclusions &&
          mTrackExclusions->end() !=
          std::find(mTrackExclusions->begin(), mTrackExclusions->end(), track))
      {
         continue;
      }

      if (track->GetKind() == Track::Label)
      {
         LabelTrack *labelTrack = (LabelTrack *)track;
         for (int i = 0, cnt = labelTrack->GetNumLabels(); i < cnt; ++i)
         {
            const LabelStruct *label = labelTrack->GetLabel(i);
            const double t0 = label->getT0();
            const double t1 = label->getT1();
            CondListAdd(t0, labelTrack);
            if (t1 != t0)
            {
               CondListAdd(t1, labelTrack);
            }
         }
      }
      else if (track->GetKind() == Track::Wave)
      {
         auto waveTrack = static_cast<const WaveTrack *>(track);
         for (const auto &clip: waveTrack->GetClips())
         {
            if (mClipExclusions)
            {
               bool skip = false;
               for (size_t j = 0, cnt = mClipExclusions->size(); j < cnt; ++j)
               {
                  if ((*mClipExclusions)[j].track == waveTrack &&
                      (*mClipExclusions)[j].clip == clip.get())
                  {
                     skip = true;
                     break;
                  }
               }

               if (skip)
               {
                  continue;
               }
            }

            CondListAdd(clip->GetStartTime(), waveTrack);
            CondListAdd(clip->GetEndTime(), waveTrack);
         }
      }
#ifdef USE_MIDI
      else if (track->GetKind() == Track::Note)
      {
         CondListAdd(track->GetStartTime(), track);
         CondListAdd(track->GetEndTime(), track);
      }
#endif
   }

   // Sort all by time
   std::sort(mSnapPoints.begin(), mSnapPoints.end());
}
Ejemplo n.º 4
0
void AudacityProject::OnSplitLabels(wxEvent & event)
{
   TrackListIterator iter(mTracks);

   VTrack *n = iter.First();
   VTrack *srcRight = 0;
   VTrack *srcLeft = 0;
   bool stereo = false;
   LabelTrack *label = 0;

   while(n) {
      if(n->GetSelected()) {
         if(n->GetKind() == VTrack::Wave) {
            if(n->GetLinked() == true) {
               stereo = true;
               srcLeft = n;
               srcRight  = iter.Next();
            }
            else {
               srcRight = n;
               stereo = false;
            }
         }
         else if(n->GetKind() == VTrack::Label)
            label = (LabelTrack*)n;  // cast necessary to call LabelTrack specific methods
      }
      n = iter.Next();
   }

   // one new track for every label, from that label to the next
   
   TrackList newTracks;

   for(int i = 0; i < label->GetNumLabels(); i++) {
      wxString name = label->GetLabel(i)->title;
      double begin = label->GetLabel(i)->t;
      double end;

      // if on the last label, extend to the end of the wavetrack
      if(i == label->GetNumLabels() - 1) {
         if(stereo)
            end = wxMax(srcLeft->GetMaxLen(), srcRight->GetMaxLen());
         else
            end = srcLeft->GetMaxLen();
      }
      else
         end = label->GetLabel(i+1)->t;

      VTrack *destLeft = 0;
      VTrack *destRight = 0;

      srcLeft->Copy(begin, end, &destLeft);
      if (destLeft) {
         destLeft->Init(*srcLeft);
         destLeft->SetOffset(wxMax(begin, srcLeft->GetOffset()));
         destLeft->SetName(name);
         
         mTracks->Add(destLeft);
      }

      if(stereo) {
         srcRight->Copy(begin, end, &destRight);
         if (destRight) {
            destRight->Init(*srcRight);
            destRight->SetOffset(wxMax(begin, srcRight->GetOffset()));
            destRight->SetName(name);
            
            mTracks->Add(destRight);
         }
         else if(destLeft)
            // account for possibility of a non-aligned linked track, which could
            // cause the left channel to be eligible for creating a new track,
            // but not the right.
            destLeft->SetLinked(false);
      }
   }

   PushState(_("Split at labels"));

   FixScrollbars();
   mTrackPanel->Refresh(false);
}
Ejemplo n.º 5
0
SnapManager::SnapManager(TrackList *tracks, TrackClipArray *exclusions,
                         double zoom, int pixelTolerance, bool noTimeSnap)
{
   int i;

   // Grab time-snapping prefs (unless otherwise requested)
   mSnapToTime = false;

   AudacityProject *p = GetActiveProject();
   wxASSERT(p);
   if (p)
   {
      // Look up the format string
      if (p->GetSnapTo() && !noTimeSnap) {
         mSnapToTime = true;
         mConverter.SetSampleRate(p->GetRate());
         mConverter.SetFormatName(p->GetSelectionFormat());
      }
   }

   mSnapPoints = new SnapPointArray(CompareSnapPoints);
   if (zoom > 0 && pixelTolerance > 0)
      mTolerance = pixelTolerance / zoom;
   else {
      // This shouldn't happen, but we don't want to crash if we get
      // illegal values.  The net effect of this is to never snap.
      mTolerance = 0.0;
   }
   // Two time points closer than this are considered the same
   mEpsilon = 1 / 44100.0;

   // Add a SnapPoint at t=0
   mSnapPoints->Add(new SnapPoint(0.0, NULL));

   TrackListIterator iter(tracks);
   Track *track = iter.First();
   while (track) {
      if (track->GetKind() == Track::Label) {
         LabelTrack *labelTrack = (LabelTrack *)track;
         for(i = 0; i < labelTrack->GetNumLabels(); i++) {
            const LabelStruct *label = labelTrack->GetLabel(i);
            CondListAdd(label->t, labelTrack);
            if (label->t1 != label->t) {
               CondListAdd(label->t1, labelTrack);
            }
         }
      }
      else if (track->GetKind() == Track::Wave) {
         WaveTrack *waveTrack = (WaveTrack *)track;
         WaveClipList::compatibility_iterator it;
         for (it=waveTrack->GetClipIterator(); it; it=it->GetNext()) {
            WaveClip *clip = it->GetData();
            if (exclusions) {
               bool skip = false;
               for(int j=0; j<(int)exclusions->GetCount(); j++) {
                  if ((*exclusions)[j].track == waveTrack &&
                      (*exclusions)[j].clip == clip)
                     skip = true;
               }
               if (skip)
                  continue;
            }
            CondListAdd(clip->GetStartTime(), waveTrack);
            CondListAdd(clip->GetEndTime(), waveTrack);
         }
      }
#ifdef USE_MIDI
      else if (track->GetKind() == Track::Note) {
         CondListAdd(track->GetStartTime(), track);
         CondListAdd(track->GetEndTime(), track);
      }
#endif
      track = iter.Next();
   }
}