void assignKeyListToStaff(const KeyList &kl, Staff *staff)
      {
      Score* score = staff->score();
      const int track = staff->idx() * VOICES;
      Key pkey = Key::C;

      for (auto it = kl.begin(); it != kl.end(); ++it) {
            const int tick = it->first;
            Key key  = it->second.key();
            if ((key == Key::C) && (key == pkey))     // dont insert uneccessary C key
                  continue;
            pkey = key;
            KeySig* ks = new KeySig(score);
            ks->setTrack(track);
            ks->setGenerated(false);
            ks->setKey(key);
            ks->setMag(staff->mag());
            Measure* m = score->tick2measure(tick);
            Segment* seg = m->getSegment(ks, tick);
            seg->add(ks);
            }
      }
Exemple #2
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void MTrack::convertTrack(const Fraction &lastTick)
      {
      Score* score     = staff->score();
      int key          = 0;                      // TODO-LIB findKey(mtrack, score->sigmap());
      int track        = staff->idx() * VOICES;
      int voices       = VOICES;

      for (int voice = 0; voice < voices; ++voice) {
                        // startChordTick is onTime value of all simultaneous notes
                        // chords here are consist of notes with equal durations
                        // several chords may have the same onTime value
            Fraction startChordTick;
            QList<MidiChord> midiChords;

            for (auto it = chords.begin(); it != chords.end();) {
                  const Fraction &nextChordTick = it->first;
                  const MidiChord& midiChord = it->second;
                  if (midiChord.voice != voice) {
                        ++it;
                        continue;
                        }
                  processPendingNotes(midiChords, voice, startChordTick, nextChordTick);
                              // now 'midiChords' list is empty
                              // so - fill it:
                              // collect all midiChords on current tick position
                  startChordTick = nextChordTick;       // debug
                  for (;it != chords.end(); ++it) {
                        const MidiChord& midiChord = it->second;
                        if (it->first != startChordTick)
                              break;
                        if (midiChord.voice != voice)
                              continue;
                        midiChords.append(midiChord);
                        }
                  if (midiChords.isEmpty())
                        break;
                  }
                        // process last chords at the end of the score
            processPendingNotes(midiChords, voice, startChordTick, lastTick);
            }

      createTuplets(track, score);

      KeyList* km = staff->keymap();
      if (!hasKey && !mtrack->drumTrack()) {
            KeySigEvent ks;
            ks.setAccidentalType(key);
            (*km)[0] = ks;
            }
      for (auto it = km->begin(); it != km->end(); ++it) {
            int tick = it->first;
            KeySigEvent key  = it->second;
            KeySig* ks = new KeySig(score);
            ks->setTrack(track);
            ks->setGenerated(false);
            ks->setKeySigEvent(key);
            ks->setMag(staff->mag());
            Measure* m = score->tick2measure(tick);
            Segment* seg = m->getSegment(ks, tick);
            seg->add(ks);
            }

#if 0  // TODO
      ClefList* cl = staff->clefList();
      for (ciClefEvent i = cl->begin(); i != cl->end(); ++i) {
            int tick = i.key();
            Clef* clef = new Clef(score);
            clef->setClefType(i.value());
            clef->setTrack(track);
            clef->setGenerated(false);
            clef->setMag(staff->mag());
            Measure* m = score->tick2measure(tick);
            Segment* seg = m->getSegment(clef, tick);
            seg->add(clef);
            }
#endif
      }