MuseScore/mscore/importptb.cpp

#include "importptb.h"
#include "assert.h"

#include <libmscore/part.h>
#include <libmscore/staff.h>
#include <libmscore/measure.h>
#include <libmscore/symbol.h>
#include <libmscore/tie.h>
#include <libmscore/bend.h>
#include <libmscore/timesig.h>
#include <libmscore/sym.h>
#include <libmscore/articulation.h>
#include <libmscore/tuplet.h>
#include <libmscore/instrument.h>
#include <libmscore/clef.h>
#include <libmscore/rest.h>
#include <libmscore/stafftext.h>
#include <libmscore/chord.h>
#include <libmscore/tempotext.h>
#include <libmscore/excerpt.h>
#include <libmscore/rehearsalmark.h>
#include <libmscore/bracketItem.h>
#include <libmscore/box.h>
#include <libmscore/palmmute.h>

namespace Ms {

bool PowerTab::readBoolean()
      {
      return readUChar() != 0;
      }

unsigned char PowerTab::readUChar()
      {
      unsigned char byte;
      _file->read((char*)&byte, 1);
      return byte;
      }

unsigned short PowerTab::readShort()
      {
      uint16_t val;
      _file->read((char*)&val, 2);
      return val;
      }

char PowerTab::readChar()
      {
      char byte;
      _file->read(&byte, 1);
      return byte;
      }


int PowerTab::readInt()
      {
      int32_t val;
      _file->read((char*)&val, 4);
      return val;
      }

std::string PowerTab::readString(int length)
      {
      if (length == -1) {
            length = readUChar();
            if (length == 0xFF)
                  length = readShort();
            }
      char* p = new char[length];
      _file->read(p, length);

      std::string s(p, length);
      delete[] p;
      return s;
      }

bool PowerTab::readVersion()
      {
      std::string version = readString(4);
      version += std::string("-") + to_string(readShort());
      return version == "ptab-4";
      }

void PowerTab::skip(int len /* = 1 */)
      {
      for (int i = 0; i < len; ++i)
            readChar();
      }

void PowerTab::readSongInfo(ptSongInfo& info)
      {
      auto classification = readChar();
      info.classification = classification;
      if (classification == 0) {
            skip(1);
            info.name = readString();
            info.interpret = readString();

            auto releaseType = readChar();

            switch (releaseType) {
                  case 0: {
                        /*auto albumType =*/ readChar();
                        info.album = readString();
                        info.year = readShort();
                        info.liverecording = readChar() != 0;
                        break;
                        }
                  case 1: {
                        info.album = readString();
                        info.liverecording = readChar() != 0;
                        break;
                        }
                  case 2: {
                        info.album  = readString();
                        info.day    = readShort();
                        info.month  = readShort();
                        info.year   = readShort();
                        break;
                        }
                  default:
                        assert(0);
                  }

            if (readChar() == 0) {
                  info.author = readString();
                  info.lyricist = readString();
                  }

            info.arrenger           = readString();
            info.guitarTranscriber  = readString();
            info.bassTranscriber    = readString();
            info.copyright          = readString();

            info.lyrics             = readString();

            info.guitarInstructions = readString();
            info.bassInstructions   = readString();

            }
      else if (classification == 1) {
            info.name         = readString();
            info.album        = readString();
            info.style        = readShort();
            info.level        = readUChar();
            info.author       = readString();
            info.instructions = readString();
            info.copyright    = readString();
            }
      }

int PowerTab::readHeaderItems()
      {
      int itemCount = readShort();
      if (itemCount != 0) {
            int header = readShort();
            if (header == 0xFFFF) {
                  if (readShort() != 1) {
                        return -1;
                        }
                  auto str = readString(readShort()); //section title
                  }
            }
      return itemCount;
      }

void PowerTab::readTrackInfo(ptTrack& info)
      {
      TrackInfo tr;

      tr.number = readUChar();
      tr.name = readString();
      tr.instrument = readUChar();
      tr.volume = readUChar();
      tr.balance = readUChar();
      tr.reverb = readUChar();
      tr.chorus = readUChar();
      tr.tremolo = readUChar();
      tr.phaser = readUChar();
      tr.capo = readUChar();
      tr.tuningName = readString();
      tr.offset = readUChar();

      int ln = readUChar();
      for (int i = 0; i < ln; ++i)
            tr.strings.push_back(readUChar());
      info.infos.push_back(tr);
      }

void PowerTab::readChord(ptTrack& info)
      {
      ptChord ch;
      ch.key = readShort(); //chord key
      ch.formula = readUChar();
      ch.modification = readShort(); //Chord Modification
      ch.extra = readUChar();
      ch.top_fret = readUChar();
      auto stringCount = readUChar();
      for (int i = 0; i < stringCount; ++i) {
            ch.frets.push_back(readUChar()); // fret
            }
      if (info.diagramMap.find({ {ch.key, ch.formula, ch.modification} }) == info.diagramMap.end())
            info.diagramMap[ { {ch.key, ch.formula, ch.modification} }] = ch;
      else {
            auto a1 = info.diagramMap[ { {ch.key, ch.formula, ch.modification} }];
            auto a2 = ch;

//??            int k = 1;
            }
      }

void PowerTab::readFontSettings()
      {
      readString(); //font name
      readInt(); // point size
      readInt(); // weight
      readBoolean(); //italic
      readBoolean(); //underline
      readBoolean(); //strikeout
      readInt(); //color
      }

void PowerTab::readFloatingText()
      {
      readString(); //text
      //rect :
      readInt(); // left
      readInt(); // top
      readInt(); // right
      readInt(); // bottom

      readUChar();
      readFontSettings();
      }

void PowerTab::readDynamic()
      {
      readShort();
      readUChar();
      readUChar();
      readShort();
      }

void PowerTab::readKeySignature()
      {
      readUChar();
      }

void PowerTab::readRehearsalSign(ptSection& sec)
      {
      auto c = readChar();
      auto str = readString();
      if (str.size()) {
            sec.partName = str;
            sec.partMarker = c;
            }
      }

void PowerTab::readChordText(ptSection& sec)
      {
      ptChordText cht;
      cht.position = readUChar();
      cht.key = readShort();
      cht.formula = readUChar();
      cht.formula_mod = readShort();
      cht.extra = readUChar();
      //sec.chordTextMap.push_back(cht);
      sec.chordTextMap.insert({ cht.position, cht });
      }

void PowerTab::readRhytmSlash(ptSection& sec)
      {
      stRhytmSlash rs;
      rs.position = readUChar();
      auto beaming = readUChar();
      auto data = readInt();
      auto duration = (data & 0xE00000) >> 21;
      switch (duration) {
            case 0:
                  rs.duration = 1;
                  break;
            case 1:
                  rs.duration = 2;
                  break;
            case 2:
                  rs.duration = 4;
                  break;
            case 3:
                  rs.duration = 8;
                  break;
            case 4:
                  rs.duration = 16;
            }

      rs.triplet = beaming & (0x20 | 0x40);
      rs.tripletend = beaming & 0x80;

      rs.dotted = data & 0x01;
      rs.doubleDotted = data & 0x02;

      rs.is_rest = data & 0x04;

      sec.rhytm.emplace_back(rs);
      }

void PowerTab::readGuitarIn(ptTrack& info)
      {
      ptGuitarIn gin;
      gin.section = readShort();
      gin.staff = readUChar() + staffInc;
      gin.position = readUChar();
      gin.rhytmSlash = readUChar();
      gin.trackinfo = readUChar();
      info.guitar_ins.push_back(gin);
      //info.getSection(section).getPosition(position).addComponent(new ptGuitarIn(staff, inf));
      }

void PowerTab::readTempoMarker(ptTrack& info)
      {
      auto section = readShort();
      /*auto position =*/ readUChar();
      auto tempo = readShort();
      /*auto data =*/ readShort();
      readString(); //description

#if 0 // TODO-ws
      int tripletFeel = 0;
      if (data & 0x01) {
            tripletFeel = 8;
            }
      else if (data & 0x02) {
            tripletFeel = 16;
            }
#endif
      if (tempo > 0) {
            info.getSection(section).tempo = tempo;//.getPosition(position).addComponent(new ptTempo(tempo));
            }
      }

void PowerTab::readSectionSymbol(ptTrack& info)
      {
      int section = readShort();
      int position = readUChar();
      int data = readInt();

      int endNumber = data >> 16;
      info.getSection(section).getPosition(position).addComponent(new ptSymbol(endNumber));
      }

void PowerTab::readTimeSignature(ptBar* bar)
      {
      skip(3);
      int data = readUChar();
      readUChar(); // measure pulses

      bar->numerator = ((data - (data % 8)) / 8) + 1;
      bar->denominator = pow(2, data % 8);
      }

void PowerTab::readBarLine(ptSection& sec)
      {
      auto bar = new ptBar();
      /*int position =*/ readUChar();
      auto b_type = readUChar();

      bar->repeatStart = (b_type >> 5) == 3;
      bar->repeatClose = (b_type >> 5) == 4 ? b_type - 128 : 0;

      bar->measureNo = sec.number;

      readKeySignature();
      readTimeSignature(bar);
      readRehearsalSign(sec);
      //sec.getPosition(position).addComponent(bar);
      sec.bars.push_back(shared_ptr<ptBar>(bar));
      /*if (bars.empty() || ( bars.back()->measureNo < bar->measureNo ))
            bars.push_back(bar);*/
      }

void PowerTab::readStaff(int staff, ptSection& sec)
      {
      skip(5);
      for (int voice = 0; voice < 2; ++voice) {
            int itemCount = readHeaderItems();
            for (int i = 0; i < itemCount; ++i) {
                  readPosition(staff, voice, sec);
                  if (i < itemCount - 1) {
                        readShort();
                        }
                  }
            }
      }

void PowerTab::readNote(ptBeat* beat)
      {
      ptNote note;
      auto position = readUChar();
      auto simpleData = readShort();
      auto symboCount = readUChar();
      for (int i = 0; i < symboCount; ++i) {
            skip(2);
            auto data3 = readUChar();
            auto data4 = readUChar();
            note.bend = data4 == 101 ? data3 / 16 + 1 : 0;
            note.slide = data4 == 100 ? data3 + 1 : 0;
            }
      note.value = position & 0x1F;
      note.str = ((position & 0xE0) >> 5);
      note.tied = simpleData & 0x01;
      note.dead = simpleData & 0x02;
      note.hammer = simpleData & 0x08;
      beat->notes.emplace_back(note);
      }

void PowerTab::readPosition(int staff, int voice, ptSection& sec)
      {
      auto position = readUChar();

      ptBeat* beat{ nullptr };
      bool add = false;
      if (voice == 0 || sec.beats[staff].empty()) {
            beat = new ptBeat(staff, voice);
            beat->position = position;
            add = true;
            }
      else {
            auto pos = sec.beats[staff].begin();
            auto end = sec.beats[staff].end();
            while (pos != end && pos->get()->position < position) {
                  ++pos;
                  }
            if (pos == end) {
                  beat = new ptBeat(staff, voice);
                  beat->position = position;
                  add = true;
                  }
            else if (pos->get()->position == position) {
                  beat = pos->get();
                  }
            else {
                  beat = new ptBeat(staff, voice);
                  beat->position = position;
                  sec.beats[staff].insert(pos, shared_ptr<ptBeat>(beat));
                  }
            }
      auto beaming = readUChar();
      beaming = (((int)beaming - 128 < 0) ? beaming : beaming - 128);

      readUChar();

      auto data1 = readUChar();
      auto data2 = readUChar(); //32 - palm mute, 4 - accent, 2 - staccato
      auto data3 = readUChar();
      auto durationValue = readUChar();

      int multiBarRest = 1;
      auto complexCount = readUChar();
      for (int i = 0; i < complexCount; ++i) {
            auto count = readShort();
            readUChar();
            auto type = readUChar();
            if (type & 0x08) {
                  multiBarRest = count;
                  }
            }

      auto itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readNote(beat);
            if ( i < itemCount - 1) {
                  readShort();
                  }
            }
      curTrack->infos[staff].notes_count += itemCount;
      beat->mmrest = (itemCount == 0) ? multiBarRest : 1;
      beat->vibrato = (( (data1 & 0x08) != 0) || ( (data1 & 0x10) != 0 ));
      beat->grace = (data3 & 0x01) != 0;
      beat->tuplet = (data3 & 0x20) != 0;

      if (beat->duration != 0) {
            durationValue = std::max((int)durationValue, beat->duration);
            }

      beat->duration = durationValue;//beat->duration == 0 ? durationValue : std::min(beat->duration, (int)durationValue);
      beat->dotted = (data1 & 0x01);
      beat->doubleDotted = (data1 & 0x02);
      beat->arpegioUp = (data1 & 0x20);
      beat->arpegioDown = (data1 & 0x40);
      beat->enters = ((beaming - (beaming % 8)) / 8) + 1;
      beat->times = (beaming % 8) + 1;
      beat->isRest = (data1 & 0x04);
      beat->palmMute = data2 & 0x20;
      beat->accent = data2 & 0x04;
      beat->staccato = data2 & 0x02;

      for (int i = int(sec.beats.size()); i < staff + 1; ++i) {
            sec.beats.push_back({});
            }
      if (add) {
            sec.beats[staff].push_back(std::shared_ptr<ptBeat>(beat));
            }
      //sec.getPosition(position).addComponent(beat);
      }

std::vector<int> PowerTab::getStaffMap(ptSection& sec)
      {
      std::vector<int> result;
      std::vector<int> slash;
      if (!staffInc && curTrack->guitar_ins.size()) {
            auto first = curTrack->guitar_ins.front();
            while (first.section == sec.number) {
                  if (first.trackinfo) {
                        for (unsigned int i = 0; i < curTrack->infos.size(); ++i) {
                              if ((1 << i) & first.trackinfo) {
                                    result.push_back(i);
                                    }
                              }
                        }

                  if (first.rhytmSlash) {
                        for (unsigned int i = 0; i < curTrack->infos.size(); ++i) {
                              if ((i << 1) & first.rhytmSlash) {
                                    slash.push_back(-1 - i);
                                    }
                              }
                        }

                  curTrack->guitar_ins.pop_front();
                  if (curTrack->guitar_ins.empty()) break;
                  first = curTrack->guitar_ins.front();
                  }
            }

      if (result.empty() || int(result.size()) < sec.staffs) {
            result.clear();
            if (int(lastStaffMap.size()) < sec.staffs) {
                  for (int i = 0; i < sec.staffs; ++i) {
                        result.push_back(i + staffInc);
                        }
                  }
            else {
                  result = lastStaffMap;
                  }
            }

      for (auto i : slash) {
            result.push_back(i);
            }

      lastStaffMap = result;
      return result;
      }

//---------------------------------------------------------
//   addPalmMate
//---------------------------------------------------------

void PowerTab::addPalmMute(Chord* chord)
      {
      int track = chord->track();
	while (int(_palmMutes.size()) < track + 1)
		_palmMutes.push_back(0);

	if (_palmMutes[track]) {
		PalmMute* pm = _palmMutes[track];
		Chord* lastChord = toChord(pm->endCR());
		if (lastChord == chord)
			return;
            //
            // extend the current palm mute or start a new one
            //
            Fraction tick = chord->segment()->tick();
		if (pm->tick2() < tick)
                  _palmMutes[track] = 0;
            else {
                  pm->setTick2(chord->tick() + chord->actualTicks());
			pm->setEndElement(chord);
		      }

	      }
	if (!_palmMutes[track]) {
		PalmMute* pm = new PalmMute(score);
		_palmMutes[track] = pm;
            Segment* segment = chord->segment();
            Fraction tick = segment->tick();

		pm->setTick(tick);
		pm->setTick2(tick + chord->actualTicks());
		pm->setTrack(track);
		pm->setTrack2(track);
		pm->setStartElement(chord);
		pm->setEndElement(chord);
		score->addElement(pm);
	      }
      }

void PowerTab::fillMeasure(tBeatList& elist, Measure* measure, int staff, std::vector<Note*>& tiedNotes)
      {
      Tuplet* tuple = nullptr;
      int tupleBeatCounter{ 0 };
      Fraction tick = measure->tick();
      Fraction endtick = measure->endTick();
      Chord*      hammer{ nullptr };

      while (elist.size() && tick < endtick) {
            auto beat = elist.front().get();
            auto segment = measure->getSegment(SegmentType::ChordRest, tick);
            Fraction l(1, beat->duration);
            int dots = beat->dotted ? (beat->doubleDotted ? 2 : 1) : (beat->doubleDotted ? 2 : 0);
            switch (dots) {
                  case 1:
                        l = l + (l * Fraction(1,2));
                        break;
                  case 2:
                        l = l + (l * Fraction(3,4));
                        break;
                  }

            TDuration d(l);
            d.setDots(dots);

            if (beat->tuplet || tupleBeatCounter) {
                  Fraction nt = (l * Fraction(1,3) * Fraction(2,1));
                  tick += nt;
                  }
            else {
                  tick += l;
                  }
            ChordRest* cr;
            if (beat->notes.empty()) {
                  auto rest = new Rest(score);
                  cr = rest;
                  rest->setTrack(staff * VOICES);
                  rest->setTicks(l);
                  rest->setDurationType(d);
                  segment->add(rest);

                  }
            else {
                  Chord* chord = new Chord(score);
                  cr = chord;
                  chord->setTrack(staff * VOICES);
                  chord->setTicks(l);
                  chord->setDurationType(d);
                  segment->add(chord);

                  if (beat->palmMute)
                        addPalmMute(chord);
                  if (beat->accent) {
                        auto accent = new Articulation(score);
                        accent->setSymId(SymId::articAccentAbove);
                        chord->add(accent);
                        }
                  if (beat->staccato) {
                        auto st = new Articulation(score);
                        st->setSymId(SymId::articStaccatoAbove);
                        chord->add(st);
                        }
                  bool has_hammer = false;
                  for (auto n : beat->notes) {
                        auto note = new Note(score);
                        chord->add(note);
                        if (n.dead) {
                              note->setHeadGroup(NoteHead::Group::HEAD_CROSS);
                              note->setGhost(true);
                              }

                        if (n.hammer) {
                              has_hammer = true;
                              }

                        if (n.tied && tiedNotes[n.str]) {
                              Tie* tie = new Tie(score);
                              tie->setEndNote(note);
                              tiedNotes[n.str]->add(tie);
                              }

                        if (n.bend) {
                              Bend* bend = new Bend(score);
//TODO-ws                              bend->setNote(note);
                              bend->points().append(PitchValue(0, n.bend * 25 - 12));
                              bend->points().append(PitchValue(50, 0));
                              note->add(bend);
                              }

                        if (false && n.slide) {
                              Text* st = new Text(score, Tid::HARMONY_A);
                              st->setXmlText(QString("SLIDE %1").arg(n.slide));
                              st->setTrack(staff * VOICES);
                              chord->notes().front()->add(st);
                              }

                        tiedNotes[n.str] = note;
                        note->setFret(n.value);
                        note->setString(n.str);
                        const StringData* sd = score->staff(staff)->part()->instrument()->stringData();
                        int k     = int(curTrack->infos[staff].strings.size()) - n.str - 1;
                        int pitch = sd->stringList().at(k).pitch + n.value; //getPitch(n.str, n.value, 0);
                        note->setPitch(pitch);
                        note->setTpcFromPitch();
                        }

                  if (hammer) {
                        auto cr1 = hammer;
                        auto cr2 = chord;
                        hammer = nullptr;

                        Slur* slur = new Slur(score);
                        slur->setStartElement(cr1);
                        slur->setEndElement(cr2);
                        slur->setTick(cr1->tick());
                        slur->setTick2(tick);
                        slur->setTrack(staff * VOICES);
                        slur->setTrack2(staff  * VOICES);
                        score->addElement(slur);

                        Text* st = new Text(score, Tid::HARMONY_A);
                        st->setXmlText("H");
                        st->setTrack(staff * VOICES);
                        cr1->notes().front()->add(st);
                        }
                  if (has_hammer) {
                        hammer = chord;
                        }
                  }

            if (tupleBeatCounter) {
                  tupleBeatCounter--;
                  cr->setTuplet(tuple);
                  tuple->add(cr);
                  }

            if (beat->tuplet && !tuple) {
                  tuple = new Tuplet(score);
                  tuple->setParent(measure);
                  tuple->setTrack(cr->track());
                  tuple->setBaseLen(l);
                  tuple->setRatio(Fraction(3, 2));
                  tuple->setTicks(l * tuple->ratio().denominator());
                  cr->setTuplet(tuple);
                  tuple->add(cr);
                  tupleBeatCounter = 2;
                  }
            elist.pop_front();
            }

      if (tick == measure->tick()) {
            auto rest = new Rest(score);
            rest->setTrack(staff * VOICES);
            auto ts = measure->timesig();
            rest->setTicks(ts);
            rest->setDurationType(TDuration(ts));
            measure->getSegment(SegmentType::ChordRest, tick)->add(rest);
            }

      }

void PowerTab::addToScore(ptSection& sec)
      {
      cur_section = &sec;
      Fraction tick = score->lastMeasure() ? score->lastMeasure()->endTick() : Fraction(0,1);

      Fraction lastTS(-1, -1);
      bool firstMeasure = true;
      if (score->lastMeasure()) {
            lastTS = score->lastMeasure()->timesig();
            firstMeasure = false;
            }
      if (firstMeasure) {
            //int lastStaff = sec.staffMap.back() + 1;
            for (int i = 0; i < staves; ++i) {
                  Part* part = new Part(score);
                  Staff* s = new Staff(score);
                  s->setPart(part);
                  part->insertStaff(s, -1);
                  auto info = &curTrack->infos[i];
                  std::string ss = info->name;
                  part->setPartName(QString::fromUtf8(ss.data(), int(ss.size())));
                  part->setPlainLongName(QString::fromUtf8(ss.data(), int(ss.size())));

                  std::vector<int> reverseStr;
                  for (auto it = info->strings.rbegin(); it != info->strings.rend(); ++it)
                        reverseStr.push_back(*it);
                  StringData stringData(32, int(info->strings.size()), reverseStr.data());
                  part->instrument()->setStringData(stringData);

                  part->setMidiProgram(info->instrument);

                  score->staves().push_back(s);
                  score->appendPart(part);
                  }
            }
      auto bar1 = sec.bars.front();
      while (bar1->denominator == 0) {
            if (sec.bars.size() == 1)
                  break;
            sec.bars.pop_front();
            bar1 = sec.bars.front();
            }
      if (bar1->denominator == 0) {
            bar1->denominator = 4;
            bar1->numerator = 4;
            }
      auto measure = createMeasure(bar1.get(), tick);
      if (repeatCount) {
            measure->setRepeatEnd(true);
            measure->setRepeatCount(repeatCount);
            }
      repeatCount = bar1->repeatClose;
      if (bar1->repeatStart) {
            measure->setRepeatStart(true);
            }
      if (sec.bars.size() > 1) {
            sec.bars.pop_front();
            }
      if (sec.tempo) {
            TempoText* tt = new TempoText(score);
            tt->setTempo(double(sec.tempo) / 60.0f);
            tt->setXmlText(QString("<sym>metNoteQuarterUp</sym> = %1").arg(sec.tempo));
            tt->setTrack(0);
            Segment* segment = measure->getSegment(SegmentType::ChordRest, measure->tick());
            segment->add(tt);
            score->setTempo(measure->tick(), tt->tempo());
            }
      if (!sec.partName.empty() && lastPart != sec.partMarker) {
            lastPart = sec.partMarker;
            RehearsalMark* t = new RehearsalMark(score);
            t->setFrameType(FrameType::SQUARE);
            t->setPlainText(QString(sec.partMarker));
            t->setTrack(0);
            auto seg = measure->getSegment(SegmentType::ChordRest, measure->tick());
            seg->add(t);

            t = new RehearsalMark(score);
            t->setFrameType(FrameType::NO_FRAME);
            t->setPlainText(QString::fromUtf8(sec.partName.data(), int(sec.partName.size())));
            t->setOffset(QPointF(10.0, 0.0));
            t->setTrack(0);
            seg->add(t);
            }
      if (firstMeasure) {
            for (int staffIdx = 0; staffIdx < staves; ++staffIdx) {
                  int keysig = staffIdx >= staffInc ? 0 : 1; // Can be parsed int beat section
                  KeySig* t = new KeySig(score);
                  t->setKey(Key(keysig));
                  t->setTrack(staffIdx * VOICES);
                  Segment* s = measure->getSegment(SegmentType::KeySig, tick);
                  s->add(t);

                  ClefType clefId = staffIdx >= staffInc ? ClefType::F8_VB : ClefType::G15_MB;
                  auto clef = new Clef(score);
                  clef->setTrack(staffIdx * VOICES);
                  clef->setClefType(clefId);
                  s = measure->getSegment(SegmentType::HeaderClef, Fraction(0,1));
                  s->add(clef);
                  }

            }

      std::vector<std::vector<Note*>> tiedNotes(staves);
      for (auto& nvec : tiedNotes) {
            nvec.resize(10);
            memset(nvec.data(), 0, sizeof(Note*) * 10);
            }
      //std::vector<tBeatList>
      while (true) {
            bool empty = true;
            while (int(sec.beats.size()) < staves) {
                  sec.beats.push_back({});
                  }
            for (unsigned int i = 0; i < sec.beats.size(); ++i) {
                  fillMeasure(sec.beats[i], measure, i, tiedNotes[i]);
                  if (sec.beats[i].size() && i < unsigned(staffInc))
                        empty = false;
                  }
            if (lastTS != measure->timesig()) {
                  lastTS = measure->timesig();
                  for (int staffIdx = 0; staffIdx < staves; ++staffIdx) {
                        Staff* staff = score->staff(staffIdx);
                        auto staffType = staff->staffType(Fraction(0,1));
                        if (staffType->genTimesig()) {
                              auto t = new TimeSig(score);
                              t->setTrack(staffIdx * VOICES);
                              t->setSig(lastTS);
                              Segment* s = measure->getSegment(SegmentType::TimeSig, measure->tick());
                              s->add(t);
                              }
                        }
                  }
            if (empty) {
                  break;
                  }
            auto bar = sec.bars.front();
            while (bar->denominator == 0) {
                  if (sec.bars.size() == 1)
                        break;
                  sec.bars.pop_front();
                  bar = sec.bars.front();
                  }
            if (bar->denominator == 0) {
                  bar->denominator = measure->timesig().denominator();
                  bar->numerator = measure->timesig().numerator();
                  }
            measure = createMeasure(bar.get(), measure->endTick());
            if (repeatCount) {
                  measure->setRepeatEnd(true);
                  measure->setRepeatCount(repeatCount);
                  }
            repeatCount = bar->repeatClose;
            if (bar->repeatStart) {
                  measure->setRepeatStart(true);
                  }
            if (sec.bars.size() > 2) {
                  sec.bars.pop_front();
                  }
            }
      if (sec.bars.size()) {
            auto bar = sec.bars.back();
            if (bar->repeatStart) {
                  measure->setRepeatStart(true);
                  }
            if (bar->repeatClose) {
                  measure->setRepeatEnd(true);
                  measure->setRepeatCount(bar->repeatClose);
                  }
            sec.bars.clear();
            }

      }

void PowerTab::ptSection::copyTracks(ptTrack* track)
      {
      //if not found GuitarIn in section or all tracks are readed -> return
      if (staffs == int(staffMap.size())) {
            return;
            }

      auto signature = chordTextMap.begin();
      for (unsigned index = 0; index < staffMap.size(); ++index) {
            auto staff = (staffMap[index] + 1) * -1;
            if (staff < 0) {
                  continue;
                  }

            for (auto rt : rhytm) {
                  auto newSig = chordTextMap.find(rt.position);
                  if (newSig != chordTextMap.end()) {
                        signature = newSig;
                        }

                  ptBeat* beat = new ptBeat(staff, 0);
                  beat->position = rt.position;
                  beat->duration = rt.duration;
                  beat->dotted = rt.dotted;
                  beat->doubleDotted = rt.doubleDotted;
                  beat->isRest = rt.is_rest;
                  beat->tuplet = rt.triplet;
                  if (!rt.is_rest) {
                        auto diagram = track->diagramMap.find({ {signature->second.key, signature->second.formula, signature->second.formula_mod} });
                        for (unsigned int string = 0; string < diagram->second.frets.size(); ++string) {
                              int fret = diagram->second.frets[string];
                              if (fret >= 0xFE) {
                                    continue;
                                    }
                              ptNote note;
                              note.value = fret;
                              note.str = string;
                              if (fret == 0xFE) {
                                    note.dead = true;
                                    note.value = 0;
                                    }
                              beat->notes.emplace_back(note);
                              }
                        }
                  while (int(beats.size()) <= staff) {
                        beats.push_back({});
                        }
                  beats[staff].push_back(shared_ptr<ptBeat>(beat));
                  }
            }
      }

void PowerTab::readSection(ptSection& sec)
      {
      //rect:
      readInt(); // left
      readInt(); // top
      readInt(); // right
      readInt(); // bottom

      auto lastBarData = readUChar();

      skip(4); //spacing from staff

      readBarLine(sec);

      int itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readDirection(sec);
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      //ChordText section
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readChordText(sec);
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      //RhytmSlash
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readRhytmSlash(sec);
            if (i < itemCount - 1)
                  readShort();
            }
      // Staff
      sec.staffs = readHeaderItems();
      sec.staffMap = getStaffMap(sec);
      for (int i = 0; i < sec.staffs; ++i) {
            int staff = sec.staffMap[i];
            readStaff(staff, sec);
            if (i < sec.staffs - 1) {
                  readShort();
                  }
            }
      sec.copyTracks(curTrack);
      // MusicBar section
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readBarLine(sec);
            if (i < itemCount - 1) {
                  readShort();
                  }
            }

      auto bar = new ptBar();
      bar->repeatClose = (lastBarData >> 5 == 4) ? lastBarData - 128 : 0;
      sec.bars.push_back(shared_ptr<ptBar>(bar));
      //sec.getPosition(sec.getNextPositionNumber()).addComponent(bar);
      }

void PowerTab::readDirection(ptSection& sec)
      {
      int position = readUChar();
      int symbolCount = readUChar();
      for (int i = 0; i < symbolCount; ++i) {
            unsigned int data = readShort();
            sec.getPosition(position).addComponent(new ptDirection((data >> 8), ((data & 0xC0) >> 6), (data & 0x1F)));
            }
      }

void PowerTab::readDataInstruments(ptTrack& info)
      {
      curTrack = &info;
      //Guitar section
      auto itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readTrackInfo(info);
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      // Chord Diagram Section
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readChord(info);
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      //Floating Text section
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readFloatingText();
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      // GuitarIn section
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readGuitarIn(info);
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      // Tempo marker
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readTempoMarker(info);
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      //Dynamic section
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readDynamic();
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      //Symbol section
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readSectionSymbol(info);
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      //Section section
      itemCount = readHeaderItems();
      for (int i = 0; i < itemCount; ++i) {
            readSection(info.getSection(i));
            if (i < itemCount - 1) {
                  readShort();
                  }
            }
      }

std::string crTS(int strings, int tuning[])
      {
      const static char* tune[] = { "C", "C#", "D", "D#", "E", "F", "F#", "G", "G#", "A", "A#", "B" };
      std::vector<int> pitch;
      for (int i = 0; i < strings; ++i) {
            pitch.push_back(tuning[i]);
            }
      std::string t;
      for (auto i : pitch) {
            t += tune[i % 12];
            t += " ";
            }
      return t;
      }


Measure* PowerTab::createMeasure(ptBar* bar, const Fraction& tick)
      {
      auto measure = new Measure(score);
      Fraction nts(bar->numerator, bar->denominator);

      measure->setTick(tick);
      measure->setTimesig(nts);
      measure->setTicks(nts);

      score->measures()->add(measure);

      return measure;
      }

PowerTab::ptSection& PowerTab::ptTrack::getSection(int ind)
      {
      for (int i = (int)sections.size(); i < ind + 1; ++i) {
            sections.push_back(ptSection(i));
            }
      return sections[ind];
      }

PowerTab::ptSection::ptSection(int num)
      {
      number = num;
      }

PowerTab::ptPosition& PowerTab::ptSection::getPosition(int pos)
      {
      unsigned int i = 0;
      while ( i < positions.size() ) {
            auto& p = positions[i];
            if (p.position == pos) {
                  return p;
                  }
            ++i;
            }
      ptPosition p;
      p.position = pos;
      positions.emplace_back(p);
      return positions.back();
      }

int PowerTab::ptSection::getNextPositionNumber()
      {
      int next = 0;
      unsigned int k = 0;
      while (k < positions.size()) {
            auto p = positions[k];
            next = std::max(next, p.position + 1);
            ++k;
            }
      return next;
      }

void PowerTab::ptPosition::addComponent(ptComponent* c)
      {
      components.push_back(shared_ptr<ptComponent>(c));
      }


//---------------------------------------------------------
//   read
//---------------------------------------------------------

Score::FileError PowerTab::read()
      {
      if (!readVersion())
            return Score::FileError::FILE_BAD_FORMAT;
      ptSong song;

      readSongInfo(song.info);
      readDataInstruments(song.track1);
      staffInc = int(song.track1.infos.size());
      lastStaffMap.clear();
      readDataInstruments(song.track1);

      staves = int(song.track1.infos.size());

      std::vector<tBeatList> parts(staves);
      for (int i = staffInc; i < staves; ++i) {
            for (auto& sec : song.track1.sections) {
                  while (int(sec.beats.size()) < staves)
                        sec.beats.push_back({});
                  parts[i].insert(parts[i].end(), sec.beats[i].begin(), sec.beats[i].end());
                  sec.beats[i].clear();
                  }
            }

      for (auto& sec : song.track1.sections) {
            for (int i = 0; i < staves; ++i) {
                  if (parts[i].size()) {
                        sec.beats[i].insert(sec.beats[i].begin(), parts[i].begin(), parts[i].end());
                        parts[i].clear();
                        }
                  }
            addToScore(sec);
            for (int i = 0; i < staves; ++i)
                  parts[i] = sec.beats[i];
            }

      score->style().set(Sid::ArpeggioHiddenInStdIfTab, true);

      MeasureBase* m;
      if (!score->measures()->first()) {
            m = new VBox(score);
            m->setTick(Fraction(0,1));
            score->addMeasure(m, 0);
            }
      else  {
            m = score->measures()->first();
            if (!m->isVBox()) {
                  MeasureBase* mb = new VBox(score);
                  mb->setTick(Fraction(0,1));
                  score->addMeasure(mb, m);
                  m = mb;
                  }
            }
      // create title
      std::string name = song.info.name;
      if (!name.empty()) {
            Text* s = new Text(score, Tid::TITLE);
            s->setPlainText(QString::fromUtf8(name.data(), int(name.size())));
            m->add(s);
            }

//      static const char* tune[] = { "C", "C#", "D", "D#", "E", "F", "F#", "G", "G#", "A", "A#", "B" };
      int id = 0;
      for (Part* part : score->parts()) {
            QMultiMap<int, int> tracks;
            Score* pscore = new Score(score);

//TODO-ws            pscore->tuning.clear();
            auto& info = song.track1.infos[id++];
            for (auto it = info.strings.rbegin(); it != info.strings.rend(); ++it) {
//TODO-ws                  pscore->tuning += tune[*it % 12];
//                  pscore->tuning += " ";
                  }


//TODO-ws          pscore->showLyrics = score->showLyrics;
            pscore->style().set(Sid::createMultiMeasureRests, false);
            pscore->style().set(Sid::ArpeggioHiddenInStdIfTab, true);

            QList<int> stavesMap;
            Part* p = new Part(pscore);
            p->setInstrument(*part->instrument());

            Staff* staff = part->staves()->front();

            Staff* s = new Staff(pscore);
            s->setPart(p);
            const StaffType* st = staff->staffType(Fraction(0,1));
            s->setStaffType(Fraction(0,1), *st);

            s->linkTo(staff);
            p->staves()->append(s);
            pscore->staves().append(s);
            stavesMap.append(staff->idx());
            for (int i = staff->idx() * VOICES, j = 0; i < staff->idx() * VOICES + VOICES; i++, j++)
                  tracks.insert(i, j);

            Excerpt* excerpt = new Excerpt(score);
            excerpt->setTracks(tracks);
            excerpt->setPartScore(pscore);
            //title?
            excerpt->setTitle(part->instrument()->longNames()[0].name());
            pscore->setExcerpt(excerpt);
            excerpt->parts().append(part);
            score->excerpts().append(excerpt);

            Excerpt::cloneStaves(score, pscore, stavesMap, tracks);

            if (staff->part()->instrument()->stringData()->strings() > 0
               && part->staves()->front()->staffType(Fraction(0,1))->group() == StaffGroup::STANDARD) {
                  p->setStaves(2);
                  Staff* s1 = p->staff(1);

                  int lines = staff->part()->instrument()->stringData()->strings();
                  StaffTypes sts = StaffTypes::TAB_DEFAULT;
                  if (lines == 4)
                        sts = StaffTypes::TAB_4COMMON;
                  StaffType st1 = *StaffType::preset(sts);
                  s1->setStaffType(Fraction(0,1), st1);
                  s1->setLines(Fraction(0,1), lines);
                  Excerpt::cloneStaff(s, s1);
                  BracketItem* bi = new BracketItem(pscore, BracketType::NORMAL, 2);
                  p->staves()->front()->addBracket(bi);
                  }
            pscore->appendPart(p);

            //
            // create excerpt title
            //
            MeasureBase* measure = pscore->first();
            if (!measure || (measure->type() != ElementType::VBOX)) {
                  MeasureBase* mb = new VBox(pscore);
                  mb->setTick(Fraction(0,1));
                  pscore->addMeasure(mb, measure);
                  measure = mb;
                  }
            Text* txt = new Text(pscore, Tid::INSTRUMENT_EXCERPT);
            txt->setPlainText(part->longName());
            measure->add(txt);

            pscore->setPlaylistDirty();
            pscore->setLayoutAll();
            pscore->addLayoutFlags(LayoutFlag::FIX_PITCH_VELO);
            pscore->doLayout();
            }
      return Score::FileError::FILE_NO_ERROR;
      }

}