MuseScore/mscore/importove.cpp
2015-02-06 22:32:34 -07:00

2396 lines
93 KiB
C++

//=============================================================================
// MusE Score
// Linux Music Score Editor
// $Id: importove.cpp 3763 2010-12-15 15:50:09Z vanferry $
//
// Copyright (C) 2002-2009 Werner Schweer and others
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License version 2.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
//=============================================================================
#include "ove.h"
#include "globals.h"
#include "musescore.h"
#include "libmscore/sig.h"
#include "libmscore/tempo.h"
#include "libmscore/arpeggio.h"
#include "libmscore/articulation.h"
#include "libmscore/barline.h"
#include "libmscore/box.h"
#include "libmscore/bracket.h"
#include "libmscore/breath.h"
#include "libmscore/chord.h"
#include "libmscore/clef.h"
#include "libmscore/drumset.h"
#include "libmscore/dynamic.h"
#include "libmscore/hairpin.h"
#include "libmscore/harmony.h"
#include "libmscore/glissando.h"
#include "libmscore/keysig.h"
#include "libmscore/layoutbreak.h"
#include "libmscore/lyrics.h"
#include "libmscore/measure.h"
#include "libmscore/note.h"
#include "libmscore/ottava.h"
#include "libmscore/part.h"
#include "libmscore/pedal.h"
#include "libmscore/pitchspelling.h"
#include "preferences.h"
#include "libmscore/repeat.h"
#include "libmscore/rest.h"
#include "libmscore/score.h"
#include "libmscore/segment.h"
#include "libmscore/slur.h"
#include "libmscore/tie.h"
#include "libmscore/staff.h"
#include "libmscore/tempotext.h"
#include "libmscore/text.h"
#include "libmscore/timesig.h"
#include "libmscore/tuplet.h"
#include "libmscore/tremolo.h"
#include "libmscore/volta.h"
#include "libmscore/chordlist.h"
#include "libmscore/rehearsalmark.h"
#include "libmscore/marker.h"
#include "libmscore/jump.h"
using namespace Ms;
class MeasureToTick {
public:
MeasureToTick();
~MeasureToTick();
public:
void build(OVE::OveSong* ove, int quarter);
int getTick(int measure, int tick_pos);
static int unitToTick(int unit, int quarter);
struct TimeTick {
int numerator_;
int denominator_;
int measure_;
int tick_;
bool isSymbol_;
TimeTick():numerator_(4), denominator_(4), measure_(0), tick_(0), isSymbol_(false){}
};
QList<TimeTick> getTimeTicks() const;
private:
int quarter_;
OVE::OveSong* ove_;
QList<TimeTick> tts_;
};
int getMeasureTick(int quarter, int num, int den){
return quarter * 4 * num / den;
}
MeasureToTick::MeasureToTick(){
quarter_ = 480;
ove_ = 0;
}
MeasureToTick::~MeasureToTick(){
}
void MeasureToTick::build(OVE::OveSong* ove, int quarter){
unsigned int i;
int currentTick = 0;
unsigned int measureCount = ove->getMeasureCount();
quarter_ = quarter;
ove_ = ove;
tts_.clear();
for(i=0; i<measureCount; ++i) {
OVE::Measure* measure = ove_->getMeasure(i);
OVE::TimeSignature* time = measure->getTime();
TimeTick tt;
bool change = false;
tt.tick_ = currentTick;
tt.numerator_ = time->getNumerator();
tt.denominator_ = time->getDenominator();
tt.measure_ = i;
tt.isSymbol_ = time->getIsSymbol();
if( i == 0 ){
change = true;
} else {
OVE::TimeSignature* previousTime = ove_->getMeasure(i-1)->getTime();
if( time->getNumerator() != previousTime->getNumerator() ||
time->getDenominator() != previousTime->getDenominator() ){
change = true;
} else if(time->getIsSymbol() != previousTime->getIsSymbol()){
change = true;
}
}
if( change ){
tts_.push_back(tt);
}
currentTick += getMeasureTick(quarter_, tt.numerator_, tt.denominator_);
}
}
int MeasureToTick::getTick(int measure, int tick_pos){
TimeTick tt;
for(int i=0; i<tts_.size(); ++i) {
if( measure >= tts_[i].measure_ && ( i==tts_.size()-1 || measure < tts_[i+1].measure_ ) ) {
int measuresTick = (measure - tts_[i].measure_) * getMeasureTick(quarter_, tts_[i].numerator_, tts_[i].denominator_);
return tts_[i].tick_ + measuresTick + tick_pos;
}
}
return 0;
}
int MeasureToTick::unitToTick(int unit, int quarter) {
// 0x100 correspond to quarter tick
float ratio = (float)unit / (float)256.0;
int tick = ratio * quarter;
return tick;
}
QList<MeasureToTick::TimeTick> MeasureToTick::getTimeTicks() const {
return tts_;
}
///////////////////////////////////////////////////////////////////
class OveToMScore {
public:
OveToMScore();
~OveToMScore();
public:
void convert(OVE::OveSong* oveData, Score* score);
private:
void createStructure();
void convertHeader();
void convertGroups();
void convertTrackHeader(OVE::Track* track, Part* part);
void convertTrackElements(int track);
void convertLineBreak();
void convertSignatures();
void convertMeasures();
void convertMeasure(Measure* measure);
void convertMeasureMisc(Measure* measure, int part, int staff, int track);
void convertNotes(Measure* measure, int part, int staff, int track);
void convertArticulation(Measure* measure, ChordRest* cr, int track, int absTick, OVE::Articulation* art);
void convertLyrics(Measure* measure, int part, int staff, int track);
void convertHarmonys(Measure* measure, int part, int staff, int track);
void convertRepeats(Measure* measure, int part, int staff, int track);
void convertDynamics(Measure* measure, int part, int staff, int track);
void convertExpressions(Measure* measure, int part, int staff, int track);
void convertLines(Measure* measure);
void convertSlurs(Measure* measure, int part, int staff, int track);
void convertGlissandos(Measure* measure, int part, int staff, int track);
void convertWedges(Measure* measure, int part, int staff, int track);
void convertOctaveShifts(Measure* measure, int part, int staff, int track);
OVE::NoteContainer* getContainerByPos(int part, int staff, const OVE::MeasurePos& pos);
//OVE::MusicData* getMusicDataByUnit(int part, int staff, int measure, int unit, OVE::MusicDataType type);
OVE::MusicData* getCrossMeasureElementByPos(int part, int staff, const OVE::MeasurePos& pos, int voice, OVE::MusicDataType type);
ChordRest* findChordRestByPos(int absTick, int track);
void clearUp();
private:
OVE::OveSong* ove_;
Score* score_;
MeasureToTick* mtt_;
Pedal* pedal_;
};
OveToMScore::OveToMScore() {
ove_ = 0;
mtt_ = new MeasureToTick();
pedal_ = 0;
}
OveToMScore::~OveToMScore() {
delete mtt_;
}
void OveToMScore::convert(OVE::OveSong* ove, Score* score) {
ove_ = ove;
score_ = score;
mtt_->build(ove_, ove_->getQuarter());
convertHeader();
createStructure();
convertGroups();
convertSignatures();
//convertLineBreak();
int staffCount = 0;
for(int i=0; i<ove_->getPartCount(); ++i ){
int partStaffCount = ove_->getStaffCount(i) ;
Part* part = score_->parts().at(i);
for(int j=0; j<partStaffCount; ++j){
OVE::Track* track = ove_->getTrack(i, j);
convertTrackHeader(track, part);
}
staffCount += partStaffCount;
}
convertMeasures();
// convert elements by ove track sequence
staffCount = 0;
for(int i=0; i<ove_->getPartCount(); ++i ){
int partStaffCount = ove_->getStaffCount(i) ;
for(int j=0; j<partStaffCount; ++j){
int trackIndex = staffCount + j;
convertTrackElements(trackIndex);
}
staffCount += partStaffCount;
}
clearUp();
}
void OveToMScore::createStructure() {
int i;
for(i=0; i<ove_->getPartCount(); ++i ){
int partStaffCount = ove_->getStaffCount(i) ;
Part* part = new Part(score_);
for(int j=0; j<partStaffCount; ++j){
//OVE::Track* track = ove_->getTrack(i, j);
Staff* staff = new Staff(score_);
staff->setPart(part);
part->staves()->push_back(staff);
score_->staves().push_back(staff);
}
score_->appendPart(part);
part->setStaves(partStaffCount);
}
for(i = 0; i <ove_->getMeasureCount(); ++i) {
Measure* measure = new Measure(score_);
int tick = mtt_->getTick(i, 0);
measure->setTick(tick);
measure->setNo(i);
score_->measures()->add(measure);
}
}
void OveToMScore::clearUp() {
if(pedal_ != NULL) {
delete pedal_;
pedal_ = 0;
}
}
OVE::Staff* getStaff(const OVE::OveSong* ove, int track) {
if (ove->getLineCount() > 0) {
OVE::Line* line = ove->getLine(0);
if(line != 0 && line->getStaffCount() > 0) {
OVE::Staff* staff = line->getStaff(track);
return staff;
}
}
return 0;
}
void addText(VBox* & vbox, Score* s, QString strTxt, TextStyleType stl) {
if (!strTxt.isEmpty()) {
Text* text = new Text(s);
text->setTextStyleType(stl);
text->setText(strTxt);
if(vbox == 0) {
vbox = new VBox(s);
}
vbox->add(text);
}
}
void OveToMScore::convertHeader() {
VBox* vbox = 0;
QList<QString> titles = ove_->getTitles();
if( !titles.empty() && !titles[0].isEmpty() ) {
QString title = titles[0];
score_->setMetaTag("movementTitle", title);
addText(vbox, score_, title, TextStyleType::TITLE);
}
QList<QString> writers = ove_->getWriters();
if(!writers.empty()) {
QString composer = writers[0];
addText(vbox, score_, composer, TextStyleType::COMPOSER);
}
if(writers.size() > 1) {
QString lyricist = writers[1];
addText(vbox, score_, lyricist, TextStyleType::POET);
}
if (vbox) {
vbox->setTick(0);
score_->measures()->add(vbox);
}
}
void OveToMScore::convertGroups() {
int i;
int staffCount = 0;
const QList<Part*>& parts = score_->parts();
for(i=0; i<ove_->getPartCount(); ++i ){
int partStaffCount = ove_->getStaffCount(i);
//if(parts == 0)
// continue;
Part* part = parts.at(i);
if(part == 0)
continue;
for(int j=0; j<partStaffCount; ++j){
int staffIndex = staffCount + j;
Staff* staff = score_->staff(staffIndex);
if(staff == 0)
continue;
// brace
if( j == 0 && partStaffCount == 2 ) {
staff->setBracket(0, BracketType::BRACE);
staff->setBracketSpan(0, 2);
staff->setBarLineSpan(2);
}
// bracket
OVE::Staff* staffPtr = getStaff(ove_, staffIndex);
if(staffPtr != 0 && staffPtr->getGroupType() == OVE::GroupType::Bracket) {
int span = staffPtr->getGroupStaffCount() + 1;
int endStaff = staffIndex + span;
if(span > 0 && endStaff >= staffIndex && endStaff <= ove_->getTrackCount()) {
staff->addBracket(BracketItem(BracketType::NORMAL, span));
staff->setBarLineSpan(span);
}
}
}
staffCount += partStaffCount;
}
}
ClefType OveClefToClef(OVE::ClefType type){
ClefType clef = ClefType::G;
switch(type){
case OVE::ClefType::Treble:{
clef = ClefType::G;
break;
}
case OVE::ClefType::Bass:{
clef = ClefType::F;
break;
}
case OVE::ClefType::Alto:{
clef = ClefType::C3;
break;
}
case OVE::ClefType::UpAlto:{
clef = ClefType::C4;
break;
}
case OVE::ClefType::DownDownAlto:{
clef = ClefType::C1;
break;
}
case OVE::ClefType::DownAlto:{
clef = ClefType::C2;
break;
}
case OVE::ClefType::UpUpAlto:{
clef = ClefType::C5;
break;
}
case OVE::ClefType::Treble8va:{
clef = ClefType::G1;
break;
}
case OVE::ClefType::Bass8va:{
clef = ClefType::F_8VA;
break;
}
case OVE::ClefType::Treble8vb:{
clef = ClefType::G3;
break;
}
case OVE::ClefType::Bass8vb:{
clef = ClefType::F8;
break;
}
case OVE::ClefType::Percussion1:{
clef = ClefType::PERC;
break;
}
case OVE::ClefType::Percussion2:{
clef = ClefType::PERC2;
break;
}
case OVE::ClefType::TAB:{
clef = ClefType::TAB;
break;
}
default:
break;
}
return clef;
}
NoteHead::Group getHeadGroup(OVE::NoteHeadType type) {
NoteHead::Group headGroup = NoteHead::Group::HEAD_NORMAL;
switch (type) {
case OVE::NoteHeadType::Standard: {
headGroup = NoteHead::Group::HEAD_NORMAL;
break;
}
case OVE::NoteHeadType::Invisible: {
break;
}
case OVE::NoteHeadType::Rhythmic_Slash: {
headGroup = NoteHead::Group::HEAD_SLASH;
break;
}
case OVE::NoteHeadType::Percussion: {
headGroup = NoteHead::Group::HEAD_XCIRCLE;
break;
}
case OVE::NoteHeadType::Closed_Rhythm: {
headGroup = NoteHead::Group::HEAD_CROSS;
break;
}
case OVE::NoteHeadType::Open_Rhythm: {
headGroup = NoteHead::Group::HEAD_CROSS;
break;
}
case OVE::NoteHeadType::Closed_Slash: {
headGroup = NoteHead::Group::HEAD_SLASH;
break;
}
case OVE::NoteHeadType::Open_Slash: {
headGroup = NoteHead::Group::HEAD_SLASH;
break;
}
case OVE::NoteHeadType::Closed_Do: {
headGroup = NoteHead::Group::HEAD_DO;
break;
}
case OVE::NoteHeadType::Open_Do: {
headGroup = NoteHead::Group::HEAD_DO;
break;
}
case OVE::NoteHeadType::Closed_Re: {
headGroup = NoteHead::Group::HEAD_RE;
break;
}
case OVE::NoteHeadType::Open_Re: {
headGroup = NoteHead::Group::HEAD_RE;
break;
}
case OVE::NoteHeadType::Closed_Mi: {
headGroup = NoteHead::Group::HEAD_MI;
break;
}
case OVE::NoteHeadType::Open_Mi: {
headGroup = NoteHead::Group::HEAD_MI;
break;
}
case OVE::NoteHeadType::Closed_Fa: {
headGroup = NoteHead::Group::HEAD_FA;
break;
}
case OVE::NoteHeadType::Open_Fa: {
headGroup = NoteHead::Group::HEAD_FA;
break;
}
case OVE::NoteHeadType::Closed_Sol: {
break;
}
case OVE::NoteHeadType::Open_Sol: {
break;
}
case OVE::NoteHeadType::Closed_La: {
headGroup = NoteHead::Group::HEAD_LA;
break;
}
case OVE::NoteHeadType::Open_La: {
headGroup = NoteHead::Group::HEAD_LA;
break;
}
case OVE::NoteHeadType::Closed_Ti: {
headGroup = NoteHead::Group::HEAD_TI;
break;
}
case OVE::NoteHeadType::Open_Ti: {
headGroup = NoteHead::Group::HEAD_TI;
break;
}
default: {
break;
}
}
return headGroup;
}
void OveToMScore::convertTrackHeader(OVE::Track* track, Part* part){
if(track == 0 || part == 0)
return;
QString longName = track->getName();
if (longName != QString() && track->getShowName()){
part->setLongName(longName);
}
QString shortName = track->getBriefName();
if (shortName != QString() && track->getShowBriefName()) {
part->setShortName(shortName);
}
part->setMidiProgram(track->getPatch());
if (ove_->getShowTransposeTrack() && track->getTranspose() != 0 ) {
Ms::Interval interval = part->instr()->transpose();
interval.diatonic = -track->getTranspose();
part->instr()->setTranspose(interval);
}
// DrumSet
if(track->getStartClef()==OVE::ClefType::Percussion1 || track->getStartClef()==OVE::ClefType::Percussion2) {
//use overture drumset
Drumset* drumset = new Drumset();
for (int i = 0; i < DRUM_INSTRUMENTS; ++i) {
drumset->drum(i).name = smDrumset->drum(i).name;
drumset->drum(i).notehead = smDrumset->drum(i).notehead;
drumset->drum(i).line = smDrumset->drum(i).line;
drumset->drum(i).stemDirection = smDrumset->drum(i).stemDirection;
drumset->drum(i).voice = smDrumset->drum(i).voice;
drumset->drum(i).shortcut = 0;
}
QList<OVE::Track::DrumNode> nodes = track->getDrumKit();
for (int i=0; i<nodes.size(); ++i) {
int pitch = nodes[i].pitch_;
OVE::Track::DrumNode node = nodes[i];
if (pitch < DRUM_INSTRUMENTS) {
drumset->drum(pitch).line = node.line_;
drumset->drum(pitch).notehead = getHeadGroup(OVE::NoteHeadType(node.headType_));
drumset->drum(pitch).voice = node.voice_;
}
}
part->instr()->channel(0).bank = 128;
part->setMidiProgram(0);
part->instr()->setUseDrumset(DrumsetKind::DEFAULT_DRUMS);
part->instr()->setDrumset(drumset);
}
}
static Ottava::Type OctaveShiftTypeToInt(OVE::OctaveShiftType type) {
Ottava::Type subtype = Ottava::Type::OTTAVA_8VA;
switch (type) {
case OVE::OctaveShiftType::OS_8: {
subtype = Ottava::Type::OTTAVA_8VA;
break;
}
case OVE::OctaveShiftType::OS_15: {
subtype = Ottava::Type::OTTAVA_15MA;
break;
}
case OVE::OctaveShiftType::OS_Minus_8: {
subtype = Ottava::Type::OTTAVA_8VB;
break;
}
case OVE::OctaveShiftType::OS_Minus_15: {
subtype = Ottava::Type::OTTAVA_15MB;
break;
}
default:
break;
}
return subtype;
}
void OveToMScore::convertTrackElements(int track) {
Ottava* ottava = 0;
for(int i=0; i<ove_->getTrackBarCount(); ++i) {
OVE::MeasureData* measureData = ove_->getMeasureData(track, i);
if(measureData == 0)
continue;
// octave shift
QList<OVE::MusicData*> octaves = measureData->getMusicDatas(OVE::MusicDataType::OctaveShift_EndPoint);
for(int j=0; j<octaves.size(); ++j) {
OVE::OctaveShiftEndPoint* octave = static_cast<OVE::OctaveShiftEndPoint*>(octaves[j]);
int absTick = mtt_->getTick(i, octave->getTick());
if(octave->getOctaveShiftPosition() == OVE::OctaveShiftPosition::Start) {
if(ottava == 0) {
ottava = new Ottava(score_);
ottava->setTrack(track * VOICES);
ottava->setOttavaType(OctaveShiftTypeToInt(octave->getOctaveShiftType()));
int y_off = 0;
switch (octave->getOctaveShiftType()) {
case OVE::OctaveShiftType::OS_8:
case OVE::OctaveShiftType::OS_15: {
y_off = -3;
break;
}
case OVE::OctaveShiftType::OS_Minus_8:
case OVE::OctaveShiftType::OS_Minus_15: {
y_off = 8;
break;
}
default:{
break;
}
}
if(y_off != 0) {
ottava->setUserOff(QPointF(0, y_off * score_->spatium()));
}
ottava->setTick(absTick);
} else {
qDebug("overlapping octave-shift not supported");
delete ottava;
ottava = 0;
}
} else if (octave->getOctaveShiftPosition() == OVE::OctaveShiftPosition::Stop) {
if(ottava != 0) {
int absTick = mtt_->getTick(i, octave->getEndTick());
ottava->setTick2(absTick);
score_->addSpanner(ottava);
ottava->staff()->updateOttava();
ottava = 0;
} else {
qDebug("octave-shift stop without start");
}
}
}
}
}
void OveToMScore::convertLineBreak(){
for (MeasureBase* mb = score_->measures()->first(); mb; mb = mb->next()) {
if (mb->type() != Element::Type::MEASURE)
continue;
Measure* measure = static_cast<Measure*> (mb);
for (int i = 0; i < ove_->getLineCount(); ++i) {
OVE::Line* line = ove_->getLine(i);
if (measure->no() > 0) {
if ((int)line->getBeginBar() + (int)line->getBarCount()-1 == measure->no()) {
LayoutBreak* lb = new LayoutBreak(score_);
lb->setTrack(0);
lb->setLayoutBreakType(LayoutBreak::Type::LINE);
measure->add(lb);
}
}
}
}
}
void OveToMScore::convertSignatures(){
int i;
int j;
int k;
// Time
const QList<MeasureToTick::TimeTick> tts = mtt_->getTimeTicks() ;
for( i=0; i<(int)tts.size(); ++i ){
MeasureToTick::TimeTick tt = tts[i];
Fraction f(tt.numerator_, tt.denominator_);
TimeSigMap* sigmap = score_->sigmap();
sigmap->add(tt.tick_, f);
Measure* measure = score_->tick2measure(tt.tick_);
if(measure){
for(int staffIdx = 0; staffIdx < score_->nstaves(); ++staffIdx) {
TimeSigType subtype = TimeSigType::NORMAL;
if(tt.numerator_ == 4 && tt.denominator_ == 4 && tt.isSymbol_ ){
subtype = TimeSigType::FOUR_FOUR;
} else if(tt.numerator_ == 2 && tt.denominator_ == 2 && tt.isSymbol_ ){
subtype = TimeSigType::ALLA_BREVE;
}
TimeSig* ts = new TimeSig(score_);
ts->setTrack(staffIdx * VOICES);
ts->setSig(Fraction(tt.numerator_, tt.denominator_), subtype);
Segment* seg = measure->getSegment(ts, tt.tick_);
seg->add(ts);
}
}
}
// Key
int staffCount = 0;
bool createKey = false ;
for(i=0; i<ove_->getPartCount(); ++i ){
int partStaffCount = ove_->getStaffCount(i) ;
for(j=0; j<partStaffCount; ++j){
for(k=0; k<ove_->getMeasureCount(); ++k){
OVE::MeasureData* measureData = ove_->getMeasureData(i, j, k) ;
if( measureData != 0 ){
OVE::Key* keyPtr = measureData->getKey() ;
if( k == 0 || keyPtr->getKey() != keyPtr->getPreviousKey() ) {
int tick = mtt_->getTick(k, 0);
int keyValue = keyPtr->getKey();
Measure* measure = score_->tick2measure(tick);
if(measure){
KeySigEvent ke;
ke.setKey(Key(keyValue));
score_->staff(staffCount+j)->setKey(tick, ke);
KeySig* keysig = new KeySig(score_);
keysig->setTrack((staffCount+j) * VOICES);
keysig->setKeySigEvent(ke);
Segment* s = measure->getSegment(keysig, tick);
s->add(keysig);
createKey = true;
}
}
}
}
}
staffCount += partStaffCount;
}
if( !createKey ){
staffCount = 0;
for(i=0; i<ove_->getPartCount(); ++i ){
int partStaffCount = ove_->getStaffCount(i) ;
for(j=0; j<partStaffCount; ++j){
Measure* measure = score_->tick2measure(mtt_->getTick(0, 0));
if(measure){
KeySig* keysig = new KeySig(score_);
keysig->setTrack((staffCount+j) * VOICES);
keysig->setKeySigEvent(KeySigEvent());
Segment* s = measure->getSegment(keysig, 0);
s->add(keysig);
}
}
staffCount += partStaffCount;
}
}
// Clef
staffCount = 0;
for(i=0; i<ove_->getPartCount(); ++i){
int partStaffCount = ove_->getStaffCount(i) ;
for(j=0; j<partStaffCount; ++j){
// start clef
Staff* staff = score_->staff(staffCount+j);
if(staff){
OVE::Track* track = ove_->getTrack(i, j);
ClefType clefType = OveClefToClef(track->getStartClef());
Measure* measure = score_->tick2measure(0);
// staff->setClef(0, clefType);
// note: also generate symbol for tick 0
// was not necessary before 0.9.6
Clef* clef = new Clef(score_);
clef->setClefType(clefType);
clef->setTrack((staffCount+j)*VOICES);
Segment* s = measure->getSegment(clef, 0);
s->add(clef);
}
// clef in measure
for(k=0; k<ove_->getMeasureCount(); ++k){
OVE::MeasureData* measureData = ove_->getMeasureData(i, j, k);
QList<OVE::MusicData*> clefs = measureData->getMusicDatas(OVE::MusicDataType::Clef);
Measure* measure = score_->tick2measure(mtt_->getTick(k, 0));
for( int l=0; l<clefs.size(); ++l){
if(measure != 0){
OVE::Clef* clefPtr = static_cast<OVE::Clef*>(clefs[l]);
int absTick = mtt_->getTick(k, clefPtr->getTick());
ClefType clefType = OveClefToClef(clefPtr->getClefType());
Clef* clef = new Clef(score_);
clef->setClefType(clefType);
clef->setTrack((staffCount+j)*VOICES);
Segment* s = measure->getSegment(clef, absTick);
s->add(clef);
}
}
}
}
staffCount += partStaffCount;
}
// Tempo
std::map<int, int> tempos;
for(i=0; i<ove_->getPartCount(); ++i){
int partStaffCount = ove_->getStaffCount(i);
for(j=0; j<partStaffCount; ++j){
for(k=0; k<ove_->getMeasureCount(); ++k){
OVE::Measure* measure = ove_->getMeasure(k);
OVE::MeasureData* measureData = ove_->getMeasureData(i, j, k);
QList<OVE::MusicData*> tempoPtrs = measureData->getMusicDatas(OVE::MusicDataType::Tempo);
if(k==0 || ( k>0 && qAbs(measure->getTypeTempo()-ove_->getMeasure(k-1)->getTypeTempo())>0.01 )){
int tick = mtt_->getTick(k, 0);
tempos[tick] = (int)measure->getTypeTempo();
}
for(int l=0; l<tempoPtrs.size(); ++l) {
OVE::Tempo* ptr = static_cast<OVE::Tempo*>(tempoPtrs[l]);
int tick = mtt_->getTick(measure->getBarNumber()->getIndex(), ptr->getTick());
int tempo = ptr->getQuarterTempo()>0 ? ptr->getQuarterTempo() : 1;
tempos[tick] = tempo;
}
}
}
}
std::map<int, int>::iterator it;
int lastTempo = 0;
for(it=tempos.begin(); it!=tempos.end(); ++it) {
if( it==tempos.begin() || (*it).second != lastTempo ) {
double tpo = ((double)(*it).second) / 60.0;
score_->setTempo((*it).first, tpo);
}
lastTempo = (*it).second;
}
}
int ContainerToTick(OVE::NoteContainer* container, int quarter){
int tick = OVE::NoteTypeToTick(container->getNoteType(), quarter);
int dotLength = tick;
for( int i=0; i<container->getDot(); ++i ) {
dotLength /= 2;
}
dotLength = tick - dotLength;
if(container->getTuplet() > 0) {
tick = tick * container->getSpace() / container->getTuplet();
}
tick += dotLength;
return tick;
}
const OVE::Tuplet* getTuplet(const QList<OVE::MusicData*>& tuplets, int unit){
for(int i=0; i<tuplets.size(); ++i){
const OVE::MusicData* data = tuplets[i];
if(unit >= data->start()->getOffset() && unit <= data->stop()->getOffset()){
const OVE::Tuplet* tuplet = static_cast<OVE::Tuplet*>(tuplets[i]);
return tuplet;
}
}
return 0;
}
TDuration OveNoteType_To_Duration(OVE::NoteType noteType){
TDuration d;
switch(noteType){
case OVE::NoteType::Note_DoubleWhole: {
d.setType(TDuration::DurationType::V_BREVE);
break;
}
case OVE::NoteType::Note_Whole: {
d.setType(TDuration::DurationType::V_WHOLE);
break;
}
case OVE::NoteType::Note_Half: {
d.setType(TDuration::DurationType::V_HALF);
break;
}
case OVE::NoteType::Note_Quarter: {
d.setType(TDuration::DurationType::V_QUARTER);
break;
}
case OVE::NoteType::Note_Eight: {
d.setType(TDuration::DurationType::V_EIGHTH);
break;
}
case OVE::NoteType::Note_Sixteen: {
d.setType(TDuration::DurationType::V_16TH);
break;
}
case OVE::NoteType::Note_32: {
d.setType(TDuration::DurationType::V_32ND);
break;
}
case OVE::NoteType::Note_64: {
d.setType(TDuration::DurationType::V_64TH);
break;
}
case OVE::NoteType::Note_128: {
d.setType(TDuration::DurationType::V_128TH);
break;
}
case OVE::NoteType::Note_256: {
d.setType(TDuration::DurationType::V_256TH);
break;
}
default:
d.setType(TDuration::DurationType::V_QUARTER);
break;
}
return d;
}
int accidentalToAlter(OVE::AccidentalType type) {
int alter = 0;
switch( type ) {
case OVE::AccidentalType::Normal:
case OVE::AccidentalType::Natural:
case OVE::AccidentalType::Natural_Caution: {
alter = 0;
break;
}
case OVE::AccidentalType::Sharp:
case OVE::AccidentalType::Sharp_Caution: {
alter = 1;
break;
}
case OVE::AccidentalType::Flat:
case OVE::AccidentalType::Flat_Caution: {
alter = -1;
break;
}
case OVE::AccidentalType::DoubleSharp:
case OVE::AccidentalType::DoubleSharp_Caution: {
alter = 2;
break;
}
case OVE::AccidentalType::DoubleFlat:
case OVE::AccidentalType::DoubleFlat_Caution: {
alter = -2;
break;
}
default:
break;
}
return alter;
}
void getMiddleToneOctave(OVE::ClefType clef, OVE::ToneType& tone, int& octave) {
tone = OVE::ToneType::B;
octave = 4;
switch ( clef ) {
case OVE::ClefType::Treble: {
tone = OVE::ToneType::B;
octave = 4;
break;
}
case OVE::ClefType::Treble8va: {
tone = OVE::ToneType::B;
octave = 5;
break;
}
case OVE::ClefType::Treble8vb: {
tone = OVE::ToneType::B;
octave = 3;
break;
}
case OVE::ClefType::Bass: {
tone = OVE::ToneType::D;
octave = 3;
break;
}
case OVE::ClefType::Bass8va: {
tone = OVE::ToneType::D;
octave = 4;
break;
}
case OVE::ClefType::Bass8vb: {
tone = OVE::ToneType::D;
octave = 2;
break;
}
case OVE::ClefType::Alto: {
tone = OVE::ToneType::C;
octave = 4;
break;
}
case OVE::ClefType::UpAlto: {
tone = OVE::ToneType::A;
octave = 3;
break;
}
case OVE::ClefType::DownDownAlto: {
tone = OVE::ToneType::G;
octave = 4;
break;
}
case OVE::ClefType::DownAlto: {
tone = OVE::ToneType::E;
octave = 4;
break;
}
case OVE::ClefType::UpUpAlto: {
tone = OVE::ToneType::F;
octave = 3;
break;
}
case OVE::ClefType::Percussion1: {
tone = OVE::ToneType::A;
octave = 3;
break;
}
case OVE::ClefType::Percussion2: {
tone = OVE::ToneType::A;
octave = 3;
break;
}
case OVE::ClefType::TAB: {
break;
}
default:
break;
}
}
OVE::ClefType getClefType(OVE::MeasureData* measure, int tick) {
OVE::ClefType type = measure->getClef()->getClefType();
QList<OVE::MusicData*> clefs = measure->getMusicDatas(OVE::MusicDataType::Clef);
for(int i=0; i<clefs.size(); ++i){
if(tick < clefs[i]->getTick()){
break;
}
if(tick >= clefs[i]->getTick()){
OVE::Clef* clef = static_cast<OVE::Clef*>(clefs[i]);
type = clef->getClefType();
}
}
return type;
}
void OveToMScore::convertMeasures() {
for (MeasureBase* mb = score_->measures()->first(); mb; mb = mb->next()) {
if (mb->type() != Element::Type::MEASURE)
continue;
Measure* measure = static_cast<Measure*>(mb);
convertMeasure(measure);
}
// convert based on notes
for (MeasureBase* mb = score_->measures()->first(); mb; mb = mb->next()) {
if (mb->type() != Element::Type::MEASURE)
continue;
Measure* measure = static_cast<Measure*>(mb);
convertLines(measure);
}
}
void OveToMScore::convertMeasure(Measure* measure){
int staffCount = 0;
int measureCount = ove_->getMeasureCount();
for( int i=0; i<ove_->getPartCount(); ++i ){
int partStaffCount = ove_->getStaffCount(i);
for( int j=0; j<partStaffCount; ++j ){
int measureID = measure->no();
if (measureID >= 0 && measureID < measureCount) {
int trackIndex = (staffCount + j) * VOICES;
convertMeasureMisc(measure, i, j, trackIndex);
convertNotes(measure, i, j, trackIndex);
convertLyrics(measure, i, j, trackIndex);
convertHarmonys(measure, i, j, trackIndex);
convertRepeats(measure, i, j, trackIndex);
convertDynamics(measure, i, j, trackIndex);
convertExpressions(measure, i, j, trackIndex);
}
}
staffCount += partStaffCount;
}
}
void OveToMScore::convertLines(Measure* measure){
int staffCount = 0;
int measureCount = ove_->getMeasureCount();
for( int i=0; i<ove_->getPartCount(); ++i ){
int partStaffCount = ove_->getStaffCount(i);
for( int j=0; j<partStaffCount; ++j ){
int measureID = measure->no();
if (measureID >= 0 && measureID < measureCount) {
int trackIndex = (staffCount + j) * VOICES;
convertSlurs(measure, i, j, trackIndex);
convertGlissandos(measure, i, j, trackIndex);
convertWedges(measure, i, j, trackIndex);
}
}
staffCount += partStaffCount;
}
}
void OveToMScore::convertMeasureMisc(Measure* measure, int part, int staff, int track){
OVE::Measure* measurePtr = ove_->getMeasure(measure->no());
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
if(measurePtr == 0 || measureData == 0)
return;
// pickup
if(measurePtr->getIsPickup()){
measure->setIrregular(true);
}
// multiple measure rest
if(measurePtr->getIsMultiMeasureRest()){
measure->setBreakMultiMeasureRest(true);
}
// barline
BarLineType bartype = BarLineType::NORMAL;
switch(measurePtr->getRightBarline()) {
case OVE::BarLineType::Default:{
bartype = BarLineType::NORMAL;
break;
}
case OVE::BarLineType::Double:{
bartype = BarLineType::DOUBLE;
break;
}
case OVE::BarLineType::Final:{
bartype = BarLineType::END;
break;
}
case OVE::BarLineType::Null:{
bartype = BarLineType::NORMAL;
break;
}
case OVE::BarLineType::RepeatLeft:{
bartype = BarLineType::START_REPEAT;
measure->setRepeatFlags(Repeat::START);
break;
}
case OVE::BarLineType::RepeatRight:{
bartype = BarLineType::END_REPEAT;
measure->setRepeatFlags(Repeat::END);
break;
}
case OVE::BarLineType::Dashed:{
bartype = BarLineType::BROKEN;
break;
}
default:
break;
}
if(measure->no() == ove_->getMeasureCount()-1){
bartype = BarLineType::END;
}
measure->setEndBarLineType(bartype, false);
if(measurePtr->getLeftBarline() == OVE::BarLineType::RepeatLeft){
//bartype = BarLineType::START_REPEAT;
measure->setRepeatFlags(measure->repeatFlags()|Repeat::START);
}
// rehearsal
int i;
QList<OVE::MusicData*> texts = measureData->getMusicDatas(OVE::MusicDataType::Text);
for(i=0; i<texts.size(); ++i){
OVE::Text* textPtr = static_cast<OVE::Text*>(texts[i]);
if(textPtr->getTextType() == OVE::Text::Type::Rehearsal){
Text* text = new RehearsalMark(score_);
text->setText(textPtr->getText());
text->setAbove(true);
text->setTrack(track);
Segment* s = measure->getSegment(Segment::Type::ChordRest, mtt_->getTick(measure->no(), 0));
s->add(text);
}
}
// tempo
QList<OVE::MusicData*> tempos = measureData->getMusicDatas(OVE::MusicDataType::Tempo);
for(i=0; i<tempos.size(); ++i){
OVE::Tempo* tempoPtr = static_cast<OVE::Tempo*>(tempos[i]);
TempoText* t = new TempoText(score_);
int absTick = mtt_->getTick(measure->no(), tempoPtr->getTick());
double tpo = ((double)tempoPtr->getQuarterTempo())/60.0;
score_->setTempo(absTick, tpo);
t->setTempo(tpo);
t->setText(tempoPtr->getRightText());
t->setAbove(true);
t->setTrack(track);
Segment* s = measure->getSegment(Segment::Type::ChordRest, absTick);
s->add(t);
}
}
// beam in grace
int getGraceLevel(const QList<OVE::NoteContainer*>& containers, int tick, int unit){
int graceCount = 0;
int level = 0; // normal chord rest
for(int i=0; i<containers.size(); ++i){
OVE::NoteContainer* container = containers[i];
if(container->getTick() > tick)
break;
if(container->getIsGrace() && container->getTick() == tick){
++graceCount;
if(unit <= container->start()->getOffset()){
++level;
}
}
}
return level;
}
bool isRestDefaultLine(OVE::Note* rest, OVE::NoteType noteType) {
bool isDefault = true;
switch (noteType) {
case OVE::NoteType::Note_DoubleWhole:
case OVE::NoteType::Note_Whole:
case OVE::NoteType::Note_Half:
case OVE::NoteType::Note_Quarter: {
if(rest->getLine() != 0)
isDefault = false;
break;
}
case OVE::NoteType::Note_Eight: {
if(rest->getLine() != 1)
isDefault = false;
break;
}
case OVE::NoteType::Note_Sixteen:
case OVE::NoteType::Note_32: {
if(rest->getLine() != -1)
isDefault = false;
break;
}
case OVE::NoteType::Note_64: {
if(rest->getLine() != -3)
isDefault = false;
break;
}
case OVE::NoteType::Note_128: {
if(rest->getLine() != -4)
isDefault = false;
break;
}
default: {
break;
}
}
return isDefault;
}
Drumset* getDrumset(Score* score, int part) {
Part* p = score->parts().at(part);
return const_cast<Drumset*>(p->instr()->drumset()); //TODO: remove cast
}
void OveToMScore::convertNotes(Measure* measure, int part, int staff, int track){
int j;
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
QList<OVE::NoteContainer*> containers = measureData->getNoteContainers();
QList<OVE::MusicData*> tuplets = measureData->getCrossMeasureElements(OVE::MusicDataType::Tuplet, OVE::MeasureData::PairType::Start);
QList<OVE::MusicData*> beams = measureData->getCrossMeasureElements(OVE::MusicDataType::Beam, OVE::MeasureData::PairType::Start);
Tuplet* tuplet = 0;
ChordRest* cr = 0;
int partStaffCount = ove_->getStaffCount(part);
if(containers.empty()){
TDuration duration(TDuration::DurationType::V_MEASURE);
int absTick = mtt_->getTick(measure->no(), 0);
cr = new Rest(score_, duration);
cr->setDuration(measure->len());
cr->setTrack(track);
Segment* s = measure->getSegment(cr, absTick);
s->add(cr);
}
for (int i = 0; i < containers.size(); ++i) {
OVE::NoteContainer* container = containers[i];
int tick = mtt_->getTick(measure->no(), container->getTick());
int noteTrack = track + container->getVoice();
if (container->getIsRest()) {
TDuration duration = OveNoteType_To_Duration(container->getNoteType());
duration.setDots(container->getDot());
cr = new Rest(score_, duration);
cr->setDuration(duration.fraction());
cr->setTrack(noteTrack);
cr->setVisible(container->getShow());
QList<OVE::Note*> notes = container->getNotesRests();
for (j = 0; j < notes.size(); ++j) {
OVE::Note* notePtr = notes[j];
if(!isRestDefaultLine(notePtr, container->getNoteType()) && notePtr->getLine() != 0) {
double yOffset = -((double)notePtr->getLine()/2.0 * score_->spatium());
cr->setUserYoffset(yOffset);
}
}
Segment* s = measure->getSegment(cr, tick);
s->add(cr);
} else {
QList<OVE::Note*> notes = container->getNotesRests();
int graceLevel = getGraceLevel(containers, container->getTick(), container->start()->getOffset());
// TODO-S cr = measure->findChord(tick, noteTrack, graceLevel);
cr = measure->findChord(tick, noteTrack);
if (cr == 0) {
// Segment::Type st = Segment::Type::ChordRest;
cr = new Ms::Chord(score_);
cr->setTrack(noteTrack);
// grace
if (container->getIsGrace()) {
TDuration duration = OveNoteType_To_Duration(container->getGraceNoteType());
duration.setDots(container->getDot());
((Ms::Chord*) cr)->setNoteType(NoteType::APPOGGIATURA);
if (duration.type() == TDuration::DurationType::V_QUARTER) {
((Ms::Chord*) cr)->setNoteType(NoteType::GRACE4);
cr->setDurationType(TDuration::DurationType::V_QUARTER);
} else if (duration.type() == TDuration::DurationType::V_16TH) {
((Ms::Chord*) cr)->setNoteType(NoteType::GRACE16);
cr->setDurationType(TDuration::DurationType::V_16TH);
} else if (duration.type() == TDuration::DurationType::V_32ND) {
((Ms::Chord*) cr)->setNoteType(NoteType::GRACE32);
cr->setDurationType(TDuration::DurationType::V_32ND);
} else {
cr->setDurationType(TDuration::DurationType::V_EIGHTH);
}
// st = Segment::Type::Grace;
} else {
TDuration duration = OveNoteType_To_Duration(container->getNoteType());
duration.setDots(container->getDot());
if (duration.type() == TDuration::DurationType::V_INVALID)
duration.setType(TDuration::DurationType::V_QUARTER);
cr->setDurationType(duration);
}
cr->setDuration(cr->durationType().fraction());
//TODO-S Deal with grace notes
// Segment* s = measure->getGraceSegment(tick, graceLevel);
// s->add(cr);
if(graceLevel == 0) {
Segment* s = measure->getSegment(cr, tick);
s->add(cr);
}
}
for (j = 0; j < notes.size(); ++j) {
OVE::Note* oveNote = notes[j];
Note* note = new Note(score_);
int pitch = oveNote->getNote();
//note->setTrack(noteTrack);
note->setVeloType(Note::ValueType::USER_VAL);
note->setVeloOffset(oveNote->getOnVelocity());
//note->setUserAccidental(OveAccidental_to_Accidental(notePtr->getAccidental()));
note->setPitch(pitch);
// tpc
bool setDirection = false;
OVE::ClefType clefType = getClefType(measureData, container->getTick());
if(clefType == OVE::ClefType::Percussion1 || clefType == OVE::ClefType::Percussion2) {
Drumset* drumset = getDrumset(score_, part);
if(drumset != 0) {
if (!drumset->isValid(pitch) || pitch == -1) {
qDebug("unmapped drum note 0x%02x %d", note->pitch(), note->pitch());
} else {
note->setHeadGroup(drumset->noteHead(pitch));
int line = drumset->line(pitch);
note->setLine(line);
note->setTpcFromPitch();
((Ms::Chord*) cr)->setStemDirection(drumset->stemDirection(pitch));
setDirection = true;
}
}
} else {
const int OCTAVE = 7;
OVE::ToneType clefMiddleTone;
int clefMiddleOctave;
getMiddleToneOctave(clefType, clefMiddleTone, clefMiddleOctave);
int absLine = (int) clefMiddleTone + clefMiddleOctave * OCTAVE + oveNote->getLine();
int tone = absLine % OCTAVE;
int alter = accidentalToAlter(oveNote->getAccidental());
NoteVal nv(pitch);
note->setTrack(cr->track());
note->setNval(nv, cr->tick());
// note->setTpcFromPitch();
note->setTpc(step2tpc(tone, AccidentalVal(alter)));
note->setHeadGroup(getHeadGroup(oveNote->getHeadType()));
}
// tie
if ((int(oveNote->getTiePos()) & int(OVE::TiePos::LeftEnd)) == int(OVE::TiePos::LeftEnd)) {
Tie* tie = new Tie(score_);
note->setTieFor(tie);
tie->setStartNote(note);
tie->setTrack(noteTrack);
}
// pitch must be set before adding note to chord as note
// is inserted into pitch sorted list (ws)
cr->add(note);
cr->setVisible(oveNote->getShow());
((Ms::Chord*) cr)->setNoStem(int(container->getNoteType()) <= int(OVE::NoteType::Note_Whole));
if(!setDirection)
((Ms::Chord*) cr)->setStemDirection(container->getStemUp() ? MScore::Direction::UP : MScore::Direction::DOWN);
// cross staff
int staffMove = 0;
if(partStaffCount == 2) { /*treble-bass*/
staffMove = oveNote->getOffsetStaff();
}
cr->setStaffMove(staffMove);
}
}
// beam
Beam::Mode bm = container->getIsRest() ? Beam::Mode::NONE : Beam::Mode::AUTO;
if(container->getInBeam()){
OVE::MeasurePos pos = container->start()->shiftMeasure(0);
OVE::MusicData* data = getCrossMeasureElementByPos(part, staff, pos, container->getVoice(), OVE::MusicDataType::Beam);
if(data != 0){
OVE::Beam* beam = static_cast<OVE::Beam*>(data);
OVE::MeasurePos startPos = beam->start()->shiftMeasure(0);
OVE::MeasurePos stopPos = beam->stop()->shiftMeasure(beam->start()->getMeasure());
if(startPos == pos){
bm = Beam::Mode::BEGIN;
}
else if(stopPos == pos){
bm = Beam::Mode::END;
}
else{
bm = Beam::Mode::MID;
}
}
}
cr->setBeamMode(bm);
// tuplet
if (container->getTuplet() > 0) {
if (tuplet == 0) {
bool create = true;
// check tuplet start
if(container->getNoteType() < OVE::NoteType::Note_Eight) {
const OVE::Tuplet* oveTuplet = getTuplet(tuplets, container->start()->getOffset());
if(oveTuplet == 0) {
create = false;
}
}
if(create) {
tuplet = new Tuplet(score_);
tuplet->setTrack(noteTrack);
tuplet->setRatio(Fraction(container->getTuplet(), container->getSpace()));
tuplet->setTick(tick);
measure->add(tuplet);
}
}
if (tuplet != 0) {
cr->setTuplet(tuplet);
tuplet->add(cr);
}
if (tuplet != 0) {
// check tuplet end
const OVE::Tuplet* oveTuplet = getTuplet(tuplets, container->start()->getOffset());
if (oveTuplet != 0) {
//set direction
tuplet->setDirection(oveTuplet->getLeftShoulder()->getYOffset() < 0 ? MScore::Direction::UP : MScore::Direction::DOWN);
if(container->start()->getOffset() == oveTuplet->stop()->getOffset()){
tuplet = 0;
}
}
}
}
// articulation
QList<OVE::Articulation*> articulations = container->getArticulations();
for (j = 0; j < articulations.size(); ++j) {
convertArticulation(measure, cr, noteTrack, tick, articulations[j]);
}
}
}
void OveToMScore::convertArticulation(
Measure* measure, ChordRest* cr,
int track, int absTick, OVE::Articulation* art){
switch ( art->getArtType() ) {
case OVE::ArticulationType::Major_Trill :
case OVE::ArticulationType::Minor_Trill :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Trill);
cr->add(a);
break;
}
case OVE::ArticulationType::Trill_Section :{
break;
}
case OVE::ArticulationType::Inverted_Short_Mordent :
case OVE::ArticulationType::Inverted_Long_Mordent :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Prall);
cr->add(a);
break;
}
case OVE::ArticulationType::Short_Mordent :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Mordent);
cr->add(a);
break;
}
case OVE::ArticulationType::Turn :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Turn);
cr->add(a);
break;
}
// case OVE::ArticulationType::Flat_Accidental_For_Trill :
// case OVE::ArticulationType::Sharp_Accidental_For_Trill :
// case OVE::ArticulationType::Natural_Accidental_For_Trill :
case OVE::ArticulationType::Tremolo_Eighth :{
Tremolo* t = new Tremolo(score_);
t->setTremoloType(TremoloType::R8);
cr->add(t);
break;
}
case OVE::ArticulationType::Tremolo_Sixteenth :{
Tremolo* t = new Tremolo(score_);
t->setTremoloType(TremoloType::R16);
cr->add(t);
break;
}
case OVE::ArticulationType::Tremolo_Thirty_Second :{
Tremolo* t = new Tremolo(score_);
t->setTremoloType(TremoloType::R32);
cr->add(t);
break;
}
case OVE::ArticulationType::Tremolo_Sixty_Fourth :{
Tremolo* t = new Tremolo(score_);
t->setTremoloType(TremoloType::R64);
cr->add(t);
break;
}
case OVE::ArticulationType::Marcato :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Sforzatoaccent);
cr->add(a);
break;
}
case OVE::ArticulationType::Marcato_Dot :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Sforzatoaccent);
cr->add(a);
a = new Articulation(score_);
a->setArticulationType(ArticulationType::Staccato);
cr->add(a);
break;
}
case OVE::ArticulationType::Heavy_Attack :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Sforzatoaccent);
cr->add(a);
a = new Articulation(score_);
a->setArticulationType(ArticulationType::Tenuto);
cr->add(a);
break;
}
case OVE::ArticulationType::SForzando :{
Articulation* a = new Articulation(score_);
a->setUp(true);
a->setArticulationType(ArticulationType::Marcato);
cr->add(a);
break;
}
case OVE::ArticulationType::SForzando_Inverted :{
Articulation* a = new Articulation(score_);
a->setUp(false);
a->setArticulationType(ArticulationType::Marcato);
cr->add(a);
break;
}
case OVE::ArticulationType::SForzando_Dot :{
Articulation* a = new Articulation(score_);
a->setUp(true);
a->setArticulationType(ArticulationType::Marcato);
cr->add(a);
a = new Articulation(score_);
a->setArticulationType(ArticulationType::Staccato);
cr->add(a);
break;
}
case OVE::ArticulationType::SForzando_Dot_Inverted :{
Articulation* a = new Articulation(score_);
a->setUp(false);
a->setArticulationType(ArticulationType::Marcato);
cr->add(a);
a = new Articulation(score_);
a->setArticulationType(ArticulationType::Staccato);
cr->add(a);
break;
}
case OVE::ArticulationType::Heavier_Attack :{
Articulation* a = new Articulation(score_);
a->setUp(true);
a->setArticulationType(ArticulationType::Marcato);
cr->add(a);
a = new Articulation(score_);
a->setArticulationType(ArticulationType::Tenuto);
cr->add(a);
break;
}
case OVE::ArticulationType::Staccatissimo :{
Articulation* a = new Articulation(score_);
a->setUp(true);
a->setArticulationType(ArticulationType::Staccatissimo);
cr->add(a);
break;
}
case OVE::ArticulationType::Staccato :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Staccato);
cr->add(a);
break;
}
case OVE::ArticulationType::Tenuto :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Tenuto);
cr->add(a);
break;
}
case OVE::ArticulationType::Pause :{
Breath* b = new Breath(score_);
b->setTrack(track);
Segment* seg = measure->getSegment(Segment::Type::Breath, absTick + cr ? cr->actualTicks() : 0);
seg->add(b);
break;
}
case OVE::ArticulationType::Grand_Pause :{
// TODO?
break;
}
case OVE::ArticulationType::Up_Bow :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Upbow);
cr->add(a);
break;
}
case OVE::ArticulationType::Down_Bow :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Downbow);
cr->add(a);
break;
}
case OVE::ArticulationType::Up_Bow_Inverted :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Upbow);
a->setUserYoffset(5.3);
cr->add(a);
break;
}
case OVE::ArticulationType::Down_Bow_Inverted :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Downbow);
a->setUserYoffset(5.3);
cr->add(a);
break;
}
case OVE::ArticulationType::Natural_Harmonic :{
break;
}
case OVE::ArticulationType::Artificial_Harmonic :{
break;
}
case OVE::ArticulationType::Finger_1 :
case OVE::ArticulationType::Finger_2 :
case OVE::ArticulationType::Finger_3 :
case OVE::ArticulationType::Finger_4 :
case OVE::ArticulationType::Finger_5 :{
break;
}
case OVE::ArticulationType::Plus_Sign :{
Articulation* a = new Articulation(score_);
a->setArticulationType(ArticulationType::Plusstop);
cr->add(a);
break;
}
case OVE::ArticulationType::Arpeggio :{
// there can be only one
if (!(static_cast<Ms::Chord*>(cr))->arpeggio()) {
Arpeggio* a = new Arpeggio(score_);
a->setArpeggioType(ArpeggioType::NORMAL);
/* if (art->getPlacementAbove()){
a->setSubtype(ArpeggioType::UP);
}else {
a->setSubtype(ARpeggioType::DOWN);
}*/
cr->add(a);
}
break;
}
case OVE::ArticulationType::Fermata :{
Articulation* a = new Articulation(score_);
a->setUp(true);
a->setArticulationType(ArticulationType::Fermata);
cr->add(a);
break;
}
case OVE::ArticulationType::Fermata_Inverted :{
Articulation* a = new Articulation(score_);
a->setUp(false);
a->setArticulationType(ArticulationType::Fermata);
cr->add(a);
break;
}
case OVE::ArticulationType::Pedal_Down :{
if (pedal_) {
delete pedal_;
pedal_ = 0;
}
else {
pedal_ = new Pedal(score_);
pedal_->setTrack(track);
Segment* seg = measure->getSegment(Segment::Type::ChordRest, absTick);
pedal_->setTick(seg->tick());
seg->add(pedal_);
}
break;
}
case OVE::ArticulationType::Pedal_Up :{
if(pedal_){
Segment* seg = measure->getSegment(Segment::Type::ChordRest, absTick);
pedal_->setTick2(seg->tick());
pedal_ = 0;
}
break;
}
// case OVE::ArticulationType::Toe_Pedal :
// case OVE::ArticulationType::Heel_Pedal :
// case OVE::ArticulationType::Toe_To_Heel_Pedal :
// case OVE::ArticulationType::Heel_To_Toe_Pedal :
// case OVE::ArticulationType::Open_String :
default:
break;
}
}
void OveToMScore::convertLyrics(Measure* measure, int part, int staff, int track){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
if(measureData == 0)
return;
QList<OVE::MusicData*> lyrics = measureData->getMusicDatas(OVE::MusicDataType::Lyric);
for(int i=0; i<lyrics.size(); ++i){
OVE::Lyric* oveLyric = static_cast<OVE::Lyric*>(lyrics[i]);
int tick = mtt_->getTick(measure->no(), oveLyric->getTick());
Lyrics* lyric = new Lyrics(score_);
lyric->setNo(oveLyric->getVerse());
lyric->setText(oveLyric->getLyric());
lyric->setTrack(track);
Segment* segment = measure->getSegment(Segment::Type::ChordRest, tick);
if (segment->element(track))
static_cast<ChordRest*>(segment->element(track))->add(lyric);
}
}
QString OveHarmony_To_String(OVE::HarmonyType type){
static std::map<unsigned int, QString> harmony_map;
harmony_map[int(OVE::HarmonyType::H_maj)] = "major";
harmony_map[int(OVE::HarmonyType::H_min)] = "minor";
harmony_map[int(OVE::HarmonyType::H_aug)] = "augmented";
harmony_map[int(OVE::HarmonyType::H_dim)] = "diminished";
harmony_map[int(OVE::HarmonyType::H_dim7)] = "diminished-seventh";
harmony_map[int(OVE::HarmonyType::H_sus2)] = "suspended-second";
harmony_map[int(OVE::HarmonyType::H_sus4)] = "suspended-fourth";
harmony_map[int(OVE::HarmonyType::H_sus24)] = "suspended-second";
harmony_map[int(OVE::HarmonyType::H_add2)] = "major";
harmony_map[int(OVE::HarmonyType::H_add9)] = "dominant-ninth";
//harmony_map[int(OVE::HarmonyType::H_omit3)] = "";
//harmony_map[int(OVE::HarmonyType::H_omit5)] = "";
harmony_map[int(OVE::HarmonyType::H_2)] = "2";
harmony_map[int(OVE::HarmonyType::H_5)] = "power";
harmony_map[int(OVE::HarmonyType::H_6)] = "major-sixth";
harmony_map[int(OVE::HarmonyType::H_69)] = "major-sixth";
harmony_map[int(OVE::HarmonyType::H_7)] = "dominant";
harmony_map[int(OVE::HarmonyType::H_7b5)] = "dominant";
harmony_map[int(OVE::HarmonyType::H_7b9)] = "dominant";
harmony_map[int(OVE::HarmonyType::H_7s9)] = "dominant";
harmony_map[int(OVE::HarmonyType::H_7s11)] = "dominant";
harmony_map[int(OVE::HarmonyType::H_7b5s9)] = "dominant";
harmony_map[int(OVE::HarmonyType::H_7b5b9)] = "dominant";
harmony_map[int(OVE::HarmonyType::H_7b9s9)] = "dominant";
harmony_map[int(OVE::HarmonyType::H_7b9s11)] = "dominant";
harmony_map[int(OVE::HarmonyType::H_7sus4)] = "suspended-fourth";
harmony_map[int(OVE::HarmonyType::H_9)] = "dominant-ninth";
harmony_map[int(OVE::HarmonyType::H_9b5)] = "dominant-ninth";
harmony_map[int(OVE::HarmonyType::H_9s11)] = "dominant-ninth";
harmony_map[int(OVE::HarmonyType::H_9sus4)] = "dominant-ninth";
harmony_map[int(OVE::HarmonyType::H_11)] = "dominant-11th";
harmony_map[int(OVE::HarmonyType::H_13)] = "dominant-13th";
harmony_map[int(OVE::HarmonyType::H_13b5)] = "dominant-13th";
harmony_map[int(OVE::HarmonyType::H_13b9)] = "dominant-13th";
harmony_map[int(OVE::HarmonyType::H_13s9)] = "dominant-13th";
harmony_map[int(OVE::HarmonyType::H_13s11)] = "dominant-13th";
harmony_map[int(OVE::HarmonyType::H_13sus4)] = "dominant-13th";
harmony_map[int(OVE::HarmonyType::H_min_add2)] = "minor";
harmony_map[int(OVE::HarmonyType::H_min_add9)] = "minor";
harmony_map[int(OVE::HarmonyType::H_min_maj7)] = "minor-major";
harmony_map[int(OVE::HarmonyType::H_min6)] = "minor-sixth";
harmony_map[int(OVE::HarmonyType::H_min6_add9)] = "minor-sixth";
harmony_map[int(OVE::HarmonyType::H_min7)] = "minor-seventh";
harmony_map[int(OVE::HarmonyType::H_min7b5)] = "half-diminished";
harmony_map[int(OVE::HarmonyType::H_min7_add4)] = "minor-seventh";
harmony_map[int(OVE::HarmonyType::H_min7_add11)] = "minor-seventh";
harmony_map[int(OVE::HarmonyType::H_min9)] = "minor-ninth";
harmony_map[int(OVE::HarmonyType::H_min9_b5)] = "minor-ninth";
harmony_map[int(OVE::HarmonyType::H_min9_maj7)] = "major-minor";
harmony_map[int(OVE::HarmonyType::H_min11)] = "minor-11th";
harmony_map[int(OVE::HarmonyType::H_min13)] = "minor-13th";
harmony_map[int(OVE::HarmonyType::H_maj7)] = "major-seventh";
harmony_map[int(OVE::HarmonyType::H_maj7_b5)] = "major-seventh";
harmony_map[int(OVE::HarmonyType::H_maj7_s5)] = "major-seventh";
harmony_map[int(OVE::HarmonyType::H_maj7_69)] = "major-seventh";
harmony_map[int(OVE::HarmonyType::H_maj7_add9)] = "major-seventh";
harmony_map[int(OVE::HarmonyType::H_maj7_s11)] = "major-seventh";
harmony_map[int(OVE::HarmonyType::H_maj9)] = "major-ninth";
harmony_map[int(OVE::HarmonyType::H_maj9_sus4)] = "major-ninth";
harmony_map[int(OVE::HarmonyType::H_maj9_b5)] = "major-ninth";
harmony_map[int(OVE::HarmonyType::H_maj9_s5)] = "major-ninth";
harmony_map[int(OVE::HarmonyType::H_maj9_s11)] = "major-ninth";
harmony_map[int(OVE::HarmonyType::H_maj13)] = "major-13th";
harmony_map[int(OVE::HarmonyType::H_maj13_b5)] = "major-13th";
harmony_map[int(OVE::HarmonyType::H_maj13_b9)] = "major-13th";
harmony_map[int(OVE::HarmonyType::H_maj13_b9b5)] = "major-13th";
harmony_map[int(OVE::HarmonyType::H_maj13_s11)] = "major-13th";
harmony_map[int(OVE::HarmonyType::H_aug7)] = "augmented-seventh";
harmony_map[int(OVE::HarmonyType::H_aug7_b9)] = "augmented-seventh";
harmony_map[int(OVE::HarmonyType::H_aug7_s9)] = "augmented-seventh";
return harmony_map[int(type)];
}
void OveToMScore::convertHarmonys(Measure* measure, int part, int staff, int track){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
if(measureData == 0)
return;
QList<OVE::MusicData*> harmonys = measureData->getMusicDatas(OVE::MusicDataType::Harmony);
for(int i=0; i<harmonys.size(); ++i){
OVE::Harmony* harmonyPtr = static_cast<OVE::Harmony*>(harmonys[i]);
int absTick = mtt_->getTick(measure->no(), harmonyPtr->getTick());
Harmony* harmony = new Harmony(score_);
// TODO - does this need to be key-aware?
harmony->setTrack(track);
harmony->setRootTpc(pitch2tpc(harmonyPtr->getRoot(), Key::C, Prefer::NEAREST));
if(harmonyPtr->getBass() != OVE::INVALID_NOTE && harmonyPtr->getBass() != harmonyPtr->getRoot()){
harmony->setBaseTpc(pitch2tpc(harmonyPtr->getBass(), Key::C, Prefer::NEAREST));
}
const ChordDescription* d = harmony->fromXml(OveHarmony_To_String(harmonyPtr->getHarmonyType()));
if(d != 0){
harmony->setId(d->id);
harmony->render();
}
Segment* s = measure->getSegment(Segment::Type::ChordRest, absTick);
s->add(harmony);
}
}
/*OVE::MusicData* OveToMScore::getMusicDataByUnit(int part, int staff, int measure, int unit, OVE::MusicDataType type){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure);
if(measureData != 0) {
const QList<OVE::MusicData*>& datas = measureData->getMusicDatas(type);
for(unsigned int i=0; i<datas.size(); ++i){
if(datas[i]->getTick() == unit){//different measurement
return datas[i];
}
}
}
return 0;
}*/
OVE::MusicData* OveToMScore::getCrossMeasureElementByPos(int part, int staff, const OVE::MeasurePos& pos, int voice, OVE::MusicDataType type){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, pos.getMeasure());
if(measureData != 0) {
const QList<OVE::MusicData*>& datas = measureData->getCrossMeasureElements(type, OVE::MeasureData::PairType::All);
for(int i=0; i<datas.size(); ++i){
OVE::MeasurePos dataStart = datas[i]->start()->shiftMeasure(0);
OVE::MeasurePos dataStop = datas[i]->stop()->shiftMeasure(datas[i]->start()->getMeasure());
if(dataStart <= pos && dataStop >= pos && (int)datas[i]->getVoice() == voice){
return datas[i];
}
}
}
return 0;
}
OVE::NoteContainer* OveToMScore::getContainerByPos(int part, int staff, const OVE::MeasurePos& pos){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, pos.getMeasure());
if(measureData != 0) {
const QList<OVE::NoteContainer*>& containers = measureData->getNoteContainers();
for(int i=0; i<containers.size(); ++i){
if(pos == containers[i]->start()->shiftMeasure(0)){
return containers[i];
}
}
}
return 0;
}
void OveToMScore::convertRepeats(Measure* measure, int part, int staff, int track){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
if(measureData == 0)
return;
int i;
QList<OVE::MusicData*> repeats = measureData->getMusicDatas(OVE::MusicDataType::Repeat);
for(i=0; i<repeats.size(); ++i){
OVE::RepeatSymbol* repeatPtr = static_cast<OVE::RepeatSymbol*>(repeats[i]);
OVE::RepeatType type = repeatPtr->getRepeatType();
Element* e = 0;
switch(type) {
case OVE::RepeatType::Segno:{
Marker* marker = new Marker(score_);
marker->setMarkerType(Marker::Type::SEGNO);
e = marker;
break;
}
case OVE::RepeatType::Coda:{
Marker* marker = new Marker(score_);
marker->setMarkerType(Marker::Type::CODA);
e = marker;
break;
}
case OVE::RepeatType::DSAlCoda:{
Jump* jp = new Jump(score_);
jp->setJumpType(Jump::Type::DS_AL_CODA);
e = jp;
break;
}
case OVE::RepeatType::DSAlFine:{
Jump* jp = new Jump(score_);
jp->setJumpType(Jump::Type::DS_AL_FINE);
e = jp;
break;
}
case OVE::RepeatType::DCAlCoda:{
Jump* jp = new Jump(score_);
jp->setJumpType(Jump::Type::DC_AL_CODA);
e = jp;
break;
}
case OVE::RepeatType::DCAlFine:{
Jump* jp = new Jump(score_);
jp->setJumpType(Jump::Type::DC_AL_FINE);
e = jp;
break;
}
case OVE::RepeatType::ToCoda:{
Marker* m = new Marker(score_);
m->setMarkerType(Marker::Type::TOCODA);
e = m;
break;
}
case OVE::RepeatType::Fine:{
Marker* m = new Marker(score_);
m->setMarkerType(Marker::Type::FINE);
e = m;
break;
}
default:
break;
}
if(e != 0){
e->setTrack(track);
measure->add(e);
}
}
QList<OVE::MusicData*> endings = measureData->getCrossMeasureElements(
OVE::MusicDataType::Numeric_Ending,
OVE::MeasureData::PairType::Start);
for(i=0; i<endings.size(); ++i){
OVE::NumericEnding* ending = static_cast<OVE::NumericEnding*>(endings[i]);
int absTick1 = mtt_->getTick(measure->no(), 0);
int absTick2 = mtt_->getTick(measure->no() + ending->stop()->getMeasure(), 0);
if (absTick1 < absTick2) {
Volta* volta = new Volta(score_);
volta->setTrack(track);
volta->setTick(absTick1);
volta->setTick2(absTick2);
score_->addElement(volta);
volta->setVoltaType(Volta::Type::CLOSED);
volta->setText(ending->getText());
volta->endings().clear();
QList<int> numbers = ending->getNumbers();
for (int j = 0; j < numbers.size(); ++j) {
volta->endings().append(numbers[j]);
}
}
}
}
void OveToMScore::convertSlurs(Measure* measure, int part, int staff, int track){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
if(measureData == 0)
return;
QList<OVE::MusicData*> slurs = measureData->getCrossMeasureElements(OVE::MusicDataType::Slur, OVE::MeasureData::PairType::Start);
for(int i=0; i<slurs.size(); ++i){
OVE::Slur* slurPtr = static_cast<OVE::Slur*>(slurs[i]);
OVE::NoteContainer* startContainer = getContainerByPos(part, staff, slurPtr->start()->shiftMeasure(0));
OVE::NoteContainer* endContainer = getContainerByPos(
part,
staff,
slurPtr->stop()->shiftMeasure(slurPtr->start()->getMeasure()));
if(startContainer != 0 && endContainer != 0){
int absStartTick = mtt_->getTick(slurPtr->start()->getMeasure(), startContainer->getTick());
int absEndTick = mtt_->getTick(slurPtr->start()->getMeasure()+slurPtr->stop()->getMeasure(), endContainer->getTick());
Slur* slur = new Slur(score_);
slur->setSlurDirection(slurPtr->getShowOnTop()? MScore::Direction::UP : MScore::Direction::DOWN);
slur->setTick(absStartTick);
slur->setTick2(absEndTick);
slur->setTrack(track);
slur->setTrack2(track+endContainer->getOffsetStaff());
score_->addSpanner(slur);
}
}
}
QString OveDynamics_To_Dynamics(OVE::DynamicsType type){
QString dynamic = "other-dynamics";
switch( type ){
case OVE::DynamicsType::PPPP:
dynamic = "pppp";
break;
case OVE::DynamicsType::PPP:
dynamic = "ppp";
break;
case OVE::DynamicsType::PP:
dynamic = "pp";
break;
case OVE::DynamicsType::P:
dynamic = "p";
break;
case OVE::DynamicsType::MP:
dynamic = "mp";
break;
case OVE::DynamicsType::MF:
dynamic = "mf";
break;
case OVE::DynamicsType::F:
dynamic = "f";
break;
case OVE::DynamicsType::FF:
dynamic = "ff";
break;
case OVE::DynamicsType::FFF:
dynamic = "fff";
break;
case OVE::DynamicsType::FFFF:
dynamic = "ffff";
break;
case OVE::DynamicsType::SF:
dynamic = "sf";
break;
case OVE::DynamicsType::FZ:
dynamic = "fz";
break;
case OVE::DynamicsType::SFZ:
dynamic = "sfz";
break;
case OVE::DynamicsType::SFFZ:
dynamic = "sffz";
break;
case OVE::DynamicsType::FP:
dynamic = "fp";
break;
case OVE::DynamicsType::SFP:
dynamic = "sfp";
break;
default:
break;
}
return dynamic;
}
void OveToMScore::convertDynamics(Measure* measure, int part, int staff, int track){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
if(measureData == 0)
return;
QList<OVE::MusicData*> dynamics = measureData->getMusicDatas(OVE::MusicDataType::Dynamics);
for(int i=0; i<dynamics.size(); ++i){
OVE::Dynamics* dynamicPtr = static_cast<OVE::Dynamics*>(dynamics[i]);
int absTick = mtt_->getTick(measure->no(), dynamicPtr->getTick());
Dynamic* dynamic = new Dynamic(score_);
dynamic->setDynamicType(OveDynamics_To_Dynamics(dynamicPtr->getDynamicsType()));
dynamic->setTrack(track);
Segment* s = measure->getSegment(Segment::Type::ChordRest, absTick);
s->add(dynamic);
}
}
void OveToMScore::convertExpressions(Measure* measure, int part, int staff, int track){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
if(measureData == 0)
return;
QList<OVE::MusicData*> expressions = measureData->getMusicDatas(OVE::MusicDataType::Expressions);
for(int i=0; i<expressions.size(); ++i){
OVE::Expressions* expressionPtr = static_cast<OVE::Expressions*>(expressions[i]);
int absTick = mtt_->getTick(measure->no(), expressionPtr->getTick());
Text* t = new Text(score_);
t->setTextStyleType(TextStyleType::TECHNIQUE);
t->setText(expressionPtr->getText());
t->setTrack(track);
Segment* s = measure->getSegment(Segment::Type::ChordRest, absTick);
s->add(t);
}
}
void OveToMScore::convertGlissandos(Measure* measure, int part, int staff, int track){
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
if(measureData == 0)
return;
QList<OVE::MusicData*> glissandos = measureData->getCrossMeasureElements(OVE::MusicDataType::Glissando, OVE::MeasureData::PairType::All);
for(int i=0; i<glissandos.size(); ++i){
OVE::Glissando* glissandoPtr = static_cast<OVE::Glissando*>(glissandos[i]);
OVE::NoteContainer* startContainer = getContainerByPos(part, staff, glissandoPtr->start()->shiftMeasure(0));
OVE::NoteContainer* endContainer = getContainerByPos(
part,
staff,
glissandoPtr->stop()->shiftMeasure(glissandoPtr->start()->getMeasure()));
if(startContainer != 0 && endContainer != 0){
int absTick = mtt_->getTick(measure->no(), glissandoPtr->getTick());
ChordRest* cr = measure->findChordRest(absTick, track);
if(cr != 0){
Glissando* g = new Glissando(score_);
g->setGlissandoType(Glissando::Type::WAVY);
cr->add(g);
}
}
}
}
static Hairpin::Type OveWedgeType_To_Type(OVE::WedgeType type) {
Hairpin::Type subtype = Hairpin::Type::CRESCENDO;
switch(type) {
case OVE::WedgeType::Cres_Line: {
subtype = Hairpin::Type::CRESCENDO;
break;
}
case OVE::WedgeType::Double_Line: {
subtype = Hairpin::Type::CRESCENDO;
break;
}
case OVE::WedgeType::Decresc_Line: {
subtype = Hairpin::Type::DECRESCENDO;
break;
}
case OVE::WedgeType::Cres: {
subtype = Hairpin::Type::CRESCENDO;
break;
}
case OVE::WedgeType::Decresc: {
subtype = Hairpin::Type::DECRESCENDO;
break;
}
default:
break;
}
return subtype;
}
void OveToMScore::convertWedges(Measure* measure, int part, int staff, int track) {
OVE::MeasureData* measureData = ove_->getMeasureData(part, staff, measure->no());
if(measureData == 0)
return;
QList<OVE::MusicData*> wedges = measureData->getCrossMeasureElements(OVE::MusicDataType::Wedge, OVE::MeasureData::PairType::All);
for(int i=0; i<wedges.size(); ++i){
OVE::Wedge* wedgePtr = static_cast<OVE::Wedge*>(wedges[i]);
int absTick = mtt_->getTick(
measure->no(),
MeasureToTick::unitToTick(wedgePtr->start()->getOffset(), ove_->getQuarter()));
int absTick2 = mtt_->getTick(
measure->no()+wedgePtr->stop()->getMeasure(),
MeasureToTick::unitToTick(wedgePtr->stop()->getOffset(), ove_->getQuarter()));
if (absTick2 > absTick) {
Hairpin* hp = new Hairpin(score_);
hp->setHairpinType(OveWedgeType_To_Type(wedgePtr->getWedgeType()));
//hp->setYoff(wedgePtr->getYOffset());
hp->setTrack(track);
hp->setTick(absTick);
hp->setTick2(absTick2);
hp->setAnchor(Spanner::Anchor::SEGMENT);
score_->addSpanner(hp);
score_->updateHairpin(hp);
}
}
}
//////////////////////////////////////////////////////////////////////////
Score::FileError importOve(Score* score, const QString& name) {
OVE::IOVEStreamLoader* oveLoader = OVE::createOveStreamLoader();
OVE::OveSong oveSong;
QFile oveFile(name);
if(!oveFile.exists())
return Score::FileError::FILE_NOT_FOUND;
if (!oveFile.open(QFile::ReadOnly)) {
//messageOutString(QString("can't read file!"));
return Score::FileError::FILE_OPEN_ERROR;
}
QByteArray buffer = oveFile.readAll();
oveFile.close();
oveSong.setTextCodecName(preferences.importCharsetOve);
oveLoader->setOve(&oveSong);
oveLoader->setFileStream((unsigned char*) buffer.data(), buffer.size());
bool result = oveLoader->load();
oveLoader->release();
if(result){
OveToMScore otm;
otm.convert(&oveSong, score);
// score->connectSlurs();
for (Measure* m = score->firstMeasure(); m; m = m->nextMeasure()) {
int tick = m->tick();
m->setLen(score->sigmap()->timesig(tick).timesig());
m->setTimesig(score->sigmap()->timesig(tick).timesig()); //?
}
}
return result ? Score::FileError::FILE_NO_ERROR : Score::FileError::FILE_ERROR;
}