MuseScore/libmscore/note.h
2014-11-17 22:02:12 -07:00

455 lines
19 KiB
C++

//=============================================================================
// MuseScore
// Music Composition & Notation
//
// Copyright (C) 2002-2012 Werner Schweer
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License version 2
// as published by the Free Software Foundation and appearing in
// the file LICENCE.GPL
//=============================================================================
#ifndef __NOTE_H__
#define __NOTE_H__
/**
\file
Definition of classes Note and NoteHead.
*/
#include "element.h"
#include "symbol.h"
#include "noteevent.h"
#include "pitchspelling.h"
#include "accidental.h"
class QPainter;
namespace Ms {
class Tie;
class Chord;
class NoteEvent;
class Text;
class Score;
class Sym;
class MuseScoreView;
class Bend;
class AccidentalState;
class Accidental;
class NoteDot;
class Spanner;
class StaffType;
enum class SymId;
static const int MAX_DOTS = 3;
//---------------------------------------------------------
// @@ NoteHead
//---------------------------------------------------------
class NoteHead : public Symbol {
Q_OBJECT
public:
enum class Group : signed char {
HEAD_NORMAL = 0,
HEAD_CROSS,
HEAD_DIAMOND,
HEAD_TRIANGLE,
HEAD_MI,
HEAD_SLASH,
HEAD_XCIRCLE,
HEAD_DO,
HEAD_RE,
HEAD_FA,
HEAD_LA,
HEAD_TI,
HEAD_SOL,
HEAD_BREVIS_ALT,
HEAD_GROUPS,
HEAD_INVALID = -1
};
enum class Type : signed char {
HEAD_AUTO = -1,
HEAD_WHOLE = 0,
HEAD_HALF = 1,
HEAD_QUARTER = 2,
HEAD_BREVIS = 3,
HEAD_TYPES
};
NoteHead(Score* s) : Symbol(s) {}
NoteHead &operator=(const NoteHead&) = delete;
virtual NoteHead* clone() const { return new NoteHead(*this); }
virtual Element::Type type() const { return Element::Type::NOTEHEAD; }
virtual void write(Xml& xml) const;
Group headGroup() const;
static const char* groupToGroupName(Group group);
};
//---------------------------------------------------------
// NoteVal
// helper structure
//---------------------------------------------------------
struct NoteVal {
int pitch { -1 };
int tpc1 { Tpc::TPC_INVALID };
int tpc2 { Tpc::TPC_INVALID };
int fret { FRET_NONE };
int string { STRING_NONE };
NoteHead::Group headGroup { NoteHead::Group::HEAD_NORMAL };
NoteVal() {}
NoteVal(int p) : pitch(p) {}
};
//---------------------------------------------------------------------------------------
// @@ Note
/// Graphic representation of a note.
//
// @P subchannel int midi subchannel (for midi articulation) (read only)
// @P line int notehead position (read only)
// @P fret int fret number in tablature
// @P string int string number in tablature
// @P tpc int tonal pitch class, as per concert pitch setting
// @P tpc1 int tonal pitch class, non transposed
// @P tpc2 int tonal pitch class, transposed
// @P pitch int midi pitch
// @P ppitch int actual played midi pitch (honoring ottavas) (read only)
// @P ghost bool ghost note (guitar: death note)
// @P hidden bool hidden, not played note (read only)
// @P mirror bool mirror note head on x axis (read only)
// @P small bool small note head
// @P play bool play note
// @P tuning qreal tuning offset in cent
// @P veloType Ms::Note::ValueType (OFFSET_VAL, USER_VAL)
// @P veloOffset int
// @P userMirror Ms::MScore::DirectionH (AUTO, LEFT, RIGHT)
// @P userDotPosition Ms::MScore::Direction (AUTO, UP, DOWN)
// @P headGroup Ms::NoteHead::Group (HEAD_NORMAL, HEAD_CROSS, HEAD_DIAMOND, HEAD_TRIANGLE, HEAD_MI, HEAD_SLASH, HEAD_XCIRCLE, HEAD_DO, HEAD_RE, HEAD_FA, HEAD_LA, HEAD_TI, HEAD_SOL, HEAD_BREVIS_ALT)
// @P headType Ms::NoteHead::Type (HEAD_AUTO, HEAD_WHOLE, HEAD_HALF, HEAD_QUARTER, HEAD_BREVIS)
// @P elements array[Ms::Element] list of elements attached to note head
// @P accidental Ms::Accidental note accidental (null if none)
// @P accidentalType Ms::Accidental::Type note accidental type
// @P dots array[Ms::NoteDot] list of note dots (empty if none)
// @P tieFor Ms::Tie note forward tie (null if none, read only)
// @P tieBack Ms::Tie note backward tie (null if none, read only)
//---------------------------------------------------------------------------------------
class Note : public Element {
Q_OBJECT
Q_PROPERTY(int subchannel READ subchannel)
Q_PROPERTY(int line READ line)
Q_PROPERTY(int fret READ fret WRITE undoSetFret)
Q_PROPERTY(int string READ string WRITE undoSetString)
Q_PROPERTY(int tpc READ tpc)
Q_PROPERTY(int tpc1 READ tpc1 WRITE undoSetTpc1)
Q_PROPERTY(int tpc2 READ tpc2 WRITE undoSetTpc2)
Q_PROPERTY(int pitch READ pitch WRITE undoSetPitch)
Q_PROPERTY(int ppitch READ ppitch)
Q_PROPERTY(bool ghost READ ghost WRITE undoSetGhost)
Q_PROPERTY(bool hidden READ hidden)
Q_PROPERTY(bool mirror READ mirror)
Q_PROPERTY(bool small READ small WRITE undoSetSmall)
Q_PROPERTY(bool play READ play WRITE undoSetPlay)
Q_PROPERTY(qreal tuning READ tuning WRITE undoSetTuning)
Q_PROPERTY(Ms::Note::ValueType veloType READ veloType WRITE undoSetVeloType)
Q_PROPERTY(int veloOffset READ veloOffset WRITE undoSetVeloOffset)
Q_PROPERTY(Ms::MScore::DirectionH userMirror READ userMirror WRITE undoSetUserMirror)
Q_PROPERTY(Ms::MScore::Direction userDotPosition READ userDotPosition WRITE undoSetUserDotPosition)
Q_PROPERTY(Ms::NoteHead::Group headGroup READ headGroup WRITE undoSetHeadGroup)
Q_PROPERTY(Ms::NoteHead::Type headType READ headType WRITE undoSetHeadType)
Q_PROPERTY(QQmlListProperty<Ms::Element> elements READ qmlElements)
Q_PROPERTY(Ms::Accidental* accidental READ accidental)
Q_PROPERTY(Ms::Accidental::Type accidentalType READ accidentalType WRITE setAccidentalType)
Q_PROPERTY(QQmlListProperty<Ms::NoteDot> dots READ qmlDots)
Q_PROPERTY(Ms::Tie* tieFor READ tieFor)
Q_PROPERTY(Ms::Tie* tieBack READ tieBack)
Q_ENUMS(ValueType)
Q_ENUMS(Ms::NoteHead::Group)
Q_ENUMS(Ms::NoteHead::Type)
Q_ENUMS(Ms::MScore::Direction)
Q_ENUMS(Ms::MScore::DirectionH)
public:
enum class ValueType : char { OFFSET_VAL, USER_VAL };
private:
int _subchannel; ///< articulation
int _line; ///< y-Position; 0 - top line.
int _fret; ///< for tablature view
int _string;
mutable int _tpc[2]; ///< tonal pitch class (concert/transposing)
mutable int _pitch; ///< Note pitch as midi value (0 - 127).
bool _ghost; ///< ghost note (guitar: death note)
bool _hidden; ///< markes this note as the hidden one if there are
///< overlapping notes; hidden notes are not played
///< and heads + accidentals are not shown
bool _dotsHidden; ///< dots of hidden notes are hidden too
///< except if only one note is dotted
bool _fretConflict; ///< used by TAB staves to mark a fretting conflict:
///< two or mor enotes on the same string
bool dragMode;
bool _mirror; ///< True if note is mirrored at stem.
bool _small;
bool _play; // note is not played if false
mutable bool _mark; // for use in sequencer
bool _fixed; // for slash notation
int _fixedLine; // fixed line number if _fixed == true
MScore::DirectionH _userMirror; ///< user override of mirror
MScore::Direction _userDotPosition; ///< user override of dot position
NoteHead::Group _headGroup;
NoteHead::Type _headType;
ValueType _veloType;
short int _veloOffset; ///< velocity user offset in percent, or absolute velocity for this note
qreal _tuning; ///< pitch offset in cent, playable only by internal synthesizer
Accidental* _accidental;
ElementList _el; ///< fingering, other text, symbols or images
Tie* _tieFor;
Tie* _tieBack;
NoteDot* _dots[MAX_DOTS];
NoteEventList _playEvents;
int _offTimeType = 0; // compatibility only 1 - user(absolute), 2 - offset (%)
int _onTimeType = 0; // compatibility only 1 - user, 2 - offset
int _lineOffset; ///< Used during mouse dragging.
QList<Spanner*> _spannerFor;
QList<Spanner*> _spannerBack;
virtual QRectF drag(EditData*) override;
void endDrag();
void endEdit();
void addSpanner(Spanner*);
void removeSpanner(Spanner*);
int concertPitchIdx() const;
void updateRelLine(int relLine, bool undoable);
public:
Note(Score* s = 0);
Note(const Note&, bool link = false);
~Note();
Note& operator=(const Note&) = delete;
virtual Note* clone() const { return new Note(*this, false); }
Element::Type type() const { return Element::Type::NOTE; }
virtual qreal mag() const;
QPointF pagePos() const; ///< position in page coordinates
QPointF canvasPos() const; ///< position in page coordinates
void layout();
void layout2();
void layout10(AccidentalState*);
void scanElements(void* data, void (*func)(void*, Element*), bool all=true);
void setTrack(int val);
int playTicks() const;
qreal headWidth() const;
qreal headHeight() const;
qreal tabHeadWidth(StaffType* tab = 0) const;
qreal tabHeadHeight(StaffType* tab = 0) const;
QPointF attach() const;
SymId noteHead() const;
NoteHead::Group headGroup() const { return _headGroup; }
NoteHead::Type headType() const { return _headType; }
void setHeadGroup(NoteHead::Group val);
void setHeadType(NoteHead::Type t);
virtual int subtype() const { return (int) _headGroup; }
virtual QString subtypeName() const;
void setPitch(int val);
void undoSetPitch(int val);
void setPitch(int pitch, int tpc1, int tpc2);
int pitch() const { return _pitch; }
int ppitch() const; ///< playback pitch
int epitch() const; ///< effective pitch
qreal tuning() const { return _tuning; }
void setTuning(qreal v) { _tuning = v; }
void undoSetTpc(int v);
int transposition() const;
bool fixed() const { return _fixed; }
void setFixed(bool v) { _fixed = v; }
int fixedLine() const { return _fixedLine; }
void setFixedLine(int v) { _fixedLine = v; }
int tpc() const;
int tpc1() const { return _tpc[0]; } // non transposed tpc
int tpc2() const { return _tpc[1]; } // transposed tpc
QString tpcUserName(bool explicitAccidental = false);
void setTpc(int v);
void setTpc1(int v) { _tpc[0] = v; }
void setTpc2(int v) { _tpc[1] = v; }
void setTpcFromPitch();
int tpc1default(int pitch) const;
int tpc2default(int pitch) const;
void undoSetTpc1(int tpc) { undoChangeProperty(P_ID::TPC1, tpc); }
void undoSetTpc2(int tpc) { undoChangeProperty(P_ID::TPC2, tpc); }
int transposeTpc(int tpc);
Accidental* accidental() const { return _accidental; }
void setAccidental(Accidental* a) { _accidental = a; }
Accidental::Type accidentalType() const { return _accidental ? _accidental->accidentalType() : Accidental::Type::NONE; }
void setAccidentalType(Accidental::Type type);
int line() const;
void setLine(int n);
int fret() const { return _fret; }
void setFret(int val) { _fret = val; }
int string() const { return _string; }
void setString(int val);
bool ghost() const { return _ghost; }
void setGhost(bool val) { _ghost = val; }
bool fretConflict() const { return _fretConflict; }
void setFretConflict(bool val) { _fretConflict = val; }
virtual void add(Element*);
virtual void remove(Element*);
bool mirror() const { return _mirror; }
void setMirror(bool val) { _mirror = val; }
bool small() const { return _small; }
void setSmall(bool val);
bool play() const { return _play; }
void setPlay(bool val) { _play = val; }
Ms::Tie* tieFor() const { return _tieFor; }
Ms::Tie* tieBack() const { return _tieBack; }
void setTieFor(Tie* t) { _tieFor = t; }
void setTieBack(Tie* t) { _tieBack = t; }
Chord* chord() const { return (Chord*)parent(); }
void setChord(Chord* a) { setParent((Element*)a); }
void draw(QPainter*) const;
virtual void read(XmlReader&) override;
virtual void write(Xml& xml) const override;
bool acceptDrop(const DropData&) const override;
Element* drop(const DropData&);
bool hidden() const { return _hidden; }
void setHidden(bool val) { _hidden = val; }
bool dotsHidden() const { return _dotsHidden; }
void setDotsHidden(bool val) { _dotsHidden = val; }
NoteType noteType() const;
QString noteTypeUserName();
ElementList el() { return _el; }
const ElementList el() const { return _el; }
QQmlListProperty<Ms::Element> qmlElements() { return QQmlListProperty<Ms::Element>(this, _el); }
int subchannel() const { return _subchannel; }
void setSubchannel(int val) { _subchannel = val; }
MScore::DirectionH userMirror() const { return _userMirror; }
void setUserMirror(MScore::DirectionH d) { _userMirror = d; }
MScore::Direction userDotPosition() const { return _userDotPosition; }
void setUserDotPosition(MScore::Direction d) { _userDotPosition = d; }
bool dotIsUp() const; // actual dot position
void reset();
ValueType veloType() const { return _veloType; }
void setVeloType(ValueType v) { _veloType = v; }
int veloOffset() const { return _veloOffset; }
void setVeloOffset(int v) { _veloOffset = v; }
void setOnTimeOffset(int v);
void setOffTimeOffset(int v);
int customizeVelocity(int velo) const;
NoteDot* dot(int n) { return _dots[n]; }
QQmlListProperty<Ms::NoteDot> qmlDots();
void updateAccidental(AccidentalState*);
void updateLine();
void setNval(const NoteVal&);
NoteEventList& playEvents() { return _playEvents; }
const NoteEventList& playEvents() const { return _playEvents; }
NoteEvent* noteEvent(int idx) { return &_playEvents[idx]; }
void setPlayEvents(const NoteEventList& l) { _playEvents = l; }
QList<Spanner*> spannerFor() const { return _spannerFor; }
QList<Spanner*> spannerBack() const { return _spannerBack; }
void addSpannerBack(Spanner* e) { _spannerBack.push_back(e); }
bool removeSpannerBack(Spanner* e) { return _spannerBack.removeOne(e); }
void addSpannerFor(Spanner* e) { _spannerFor.push_back(e); }
bool removeSpannerFor(Spanner* e) { return _spannerFor.removeOne(e); }
void transposeDiatonic(int interval, bool keepAlterations, bool useDoubleAccidentals);
void undoSetFret(int);
void undoSetString(int);
void undoSetGhost(bool);
void undoSetMirror(bool);
void undoSetSmall(bool);
void undoSetPlay(bool);
void undoSetTuning(qreal);
void undoSetVeloType(ValueType);
void undoSetVeloOffset(int);
void undoSetOnTimeUserOffset(int);
void undoSetOffTimeUserOffset(int);
void undoSetUserMirror(MScore::DirectionH);
void undoSetUserDotPosition(MScore::Direction);
void undoSetHeadGroup(NoteHead::Group);
void undoSetHeadType(NoteHead::Type);
virtual QVariant getProperty(P_ID propertyId) const;
virtual bool setProperty(P_ID propertyId, const QVariant&);
virtual QVariant propertyDefault(P_ID) const;
bool mark() const { return _mark; }
void setMark(bool v) const { _mark = v; }
virtual void setScore(Score* s);
void setDotY(MScore::Direction);
void addBracket();
static SymId noteHead(int direction, NoteHead::Group, NoteHead::Type);
NoteVal noteVal() const;
virtual Element* nextElement() override;
virtual Element* prevElement() override;
virtual QString accessibleInfo() override;
virtual QString screenReaderInfo() override;
virtual QString accessibleExtraInfo() override;
};
// extern const SymId noteHeads[2][int(NoteHead::Group::HEAD_GROUPS)][int(NoteHead::Type::HEAD_TYPES)];
} // namespace Ms
Q_DECLARE_METATYPE(Ms::NoteHead::Group);
Q_DECLARE_METATYPE(Ms::NoteHead::Type);
Q_DECLARE_METATYPE(Ms::Note::ValueType);
#endif