LoweBowe/MuseScore
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity
MuseScore/libmscore/note.cpp
Matt McClinch f6998a40e3 fix #297957: Ties extended in region after time signature change 
Resolves: https://musescore.org/en/node/297957.

When searching for a note to complete a tie, what matters is not so much that the note doesn't already have a tieBack(), but rather that the two notes have the same unisonIndex().
2019-12-01 22:45:48 -05:00

3239 lines
127 KiB
C++
Raw Blame History

//=============================================================================
// 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
//=============================================================================
/**
\file
Implementation of classes Note and ShadowNote.
*/
#include <assert.h>
#include "note.h"
#include "score.h"
#include "chord.h"
#include "sym.h"
#include "xml.h"
#include "slur.h"
#include "tie.h"
#include "text.h"
#include "clef.h"
#include "staff.h"
#include "pitchspelling.h"
#include "arpeggio.h"
#include "tremolo.h"
#include "utils.h"
#include "image.h"
#include "system.h"
#include "tuplet.h"
#include "articulation.h"
#include "drumset.h"
#include "segment.h"
#include "measure.h"
#include "undo.h"
#include "part.h"
#include "stafftype.h"
#include "stringdata.h"
#include "fret.h"
#include "harmony.h"
#include "fingering.h"
#include "bend.h"
#include "accidental.h"
#include "page.h"
#include "icon.h"
#include "notedot.h"
#include "spanner.h"
#include "glissando.h"
#include "bagpembell.h"
#include "hairpin.h"
#include "textline.h"
namespace Ms {
//---------------------------------------------------------
// noteHeads
// notehead groups
//---------------------------------------------------------
//int(NoteHead::Group::HEAD_GROUPS) - 1: "-1" is needed to prevent building CUSTOM_GROUP noteheads set, since it is built by users and keep a specific set of existing noteheads
static const SymId noteHeads[2][int(NoteHead::Group::HEAD_GROUPS) - 1][int(NoteHead::Type::HEAD_TYPES)] = {
{ // down stem
{ SymId::noteheadWhole, SymId::noteheadHalf, SymId::noteheadBlack, SymId::noteheadDoubleWhole },
{ SymId::noteheadXWhole, SymId::noteheadXHalf, SymId::noteheadXBlack, SymId::noteheadXDoubleWhole },
{ SymId::noteheadPlusWhole, SymId::noteheadPlusHalf, SymId::noteheadPlusBlack, SymId::noteheadPlusDoubleWhole },
{ SymId::noteheadCircleXWhole, SymId::noteheadCircleXHalf, SymId::noteheadCircleX, SymId::noteheadCircleXDoubleWhole},
{ SymId::noteheadWholeWithX, SymId::noteheadHalfWithX, SymId::noteheadVoidWithX, SymId::noteheadDoubleWholeWithX},
{ SymId::noteheadTriangleUpWhole, SymId::noteheadTriangleUpHalf, SymId::noteheadTriangleUpBlack, SymId::noteheadTriangleUpDoubleWhole },
{ SymId::noteheadTriangleDownWhole, SymId::noteheadTriangleDownHalf, SymId::noteheadTriangleDownBlack, SymId::noteheadTriangleDownDoubleWhole },
{ SymId::noteheadSlashedWhole1, SymId::noteheadSlashedHalf1, SymId::noteheadSlashedBlack1, SymId::noteheadSlashedDoubleWhole1 },
{ SymId::noteheadSlashedWhole2, SymId::noteheadSlashedHalf2, SymId::noteheadSlashedBlack2, SymId::noteheadSlashedDoubleWhole2 },
{ SymId::noteheadDiamondWhole, SymId::noteheadDiamondHalf, SymId::noteheadDiamondBlack, SymId::noteheadDiamondDoubleWhole },
{ SymId::noteheadDiamondWholeOld, SymId::noteheadDiamondHalfOld, SymId::noteheadDiamondBlackOld, SymId::noteheadDiamondDoubleWholeOld },
{ SymId::noteheadCircledWhole, SymId::noteheadCircledHalf, SymId::noteheadCircledBlack, SymId::noteheadCircledDoubleWhole },
{ SymId::noteheadCircledWholeLarge, SymId::noteheadCircledHalfLarge, SymId::noteheadCircledBlackLarge, SymId::noteheadCircledDoubleWholeLarge },
{ SymId::noteheadLargeArrowUpWhole, SymId::noteheadLargeArrowUpHalf, SymId::noteheadLargeArrowUpBlack, SymId::noteheadLargeArrowUpDoubleWhole },
{ SymId::noteheadWhole, SymId::noteheadHalf, SymId::noteheadBlack, SymId::noteheadDoubleWholeSquare },
{ SymId::noteheadSlashWhiteWhole, SymId::noteheadSlashWhiteHalf, SymId::noteheadSlashHorizontalEnds, SymId::noteheadSlashWhiteWhole},
{ SymId::noteShapeRoundWhite, SymId::noteShapeRoundWhite, SymId::noteShapeRoundBlack, SymId::noteShapeRoundDoubleWhole },
{ SymId::noteShapeSquareWhite, SymId::noteShapeSquareWhite, SymId::noteShapeSquareBlack, SymId::noteShapeSquareDoubleWhole },
{ SymId::noteShapeTriangleRightWhite, SymId::noteShapeTriangleRightWhite, SymId::noteShapeTriangleRightBlack, SymId::noteShapeTriangleRightDoubleWhole },
{ SymId::noteShapeDiamondWhite, SymId::noteShapeDiamondWhite, SymId::noteShapeDiamondBlack, SymId::noteShapeDiamondDoubleWhole },
{ SymId::noteShapeTriangleUpWhite, SymId::noteShapeTriangleUpWhite, SymId::noteShapeTriangleUpBlack, SymId::noteShapeTriangleUpDoubleWhole },
{ SymId::noteShapeMoonWhite, SymId::noteShapeMoonWhite, SymId::noteShapeMoonBlack, SymId::noteShapeMoonDoubleWhole },
{ SymId::noteShapeTriangleRoundWhite, SymId::noteShapeTriangleRoundWhite, SymId::noteShapeTriangleRoundBlack, SymId::noteShapeTriangleRoundDoubleWhole },
{ SymId::noteShapeKeystoneWhite, SymId::noteShapeKeystoneWhite, SymId::noteShapeKeystoneBlack, SymId::noteShapeKeystoneDoubleWhole },
{ SymId::noteShapeQuarterMoonWhite, SymId::noteShapeQuarterMoonWhite, SymId::noteShapeQuarterMoonBlack, SymId::noteShapeQuarterMoonDoubleWhole },
{ SymId::noteShapeIsoscelesTriangleWhite, SymId::noteShapeIsoscelesTriangleWhite, SymId::noteShapeIsoscelesTriangleBlack, SymId::noteShapeIsoscelesTriangleDoubleWhole },
{ SymId::noteShapeMoonLeftWhite, SymId::noteShapeMoonLeftWhite, SymId::noteShapeMoonLeftBlack, SymId::noteShapeMoonLeftDoubleWhole },
{ SymId::noteShapeArrowheadLeftWhite, SymId::noteShapeArrowheadLeftWhite, SymId::noteShapeArrowheadLeftBlack, SymId::noteShapeArrowheadLeftDoubleWhole },
{ SymId::noteShapeTriangleRoundLeftWhite, SymId::noteShapeTriangleRoundLeftWhite, SymId::noteShapeTriangleRoundLeftBlack, SymId::noteShapeTriangleRoundLeftDoubleWhole },
{ SymId::noteDoWhole, SymId::noteDoHalf, SymId::noteDoBlack, SymId::noSym },
{ SymId::noteReWhole, SymId::noteReHalf, SymId::noteReBlack, SymId::noSym },
{ SymId::noteMiWhole, SymId::noteMiHalf, SymId::noteMiBlack, SymId::noSym },
{ SymId::noteFaWhole, SymId::noteFaHalf, SymId::noteFaBlack, SymId::noSym },
{ SymId::noteSoWhole, SymId::noteSoHalf, SymId::noteSoBlack, SymId::noSym },
{ SymId::noteLaWhole, SymId::noteLaHalf, SymId::noteLaBlack, SymId::noSym },
{ SymId::noteTiWhole, SymId::noteTiHalf, SymId::noteTiBlack, SymId::noSym },
{ SymId::noteSiWhole, SymId::noteSiHalf, SymId::noteSiBlack, SymId::noSym },
{ SymId::noteASharpWhole, SymId::noteASharpHalf, SymId::noteASharpBlack, SymId::noSym },
{ SymId::noteAWhole, SymId::noteAHalf, SymId::noteABlack, SymId::noSym },
{ SymId::noteAFlatWhole, SymId::noteAFlatHalf, SymId::noteAFlatBlack, SymId::noSym },
{ SymId::noteBSharpWhole, SymId::noteBSharpHalf, SymId::noteBSharpBlack, SymId::noSym },
{ SymId::noteBWhole, SymId::noteBHalf, SymId::noteBBlack, SymId::noSym },
{ SymId::noteBFlatWhole, SymId::noteBFlatHalf, SymId::noteBFlatBlack, SymId::noSym },
{ SymId::noteCSharpWhole, SymId::noteCSharpHalf, SymId::noteCSharpBlack, SymId::noSym },
{ SymId::noteCWhole, SymId::noteCHalf, SymId::noteCBlack, SymId::noSym },
{ SymId::noteCFlatWhole, SymId::noteCFlatHalf, SymId::noteCFlatBlack, SymId::noSym },
{ SymId::noteDSharpWhole, SymId::noteDSharpHalf, SymId::noteDSharpBlack, SymId::noSym },
{ SymId::noteDWhole, SymId::noteDHalf, SymId::noteDBlack, SymId::noSym },
{ SymId::noteDFlatWhole, SymId::noteDFlatHalf, SymId::noteDFlatBlack, SymId::noSym },
{ SymId::noteESharpWhole, SymId::noteESharpHalf, SymId::noteESharpBlack, SymId::noSym },
{ SymId::noteEWhole, SymId::noteEHalf, SymId::noteEBlack, SymId::noSym },
{ SymId::noteEFlatWhole, SymId::noteEFlatHalf, SymId::noteEFlatBlack, SymId::noSym },
{ SymId::noteFSharpWhole, SymId::noteFSharpHalf, SymId::noteFSharpBlack, SymId::noSym },
{ SymId::noteFWhole, SymId::noteFHalf, SymId::noteFBlack, SymId::noSym },
{ SymId::noteFFlatWhole, SymId::noteFFlatHalf, SymId::noteFFlatBlack, SymId::noSym },
{ SymId::noteGSharpWhole, SymId::noteGSharpHalf, SymId::noteGSharpBlack, SymId::noSym },
{ SymId::noteGWhole, SymId::noteGHalf, SymId::noteGBlack, SymId::noSym },
{ SymId::noteGFlatWhole, SymId::noteGFlatHalf, SymId::noteGFlatBlack, SymId::noSym },
{ SymId::noteHWhole, SymId::noteHHalf, SymId::noteHBlack, SymId::noSym },
{ SymId::noteHSharpWhole, SymId::noteHSharpHalf, SymId::noteHSharpBlack, SymId::noSym }
},
{ // up stem
{ SymId::noteheadWhole, SymId::noteheadHalf, SymId::noteheadBlack, SymId::noteheadDoubleWhole },
{ SymId::noteheadXWhole, SymId::noteheadXHalf, SymId::noteheadXBlack, SymId::noteheadXDoubleWhole },
{ SymId::noteheadPlusWhole, SymId::noteheadPlusHalf, SymId::noteheadPlusBlack, SymId::noteheadPlusDoubleWhole },
{ SymId::noteheadCircleXWhole, SymId::noteheadCircleXHalf, SymId::noteheadCircleX, SymId::noteheadCircleXDoubleWhole},
{ SymId::noteheadWholeWithX, SymId::noteheadHalfWithX, SymId::noteheadVoidWithX, SymId::noteheadDoubleWholeWithX},
{ SymId::noteheadTriangleUpWhole, SymId::noteheadTriangleUpHalf, SymId::noteheadTriangleUpBlack, SymId::noteheadTriangleUpDoubleWhole },
{ SymId::noteheadTriangleDownWhole, SymId::noteheadTriangleDownHalf, SymId::noteheadTriangleDownBlack, SymId::noteheadTriangleDownDoubleWhole },
{ SymId::noteheadSlashedWhole1, SymId::noteheadSlashedHalf1, SymId::noteheadSlashedBlack1, SymId::noteheadSlashedDoubleWhole1 },
{ SymId::noteheadSlashedWhole2, SymId::noteheadSlashedHalf2, SymId::noteheadSlashedBlack2, SymId::noteheadSlashedDoubleWhole2 },
{ SymId::noteheadDiamondWhole, SymId::noteheadDiamondHalf, SymId::noteheadDiamondBlack, SymId::noteheadDiamondDoubleWhole },
{ SymId::noteheadDiamondWholeOld, SymId::noteheadDiamondHalfOld, SymId::noteheadDiamondBlackOld, SymId::noteheadDiamondDoubleWholeOld },
{ SymId::noteheadCircledWhole, SymId::noteheadCircledHalf, SymId::noteheadCircledBlack, SymId::noteheadCircledDoubleWhole },
{ SymId::noteheadCircledWholeLarge, SymId::noteheadCircledHalfLarge, SymId::noteheadCircledBlackLarge, SymId::noteheadCircledDoubleWholeLarge },
// different from down, find source?
{ SymId::noteheadLargeArrowDownWhole, SymId::noteheadLargeArrowDownHalf, SymId::noteheadLargeArrowDownBlack, SymId::noteheadLargeArrowDownDoubleWhole },
{ SymId::noteheadWhole, SymId::noteheadHalf, SymId::noteheadBlack, SymId::noteheadDoubleWholeSquare },
{ SymId::noteheadSlashWhiteWhole, SymId::noteheadSlashWhiteHalf, SymId::noteheadSlashHorizontalEnds, SymId::noteheadSlashWhiteDoubleWhole},
{ SymId::noteShapeRoundWhite, SymId::noteShapeRoundWhite, SymId::noteShapeRoundBlack, SymId::noteShapeRoundDoubleWhole },
{ SymId::noteShapeSquareWhite, SymId::noteShapeSquareWhite, SymId::noteShapeSquareBlack, SymId::noteShapeSquareDoubleWhole },
// different from down
{ SymId::noteShapeTriangleLeftWhite, SymId::noteShapeTriangleLeftWhite, SymId::noteShapeTriangleLeftBlack, SymId::noteShapeTriangleLeftDoubleWhole },
{ SymId::noteShapeDiamondWhite, SymId::noteShapeDiamondWhite, SymId::noteShapeDiamondBlack, SymId::noteShapeDiamondDoubleWhole },
{ SymId::noteShapeTriangleUpWhite, SymId::noteShapeTriangleUpWhite, SymId::noteShapeTriangleUpBlack, SymId::noteShapeTriangleUpDoubleWhole },
{ SymId::noteShapeMoonWhite, SymId::noteShapeMoonWhite, SymId::noteShapeMoonBlack, SymId::noteShapeMoonDoubleWhole },
{ SymId::noteShapeTriangleRoundWhite, SymId::noteShapeTriangleRoundWhite, SymId::noteShapeTriangleRoundBlack, SymId::noteShapeTriangleRoundDoubleWhole },
{ SymId::noteShapeKeystoneWhite, SymId::noteShapeKeystoneWhite, SymId::noteShapeKeystoneBlack, SymId::noteShapeKeystoneDoubleWhole },
{ SymId::noteShapeQuarterMoonWhite, SymId::noteShapeQuarterMoonWhite, SymId::noteShapeQuarterMoonBlack, SymId::noteShapeQuarterMoonDoubleWhole },
{ SymId::noteShapeIsoscelesTriangleWhite, SymId::noteShapeIsoscelesTriangleWhite, SymId::noteShapeIsoscelesTriangleBlack, SymId::noteShapeIsoscelesTriangleDoubleWhole },
{ SymId::noteShapeMoonLeftWhite, SymId::noteShapeMoonLeftWhite, SymId::noteShapeMoonLeftBlack, SymId::noteShapeMoonLeftDoubleWhole },
{ SymId::noteShapeArrowheadLeftWhite, SymId::noteShapeArrowheadLeftWhite, SymId::noteShapeArrowheadLeftBlack, SymId::noteShapeArrowheadLeftDoubleWhole },
{ SymId::noteShapeTriangleRoundLeftWhite, SymId::noteShapeTriangleRoundLeftWhite, SymId::noteShapeTriangleRoundLeftBlack, SymId::noteShapeTriangleRoundLeftDoubleWhole },
{ SymId::noteDoWhole, SymId::noteDoHalf, SymId::noteDoBlack, SymId::noSym },
{ SymId::noteReWhole, SymId::noteReHalf, SymId::noteReBlack, SymId::noSym },
{ SymId::noteMiWhole, SymId::noteMiHalf, SymId::noteMiBlack, SymId::noSym },
{ SymId::noteFaWhole, SymId::noteFaHalf, SymId::noteFaBlack, SymId::noSym },
{ SymId::noteSoWhole, SymId::noteSoHalf, SymId::noteSoBlack, SymId::noSym },
{ SymId::noteLaWhole, SymId::noteLaHalf, SymId::noteLaBlack, SymId::noSym },
{ SymId::noteTiWhole, SymId::noteTiHalf, SymId::noteTiBlack, SymId::noSym },
{ SymId::noteSiWhole, SymId::noteSiHalf, SymId::noteSiBlack, SymId::noSym },
{ SymId::noteASharpWhole, SymId::noteASharpHalf, SymId::noteASharpBlack, SymId::noSym },
{ SymId::noteAWhole, SymId::noteAHalf, SymId::noteABlack, SymId::noSym },
{ SymId::noteAFlatWhole, SymId::noteAFlatHalf, SymId::noteAFlatBlack, SymId::noSym },
{ SymId::noteBSharpWhole, SymId::noteBSharpHalf, SymId::noteBSharpBlack, SymId::noSym },
{ SymId::noteBWhole, SymId::noteBHalf, SymId::noteBBlack, SymId::noSym },
{ SymId::noteBFlatWhole, SymId::noteBFlatHalf, SymId::noteBFlatBlack, SymId::noSym },
{ SymId::noteCSharpWhole, SymId::noteCSharpHalf, SymId::noteCSharpBlack, SymId::noSym },
{ SymId::noteCWhole, SymId::noteCHalf, SymId::noteCBlack, SymId::noSym },
{ SymId::noteCFlatWhole, SymId::noteCFlatHalf, SymId::noteCFlatBlack, SymId::noSym },
{ SymId::noteDSharpWhole, SymId::noteDSharpHalf, SymId::noteDSharpBlack, SymId::noSym },
{ SymId::noteDWhole, SymId::noteDHalf, SymId::noteDBlack, SymId::noSym },
{ SymId::noteDFlatWhole, SymId::noteDFlatHalf, SymId::noteDFlatBlack, SymId::noSym },
{ SymId::noteESharpWhole, SymId::noteESharpHalf, SymId::noteESharpBlack, SymId::noSym },
{ SymId::noteEWhole, SymId::noteEHalf, SymId::noteEBlack, SymId::noSym },
{ SymId::noteEFlatWhole, SymId::noteEFlatHalf, SymId::noteEFlatBlack, SymId::noSym },
{ SymId::noteFSharpWhole, SymId::noteFSharpHalf, SymId::noteFSharpBlack, SymId::noSym },
{ SymId::noteFWhole, SymId::noteFHalf, SymId::noteFBlack, SymId::noSym },
{ SymId::noteFFlatWhole, SymId::noteFFlatHalf, SymId::noteFFlatBlack, SymId::noSym },
{ SymId::noteGSharpWhole, SymId::noteGSharpHalf, SymId::noteGSharpBlack, SymId::noSym },
{ SymId::noteGWhole, SymId::noteGHalf, SymId::noteGBlack, SymId::noSym },
{ SymId::noteGFlatWhole, SymId::noteGFlatHalf, SymId::noteGFlatBlack, SymId::noSym },
{ SymId::noteHWhole, SymId::noteHHalf, SymId::noteHBlack, SymId::noSym },
{ SymId::noteHSharpWhole, SymId::noteHSharpHalf, SymId::noteHSharpBlack, SymId::noSym }
}
};
struct NoteHeadName {
const char* name;
const char* username;
};
// same order as NoteHead::Group
static NoteHeadName noteHeadGroupNames[] = {
{"normal", QT_TRANSLATE_NOOP("noteheadnames", "Normal") },
{"cross", QT_TRANSLATE_NOOP("noteheadnames", "Cross") },
{"plus", QT_TRANSLATE_NOOP("noteheadnames", "Plus") },
{"xcircle", QT_TRANSLATE_NOOP("noteheadnames", "XCircle") },
{"withx", QT_TRANSLATE_NOOP("noteheadnames", "With X") },
{"triangle-up", QT_TRANSLATE_NOOP("noteheadnames", "Triangle Up") },
{"triangle-down", QT_TRANSLATE_NOOP("noteheadnames", "Triangle Down") },
{"slashed1", QT_TRANSLATE_NOOP("noteheadnames", "Slashed (Forwards)") },
{"slashed2", QT_TRANSLATE_NOOP("noteheadnames", "Slashed (Backwards)") },
{"diamond", QT_TRANSLATE_NOOP("noteheadnames", "Diamond") },
{"diamond-old", QT_TRANSLATE_NOOP("noteheadnames", "Diamond (Old)") },
{"circled", QT_TRANSLATE_NOOP("noteheadnames", "Circled") },
{"circled-large", QT_TRANSLATE_NOOP("noteheadnames", "Circled Large") },
{"large-arrow", QT_TRANSLATE_NOOP("noteheadnames", "Large Arrow") },
{"altbrevis", QT_TRANSLATE_NOOP("noteheadnames", "Alt. Brevis") },
{"slash", QT_TRANSLATE_NOOP("noteheadnames", "Slash") },
// shape notes
{"sol", QT_TRANSLATE_NOOP("noteheadnames", "Sol") },
{"la", QT_TRANSLATE_NOOP("noteheadnames", "La") },
{"fa", QT_TRANSLATE_NOOP("noteheadnames", "Fa") },
{"mi", QT_TRANSLATE_NOOP("noteheadnames", "Mi") },
{"do", QT_TRANSLATE_NOOP("noteheadnames", "Do") },
{"re", QT_TRANSLATE_NOOP("noteheadnames", "Re") },
{"ti", QT_TRANSLATE_NOOP("noteheadnames", "Ti") },
// not exposed
{"do-walker", QT_TRANSLATE_NOOP("noteheadnames", "Do (Walker)") },
{"re-walker", QT_TRANSLATE_NOOP("noteheadnames", "Re (Walker)") },
{"ti-walker", QT_TRANSLATE_NOOP("noteheadnames", "Ti (Walker)") },
{"do-funk", QT_TRANSLATE_NOOP("noteheadnames", "Do (Funk)") },
{"re-funk", QT_TRANSLATE_NOOP("noteheadnames", "Re (Funk)") },
{"ti-funk", QT_TRANSLATE_NOOP("noteheadnames", "Ti (Funk)") },
// note name
{"do-name", QT_TRANSLATE_NOOP("noteheadnames", "Do (Name)") },
{"re-name", QT_TRANSLATE_NOOP("noteheadnames", "Re (Name)") },
{"mi-name", QT_TRANSLATE_NOOP("noteheadnames", "Mi (Name)") },
{"fa-name", QT_TRANSLATE_NOOP("noteheadnames", "Fa (Name)") },
{"sol-name", QT_TRANSLATE_NOOP("noteheadnames", "Sol (Name)") },
{"la-name", QT_TRANSLATE_NOOP("noteheadnames", "La (Name)") },
{"ti-name", QT_TRANSLATE_NOOP("noteheadnames", "Ti (Name)") },
{"si-name", QT_TRANSLATE_NOOP("noteheadnames", "Si (Name)") },
{"a-sharp-name", QT_TRANSLATE_NOOP("noteheadnames", "A♯ (Name)") },
{"a-name", QT_TRANSLATE_NOOP("noteheadnames", "A (Name)") },
{"a-flat-name", QT_TRANSLATE_NOOP("noteheadnames", "A♭ (Name)") },
{"b-sharp-name", QT_TRANSLATE_NOOP("noteheadnames", "B♯ (Name)") },
{"b-name", QT_TRANSLATE_NOOP("noteheadnames", "B (Name)") },
{"b-flat-name", QT_TRANSLATE_NOOP("noteheadnames", "B♭ (Name)") },
{"c-sharp-name", QT_TRANSLATE_NOOP("noteheadnames", "C♯ (Name)") },
{"c-name", QT_TRANSLATE_NOOP("noteheadnames", "C (Name)") },
{"c-flat-name", QT_TRANSLATE_NOOP("noteheadnames", "C♭ (Name)") },
{"d-sharp-name", QT_TRANSLATE_NOOP("noteheadnames", "D♯ (Name)") },
{"d-name", QT_TRANSLATE_NOOP("noteheadnames", "D (Name)") },
{"d-flat-name", QT_TRANSLATE_NOOP("noteheadnames", "D♭ (Name)") },
{"e-sharp-name", QT_TRANSLATE_NOOP("noteheadnames", "E♯ (Name)") },
{"e-name", QT_TRANSLATE_NOOP("noteheadnames", "E (Name)") },
{"e-flat-name", QT_TRANSLATE_NOOP("noteheadnames", "E♭ (Name)") },
{"f-sharp-name", QT_TRANSLATE_NOOP("noteheadnames", "F♯ (Name)") },
{"f-name", QT_TRANSLATE_NOOP("noteheadnames", "F (Name)") },
{"f-flat-name", QT_TRANSLATE_NOOP("noteheadnames", "F♭ (Name)") },
{"g-sharp-name", QT_TRANSLATE_NOOP("noteheadnames", "G♯ (Name)") },
{"g-name", QT_TRANSLATE_NOOP("noteheadnames", "G (Name)") },
{"g-flat-name", QT_TRANSLATE_NOOP("noteheadnames", "G♭ (Name)") },
{"h-name", QT_TRANSLATE_NOOP("noteheadnames", "H (Name)") },
{"h-sharp-name", QT_TRANSLATE_NOOP("noteheadnames", "H♯ (Name)") },
{"custom", QT_TRANSLATE_NOOP("noteheadnames", "Custom") }
};
// same order as NoteHead::Type
static NoteHeadName noteHeadTypeNames[] = {
{"auto", QT_TRANSLATE_NOOP("noteheadnames", "Auto") },
{"whole", QT_TRANSLATE_NOOP("noteheadnames", "Whole") },
{"half", QT_TRANSLATE_NOOP("noteheadnames", "Half") },
{"quarter", QT_TRANSLATE_NOOP("noteheadnames", "Quarter") },
{"breve", QT_TRANSLATE_NOOP("noteheadnames", "Breve") },
};
//---------------------------------------------------------
// group2userName
//---------------------------------------------------------
QString NoteHead::group2userName(NoteHead::Group group)
{
return qApp->translate("noteheadnames", noteHeadGroupNames[int(group)].username);
}
//---------------------------------------------------------
// type2userName
//---------------------------------------------------------
QString NoteHead::type2userName(NoteHead::Type type)
{
return qApp->translate("noteheadnames", noteHeadTypeNames[int(type) + 1].username);
}
//---------------------------------------------------------
// group2name
//---------------------------------------------------------
QString NoteHead::group2name(NoteHead::Group group)
{
return noteHeadGroupNames[int(group)].name;
}
//---------------------------------------------------------
// type2name
//---------------------------------------------------------
QString NoteHead::type2name(NoteHead::Type type)
{
return noteHeadTypeNames[int(type) + 1].name;
}
//---------------------------------------------------------
// name2group
//---------------------------------------------------------
NoteHead::Group NoteHead::name2group(QString s)
{
for (int i = 0; i < int(NoteHead::Group::HEAD_GROUPS); ++i) {
if (noteHeadGroupNames[i].name == s)
return NoteHead::Group(i);
}
return NoteHead::Group::HEAD_NORMAL;
}
//---------------------------------------------------------
// name2type
//---------------------------------------------------------
NoteHead::Type NoteHead::name2type(QString s)
{
for (int i = 0; i <= int(NoteHead::Type::HEAD_TYPES); ++i) {
if (noteHeadTypeNames[i].name == s)
return NoteHead::Type(i - 1);
}
return NoteHead::Type::HEAD_AUTO;
}
//---------------------------------------------------------
// noteHead
//---------------------------------------------------------
SymId Note::noteHead(int direction, NoteHead::Group group, NoteHead::Type t)
{
return noteHeads[direction][int(group)][int(t)];
}
SymId Note::noteHead(int direction, NoteHead::Group group, NoteHead::Type t, int tpc, Key key, NoteHeadScheme scheme)
{
// shortcut
if (scheme == NoteHeadScheme::HEAD_NORMAL)
return noteHeads[direction][int(group)][int(t)];
// other schemes
if (scheme == NoteHeadScheme::HEAD_PITCHNAME || scheme == NoteHeadScheme::HEAD_PITCHNAME_GERMAN) {
if (tpc == Tpc::TPC_A)
group = NoteHead::Group::HEAD_A;
else if (tpc == Tpc::TPC_B) {
if (scheme == NoteHeadScheme::HEAD_PITCHNAME_GERMAN)
group = NoteHead::Group::HEAD_H;
else
group = NoteHead::Group::HEAD_B;
}
else if (tpc == Tpc::TPC_C)
group = NoteHead::Group::HEAD_C;
else if (tpc == Tpc::TPC_D)
group = NoteHead::Group::HEAD_D;
else if (tpc == Tpc::TPC_E)
group = NoteHead::Group::HEAD_E;
else if (tpc == Tpc::TPC_F)
group = NoteHead::Group::HEAD_F;
else if (tpc == Tpc::TPC_G)
group = NoteHead::Group::HEAD_G;
else if (tpc == Tpc::TPC_A_S)
group = NoteHead::Group::HEAD_A_SHARP;
else if (tpc == Tpc::TPC_B_S)
if (scheme == NoteHeadScheme::HEAD_PITCHNAME_GERMAN)
group = NoteHead::Group::HEAD_H_SHARP;
else
group = NoteHead::Group::HEAD_B_SHARP;
else if (tpc == Tpc::TPC_C_S)
group = NoteHead::Group::HEAD_C_SHARP;
else if (tpc == Tpc::TPC_D_S)
group = NoteHead::Group::HEAD_D_SHARP;
else if (tpc == Tpc::TPC_E_S)
group = NoteHead::Group::HEAD_E_SHARP;
else if (tpc == Tpc::TPC_F_S)
group = NoteHead::Group::HEAD_F_SHARP;
else if (tpc == Tpc::TPC_G_S)
group = NoteHead::Group::HEAD_G_SHARP;
else if (tpc == Tpc::TPC_A_B)
group = NoteHead::Group::HEAD_A_FLAT;
else if (tpc == Tpc::TPC_B_B)
if (scheme == NoteHeadScheme::HEAD_PITCHNAME_GERMAN)
group = NoteHead::Group::HEAD_B;
else
group = NoteHead::Group::HEAD_B_FLAT;
else if (tpc == Tpc::TPC_C_B)
group = NoteHead::Group::HEAD_C_FLAT;
else if (tpc == Tpc::TPC_D_B)
group = NoteHead::Group::HEAD_D_FLAT;
else if (tpc == Tpc::TPC_E_B)
group = NoteHead::Group::HEAD_E_FLAT;
else if (tpc == Tpc::TPC_F_B)
group = NoteHead::Group::HEAD_F_FLAT;
else if (tpc == Tpc::TPC_G_B)
group = NoteHead::Group::HEAD_G_FLAT;
}
else if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_4) {
int degree = tpc2degree(tpc, key);
switch (degree) {
case 0:
case 3:
group = NoteHead::Group::HEAD_FA; break;
case 1:
case 4:
group = NoteHead::Group::HEAD_SOL; break;
case 2:
case 5:
group = NoteHead::Group::HEAD_LA; break;
case 6:
group = NoteHead::Group::HEAD_MI; break;
}
}
else if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_AIKIN
|| scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_FUNK
|| scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_WALKER) {
int degree = tpc2degree(tpc, key);
switch (degree) {
case 0:
if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_AIKIN)
group = NoteHead::Group::HEAD_DO;
else if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_FUNK)
group = NoteHead::Group::HEAD_DO_FUNK;
else if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_WALKER)
group = NoteHead::Group::HEAD_DO_WALKER;
break;
case 1:
if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_AIKIN)
group = NoteHead::Group::HEAD_RE;
else if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_FUNK)
group = NoteHead::Group::HEAD_RE_FUNK;
else if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_WALKER)
group = NoteHead::Group::HEAD_RE_WALKER;
break;
case 2:
group = NoteHead::Group::HEAD_MI; break;
case 3:
group = NoteHead::Group::HEAD_FA; break;
case 4:
group = NoteHead::Group::HEAD_SOL; break;
case 5:
group = NoteHead::Group::HEAD_LA; break;
case 6:
if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_AIKIN)
group = NoteHead::Group::HEAD_TI;
else if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_FUNK)
group = NoteHead::Group::HEAD_TI_FUNK;
else if (scheme == NoteHeadScheme::HEAD_SHAPE_NOTE_7_WALKER)
group = NoteHead::Group::HEAD_TI_WALKER;
break;
}
}
else if (scheme == NoteHeadScheme::HEAD_SOLFEGE) {
int degree = tpc2degree(tpc, key);
switch (degree) {
case 0:
group = NoteHead::Group::HEAD_DO_NAME; break;
case 1:
group = NoteHead::Group::HEAD_RE_NAME; break;
case 2:
group = NoteHead::Group::HEAD_MI_NAME; break;
case 3:
group = NoteHead::Group::HEAD_FA_NAME; break;
case 4:
group = NoteHead::Group::HEAD_SOL_NAME; break;
case 5:
group = NoteHead::Group::HEAD_LA_NAME; break;
case 6:
group = NoteHead::Group::HEAD_TI_NAME; break;
}
}
else if (scheme == NoteHeadScheme::HEAD_SOLFEGE_FIXED) {
QString stepName = tpc2stepName(tpc);
if (stepName == "C")
group = NoteHead::Group::HEAD_DO_NAME;
else if (stepName == "D")
group = NoteHead::Group::HEAD_RE_NAME;
else if (stepName == "E")
group = NoteHead::Group::HEAD_MI_NAME;
else if (stepName == "F")
group = NoteHead::Group::HEAD_FA_NAME;
else if (stepName == "G")
group = NoteHead::Group::HEAD_SOL_NAME;
else if (stepName == "A")
group = NoteHead::Group::HEAD_LA_NAME;
else if (stepName == "B")
group = NoteHead::Group::HEAD_SI_NAME;
}
return noteHeads[direction][int(group)][int(t)];
};
//---------------------------------------------------------
// headGroup
// used only when dropping a notehead from the palette
// they are either half note, either double whole
//---------------------------------------------------------
NoteHead::Group NoteHead::headGroup() const
{
Group group = Group::HEAD_INVALID;
for (int i = 0; i < int(Group::HEAD_DO_WALKER); ++i) {
if (noteHeads[0][i][1] == _sym || noteHeads[0][i][3] == _sym) {
group = (Group)i;
break;
}
}
return group;
}
//---------------------------------------------------------
// Note
//---------------------------------------------------------
Note::Note(Score* s)
: Element(s, ElementFlag::MOVABLE)
{
_playEvents.append(NoteEvent()); // add default play event
_cachedNoteheadSym = SymId::noSym;
_cachedSymNull = SymId::noSym;
}
Note::~Note()
{
delete _accidental;
qDeleteAll(_el);
delete _tieFor;
qDeleteAll(_dots);
}
Note::Note(const Note& n, bool link)
: Element(n)
{
if (link)
score()->undo(new Link(this, const_cast<Note*>(&n)));
_subchannel = n._subchannel;
_line = n._line;
_fret = n._fret;
_string = n._string;
_fretConflict = n._fretConflict;
_ghost = n._ghost;
dragMode = n.dragMode;
_pitch = n._pitch;
_tpc[0] = n._tpc[0];
_tpc[1] = n._tpc[1];
_dotsHidden = n._dotsHidden;
_hidden = n._hidden;
_play = n._play;
_tuning = n._tuning;
_veloType = n._veloType;
_veloOffset = n._veloOffset;
_headGroup = n._headGroup;
_headType = n._headType;
_mirror = n._mirror;
_userMirror = n._userMirror;
_small = n._small;
_userDotPosition = n._userDotPosition;
_fixed = n._fixed;
_fixedLine = n._fixedLine;
_accidental = 0;
_cachedNoteheadSym = n._cachedNoteheadSym;
_cachedSymNull = n._cachedSymNull;
if (n._accidental)
add(new Accidental(*(n._accidental)));
// types in _el: SYMBOL, IMAGE, FINGERING, TEXT, BEND
const Staff* stf = staff();
bool tabFingering = stf->staffType(tick())->showTabFingering();
for (Element* e : n._el) {
if (e->isFingering() && staff()->isTabStaff(tick()) && !tabFingering) // tablature has no fingering
continue;
Element* ce = e->clone();
add(ce);
if (link)
score()->undo(new Link(ce, const_cast<Element*>(e)));
}
_playEvents = n._playEvents;
if (n._tieFor) {
_tieFor = new Tie(*n._tieFor);
_tieFor->setStartNote(this);
_tieFor->setEndNote(0);
}
else
_tieFor = 0;
_tieBack = 0;
for (NoteDot* dot : n._dots)
add(new NoteDot(*dot));
_mark = n._mark;
}
//---------------------------------------------------------
// concertPitchIdx
//---------------------------------------------------------
inline int Note::concertPitchIdx() const
{
return concertPitch() ? 0 : 1;
}
//---------------------------------------------------------
// setPitch
//---------------------------------------------------------
void Note::setPitch(int val)
{
Q_ASSERT(pitchIsValid(val));
if (_pitch != val) {
_pitch = val;
score()->setPlaylistDirty();
}
}
void Note::setPitch(int pitch, int tpc1, int tpc2)
{
Q_ASSERT(tpcIsValid(tpc1));
Q_ASSERT(tpcIsValid(tpc2));
_tpc[0] = tpc1;
_tpc[1] = tpc2;
setPitch(pitch);
}
//---------------------------------------------------------
// tpc1default
//---------------------------------------------------------
int Note::tpc1default(int p) const
{
Key key = Key::C;
if (staff() && chord()) {
Fraction tick = chord()->tick();
key = staff()->key(tick);
if (!concertPitch()) {
Interval interval = part()->instrument(tick)->transpose();
if (!interval.isZero()) {
interval.flip();
key = transposeKey(key, interval);
}
}
}
return pitch2tpc(p, key, Prefer::NEAREST);
}
//---------------------------------------------------------
// tpc2default
//---------------------------------------------------------
int Note::tpc2default(int p) const
{
Key key = Key::C;
if (staff() && chord()) {
Fraction tick = chord()->tick();
key = staff()->key(tick);
if (concertPitch()) {
Interval interval = part()->instrument(tick)->transpose();
if (!interval.isZero())
key = transposeKey(key, interval);
}
}
return pitch2tpc(p - transposition(), key, Prefer::NEAREST);
}
//---------------------------------------------------------
// setTpcFromPitch
//---------------------------------------------------------
void Note::setTpcFromPitch()
{
// works best if note is already added to score, otherwise we can't determine transposition or key
Fraction tick = chord() ? chord()->tick() : Fraction(-1,1);
Interval v = staff() ? part()->instrument(tick)->transpose() : Interval();
Key key = (staff() && chord()) ? staff()->key(chord()->tick()) : Key::C;
// convert key to concert pitch
if (!concertPitch() && !v.isZero())
key = transposeKey(key, v);
// set concert pitch tpc
_tpc[0] = pitch2tpc(_pitch, key, Prefer::NEAREST);
// set transposed tpc
if (v.isZero())
_tpc[1] = _tpc[0];
else {
v.flip();
_tpc[1] = Ms::transposeTpc(_tpc[0], v, true);
}
Q_ASSERT(tpcIsValid(_tpc[0]));
Q_ASSERT(tpcIsValid(_tpc[1]));
}
//---------------------------------------------------------
// setTpc
//---------------------------------------------------------
void Note::setTpc(int v)
{
if (!tpcIsValid(v))
qFatal("Note::setTpc: bad tpc %d", v);
_tpc[concertPitchIdx()] = v;
}
//---------------------------------------------------------
// undoSetTpc
// change the current tpc
//---------------------------------------------------------
void Note::undoSetTpc(int v)
{
if (concertPitch()) {
if (v != tpc1())
undoChangeProperty(Pid::TPC1, v);
}
else {
if (v != tpc2())
undoChangeProperty(Pid::TPC2, v);
}
}
//---------------------------------------------------------
// tpc
//---------------------------------------------------------
int Note::tpc() const
{
return _tpc[concertPitchIdx()];
}
//---------------------------------------------------------
// tpcUserName
//---------------------------------------------------------
QString Note::tpcUserName(bool explicitAccidental) const
{
QString pitchName = tpc2name(tpc(), NoteSpellingType::STANDARD, NoteCaseType::AUTO, explicitAccidental);
QString octaveName = QString::number((epitch() / 12) - 1);
return pitchName + (explicitAccidental ? " " : "") + octaveName;
}
//---------------------------------------------------------
// transposeTpc
// return transposed tpc
// If in concertPitch mode return tpc for transposed view
// else return tpc for concert pitch view.
//---------------------------------------------------------
int Note::transposeTpc(int tpc)
{
Fraction tick = chord() ? chord()->tick() : Fraction(-1,1);
Interval v = part()->instrument(tick)->transpose();
if (v.isZero())
return tpc;
if (concertPitch()) {
v.flip();
return Ms::transposeTpc(tpc, v, true);
}
else
return Ms::transposeTpc(tpc, v, true);
}
//---------------------------------------------------------
// noteHead
//---------------------------------------------------------
SymId Note::noteHead() const
{
int up;
NoteHead::Type ht;
if (chord()) {
up = chord()->up();
ht = chord()->durationType().headType();
}
else {
up = 1;
ht = NoteHead::Type::HEAD_QUARTER;
}
if (_headType != NoteHead::Type::HEAD_AUTO)
ht = _headType;
if (_headGroup == NoteHead::Group::HEAD_CUSTOM) {
if (chord() && chord()->staff()) {
const Staff* st = chord()->staff();
if (st->staffType(chord()->tick())->isDrumStaff())
return st->part()->instrument(chord()->tick())->drumset()->noteHeads(_pitch, ht);
}
else {
return _cachedNoteheadSym;
}
}
Key key = Key::C;
NoteHeadScheme scheme = NoteHeadScheme::HEAD_NORMAL;
if (chord() && chord()->staff()){
Fraction tick = chord()->tick();
if (tick >= Fraction(0,1)) {
const Staff* st = chord()->staff();
key = st->key(tick);
scheme = st->staffType(tick)->noteHeadScheme();
}
}
SymId t = noteHead(up, _headGroup, ht, tpc(), key, scheme);
if (t == SymId::noSym) {
qDebug("invalid notehead %d/%d", int(_headGroup), int(ht));
t = noteHead(up, NoteHead::Group::HEAD_NORMAL, ht);
}
return t;
}
//---------------------------------------------------------
// headWidth
//
// returns the x of the symbol bbox. It is different from headWidth() because zero point could be different from leftmost bbox position.
//---------------------------------------------------------
qreal Note::bboxRightPos() const
{
const auto& bbox = score()->scoreFont()->bbox(noteHead(), magS());
return bbox.right();
}
//---------------------------------------------------------
// headBodyWidth
//
// returns the width of the notehead "body". It is actual for slashed noteheads like -O-, where O is body.
//---------------------------------------------------------
qreal Note::headBodyWidth() const
{
return headWidth() + 2 * bboxXShift();
}
//---------------------------------------------------------
// headWidth
//
// returns the width of the symbol bbox
// or the width of the string representation of the fret mark
//---------------------------------------------------------
qreal Note::headWidth() const
{
return symWidth(noteHead());
}
//---------------------------------------------------------
// bboxXShift
//
// returns the x shift of the notehead bounding box
//---------------------------------------------------------
qreal Note::bboxXShift() const
{
const auto& bbox = score()->scoreFont()->bbox(noteHead(), magS());
return bbox.bottomLeft().x();
}
//---------------------------------------------------------
// noteheadCenterX
//
// returns the x coordinate of the notehead center related to the basepoint of the notehead bbox
//---------------------------------------------------------
qreal Note::noteheadCenterX() const
{
return score()->scoreFont()->width(noteHead(), magS()) / 2 + bboxXShift();
}
//---------------------------------------------------------
// tabHeadWidth
//---------------------------------------------------------
qreal Note::tabHeadWidth(const StaffType* tab) const
{
qreal val;
if (tab && _fret != FRET_NONE && _string != STRING_NONE) {
QFont f = tab->fretFont();
f.setPointSizeF(tab->fretFontSize());
QFontMetricsF fm(f, MScore::paintDevice());
val = fm.width(_fretString) * magS();
}
else
val = headWidth();
return val;
}
//---------------------------------------------------------
// headHeight
//
// returns the height of the notehead symbol
// or the height of the string representation of the fret mark
//---------------------------------------------------------
qreal Note::headHeight() const
{
return symHeight(noteHead());
}
//---------------------------------------------------------
// tabHeadHeight
//---------------------------------------------------------
qreal Note::tabHeadHeight(const StaffType* tab) const
{
if (tab && _fret != FRET_NONE && _string != STRING_NONE)
return tab->fretBoxH() * magS();
return headHeight();
}
//---------------------------------------------------------
// stemDownNW
//---------------------------------------------------------
QPointF Note::stemDownNW() const
{
return symStemDownNW(noteHead());
}
//---------------------------------------------------------
// stemUpSE
//---------------------------------------------------------
QPointF Note::stemUpSE() const
{
return symStemUpSE(noteHead());
}
//---------------------------------------------------------
// playTicks
/// Return total tick len of tied notes
//---------------------------------------------------------
int Note::playTicks() const
{
Fraction stick = firstTiedNote()->chord()->tick();
const Note* note = lastTiedNote();
return (note->chord()->tick() + note->chord()->actualTicks() - stick).ticks();
}
//---------------------------------------------------------
// addSpanner
//---------------------------------------------------------
void Note::addSpanner(Spanner* l)
{
Element* e = l->endElement();
if (e && e->isNote()) {
Note* note = toNote(e);
note->addSpannerBack(l);
if (l->isGlissando())
note->chord()->setEndsGlissando(true);
}
addSpannerFor(l);
}
//---------------------------------------------------------
// removeSpanner
//---------------------------------------------------------
void Note::removeSpanner(Spanner* l)
{
Note* e = toNote(l->endElement());
if (e && e->isNote()) {
if (!e->removeSpannerBack(l)) {
qDebug("Note::removeSpanner(%p): cannot remove spannerBack %s %p", this, l->name(), l);
// abort();
}
if (l->isGlissando())
e->chord()->updateEndsGlissando();
}
if (!removeSpannerFor(l)) {
qDebug("Note(%p): cannot remove spannerFor %s %p", this, l->name(), l);
// abort();
}
}
//---------------------------------------------------------
// add
//---------------------------------------------------------
void Note::add(Element* e)
{
e->setParent(this);
e->setTrack(track());
switch(e->type()) {
case ElementType::NOTEDOT:
_dots.append(toNoteDot(e));
break;
case ElementType::FINGERING:
case ElementType::SYMBOL:
case ElementType::IMAGE:
case ElementType::TEXT:
case ElementType::BEND:
_el.push_back(e);
break;
case ElementType::TIE: {
Tie* tie = toTie(e);
tie->setStartNote(this);
tie->setTrack(track());
setTieFor(tie);
if (tie->endNote())
tie->endNote()->setTieBack(tie);
}
break;
case ElementType::ACCIDENTAL:
_accidental = toAccidental(e);
break;
case ElementType::TEXTLINE:
case ElementType::GLISSANDO:
addSpanner(toSpanner(e));
break;
default:
qDebug("Note::add() not impl. %s", e->name());
break;
}
triggerLayout();
}
//---------------------------------------------------------
// remove
//---------------------------------------------------------
void Note::remove(Element* e)
{
switch(e->type()) {
case ElementType::NOTEDOT:
_dots.takeLast();
break;
case ElementType::TEXT:
case ElementType::SYMBOL:
case ElementType::IMAGE:
case ElementType::FINGERING:
case ElementType::BEND:
if (!_el.remove(e))
qDebug("Note::remove(): cannot find %s", e->name());
break;
case ElementType::TIE: {
Tie* tie = toTie(e);
setTieFor(0);
if (tie->endNote())
tie->endNote()->setTieBack(0);
}
break;
case ElementType::ACCIDENTAL:
_accidental = 0;
break;
case ElementType::TEXTLINE:
case ElementType::GLISSANDO:
removeSpanner(toSpanner(e));
break;
default:
qDebug("Note::remove() not impl. %s", e->name());
break;
}
triggerLayout();
}
//---------------------------------------------------------
// isNoteName
//---------------------------------------------------------
bool Note::isNoteName() const
{
if (chord() && chord()->staff()) {
const Staff* st = staff();
NoteHeadScheme s = st->staffType(tick())->noteHeadScheme();
return s == NoteHeadScheme::HEAD_PITCHNAME || s == NoteHeadScheme::HEAD_PITCHNAME_GERMAN || s == NoteHeadScheme::HEAD_SOLFEGE || s == NoteHeadScheme::HEAD_SOLFEGE_FIXED;
}
return false;
}
//---------------------------------------------------------
// draw
//---------------------------------------------------------
void Note::draw(QPainter* painter) const
{
if (_hidden)
return;
QColor c(curColor());
painter->setPen(c);
bool tablature = staff() && staff()->isTabStaff(chord()->tick());
// tablature
if (tablature) {
const Staff* st = staff();
const StaffType* tab = st->staffType(tick());
if (tieBack() && !tab->showBackTied()) {
if (chord()->measure()->system() == tieBack()->startNote()->chord()->measure()->system() && el().size() == 0)
// fret should be hidden, so return without drawing it
return;
}
// draw background, if required (to hide a segment of string line or to show a fretting conflict)
if (!tab->linesThrough() || fretConflict()) {
qreal d = spatium() * .1;
QRectF bb = QRectF(bbox().x()-d, tab->fretMaskY() * magS(), bbox().width() + 2 * d, tab->fretMaskH()*magS());
// we do not know which viewer did this draw() call
// so update all:
if (!score()->getViewer().empty()) {
for (MuseScoreView* view : score()->getViewer())
view->drawBackground(painter, bb);
}
else
painter->fillRect(bb, Qt::white);
if (fretConflict() && !score()->printing() && score()->showUnprintable()) { //on fret conflict, draw on red background
painter->save();
painter->setPen(Qt::red);
painter->setBrush(QBrush(QColor(Qt::red)));
painter->drawRect(bb);
painter->restore();
}
}
QFont f(tab->fretFont());
f.setPointSizeF(f.pointSizeF() * magS() * MScore::pixelRatio);
painter->setFont(f);
painter->setPen(c);
painter->drawText(QPointF(bbox().x(), tab->fretFontYOffset()), _fretString);
}
// NOT tablature
else {
// skip drawing, if second note of a cross-measure value
if (chord()->crossMeasure() == CrossMeasure::SECOND)
return;
// warn if pitch extends usable range of instrument
// by coloring the notehead
if (chord() && chord()->segment() && staff()
&& !score()->printing() && MScore::warnPitchRange && !staff()->isDrumStaff(chord()->tick())) {
const Instrument* in = part()->instrument(chord()->tick());
int i = ppitch();
if (i < in->minPitchP() || i > in->maxPitchP())
painter->setPen(selected() ? Qt::darkRed : Qt::red);
else if (i < in->minPitchA() || i > in->maxPitchA())
painter->setPen(selected() ? QColor("#565600") : Qt::darkYellow);
}
// draw blank notehead to avoid staff and ledger lines
if (_cachedSymNull != SymId::noSym) {
painter->save();
painter->setPen(Qt::white);
drawSymbol(_cachedSymNull, painter);
painter->restore();
}
drawSymbol(_cachedNoteheadSym, painter);
}
}
//--------------------------------------------------
// Note::write
//---------------------------------------------------------
void Note::write(XmlWriter& xml) const
{
xml.stag(this);
Element::writeProperties(xml);
if (_accidental)
_accidental->write(xml);
_el.write(xml);
bool write_dots = false;
for (NoteDot* dot : _dots)
if (!dot->offset().isNull() || !dot->visible() || dot->color() != Qt::black || dot->visible() != visible()) {
write_dots = true;
break;
}
if (write_dots)
for (NoteDot* dot : _dots)
dot->write(xml);
if (_tieFor)
_tieFor->writeSpannerStart(xml, this, track());
if (_tieBack)
_tieBack->writeSpannerEnd(xml, this, track());
if ((chord() == 0 || chord()->playEventType() != PlayEventType::Auto) && !_playEvents.empty()) {
xml.stag("Events");
for (const NoteEvent& e : _playEvents)
e.write(xml);
xml.etag();
}
for (Pid id : { Pid::PITCH, Pid::TPC1, Pid::TPC2, Pid::SMALL, Pid::MIRROR_HEAD, Pid::DOT_POSITION,
Pid::HEAD_GROUP, Pid::VELO_OFFSET, Pid::PLAY, Pid::TUNING, Pid::FRET, Pid::STRING,
Pid::GHOST, Pid::HEAD_TYPE, Pid::VELO_TYPE, Pid::FIXED, Pid::FIXED_LINE
}) {
writeProperty(xml, id);
}
for (Spanner* e : _spannerFor)
e->writeSpannerStart(xml, this, track());
for (Spanner* e : _spannerBack)
e->writeSpannerEnd(xml, this, track());
xml.etag();
}
//---------------------------------------------------------
// Note::read
//---------------------------------------------------------
void Note::read(XmlReader& e)
{
setTpc1(Tpc::TPC_INVALID);
setTpc2(Tpc::TPC_INVALID);
while (e.readNextStartElement()) {
if (readProperties(e))
;
else
e.unknown();
}
// ensure sane values:
_pitch = limit(_pitch, 0, 127);
if (!tpcIsValid(_tpc[0]) && !tpcIsValid(_tpc[1])) {
Key key = (staff() && chord()) ? staff()->key(chord()->tick()) : Key::C;
int tpc = pitch2tpc(_pitch, key, Prefer::NEAREST);
if (concertPitch())
_tpc[0] = tpc;
else
_tpc[1] = tpc;
}
if (!(tpcIsValid(_tpc[0]) && tpcIsValid(_tpc[1]))) {
Fraction tick = chord() ? chord()->tick() : Fraction(-1,1);
Interval v = staff() ? part()->instrument(tick)->transpose() : Interval();
if (tpcIsValid(_tpc[0])) {
v.flip();
if (v.isZero())
_tpc[1] = _tpc[0];
else
_tpc[1] = Ms::transposeTpc(_tpc[0], v, true);
}
else {
if (v.isZero())
_tpc[0] = _tpc[1];
else
_tpc[0] = Ms::transposeTpc(_tpc[1], v, true);
}
}
// check consistency of pitch, tpc1, tpc2, and transposition
// see note in InstrumentChange::read() about a known case of tpc corruption produced in 2.0.x
// but since there are other causes of tpc corruption (eg, https://musescore.org/en/node/74746)
// including perhaps some we don't know about yet,
// we will attempt to fix some problems here regardless of version
if (staff() && !staff()->isDrumStaff(e.tick()) && !e.pasteMode() && !MScore::testMode) {
int tpc1Pitch = (tpc2pitch(_tpc[0]) + 12) % 12;
int tpc2Pitch = (tpc2pitch(_tpc[1]) + 12) % 12;
int soundingPitch = _pitch % 12;
if (tpc1Pitch != soundingPitch) {
qDebug("bad tpc1 - soundingPitch = %d, tpc1 = %d", soundingPitch, tpc1Pitch);
_pitch += tpc1Pitch - soundingPitch;
}
if (staff()) {
Interval v = staff()->part()->instrument(e.tick())->transpose();
int writtenPitch = (_pitch - v.chromatic) % 12;
if (tpc2Pitch != writtenPitch) {
qDebug("bad tpc2 - writtenPitch = %d, tpc2 = %d", writtenPitch, tpc2Pitch);
if (concertPitch()) {
// assume we want to keep sounding pitch
// so fix written pitch (tpc only)
v.flip();
_tpc[1] = Ms::transposeTpc(_tpc[0], v, true);
}
else {
// assume we want to keep written pitch
// so fix sounding pitch (both tpc and pitch)
_tpc[0] = Ms::transposeTpc(_tpc[1], v, true);
_pitch += tpc2Pitch - writtenPitch;
}
}
}
}
}
//---------------------------------------------------------
// readProperties
//---------------------------------------------------------
bool Note::readProperties(XmlReader& e)
{
const QStringRef& tag(e.name());
if (tag == "pitch")
_pitch = e.readInt();
else if (tag == "tpc") {
_tpc[0] = e.readInt();
_tpc[1] = _tpc[0];
}
else if (tag == "track") // for performance
setTrack(e.readInt());
else if (tag == "Accidental") {
Accidental* a = new Accidental(score());
a->setTrack(track());
a->read(e);
add(a);
}
else if (tag == "Spanner")
Spanner::readSpanner(e, this, track());
else if (tag == "tpc2")
_tpc[1] = e.readInt();
else if (tag == "small")
setSmall(e.readInt());
else if (tag == "mirror")
readProperty(e, Pid::MIRROR_HEAD);
else if (tag == "dotPosition")
readProperty(e, Pid::DOT_POSITION);
else if (tag == "fixed")
setFixed(e.readBool());
else if (tag == "fixedLine")
setFixedLine(e.readInt());
else if (tag == "head")
readProperty(e, Pid::HEAD_GROUP);
else if (tag == "velocity")
setVeloOffset(e.readInt());
else if (tag == "play")
setPlay(e.readInt());
else if (tag == "tuning")
setTuning(e.readDouble());
else if (tag == "fret")
setFret(e.readInt());
else if (tag == "string")
setString(e.readInt());
else if (tag == "ghost")
setGhost(e.readInt());
else if (tag == "headType")
readProperty(e, Pid::HEAD_TYPE);
else if (tag == "veloType")
readProperty(e, Pid::VELO_TYPE);
else if (tag == "line")
setLine(e.readInt());
else if (tag == "Fingering") {
Fingering* f = new Fingering(score());
f->setTrack(track());
f->read(e);
add(f);
}
else if (tag == "Symbol") {
Symbol* s = new Symbol(score());
s->setTrack(track());
s->read(e);
add(s);
}
else if (tag == "Image") {
if (MScore::noImages)
e.skipCurrentElement();
else {
Image* image = new Image(score());
image->setTrack(track());
image->read(e);
add(image);
}
}
else if (tag == "Bend") {
Bend* b = new Bend(score());
b->setTrack(track());
b->read(e);
add(b);
}
else if (tag == "NoteDot") {
NoteDot* dot = new NoteDot(score());
dot->read(e);
add(dot);
}
else if (tag == "Events") {
_playEvents.clear(); // remove default event
while (e.readNextStartElement()) {
const QStringRef& t(e.name());
if (t == "Event") {
NoteEvent ne;
ne.read(e);
_playEvents.append(ne);
}
else
e.unknown();
}
if (chord())
chord()->setPlayEventType(PlayEventType::User);
}
else if (tag == "offset")
Element::readProperties(e);
else if (Element::readProperties(e))
;
else
return false;
return true;
}
//---------------------------------------------------------
// Note::readAddConnector
//---------------------------------------------------------
void Note::readAddConnector(ConnectorInfoReader* info, bool pasteMode)
{
const ElementType type = info->type();
const Location& l = info->location();
switch(type) {
case ElementType::TIE:
case ElementType::TEXTLINE:
case ElementType::GLISSANDO:
{
Spanner* sp = toSpanner(info->connector());
if (info->isStart()) {
sp->setTrack(l.track());
sp->setTick(tick());
if (sp->isTie()) {
Tie* tie = toTie(sp);
tie->setParent(this);
tie->setStartNote(this);
_tieFor = tie;
}
else {
sp->setAnchor(Spanner::Anchor::NOTE);
sp->setStartElement(this);
addSpannerFor(sp);
sp->setParent(this);
}
}
else if (info->isEnd()) {
sp->setTrack2(l.track());
sp->setTick2(tick());
sp->setEndElement(this);
if (sp->isTie())
_tieBack = toTie(sp);
else {
if (sp->isGlissando() && parent() && parent()->isChord())
toChord(parent())->setEndsGlissando(true);
addSpannerBack(sp);
}
// As spanners get added after being fully read, they
// do not get cloned with the note when pasting to
// linked staves. So add this spanner explicilty.
if (pasteMode)
score()->undoAddElement(sp);
}
}
default:
break;
}
}
//---------------------------------------------------------
// transposition
//---------------------------------------------------------
int Note::transposition() const
{
Fraction tick = chord() ? chord()->tick() : Fraction(-1,1);
return staff() ? part()->instrument(tick)->transpose().chromatic : 0;
}
//---------------------------------------------------------
// NoteEditData
//---------------------------------------------------------
class NoteEditData : public ElementEditData {
public:
int line;
int string;
};
//---------------------------------------------------------
// startDrag
//---------------------------------------------------------
void Note::startDrag(EditData& ed)
{
NoteEditData* ned = new NoteEditData();
ned->e = this;
ned->line = _line;
ned->string = _string;
ned->pushProperty(Pid::PITCH);
ned->pushProperty(Pid::TPC1);
ned->pushProperty(Pid::TPC2);
ned->pushProperty(Pid::FRET);
ned->pushProperty(Pid::STRING);
ed.addData(ned);
}
//---------------------------------------------------------
// drag
//---------------------------------------------------------
QRectF Note::drag(EditData& ed)
{
Fraction _tick = chord()->tick();
const Staff* stf = staff();
const StaffType* st = stf->staffType(_tick);
if (st->isDrumStaff())
return QRect();
NoteEditData* ned = static_cast<NoteEditData*>(ed.getData(this));
qreal _spatium = spatium();
bool tab = st->isTabStaff();
qreal step = _spatium * (tab ? st->lineDistance().val() : 0.5);
int lineOffset = lrint(ed.delta.y() / step);
if (tab) {
const StringData* strData = staff()->part()->instrument()->stringData();
int nString = ned->string + (st->upsideDown() ? -lineOffset : lineOffset);
int nFret = strData->fret(_pitch, nString, staff(), _tick);
if (nFret >= 0) { // no fret?
if (fret() != nFret || string() != nString) {
for (Note* nn : tiedNotes()) {
nn->setFret(nFret);
nn->setString(nString);
strData->fretChords(nn->chord());
nn->triggerLayout();
}
}
}
}
else {
Key key = staff()->key(_tick);
int newPitch = line2pitch(ned->line + lineOffset, staff()->clef(_tick), key);
if (!concertPitch()) {
Interval interval = staff()->part()->instrument(_tick)->transpose();
newPitch += interval.chromatic;
}
int newTpc1 = pitch2tpc(newPitch, key, Prefer::NEAREST);
int newTpc2 = pitch2tpc(newPitch - transposition(), key, Prefer::NEAREST);
for (Note* nn : tiedNotes()) {
nn->setPitch(newPitch, newTpc1, newTpc2);
nn->triggerLayout();
}
}
return QRectF();
}
//---------------------------------------------------------
// endDrag
//---------------------------------------------------------
void Note::endDrag(EditData& ed)
{
NoteEditData* ned = static_cast<NoteEditData*>(ed.getData(this));
for (Note* nn : tiedNotes()) {
for (PropertyData pd : ned->propertyData) {
score()->undoPropertyChanged(nn, pd.id, pd.data);
}
}
}
//---------------------------------------------------------
// acceptDrop
//---------------------------------------------------------
bool Note::acceptDrop(EditData& data) const
{
Element* e = data.dropElement;
ElementType type = e->type();
if (type == ElementType::GLISSANDO) {
for (auto ee : _spannerFor)
if (ee->isGlissando()) {
return false;
}
return true;
}
const Staff* st = staff();
bool isTablature = st->isTabStaff(tick());
bool tabFingering = st->staffType(tick())->showTabFingering();
return (type == ElementType::ARTICULATION
|| type == ElementType::FERMATA
|| type == ElementType::CHORDLINE
|| type == ElementType::TEXT
|| type == ElementType::REHEARSAL_MARK
|| (type == ElementType::FINGERING && (!isTablature || tabFingering))
|| type == ElementType::ACCIDENTAL
|| type == ElementType::BREATH
|| type == ElementType::ARPEGGIO
|| type == ElementType::NOTEHEAD
|| type == ElementType::NOTE
|| type == ElementType::TREMOLO
|| type == ElementType::STAFF_STATE
|| type == ElementType::INSTRUMENT_CHANGE
|| type == ElementType::IMAGE
|| type == ElementType::CHORD
|| type == ElementType::HARMONY
|| type == ElementType::DYNAMIC
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::ACCIACCATURA)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::APPOGGIATURA)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::GRACE4)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::GRACE16)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::GRACE32)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::GRACE8_AFTER)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::GRACE16_AFTER)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::GRACE32_AFTER)
|| (noteType() == NoteType::NORMAL && type == ElementType::BAGPIPE_EMBELLISHMENT)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::SBEAM)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::MBEAM)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::NBEAM)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::BEAM32)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::BEAM64)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::AUTOBEAM)
|| (type == ElementType::ICON && toIcon(e)->iconType() == IconType::PARENTHESES)
|| (type == ElementType::SYMBOL)
|| (type == ElementType::CLEF)
|| (type == ElementType::KEYSIG)
|| (type == ElementType::TIMESIG)
|| (type == ElementType::BAR_LINE)
|| (type == ElementType::SLUR)
|| (type == ElementType::HAIRPIN)
|| (type == ElementType::STAFF_TEXT)
|| (type == ElementType::SYSTEM_TEXT)
|| (type == ElementType::STICKING)
|| (type == ElementType::TEMPO_TEXT)
|| (type == ElementType::BEND)
|| (type == ElementType::TREMOLOBAR)
|| (type == ElementType::FRET_DIAGRAM)
|| (type == ElementType::FIGURED_BASS)
|| (type == ElementType::LYRICS));
}
//---------------------------------------------------------
// drop
//---------------------------------------------------------
Element* Note::drop(EditData& data)
{
Element* e = data.dropElement;
const Staff* st = staff();
bool isTablature = st->isTabStaff(tick());
bool tabFingering = st->staffType(tick())->showTabFingering();
Chord* ch = chord();
switch(e->type()) {
case ElementType::REHEARSAL_MARK:
return ch->drop(data);
case ElementType::SYMBOL:
case ElementType::IMAGE:
e->setParent(this);
score()->undoAddElement(e);
return e;
case ElementType::FINGERING:
if (!isTablature || tabFingering) {
e->setParent(this);
score()->undoAddElement(e);
return e;
}
else
delete e;
return 0;
case ElementType::SLUR:
data.view->cmdAddSlur(chord(), nullptr, toSlur(e));
delete e;
return 0;
case ElementType::HAIRPIN:
// forward this event to a chord
return chord()->drop(data);
case ElementType::LYRICS:
e->setParent(ch);
e->setTrack(track());
score()->undoAddElement(e);
return e;
case ElementType::ACCIDENTAL:
score()->changeAccidental(this, toAccidental(e)->accidentalType());
break;
case ElementType::BEND:
e->setParent(this);
e->setTrack(track());
score()->undoAddElement(e);
return e;
case ElementType::NOTEHEAD:
{
NoteHead* s = toNoteHead(e);
NoteHead::Group group = s->headGroup();
if (group == NoteHead::Group::HEAD_INVALID) {
qDebug("unknown notehead");
group = NoteHead::Group::HEAD_NORMAL;
}
delete s;
if (group != _headGroup) {
if (links()) {
for (ScoreElement* se : *links()) {
se->undoChangeProperty(Pid::HEAD_GROUP, int(group));
Note* note = toNote(se);
if (note->staff() && note->staff()->isTabStaff(ch->tick()) && group == NoteHead::Group::HEAD_CROSS)
se->undoChangeProperty(Pid::GHOST, true);
}
}
else {
undoChangeProperty(Pid::HEAD_GROUP, int(group));
}
}
}
break;
case ElementType::ICON:
{
switch (toIcon(e)->iconType()) {
case IconType::ACCIACCATURA:
score()->setGraceNote(ch, pitch(), NoteType::ACCIACCATURA, MScore::division/2);
break;
case IconType::APPOGGIATURA:
score()->setGraceNote(ch, pitch(), NoteType::APPOGGIATURA, MScore::division/2);
break;
case IconType::GRACE4:
score()->setGraceNote(ch, pitch(), NoteType::GRACE4, MScore::division);
break;
case IconType::GRACE16:
score()->setGraceNote(ch, pitch(), NoteType::GRACE16, MScore::division/4);
break;
case IconType::GRACE32:
score()->setGraceNote(ch, pitch(), NoteType::GRACE32, MScore::division/8);
break;
case IconType::GRACE8_AFTER:
score()->setGraceNote(ch, pitch(), NoteType::GRACE8_AFTER, MScore::division/2);
break;
case IconType::GRACE16_AFTER:
score()->setGraceNote(ch, pitch(), NoteType::GRACE16_AFTER, MScore::division/4);
break;
case IconType::GRACE32_AFTER:
score()->setGraceNote(ch, pitch(), NoteType::GRACE32_AFTER, MScore::division/8);
break;
case IconType::SBEAM:
case IconType::MBEAM:
case IconType::NBEAM:
case IconType::BEAM32:
case IconType::BEAM64:
case IconType::AUTOBEAM:
return ch->drop(data);
break;
case IconType::PARENTHESES:
addParentheses();
break;
default:
break;
}
}
delete e;
break;
case ElementType::BAGPIPE_EMBELLISHMENT:
{
BagpipeEmbellishment* b = toBagpipeEmbellishment(e);
noteList nl = b->getNoteList();
// add grace notes in reverse order, as setGraceNote adds a grace note
// before the current note
for (int i = nl.size() - 1; i >= 0; --i) {
int p = BagpipeEmbellishment::BagpipeNoteInfoList[nl.at(i)].pitch;
score()->setGraceNote(ch, p, NoteType::GRACE32, MScore::division/8);
}
}
delete e;
break;
case ElementType::NOTE:
{
// calculate correct transposed tpc
Note* n = toNote(e);
Interval v = part()->instrument(ch->tick())->transpose();
v.flip();
n->setTpc2(Ms::transposeTpc(n->tpc1(), v, true));
// replace this note with new note
n->setParent(ch);
score()->undoRemoveElement(this);
score()->undoAddElement(n);
}
break;
case ElementType::GLISSANDO:
{
for (auto ee : _spannerFor) {
if (ee->type() == ElementType::GLISSANDO) {
qDebug("there is already a glissando");
delete e;
return 0;
}
}
// this is the glissando initial note, look for a suitable final note
Note* finalNote = Glissando::guessFinalNote(chord());
if (finalNote) {
// init glissando data
Glissando* gliss = toGlissando(e);
gliss->setAnchor(Spanner::Anchor::NOTE);
gliss->setStartElement(this);
gliss->setEndElement(finalNote);
gliss->setTick(ch->tick());
gliss->setTick2(finalNote->chord()->tick());
gliss->setTrack(track());
gliss->setTrack2(finalNote->track());
// in TAB, use straight line with no text
if (staff()->isTabStaff(finalNote->chord()->tick())) {
gliss->setGlissandoType(GlissandoType::STRAIGHT);
gliss->setShowText(false);
}
gliss->setParent(this);
score()->undoAddElement(e);
}
else {
qDebug("no segment for second note of glissando found");
delete e;
return 0;
}
}
break;
case ElementType::CHORD:
{
Chord* c = toChord(e);
Note* n = c->upNote();
Direction dir = c->stemDirection();
int t = (staff2track(staffIdx()) + n->voice());
score()->select(0, SelectType::SINGLE, 0);
NoteVal nval;
nval.pitch = n->pitch();
nval.headGroup = n->headGroup();
Segment* seg = score()->setNoteRest(chord()->segment(), t, nval,
score()->inputState().duration().fraction(), dir);
ChordRest* cr = toChordRest(seg->element(t));
if (cr)
score()->nextInputPos(cr, true);
delete e;
}
break;
default:
return ch->drop(data);
}
return 0;
}
//---------------------------------------------------------
// addParentheses
//---------------------------------------------------------
void Note::addParentheses()
{
Symbol* s = new Symbol(score());
s->setSym(SymId::noteheadParenthesisLeft);
s->setParent(this);
score()->undoAddElement(s);
s = new Symbol(score());
s->setSym(SymId::noteheadParenthesisRight);
s->setParent(this);
score()->undoAddElement(s);
}
//---------------------------------------------------------
// setDotY
//---------------------------------------------------------
void Note::setDotY(Direction pos)
{
bool onLine = false;
qreal y = 0;
if (staff()->isTabStaff(chord()->tick())) {
// with TAB's, dotPosX is not set:
// get dot X from width of fret text and use TAB default spacing
const Staff* st = staff();
const StaffType* tab = st->staffType(tick());
if (tab->stemThrough() ) {
// if fret mark on lines, use standard processing
if (tab->onLines())
onLine = true;
else
// if fret marks above lines, raise the dots by half line distance
y = -0.5;
}
// if stems beside staff, do nothing
else
return;
}
else
onLine = !(line() & 1);
bool oddVoice = voice() & 1;
if (onLine) {
// displace dots by half spatium up or down according to voice
if (pos == Direction::AUTO)
y = oddVoice ? 0.5 : -0.5;
else if (pos == Direction::UP)
y = -0.5;
else
y = 0.5;
}
else {
if (pos == Direction::UP && !oddVoice)
y -= 1.0;
else if (pos == Direction::DOWN && oddVoice)
y += 1.0;
}
y *= spatium() * staff()->lineDistance(tick());
// apply to dots
int cdots = chord()->dots();
int ndots = _dots.size();
int n = cdots - ndots;
for (int i = 0; i < n; ++i) {
NoteDot* dot = new NoteDot(score());
dot->setParent(this);
dot->setTrack(track()); // needed to know the staff it belongs to (and detect tablature)
dot->setVisible(visible());
score()->undoAddElement(dot);
}
if (n < 0) {
for (int i = 0; i < -n; ++i)
score()->undoRemoveElement(_dots.back());
}
for (NoteDot* dot : _dots) {
dot->layout();
dot->rypos() = y;
}
}
//---------------------------------------------------------
// layout
//---------------------------------------------------------
void Note::layout()
{
bool useTablature = staff() && staff()->isTabStaff(chord()->tick());
if (useTablature) {
const Staff* st = staff();
const StaffType* tab = st->staffType(tick());
qreal mags = magS();
bool paren = false;
if (tieBack() && !tab->showBackTied()) {
if (chord()->measure() != tieBack()->startNote()->chord()->measure() || el().size() > 0)
paren = true;
}
// not complete but we need systems to be layouted to add parenthesis
if (fixed())
_fretString = "/";
else
_fretString = tab->fretString(_fret, _string, _ghost);
if (paren)
_fretString = QString("(%1)").arg(_fretString);
qreal w = tabHeadWidth(tab); // !! use _fretString
bbox().setRect(0.0, tab->fretBoxY() * mags, w, tab->fretBoxH() * mags);
}
else {
SymId nh = noteHead();
_cachedNoteheadSym = nh;
if (isNoteName()) {
_cachedSymNull = SymId::noteEmptyBlack;
NoteHead::Type ht = _headType == NoteHead::Type::HEAD_AUTO ? chord()->durationType().headType() : _headType;
if (ht == NoteHead::Type::HEAD_WHOLE)
_cachedSymNull = SymId::noteEmptyWhole;
else if (ht == NoteHead::Type::HEAD_HALF)
_cachedSymNull = SymId::noteEmptyHalf;
}
else
_cachedSymNull = SymId::noSym;
setbbox(symBbox(nh));
}
}
//---------------------------------------------------------
// layout2
// called after final position of note is set
//---------------------------------------------------------
void Note::layout2()
{
// for standard staves this is done in Score::layoutChords3()
// so that the results are available there
int dots = chord()->dots();
if (dots) {
qreal d = score()->point(score()->styleS(Sid::dotNoteDistance)) * mag();
qreal dd = score()->point(score()->styleS(Sid::dotDotDistance)) * mag();
qreal x = chord()->dotPosX() - pos().x() - chord()->pos().x();
// if TAB and stems through staff
if (staff()->isTabStaff(chord()->tick())) {
const Staff* st = staff();
const StaffType* tab = st->staffType(tick());
if (tab->stemThrough()) {
// with TAB's, dot Y is not calculated during layoutChords3(),
// as layoutChords3() is not even called for TAB's;
// setDotY() actually also manages creation/deletion of NoteDot's
setDotY(Direction::AUTO);
// use TAB default note-to-dot spacing
dd = STAFFTYPE_TAB_DEFAULTDOTDIST_X * spatium();
d = dd * 0.5;
}
}
// apply to dots
qreal xx = x + d;
for (NoteDot* dot : _dots) {
dot->rxpos() = xx;
xx += dd;
}
}
// layout elements attached to note
for (Element* e : _el) {
if (!score()->tagIsValid(e->tag()))
continue;
e->setMag(mag());
if (e->isSymbol()) {
qreal w = headWidth();
Symbol* sym = toSymbol(e);
e->layout();
if (sym->sym() == SymId::noteheadParenthesisRight) {
if (staff()->isTabStaff(chord()->tick())) {
const Staff* st = staff();
const StaffType* tab = st->staffType(tick());
w = tabHeadWidth(tab);
}
e->rxpos() += w;
}
else if (sym->sym() == SymId::noteheadParenthesisLeft) {
e->rxpos() -= symWidth(SymId::noteheadParenthesisLeft);
}
}
else if (e->isFingering()) {
Fingering* f = toFingering(e);
if (f->propertyFlags(Pid::PLACEMENT) == PropertyFlags::STYLED)
f->setPlacement(f->calculatePlacement());
// layout fingerings that are placed relative to notehead
// fingerings placed relative to chord will be laid out later
if (f->layoutType() == ElementType::NOTE)
f->layout();
}
else {
e->layout();
}
}
}
//---------------------------------------------------------
// dotIsUp
//---------------------------------------------------------
bool Note::dotIsUp() const
{
if (_dots.empty())
return true;
if (_userDotPosition == Direction::AUTO)
return _dots[0]->y() < spatium() * .1;
else
return (_userDotPosition == Direction::UP);
}
//---------------------------------------------------------
// updateAccidental
// set _accidental and _line depending on tpc
//---------------------------------------------------------
void Note::updateAccidental(AccidentalState* as)
{
int relLine = absStep(tpc(), epitch());
// don't touch accidentals that don't concern tpc such as
// quarter tones
if (!(_accidental && Accidental::isMicrotonal(_accidental->accidentalType()))) {
// calculate accidental
AccidentalType acci = AccidentalType::NONE;
AccidentalVal accVal = tpc2alter(tpc());
bool error = false;
AccidentalVal relLineAccVal = as->accidentalVal(relLine, error);
if (error) {
qDebug("error accidetalVal");
return;
}
if ((accVal != relLineAccVal) || hidden() || as->tieContext(relLine)) {
as->setAccidentalVal(relLine, accVal, _tieBack != 0 && _accidental == 0);
acci = Accidental::value2subtype(accVal);
// if previous tied note has same tpc, don't show accidental
if (_tieBack && _tieBack->startNote()->tpc1() == tpc1())
acci = AccidentalType::NONE;
else if (acci == AccidentalType::NONE)
acci = AccidentalType::NATURAL;
}
if (acci != AccidentalType::NONE && !_hidden) {
if (_accidental == 0) {
Accidental* a = new Accidental(score());
a->setParent(this);
a->setAccidentalType(acci);
score()->undoAddElement(a);
}
else if (_accidental->accidentalType() != acci) {
Accidental* a = _accidental->clone();
a->setParent(this);
a->setAccidentalType(acci);
score()->undoChangeElement(_accidental, a);
}
}
else {
if (_accidental) {
// remove this if it was AUTO:
if (_accidental->role() == AccidentalRole::AUTO)
score()->undoRemoveElement(_accidental);
else {
// keep it, but update type if needed
acci = Accidental::value2subtype(accVal);
if (acci == AccidentalType::NONE)
acci = AccidentalType::NATURAL;
if (_accidental->accidentalType() != acci) {
Accidental* a = _accidental->clone();
a->setParent(this);
a->setAccidentalType(acci);
score()->undoChangeElement(_accidental, a);
}
}
}
}
}
else {
// microtonal accidentals playback as naturals
// in 1.X, they had no effect on accidental state of measure
// ultimetely, they should probably get their own state
// for now, at least change state to natural, so subsequent notes playback as might be expected
// this is an incompatible change, but better to break it for 2.0 than wait until later
as->setAccidentalVal(relLine, AccidentalVal::NATURAL, _tieBack != 0 && _accidental == 0);
}
updateRelLine(relLine, true);
}
//---------------------------------------------------------
// noteType
//---------------------------------------------------------
NoteType Note::noteType() const
{
return chord()->noteType();
}
//---------------------------------------------------------
// noteTypeUserName
//---------------------------------------------------------
QString Note::noteTypeUserName() const
{
switch (noteType()) {
case NoteType::ACCIACCATURA:
return QObject::tr("Acciaccatura");
case NoteType::APPOGGIATURA:
return QObject::tr("Appoggiatura");
case NoteType::GRACE8_AFTER:
case NoteType::GRACE16_AFTER:
case NoteType::GRACE32_AFTER:
return QObject::tr("Grace note after");
case NoteType::GRACE4:
case NoteType::GRACE16:
case NoteType::GRACE32:
return QObject::tr("Grace note before");
default:
return QObject::tr("Note");
}
}
//---------------------------------------------------------
// scanElements
//---------------------------------------------------------
void Note::scanElements(void* data, void (*func)(void*, Element*), bool all)
{
func(data, this);
// tie segments are collected from System
// if (_tieFor && !staff()->isTabStaff(chord->tick())) // no ties in tablature
// _tieFor->scanElements(data, func, all);
for (Element* e : _el) {
if (score()->tagIsValid(e->tag()))
e->scanElements(data, func, all);
}
for (Spanner* sp : _spannerFor)
sp->scanElements(data, func, all);
if (!dragMode && _accidental)
func(data, _accidental);
for (NoteDot* dot : _dots)
func(data, dot);
if (_tieFor && !_tieFor->spannerSegments().empty())
_tieFor->spannerSegments().front()->scanElements(data, func, all);
if (_tieBack && _tieBack->spannerSegments().size() > 1)
_tieBack->spannerSegments().back()->scanElements(data, func, all);
}
//---------------------------------------------------------
// setTrack
//---------------------------------------------------------
void Note::setTrack(int val)
{
Element::setTrack(val);
if (_tieFor) {
_tieFor->setTrack(val);
for (SpannerSegment* seg : _tieFor->spannerSegments())
seg->setTrack(val);
}
for (Spanner* s : _spannerFor) {
s->setTrack(val);
}
for (Spanner* s : _spannerBack) {
s->setTrack2(val);
}
for (Element* e : _el)
e->setTrack(val);
if (_accidental)
_accidental->setTrack(val);
if (!chord()) // if note is dragged with shift+ctrl
return;
for (NoteDot* dot : _dots)
dot->setTrack(val);
}
//---------------------------------------------------------
// reset
//---------------------------------------------------------
void Note::reset()
{
undoChangeProperty(Pid::OFFSET, QPointF());
chord()->undoChangeProperty(Pid::OFFSET, QPointF());
chord()->undoChangeProperty(Pid::STEM_DIRECTION, QVariant::fromValue<Direction>(Direction::AUTO));
}
//---------------------------------------------------------
// mag
//---------------------------------------------------------
qreal Note::mag() const
{
qreal m = chord()->mag();
if (_small)
m *= score()->styleD(Sid::smallNoteMag);
return m;
}
//---------------------------------------------------------
// setSmall
//---------------------------------------------------------
void Note::setSmall(bool val)
{
_small = val;
}
//---------------------------------------------------------
// line
//---------------------------------------------------------
int Note::line() const
{
return fixed() ? _fixedLine : _line;
}
//---------------------------------------------------------
// setString
//---------------------------------------------------------
void Note::setString(int val)
{
_string = val;
rypos() = _string * spatium() * 1.5;
}
//---------------------------------------------------------
// setHeadGroup
//---------------------------------------------------------
void Note::setHeadGroup(NoteHead::Group val)
{
Q_ASSERT(int(val) >= 0 && int(val) < int(NoteHead::Group::HEAD_GROUPS));
_headGroup = val;
}
//---------------------------------------------------------
// ppitch
// playback pitch
//---------------------------------------------------------
int Note::ppitch() const
{
Chord* ch = chord();
// if staff is drum
// match tremolo and articulation between variants and chord
if (play() && ch && ch->staff() && ch->staff()->isDrumStaff(ch->tick())) {
const Drumset* ds = ch->staff()->part()->instrument(ch->tick())->drumset();
if (ds) {
DrumInstrumentVariant div = ds->findVariant(_pitch, ch->articulations(), ch->tremolo());
if (div.pitch != INVALID_PITCH)
return div.pitch;
}
}
int capoFretId = staff()->capo(ch->segment()->tick());
if (capoFretId != 0)
capoFretId -= 1;
return _pitch + staff()->pitchOffset(ch->segment()->tick()) + capoFretId;
}
//---------------------------------------------------------
// epitch
// effective pitch, i.e. a pitch which is visible in the
// currently used written notation.
// honours transposing instruments
//---------------------------------------------------------
int Note::epitch() const
{
return _pitch - (concertPitch() ? 0 : transposition());
}
//---------------------------------------------------------
// customizeVelocity
// Input is the global velocity determined by dynamic
// signs and crescende/decrescendo etc.
// Returns the actual play velocity for this note
// modified by veloOffset
//---------------------------------------------------------
int Note::customizeVelocity(int velo) const
{
if (veloType() == ValueType::OFFSET_VAL)
velo = velo + (velo * veloOffset()) / 100;
else if (veloType() == ValueType::USER_VAL)
velo = veloOffset();
return limit(velo, 1, 127);
}
//---------------------------------------------------------
// editDrag
//---------------------------------------------------------
void Note::editDrag(EditData& ed)
{
Chord* ch = chord();
Segment* seg = ch->segment();
// adjust segment on plain drag or Shift+cursor,
// adjust note/chord for Ctrl+drag or plain cursor
if (seg &&
(((ed.buttons & Qt::LeftButton) && !(ed.modifiers & Qt::ControlModifier))
|| (ed.modifiers & Qt::ShiftModifier))) {
const Spatium deltaSp = Spatium(ed.delta.x() / spatium());
seg->undoChangeProperty(Pid::LEADING_SPACE, seg->extraLeadingSpace() + deltaSp);
}
else if (ch->notes().size() == 1) {
// if the chord contains only this note, then move the whole chord
// including stem, flag etc.
ch->undoChangeProperty(Pid::OFFSET, ch->offset() + offset() + ed.delta);
setOffset(QPointF());
}
else {
setOffset(offset() + ed.delta);
}
triggerLayout();
}
//---------------------------------------------------------
// updateRelLine
// calculate the real note line depending on clef,
// _line is the absolute line
//---------------------------------------------------------
void Note::updateRelLine(int relLine, bool undoable)
{
if (!staff())
return;
// int idx = staffIdx() + chord()->staffMove();
Q_ASSERT(staffIdx() == chord()->staffIdx());
int idx = chord()->vStaffIdx();
const Staff* staff = score()->staff(idx);
const StaffType* st = staff->staffType(tick());
if (chord()->staffMove()) {
// check that destination staff makes sense (might have been deleted)
int minStaff = part()->startTrack() / VOICES;
int maxStaff = part()->endTrack() / VOICES;
const Staff* stf = this->staff();
if (idx < minStaff || idx >= maxStaff || st->group() != stf->staffType(tick())->group()) {
qDebug("staffMove out of scope %d + %d min %d max %d",
staffIdx(), chord()->staffMove(), minStaff, maxStaff);
chord()->undoChangeProperty(Pid::STAFF_MOVE, 0);
}
}
ClefType clef = staff->clef(chord()->tick());
int line = relStep(relLine, clef);
if (undoable && (_line != INVALID_LINE) && (line != _line))
undoChangeProperty(Pid::LINE, line);
else
setLine(line);
int off = st->stepOffset();
qreal ld = st->lineDistance().val();
rypos() = (_line + off * 2.0) * spatium() * .5 * ld;
}
//---------------------------------------------------------
// updateLine
//---------------------------------------------------------
void Note::updateLine()
{
int relLine = absStep(tpc(), epitch());
updateRelLine(relLine, false);
}
//---------------------------------------------------------
// setNval
// set note properties from NoteVal
//---------------------------------------------------------
void Note::setNval(const NoteVal& nval, Fraction tick)
{
setPitch(nval.pitch);
_fret = nval.fret;
_string = nval.string;
_tpc[0] = nval.tpc1;
_tpc[1] = nval.tpc2;
if (tick == Fraction(-1,1) && chord())
tick = chord()->tick();
Interval v = part()->instrument(tick)->transpose();
if (nval.tpc1 == Tpc::TPC_INVALID) {
Key key = staff()->key(tick);
if (!concertPitch() && !v.isZero())
key = transposeKey(key, v);
_tpc[0] = pitch2tpc(nval.pitch, key, Prefer::NEAREST);
}
if (nval.tpc2 == Tpc::TPC_INVALID) {
if (v.isZero())
_tpc[1] = _tpc[0];
else {
v.flip();
_tpc[1] = Ms::transposeTpc(_tpc[0], v, true);
}
}
_headGroup = NoteHead::Group(nval.headGroup);
}
//---------------------------------------------------------
// localSpatiumChanged
//---------------------------------------------------------
void Note::localSpatiumChanged(qreal oldValue, qreal newValue)
{
Element::localSpatiumChanged(oldValue, newValue);
for (Element* e : dots())
e->localSpatiumChanged(oldValue, newValue);
for (Element* e : el())
e->localSpatiumChanged(oldValue, newValue);
for (Spanner* spanner : spannerBack()) {
for (auto k : spanner->spannerSegments())
k->localSpatiumChanged(oldValue, newValue);
}
}
//---------------------------------------------------------
// getProperty
//---------------------------------------------------------
QVariant Note::getProperty(Pid propertyId) const
{
switch (propertyId) {
case Pid::PITCH:
return pitch();
case Pid::TPC1:
return _tpc[0];
case Pid::TPC2:
return _tpc[1];
case Pid::SMALL:
return small();
case Pid::MIRROR_HEAD:
return int(userMirror());
case Pid::DOT_POSITION:
return QVariant::fromValue<Direction>(userDotPosition());
case Pid::HEAD_GROUP:
return int(headGroup());
case Pid::VELO_OFFSET:
return veloOffset();
case Pid::TUNING:
return tuning();
case Pid::FRET:
return fret();
case Pid::STRING:
return string();
case Pid::GHOST:
return ghost();
case Pid::HEAD_TYPE:
return int(headType());
case Pid::VELO_TYPE:
return int(veloType());
case Pid::PLAY:
return play();
case Pid::LINE:
return _line;
case Pid::FIXED:
return fixed();
case Pid::FIXED_LINE:
return fixedLine();
default:
break;
}
return Element::getProperty(propertyId);
}
//---------------------------------------------------------
// setProperty
//---------------------------------------------------------
bool Note::setProperty(Pid propertyId, const QVariant& v)
{
Measure* m = chord() ? chord()->measure() : nullptr;
switch(propertyId) {
case Pid::PITCH:
setPitch(v.toInt());
score()->setPlaylistDirty();
break;
case Pid::TPC1:
_tpc[0] = v.toInt();
break;
case Pid::TPC2:
_tpc[1] = v.toInt();
break;
case Pid::LINE:
setLine(v.toInt());
break;
case Pid::SMALL:
setSmall(v.toBool());
break;
case Pid::MIRROR_HEAD:
setUserMirror(MScore::DirectionH(v.toInt()));
break;
case Pid::DOT_POSITION:
setUserDotPosition(v.value<Direction>());
triggerLayout();
return true;
case Pid::HEAD_GROUP:
setHeadGroup(NoteHead::Group(v.toInt()));
break;
case Pid::VELO_OFFSET:
setVeloOffset(v.toInt());
score()->setPlaylistDirty();
break;
case Pid::TUNING:
setTuning(v.toDouble());
score()->setPlaylistDirty();
break;
case Pid::FRET:
setFret(v.toInt());
break;
case Pid::STRING:
setString(v.toInt());
break;
case Pid::GHOST:
setGhost(v.toBool());
break;
case Pid::HEAD_TYPE:
setHeadType(NoteHead::Type(v.toInt()));
break;
case Pid::VELO_TYPE:
setVeloType(ValueType(v.toInt()));
score()->setPlaylistDirty();
break;
case Pid::VISIBLE: {
setVisible(v.toBool());
if (m)
m->checkMultiVoices(chord()->staffIdx());
break;
}
case Pid::PLAY:
setPlay(v.toBool());
score()->setPlaylistDirty();
break;
case Pid::FIXED:
setFixed(v.toBool());
break;
case Pid::FIXED_LINE:
setFixedLine(v.toInt());
break;
default:
if (!Element::setProperty(propertyId, v))
return false;
break;
}
triggerLayout();
return true;
}
//---------------------------------------------------------
// undoChangeDotsVisible
//---------------------------------------------------------
void Note::undoChangeDotsVisible(bool v)
{
for (NoteDot* dot : _dots)
dot->undoChangeProperty(Pid::VISIBLE, QVariant(v));
}
//---------------------------------------------------------
// propertyDefault
//---------------------------------------------------------
QVariant Note::propertyDefault(Pid propertyId) const
{
switch(propertyId) {
case Pid::GHOST:
case Pid::SMALL:
return false;
case Pid::MIRROR_HEAD:
return int(MScore::DirectionH::AUTO);
case Pid::DOT_POSITION:
return QVariant::fromValue<Direction>(Direction::AUTO);
case Pid::HEAD_GROUP:
return int(NoteHead::Group::HEAD_NORMAL);
case Pid::VELO_OFFSET:
return 0;
case Pid::TUNING:
return 0.0;
case Pid::FRET:
case Pid::STRING:
return -1;
case Pid::HEAD_TYPE:
return int(NoteHead::Type::HEAD_AUTO);
case Pid::VELO_TYPE:
return int (ValueType::OFFSET_VAL);
case Pid::PLAY:
return true;
case Pid::FIXED:
return false;
case Pid::FIXED_LINE:
return 0;
case Pid::TPC2:
return getProperty(Pid::TPC1);
case Pid::PITCH:
case Pid::TPC1:
return QVariant();
default:
break;
}
return Element::propertyDefault(propertyId);
}
//---------------------------------------------------------
// propertyUserValue
//---------------------------------------------------------
QString Note::propertyUserValue(Pid pid) const
{
switch(pid) {
case Pid::PITCH:
return tpcUserName();
case Pid::TPC1:
case Pid::TPC2:
{
int idx = (pid == Pid::TPC1) ? 0 : 1;
int tpc = _tpc[idx];
return tpc2name(tpc, NoteSpellingType::STANDARD, NoteCaseType::AUTO, false);
}
default:
return Element::propertyUserValue(pid);
}
}
//---------------------------------------------------------
// setHeadType
//---------------------------------------------------------
void Note::setHeadType(NoteHead::Type t)
{
_headType = t;
}
//---------------------------------------------------------
// setOnTimeOffset
//---------------------------------------------------------
void Note::setOnTimeOffset(int val)
{
_playEvents[0].setOntime(val);
chord()->setPlayEventType(PlayEventType::User);
}
//---------------------------------------------------------
// setOffTimeOffset
//---------------------------------------------------------
void Note::setOffTimeOffset(int val)
{
_playEvents[0].setLen(val - _playEvents[0].ontime());
chord()->setPlayEventType(PlayEventType::User);
}
//---------------------------------------------------------
// setScore
//---------------------------------------------------------
void Note::setScore(Score* s)
{
Element::setScore(s);
if (_tieFor)
_tieFor->setScore(s);
if (_accidental)
_accidental->setScore(s);
for (NoteDot* dot : _dots)
dot->setScore(s);
for (Element* el : _el)
el->setScore(s);
}
//---------------------------------------------------------
// accessibleInfo
//---------------------------------------------------------
QString Note::accessibleInfo() const
{
QString duration = chord()->durationUserName();
QString voice = QObject::tr("Voice: %1").arg(QString::number(track() % VOICES + 1));
QString pitchName;
const Drumset* drumset = part()->instrument()->drumset();
if (fixed() && headGroup() == NoteHead::Group::HEAD_SLASH)
pitchName = chord()->noStem() ? QObject::tr("Beat slash") : QObject::tr("Rhythm slash");
else if (staff()->isDrumStaff(tick()) && drumset)
pitchName = qApp->translate("drumset", drumset->name(pitch()).toUtf8().constData());
else if (staff()->isTabStaff(tick()))
pitchName = QObject::tr("%1; String %2; Fret %3").arg(tpcUserName(false)).arg(QString::number(string() + 1)).arg(QString::number(fret()));
else
pitchName = tpcUserName(false);
return QObject::tr("%1; Pitch: %2; Duration: %3%4").arg(noteTypeUserName()).arg(pitchName).arg(duration).arg((chord()->isGrace() ? "" : QString("; %1").arg(voice)));
}
//---------------------------------------------------------
// screenReaderInfo
//---------------------------------------------------------
QString Note::screenReaderInfo() const
{
QString duration = chord()->durationUserName();
Measure* m = chord()->measure();
bool voices = m ? m->hasVoices(staffIdx()) : false;
QString voice = voices ? QObject::tr("Voice: %1").arg(QString::number(track() % VOICES + 1)) : "";
QString pitchName;
const Drumset* drumset = part()->instrument()->drumset();
if (fixed() && headGroup() == NoteHead::Group::HEAD_SLASH)
pitchName = chord()->noStem() ? QObject::tr("Beat Slash") : QObject::tr("Rhythm Slash");
else if (staff()->isDrumStaff(tick()) && drumset)
pitchName = qApp->translate("drumset", drumset->name(pitch()).toUtf8().constData());
else if (staff()->isTabStaff(tick()))
pitchName = QObject::tr("%1 String %2 Fret %3").arg(tpcUserName(true)).arg(QString::number(string() + 1)).arg(QString::number(fret()));
else
pitchName = tpcUserName(true);
return QString("%1 %2 %3%4").arg(noteTypeUserName()).arg(pitchName).arg(duration).arg((chord()->isGrace() ? "" : QString("; %1").arg(voice)));
}
//---------------------------------------------------------
// accessibleExtraInfo
//---------------------------------------------------------
QString Note::accessibleExtraInfo() const
{
QString rez = "";
if (accidental()) {
rez = QString("%1 %2").arg(rez).arg(accidental()->screenReaderInfo());
}
if (!el().empty()) {
for (Element* e : el()) {
if (!score()->selectionFilter().canSelect(e)) continue;
rez = QString("%1 %2").arg(rez).arg(e->screenReaderInfo());
}
}
if (tieFor())
rez = QObject::tr("%1 Start of %2").arg(rez).arg(tieFor()->screenReaderInfo());
if (tieBack())
rez = QObject::tr("%1 End of %2").arg(rez).arg(tieBack()->screenReaderInfo());
if (!spannerFor().empty()) {
for (Spanner* s : spannerFor()) {
if (!score()->selectionFilter().canSelect(s))
continue;
rez = QObject::tr("%1 Start of %2").arg(rez).arg(s->screenReaderInfo());
}
}
if (!spannerBack().empty()) {
for (Spanner* s : spannerBack()) {
if (!score()->selectionFilter().canSelect(s))
continue;
rez = QObject::tr("%1 End of %2").arg(rez).arg(s->screenReaderInfo());
}
}
// only read extra information for top note of chord
// (it is reached directly on next/previous element)
if (this == chord()->upNote())
rez = QString("%1 %2").arg(rez).arg(chord()->accessibleExtraInfo());
return rez;
}
//---------------------------------------------------------
// noteVal
//---------------------------------------------------------
NoteVal Note::noteVal() const
{
NoteVal nval;
nval.pitch = pitch();
nval.tpc1 = tpc1();
nval.tpc2 = tpc2();
nval.fret = fret();
nval.string = string();
nval.headGroup = headGroup();
return nval;
}
//---------------------------------------------------------
// qmlDotsCount
// returns number of dots for plugins
//---------------------------------------------------------
int Note::qmlDotsCount()
{
return _dots.size();
}
//---------------------------------------------------------
// subtypeName
//---------------------------------------------------------
QString Note::subtypeName() const
{
return NoteHead::group2userName(_headGroup);
}
//---------------------------------------------------------
// nextInEl
// returns next element in _el
//---------------------------------------------------------
Element* Note::nextInEl(Element* e)
{
if (e == _el.back())
return nullptr;
auto i = std::find(_el.begin(), _el.end(), e);
if (i == _el.end())
return nullptr;
return *(i+1);
}
//---------------------------------------------------------
// prevInEl
// returns prev element in _el
//---------------------------------------------------------
Element* Note::prevInEl(Element* e)
{
if (e == _el.front())
return nullptr;
auto i = std::find(_el.begin(), _el.end(), e);
if (i == _el.end())
return nullptr;
return *(i-1);
}
static bool tieValid(Tie* tie)
{
return (tie && !tie->segmentsEmpty());
}
//---------------------------------------------------------
// nextElement
//---------------------------------------------------------
Element* Note::nextElement()
{
Element* e = score()->selection().element();
if (!e && !score()->selection().elements().isEmpty() )
e = score()->selection().elements().first();
switch (e->type()) {
case ElementType::SYMBOL:
case ElementType::IMAGE:
case ElementType::FINGERING:
case ElementType::TEXT:
case ElementType::BEND: {
Element* next = nextInEl(e); // return next element in _el
if (next)
return next;
else if (tieValid(_tieFor))
return _tieFor->frontSegment();
else if (!_spannerFor.empty()) {
for (auto i : _spannerFor) {
if (i->type() == ElementType::GLISSANDO)
return i->spannerSegments().front();
}
}
return 0;
}
case ElementType::TIE_SEGMENT:
if (!_spannerFor.empty()) {
for (auto i : _spannerFor) {
if (i->type() == ElementType::GLISSANDO)
return i->spannerSegments().front();
}
}
return chord()->nextElement();
case ElementType::GLISSANDO_SEGMENT:
return chord()->nextElement();
case ElementType::ACCIDENTAL:
if (!_el.empty())
return _el[0];
if (tieValid(_tieFor))
return _tieFor->frontSegment();
if (!_spannerFor.empty()) {
for (auto i : _spannerFor) {
if (i->isGlissando())
return i->spannerSegments().front();
}
}
return 0;
case ElementType::NOTE:
if (!_el.empty())
return _el[0];
if (tieValid(_tieFor))
return _tieFor->frontSegment();
if (!_spannerFor.empty()) {
for (auto i : _spannerFor) {
if (i->isGlissando())
return i->spannerSegments().front();
}
}
return 0;
default:
return 0;
}
}
//---------------------------------------------------------
// prevElement
//---------------------------------------------------------
Element* Note::prevElement()
{
Element* e = score()->selection().element();
if (!e && !score()->selection().elements().isEmpty() )
e = score()->selection().elements().last();
switch (e->type()) {
case ElementType::SYMBOL:
case ElementType::IMAGE:
case ElementType::FINGERING:
case ElementType::TEXT:
case ElementType::BEND: {
Element* prev = prevInEl(e); // return prev element in _el
if (prev)
return prev;
}
return this;
case ElementType::TIE_SEGMENT:
if (!_el.empty())
return _el.back();
return this;
case ElementType::GLISSANDO_SEGMENT:
if (tieValid(_tieFor))
return _tieFor->frontSegment();
else if (!_el.empty())
return _el.back();
return this;
case ElementType::ACCIDENTAL:
return this;
default:
return 0;
}
}
//---------------------------------------------------------
// lastElementBeforeSegment
//---------------------------------------------------------
Element* Note::lastElementBeforeSegment()
{
if (!_spannerFor.empty()) {
for (auto i : _spannerFor) {
if (i->type() == ElementType::GLISSANDO)
return i->spannerSegments().front();
}
}
if (tieValid(_tieFor))
return _tieFor->frontSegment();
if (!_el.empty())
return _el.back();
return this;
}
//---------------------------------------------------------
// nextSegmentElement
//---------------------------------------------------------
Element* Note::nextSegmentElement()
{
if (chord()->isGrace())
return Element::nextSegmentElement();
const std::vector<Note*>& notes = chord()->notes();
if (this == notes.front())
return chord()->nextSegmentElement();
auto i = std::find(notes.begin(), notes.end(), this);
return *(i-1);
}
//---------------------------------------------------------
// prevSegmentElement
//---------------------------------------------------------
Element* Note::prevSegmentElement()
{
if (chord()->isGrace())
return Element::prevSegmentElement();
const std::vector<Note*>& notes = chord()->notes();
if (this == notes.back())
return chord()->prevSegmentElement();
auto i = std::find(notes.begin(), notes.end(), this);
return *++i;
}
//---------------------------------------------------------
// lastTiedNote
//---------------------------------------------------------
const Note* Note::lastTiedNote() const
{
std::vector<const Note*> notes;
const Note* note = this;
notes.push_back(note);
while (note->tieFor()) {
if (std::find(notes.begin(), notes.end(), note->tieFor()->endNote()) != notes.end())
break;
if (!note->tieFor()->endNote())
break;
note = note->tieFor()->endNote();
notes.push_back(note);
}
return note;
}
//---------------------------------------------------------
// firstTiedNote
// if note has ties, return last note in chain
// - handle recursion in connected notes
//---------------------------------------------------------
Note* Note::firstTiedNote() const
{
std::vector<const Note*> notes;
const Note* note = this;
notes.push_back(note);
while (note->tieBack()) {
if (std::find(notes.begin(), notes.end(), note->tieBack()->startNote()) != notes.end())
break;
note = note->tieBack()->startNote();
notes.push_back(note);
}
return const_cast<Note*>(note);
}
//---------------------------------------------------------
// tiedNotes
//---------------------------------------------------------
std::vector<Note*> Note::tiedNotes() const
{
std::vector<Note*> notes;
Note* note = firstTiedNote();
notes.push_back(note);
while (note->tieFor()) {
Note* endNote = note->tieFor()->endNote();
if (!endNote || std::find(notes.begin(), notes.end(), endNote) != notes.end())
break;
note = endNote;
notes.push_back(note);
}
return notes;
}
//---------------------------------------------------------
// unisonIndex
//---------------------------------------------------------
int Note::unisonIndex() const
{
int index = 0;
for (Note* n : chord()->notes()) {
if (n->pitch() == pitch()) {
if (n == this)
return index;
else
++index;
}
}
return 0;
}
//---------------------------------------------------------
// disconnectTiedNotes
//---------------------------------------------------------
void Note::disconnectTiedNotes()
{
if (tieBack() && tieBack()->startNote()) {
tieBack()->startNote()->remove(tieBack());
}
if (tieFor() && tieFor()->endNote()) {
tieFor()->endNote()->setTieBack(0);
}
}
//---------------------------------------------------------
// connectTiedNotes
//---------------------------------------------------------
void Note::connectTiedNotes()
{
if (tieBack()) {
tieBack()->setEndNote(this);
if (tieBack()->startNote())
tieBack()->startNote()->add(tieBack());
}
if (tieFor() && tieFor()->endNote()) {
tieFor()->endNote()->setTieBack(tieFor());
}
}
//---------------------------------------------------------
// accidentalType
//---------------------------------------------------------
AccidentalType Note::accidentalType() const
{
return _accidental ? _accidental->accidentalType() : AccidentalType::NONE;
}
//---------------------------------------------------------
// setAccidentalType
//---------------------------------------------------------
void Note::setAccidentalType(AccidentalType type)
{
if (score())
score()->changeAccidental(this, type);
}
//---------------------------------------------------------
// shape
//---------------------------------------------------------
Shape Note::shape() const
{
QRectF r(bbox());
#ifndef NDEBUG
Shape shape(r, name());
for (NoteDot* dot : _dots)
shape.add(symBbox(SymId::augmentationDot).translated(dot->pos()), dot->name());
if (_accidental)
shape.add(_accidental->bbox().translated(_accidental->pos()), _accidental->name());
for (auto e : _el) {
if (e->autoplace() && e->visible()) {
if (e->isFingering() && toFingering(e)->layoutType() != ElementType::NOTE)
continue;
shape.add(e->bbox().translated(e->pos()), e->name());
}
}
#else
Shape shape(r);
for (NoteDot* dot : _dots)
shape.add(symBbox(SymId::augmentationDot).translated(dot->pos()));
if (_accidental)
shape.add(_accidental->bbox().translated(_accidental->pos()));
for (auto e : _el) {
if (e->autoplace() && e->visible()) {
if (e->isFingering() && toFingering(e)->layoutType() != ElementType::NOTE)
continue;
shape.add(e->bbox().translated(e->pos()));
}
}
#endif
return shape;
}
//---------------------------------------------------------
// undoUnlink
//---------------------------------------------------------
void Note::undoUnlink()
{
Element::undoUnlink();
for (Element* e : _el)
e->undoUnlink();
}
}
Reference in a new issue View git blame Copy permalink