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NotationStaff.cpp

/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */

/*
    Rosegarden
    A MIDI and audio sequencer and musical notation editor.
 
    This program is Copyright 2000-2007
        Guillaume Laurent   <glaurent@telegraph-road.org>,
        Chris Cannam        <cannam@all-day-breakfast.com>,
        Richard Bown        <richard.bown@ferventsoftware.com>
 
    The moral rights of Guillaume Laurent, Chris Cannam, and Richard
    Bown to claim authorship of this work have been asserted.
 
    Other copyrights also apply to some parts of this work.  Please
    see the AUTHORS file and individual file headers for details.
 
    This program is free software; you can redistribute it and/or
    modify it under the terms of the GNU General Public License as
    published by the Free Software Foundation; either version 2 of the
    License, or (at your option) any later version.  See the file
    COPYING included with this distribution for more information.
*/


#include "NotationStaff.h"
#include "misc/Debug.h"
#include <kapplication.h>

#include <klocale.h>
#include "misc/Strings.h"
#include "document/ConfigGroups.h"
#include "base/Composition.h"
#include "base/Device.h"
#include "base/Event.h"
#include "base/Exception.h"
#include "base/Instrument.h"
#include "base/MidiDevice.h"
#include "base/MidiTypes.h"
#include "base/NotationQuantizer.h"
#include "base/NotationTypes.h"
#include "base/Profiler.h"
#include "base/Segment.h"
#include "base/Selection.h"
#include "base/SnapGrid.h"
#include "base/Staff.h"
#include "base/Studio.h"
#include "base/Track.h"
#include "base/ViewElement.h"
#include "document/RosegardenGUIDoc.h"
#include "gui/editors/guitar/Chord.h"
#include "gui/general/LinedStaff.h"
#include "gui/general/PixmapFunctions.h"
#include "gui/general/ProgressReporter.h"
#include "gui/kdeext/QCanvasSimpleSprite.h"
#include "NotationChord.h"
#include "NotationElement.h"
#include "NotationProperties.h"
#include "NotationView.h"
#include "NoteFontFactory.h"
#include "NotePixmapFactory.h"
#include "NotePixmapParameters.h"
#include "NoteStyleFactory.h"
#include <kconfig.h>
#include <kmessagebox.h>
#include <qcanvas.h>
#include <qpainter.h>
#include <qpoint.h>
#include <qrect.h>


namespace Rosegarden
{

00075 NotationStaff::NotationStaff(QCanvas *canvas, Segment *segment,
                             SnapGrid *snapGrid, int id,
                             NotationView *view,
                             std::string fontName, int resolution) :
        ProgressReporter(0),
        LinedStaff(canvas, segment, snapGrid, id, resolution,
                   resolution / 16 + 1,  // line thickness
                   LinearMode, 0, 0,  // pageMode, pageWidth and pageHeight set later
                   0 // row spacing
                  ),
        m_notePixmapFactory(0),
        m_graceNotePixmapFactory(0),
        m_previewSprite(0),
        m_staffName(0),
        m_notationView(view),
        m_legerLineCount(8),
        m_barNumbersEvery(0),
        m_colourQuantize(true),
        m_showUnknowns(true),
        m_showRanges(true),
        m_showCollisions(true),
        m_printPainter(0),
        m_ready(false)
{
    KConfig *config = kapp->config();
    config->setGroup(NotationViewConfigGroup);
    m_colourQuantize = config->readBoolEntry("colourquantize", false);

    // Shouldn't change these  during the lifetime of the staff, really:
    m_showUnknowns = config->readBoolEntry("showunknowns", false);
    m_showRanges = config->readBoolEntry("showranges", true);
    m_showCollisions = config->readBoolEntry("showcollisions", true);

    m_keySigCancelMode = config->readNumEntry("keysigcancelmode", 1);

    changeFont(fontName, resolution);
}

NotationStaff::~NotationStaff()
{
    deleteTimeSignatures();
    delete m_notePixmapFactory;
    delete m_graceNotePixmapFactory;
}

void
00121 NotationStaff::changeFont(std::string fontName, int size)
{
    setResolution(size);

    delete m_notePixmapFactory;
    m_notePixmapFactory = new NotePixmapFactory(fontName, size);

    std::vector<int> sizes = NoteFontFactory::getScreenSizes(fontName);
    int graceSize = size;
    for (unsigned int i = 0; i < sizes.size(); ++i) {
        if (sizes[i] == size || sizes[i] > size*3 / 4)
            break;
        graceSize = sizes[i];
    }
    delete m_graceNotePixmapFactory;
    m_graceNotePixmapFactory = new NotePixmapFactory(fontName, graceSize);

    setLineThickness(m_notePixmapFactory->getStaffLineThickness());
}

void
00142 NotationStaff::insertTimeSignature(double layoutX,
                                   const TimeSignature &timeSig)
{
    if (timeSig.isHidden())
        return ;

    m_notePixmapFactory->setSelected(false);
    QCanvasPixmap *pixmap = m_notePixmapFactory->makeTimeSigPixmap(timeSig);
    QCanvasTimeSigSprite *sprite =
        new QCanvasTimeSigSprite(layoutX, pixmap, m_canvas);

    LinedStaffCoords sigCoords =
        getCanvasCoordsForLayoutCoords(layoutX, getLayoutYForHeight(4));

    sprite->move(sigCoords.first, (double)sigCoords.second);
    sprite->show();
    m_timeSigs.insert(sprite);
}

void
00162 NotationStaff::deleteTimeSignatures()
{
    //    NOTATION_DEBUG << "NotationStaff::deleteTimeSignatures()" << endl;

    for (SpriteSet::iterator i = m_timeSigs.begin();
            i != m_timeSigs.end(); ++i) {
        delete *i;
    }

    m_timeSigs.clear();
}

void
00175 NotationStaff::insertRepeatedClefAndKey(double layoutX, int barNo)
{
    bool needClef = false, needKey = false;
    timeT t;

    timeT barStart = getSegment().getComposition()->getBarStart(barNo);

    Clef clef = getSegment().getClefAtTime(barStart, t);
    if (t < barStart)
        needClef = true;

    ::Rosegarden::Key key = getSegment().getKeyAtTime(barStart, t);
    if (t < barStart)
        needKey = true;

    double dx = m_notePixmapFactory->getBarMargin() / 2;

    if (!m_notationView->isInPrintMode())
        m_notePixmapFactory->setShaded(true);

    if (needClef) {

        int layoutY = getLayoutYForHeight(clef.getAxisHeight());

        LinedStaffCoords coords =
            getCanvasCoordsForLayoutCoords(layoutX + dx, layoutY);

        QCanvasPixmap *pixmap = m_notePixmapFactory->makeClefPixmap(clef);

        QCanvasNonElementSprite *sprite =
            new QCanvasNonElementSprite(pixmap, m_canvas);

        sprite->move(coords.first, coords.second);
        sprite->show();
        m_repeatedClefsAndKeys.insert(sprite);

        dx += pixmap->width() + m_notePixmapFactory->getNoteBodyWidth() * 2 / 3;
    }

    if (needKey) {

        int layoutY = getLayoutYForHeight(12);

        LinedStaffCoords coords =
            getCanvasCoordsForLayoutCoords(layoutX + dx, layoutY);

        QCanvasPixmap *pixmap = m_notePixmapFactory->makeKeyPixmap(key, clef);

        QCanvasNonElementSprite *sprite =
            new QCanvasNonElementSprite(pixmap, m_canvas);

        sprite->move(coords.first, coords.second);
        sprite->show();
        m_repeatedClefsAndKeys.insert(sprite);

        dx += pixmap->width();
    }

    /* attempt to blot out things like slurs & ties that overrun this area: doesn't work
     
        if (m_notationView->isInPrintMode() && (needClef || needKey)) {
     
      int layoutY = getLayoutYForHeight(14);
      int h = getLayoutYForHeight(-8) - layoutY;
     
      LinedStaffCoords coords =
          getCanvasCoordsForLayoutCoords(layoutX, layoutY);
        
      QCanvasRectangle *rect = new QCanvasRectangle(coords.first, coords.second,
                                          dx, h, m_canvas);
      rect->setPen(Qt::black);
      rect->setBrush(Qt::white);
      rect->setZ(1);
      rect->show();
     
      m_repeatedClefsAndKeys.insert(rect);
        }
    */

    m_notePixmapFactory->setShaded(false);
}

void
00258 NotationStaff::deleteRepeatedClefsAndKeys()
{
    for (ItemSet::iterator i = m_repeatedClefsAndKeys.begin();
            i != m_repeatedClefsAndKeys.end(); ++i) {
        delete *i;
    }

    m_repeatedClefsAndKeys.clear();
}

void
00269 NotationStaff::drawStaffName()
{
    delete m_staffName;

    m_staffNameText =
        getSegment().getComposition()->
        getTrackById(getSegment().getTrack())->getLabel();

    QCanvasPixmap *map =
        m_notePixmapFactory->makeTextPixmap
        (Text(m_staffNameText, Text::StaffName));

    m_staffName = new QCanvasStaffNameSprite(map, m_canvas);

    int layoutY = getLayoutYForHeight(3);
    LinedStaffCoords coords = getCanvasCoordsForLayoutCoords(0, layoutY);
    m_staffName->move(getX() + getMargin() + m_notePixmapFactory->getNoteBodyWidth(),
                      coords.second - map->height() / 2);
    m_staffName->show();
}

bool
00291 NotationStaff::isStaffNameUpToDate()
{
    return (m_staffNameText ==
            getSegment().getComposition()->
            getTrackById(getSegment().getTrack())->getLabel());
}

void
00299 NotationStaff::getClefAndKeyAtCanvasCoords(double cx, int cy,
        Clef &clef,
        ::Rosegarden::Key &key) const
{
    LinedStaffCoords layoutCoords = getLayoutCoordsForCanvasCoords(cx, cy);
    int i;

    for (i = 0; i < m_clefChanges.size(); ++i) {
        if (m_clefChanges[i].first > layoutCoords.first)
            break;
        clef = m_clefChanges[i].second;
    }

    for (i = 0; i < m_keyChanges.size(); ++i) {
        if (m_keyChanges[i].first > layoutCoords.first)
            break;
        key = m_keyChanges[i].second;
    }
}

ViewElementList::iterator
00320 NotationStaff::getClosestElementToLayoutX(double x,
        Event *&clef,
        Event *&key,
        bool notesAndRestsOnly,
        int proximityThreshold)
{
    START_TIMING;

    double minDist = 10e9, prevDist = 10e9;

    NotationElementList *notes = getViewElementList();
    NotationElementList::iterator it, result;

    // TODO: this is grossly inefficient

    for (it = notes->begin(); it != notes->end(); ++it) {
        NotationElement *el = static_cast<NotationElement*>(*it);

        bool before = ((*it)->getLayoutX() < x);

        if (!el->isNote() && !el->isRest()) {
            if (before) {
                if ((*it)->event()->isa(Clef::EventType)) {
                    clef = (*it)->event();
                } else if ((*it)->event()->isa(::Rosegarden::Key::EventType)) {
                    key = (*it)->event();
                }
            }
            if (notesAndRestsOnly)
                continue;
        }

        double dx = x - (*it)->getLayoutX();
        if (dx < 0)
            dx = -dx;

        if (dx < minDist) {
            minDist = dx;
            result = it;
        } else if (!before) {
            break;
        }

        prevDist = dx;
    }

    if (proximityThreshold > 0 && minDist > proximityThreshold) {
        NOTATION_DEBUG << "NotationStaff::getClosestElementToLayoutX() : element is too far away : "
        << minDist << endl;
        return notes->end();
    }

    NOTATION_DEBUG << "NotationStaff::getClosestElementToLayoutX: found element at layout " << (*result)->getLayoutX() << " - we're at layout " << x << endl;

    PRINT_ELAPSED("NotationStaff::getClosestElementToLayoutX");

    return result;
}

ViewElementList::iterator
00380 NotationStaff::getElementUnderLayoutX(double x,
                                      Event *&clef,
                                      Event *&key)
{
    NotationElementList *notes = getViewElementList();
    NotationElementList::iterator it;

    // TODO: this is grossly inefficient

    for (it = notes->begin(); it != notes->end(); ++it) {
        NotationElement* el = static_cast<NotationElement*>(*it);

        bool before = ((*it)->getLayoutX() <= x);

        if (!el->isNote() && !el->isRest()) {
            if (before) {
                if ((*it)->event()->isa(Clef::EventType)) {
                    clef = (*it)->event();
                } else if ((*it)->event()->isa(::Rosegarden::Key::EventType)) {
                    key = (*it)->event();
                }
            }
        }

        double airX, airWidth;
        el->getLayoutAirspace(airX, airWidth);
        if (x >= airX && x < airX + airWidth) {
            return it;
        } else if (!before) {
            if (it != notes->begin())
                --it;
            return it;
        }
    }

    return notes->end();
}

std::string
00419 NotationStaff::getNoteNameAtCanvasCoords(double x, int y,
        Accidental) const
{
    Clef clef;
    ::Rosegarden::Key key;
    getClefAndKeyAtCanvasCoords(x, y, clef, key);

    KConfig *config = kapp->config();
    config->setGroup(GeneralOptionsConfigGroup);
    int baseOctave = config->readNumEntry("midipitchoctave", -2);

    Pitch p(getHeightAtCanvasCoords(x, y), clef, key);
    //!!! i18n() how?
    return p.getAsString(key.isSharp(), true, baseOctave);
}

void
00436 NotationStaff::renderElements(NotationElementList::iterator from,
                              NotationElementList::iterator to)
{
    //    NOTATION_DEBUG << "NotationStaff " << this << "::renderElements()" << endl;
    Profiler profiler("NotationStaff::renderElements");

    emit setOperationName(i18n("Rendering staff %1...").arg(getId() + 1));
    emit setProgress(0);

    throwIfCancelled();

    // These are only used when rendering keys, and we don't have the
    // right start data here so we choose not to render keys at all in
    // this method (see below) so that we can pass bogus clef and key
    // data to renderSingleElement
    Clef currentClef;
    ::Rosegarden::Key currentKey;

    int elementCount = 0;
    timeT endTime =
        (to != getViewElementList()->end() ? (*to)->getViewAbsoluteTime() :
         getSegment().getEndMarkerTime());
    timeT startTime = (from != to ? (*from)->getViewAbsoluteTime() : endTime);

    for (NotationElementList::iterator it = from, nextIt = from;
            it != to; it = nextIt) {

        ++nextIt;

        if (isDirectlyPrintable(*it)) {
            // notes are renderable direct to the printer, so don't render
            // them to the canvas here
            continue;
        }

        if ((*it)->event()->isa(::Rosegarden::Key::EventType)) {
            // force rendering in positionElements instead
            NotationElement* el = static_cast<NotationElement*>(*it);
            el->removeCanvasItem();
            continue;
        }

        bool selected = isSelected(it);
        //  NOTATION_DEBUG << "Rendering at " << (*it)->getAbsoluteTime()
        //                   << " (selected = " << selected << ")" << endl;

        renderSingleElement(it, currentClef, currentKey, selected);

        if ((endTime > startTime) &&
                (++elementCount % 200 == 0)) {

            timeT myTime = (*it)->getViewAbsoluteTime();
            emit setProgress((myTime - startTime) * 100 / (endTime - startTime));
            throwIfCancelled();
        }
    }

    //    NOTATION_DEBUG << "NotationStaff " << this << "::renderElements: "
    //                   << elementCount << " elements rendered" << endl;
}

void
00498 NotationStaff::renderPrintable(timeT from, timeT to)
{
    if (!m_printPainter)
        return ;

    Profiler profiler("NotationStaff::renderElements");

    emit setOperationName(i18n("Rendering notes on staff %1...").arg(getId() + 1));
    emit setProgress(0);

    throwIfCancelled();

    // These are only used when rendering keys, and we don't do that
    // here, so we don't care what they are
    Clef currentClef;
    ::Rosegarden::Key currentKey;

    Composition *composition = getSegment().getComposition();
    NotationElementList::iterator beginAt =
        getViewElementList()->findTime(composition->getBarStartForTime(from));
    NotationElementList::iterator endAt =
        getViewElementList()->findTime(composition->getBarEndForTime(to));

    int elementCount = 0;

    for (NotationElementList::iterator it = beginAt, nextIt = beginAt;
            it != endAt; it = nextIt) {

        ++nextIt;

        if (!isDirectlyPrintable(*it)) {
            continue;
        }

        bool selected = isSelected(it);
        //  NOTATION_DEBUG << "Rendering at " << (*it)->getAbsoluteTime()
        //                   << " (selected = " << selected << ")" << endl;

        renderSingleElement(it, currentClef, currentKey, selected);

        if ((to > from) && (++elementCount % 200 == 0)) {

            timeT myTime = (*it)->getViewAbsoluteTime();
            emit setProgress((myTime - from) * 100 / (to - from));
            throwIfCancelled();
        }
    }

    //    NOTATION_DEBUG << "NotationStaff " << this << "::renderElements: "
    //                   << elementCount << " elements rendered" << endl;
}

const NotationProperties &
00551 NotationStaff::getProperties() const
{
    return m_notationView->getProperties();
}

void
00557 NotationStaff::positionElements(timeT from, timeT to)
{
    //    NOTATION_DEBUG << "NotationStaff " << this << "::positionElements()"
    //                         << from << " -> " << to << endl;
    Profiler profiler("NotationStaff::positionElements");

    emit setOperationName(i18n("Positioning staff %1...").arg(getId() + 1));
    emit setProgress(0);
    throwIfCancelled();

    const NotationProperties &properties(getProperties());

    int elementsPositioned = 0;
    int elementsRendered = 0; // diagnostic

    Composition *composition = getSegment().getComposition();

    timeT nextBarTime = composition->getBarEndForTime(to);

    NotationElementList::iterator beginAt =
        getViewElementList()->findTime(composition->getBarStartForTime(from));

    NotationElementList::iterator endAt =
        getViewElementList()->findTime(composition->getBarEndForTime(to));

    if (beginAt == getViewElementList()->end())
        return ;

    truncateClefsAndKeysAt(static_cast<int>((*beginAt)->getLayoutX()));

    Clef currentClef; // used for rendering key sigs
    bool haveCurrentClef = false;

    ::Rosegarden::Key currentKey;
    bool haveCurrentKey = false;

    for (NotationElementList::iterator it = beginAt, nextIt = beginAt;
            it != endAt; it = nextIt) {

        NotationElement * el = static_cast<NotationElement*>(*it);

        ++nextIt;

        if (el->event()->isa(Clef::EventType)) {

            currentClef = Clef(*el->event());
            m_clefChanges.push_back(ClefChange(int(el->getLayoutX()),
                                               currentClef));
            haveCurrentClef = true;

        } else if (el->event()->isa(::Rosegarden::Key::EventType)) {

            m_keyChanges.push_back
            (KeyChange(int(el->getLayoutX()),
                       ::Rosegarden::Key(*el->event())));

            if (!haveCurrentClef) { // need this to know how to present the key
                currentClef = getSegment().getClefAtTime
                              (el->event()->getAbsoluteTime());
                haveCurrentClef = true;
            }

            if (!haveCurrentKey) { // stores the key _before_ this one
                currentKey = getSegment().getKeyAtTime
                             (el->event()->getAbsoluteTime() - 1);
                haveCurrentKey = true;
            }

        } else if (isDirectlyPrintable(el)) {
            // these are rendered by renderPrintable for printing
            continue;
        }

        bool selected = isSelected(it);
        bool needNewSprite = (selected != el->isSelected());

        if (!el->getCanvasItem()) {

            needNewSprite = true;

        } else if (el->isNote() && !el->isRecentlyRegenerated()) {

            // If the note's y-coordinate has changed, we should
            // redraw it -- its stem direction may have changed, or it
            // may need leger lines.  This will happen e.g. if the
            // user inserts a new clef; unfortunately this means
            // inserting clefs is rather slow.

            needNewSprite = needNewSprite || !elementNotMovedInY(el);

            if (!needNewSprite) {

                // If the event is a beamed or tied-forward note, then
                // we might need a new sprite if the distance from
                // this note to the next has changed (because the beam
                // or tie is part of the note's sprite).

                bool spanning = false;
                (void)(el->event()->get
                       <Bool>
                       (properties.BEAMED, spanning));
                if (!spanning) {
                    (void)(el->event()->get
                           <Bool>(BaseProperties::TIED_FORWARD, spanning));
                }

                if (spanning) {
                    needNewSprite =
                        (el->getViewAbsoluteTime() < nextBarTime ||
                         !elementShiftedOnly(it));
                }
            }

        } else if (el->event()->isa(Indication::EventType) &&
                   !el->isRecentlyRegenerated()) {
            needNewSprite = true;
        }

        if (needNewSprite) {
            renderSingleElement(it, currentClef, currentKey, selected);
            ++elementsRendered;
        }

        if (el->event()->isa(::Rosegarden::Key::EventType)) {
            // update currentKey after rendering, not before
            currentKey = ::Rosegarden::Key(*el->event());
        }

        if (!needNewSprite) {
            LinedStaffCoords coords = getCanvasCoordsForLayoutCoords
                                      (el->getLayoutX(), (int)el->getLayoutY());
            el->reposition(coords.first, (double)coords.second);
        }

        el->setSelected(selected);

        if ((to > from) &&
                (++elementsPositioned % 300 == 0)) {
            timeT myTime = el->getViewAbsoluteTime();
            emit setProgress((myTime - from) * 100 / (to - from));
            throwIfCancelled();
        }
    }

    //    NOTATION_DEBUG << "NotationStaff " << this << "::positionElements "
    //               << from << " -> " << to << ": "
    //               << elementsPositioned << " elements positioned, "
    //               << elementsRendered << " re-rendered"
    //               << endl;

    //    NotePixmapFactory::dumpStats(std::cerr);
}

void
NotationStaff::truncateClefsAndKeysAt(int x)
{
    for (FastVector<ClefChange>::iterator i = m_clefChanges.begin();
            i != m_clefChanges.end(); ++i) {
        if (i->first >= x) {
            m_clefChanges.erase(i, m_clefChanges.end());
            break;
        }
    }

    for (FastVector<KeyChange>::iterator i = m_keyChanges.begin();
            i != m_keyChanges.end(); ++i) {
        if (i->first >= x) {
            m_keyChanges.erase(i, m_keyChanges.end());
            break;
        }
    }
}

NotationElementList::iterator
00731 NotationStaff::findUnchangedBarStart(timeT from)
{
    NotationElementList *nel = (NotationElementList *)getViewElementList();

    // Track back bar-by-bar until we find one whose start position
    // hasn't changed

    NotationElementList::iterator beginAt = nel->begin();
    do {
        from = getSegment().getComposition()->getBarStartForTime(from - 1);
        beginAt = nel->findTime(from);
    } while (beginAt != nel->begin() &&
             (beginAt == nel->end() || !elementNotMoved(static_cast<NotationElement*>(*beginAt))));

    return beginAt;
}

NotationElementList::iterator
00749 NotationStaff::findUnchangedBarEnd(timeT to)
{
    NotationElementList *nel = (NotationElementList *)getViewElementList();

    // Track forward to the end, similarly.  Here however it's very
    // common for all the positions to have changed right up to the
    // end of the piece; so we save time by assuming that to be the
    // case if we get more than (arbitrary) 3 changed bars.

    // We also record the start of the bar following the changed
    // section, for later use.

    NotationElementList::iterator endAt = nel->end();

    int changedBarCount = 0;
    NotationElementList::iterator candidate = nel->end();
    do {
        candidate = nel->findTime(getSegment().getBarEndForTime(to));
        if (candidate != nel->end()) {
            to = (*candidate)->getViewAbsoluteTime();
        }
        ++changedBarCount;
    } while (changedBarCount < 4 &&
             candidate != nel->end() &&
             !elementNotMoved(static_cast<NotationElement*>(*candidate)));

    if (changedBarCount < 4)
        return candidate;
    else
        return endAt;
}

bool
00782 NotationStaff::elementNotMoved(NotationElement *elt)
{
    if (!elt->getCanvasItem())
        return false;

    LinedStaffCoords coords = getCanvasCoordsForLayoutCoords
                              (elt->getLayoutX(), (int)elt->getLayoutY());

    bool ok =
        (int)(elt->getCanvasX()) == (int)(coords.first) &&
        (int)(elt->getCanvasY()) == (int)(coords.second);

    if (!ok) {
        NOTATION_DEBUG
        << "elementNotMoved: elt at " << elt->getViewAbsoluteTime() <<
        ", ok is " << ok << endl;
        NOTATION_DEBUG << "(cf " << (int)(elt->getCanvasX()) << " vs "
        << (int)(coords.first) << ", "
        << (int)(elt->getCanvasY()) << " vs "
        << (int)(coords.second) << ")" << endl;
    } else {
        NOTATION_DEBUG << "elementNotMoved: elt at " << elt->getViewAbsoluteTime()
        << " is ok" << endl;
    }

    return ok;
}

bool
00811 NotationStaff::elementNotMovedInY(NotationElement *elt)
{
    if (!elt->getCanvasItem())
        return false;

    LinedStaffCoords coords = getCanvasCoordsForLayoutCoords
                              (elt->getLayoutX(), (int)elt->getLayoutY());

    bool ok = (int)(elt->getCanvasY()) == (int)(coords.second);

    //     if (!ok) {
    //      NOTATION_DEBUG
    //          << "elementNotMovedInY: elt at " << elt->getAbsoluteTime() <<
    //          ", ok is " << ok << endl;
    //      NOTATION_DEBUG << "(cf " << (int)(elt->getCanvasY()) << " vs "
    //              << (int)(coords.second) << ")" << std::endl;
    //     }
    return ok;
}

bool
00832 NotationStaff::elementShiftedOnly(NotationElementList::iterator i)
{
    int shift = 0;
    bool ok = false;

    for (NotationElementList::iterator j = i;
            j != getViewElementList()->end(); ++j) {

        NotationElement *elt = static_cast<NotationElement*>(*j);
        if (!elt->getCanvasItem())
            break;

        LinedStaffCoords coords = getCanvasCoordsForLayoutCoords
                                  (elt->getLayoutX(), (int)elt->getLayoutY());

        // regard any shift in y as suspicious
        if ((int)(elt->getCanvasY()) != (int)(coords.second))
            break;

        int myShift = (int)(elt->getCanvasX()) - (int)(coords.first);
        if (j == i)
            shift = myShift;
        else if (myShift != shift)
            break;

        if (elt->getViewAbsoluteTime() > (*i)->getViewAbsoluteTime()) {
            // all events up to and including this one have passed
            ok = true;
            break;
        }
    }

    if (!ok) {
        NOTATION_DEBUG
        << "elementShiftedOnly: elt at " << (*i)->getViewAbsoluteTime()
        << ", ok is " << ok << endl;
    }

    return ok;
}

bool
NotationStaff::isDirectlyPrintable(ViewElement *velt)
{
    if (!m_printPainter)
        return false;
    return (velt->event()->isa(Note::EventType) ||
            velt->event()->isa(Note::EventRestType) ||
            velt->event()->isa(Text::EventType) ||
            velt->event()->isa(Indication::EventType));
}

void
00885 NotationStaff::renderSingleElement(ViewElementList::iterator &vli,
                                   const Clef &currentClef,
                                   const ::Rosegarden::Key &currentKey,
                                   bool selected)
{
    const NotationProperties &properties(getProperties());
    static NotePixmapParameters restParams(Note::Crotchet, 0);

    NotationElement* elt = static_cast<NotationElement*>(*vli);

    bool invisible = false;
    if (elt->event()->get
            <Bool>(BaseProperties::INVISIBLE, invisible) && invisible) {
        if (m_printPainter)
            return ;
        KConfig *config = kapp->config();
        config->setGroup("Notation Options");
        bool showInvisibles = config->readBoolEntry("showinvisibles", true);
        if (!showInvisibles)
            return ;
    }

    try {
        m_notePixmapFactory->setNoteStyle
        (NoteStyleFactory::getStyleForEvent(elt->event()));

    } catch (NoteStyleFactory::StyleUnavailable u) {

        std::cerr << "WARNING: Note style unavailable: "
        << u.getMessage() << std::endl;

        static bool warned = false;
        if (!warned) {
            KMessageBox::error(0, i18n(strtoqstr(u.getMessage())));
            warned = true;
        }
    }

    try {

        QCanvasPixmap *pixmap = 0;

        m_notePixmapFactory->setSelected(selected);
        m_notePixmapFactory->setShaded(invisible);
        int z = selected ? 3 : 0;

        // these are actually only used for the printer stuff
        LinedStaffCoords coords;
        if (m_printPainter)
            coords = getCanvasCoordsForLayoutCoords
                     (elt->getLayoutX(), (int)elt->getLayoutY());

        FitPolicy policy = PretendItFittedAllAlong;

        if (elt->isNote()) {

            renderNote(vli);

        } else if (elt->isRest()) {

            bool ignoreRest = false;
            // NotationHLayout sets this property if it finds the rest
            // in the middle of a chord -- Quantizer still sometimes gets
            // this wrong
            elt->event()->get
            <Bool>(properties.REST_TOO_SHORT, ignoreRest);

            if (!ignoreRest) {

                Note::Type note = elt->event()->get
                                  <Int>(BaseProperties::NOTE_TYPE);
                int dots = elt->event()->get
                           <Int>(BaseProperties::NOTE_DOTS);
                restParams.setNoteType(note);
                restParams.setDots(dots);
                setTuplingParameters(elt, restParams);
                restParams.setQuantized(false);
                bool restOutside = false;
                elt->event()->get
                <Bool>(properties.REST_OUTSIDE_STAVE,
                       restOutside);
                restParams.setRestOutside(restOutside);
                if (restOutside) {
                    NOTATION_DEBUG << "NotationStaff::renderSingleElement() : rest outside staff" << endl;
                    if (note == Note::DoubleWholeNote) {
                        NOTATION_DEBUG << "NotationStaff::renderSingleElement() : breve rest needs leger lines" << endl;
                        restParams.setLegerLines(5);
                    }
                }

                if (m_printPainter) {
                    m_notePixmapFactory->drawRest
                    (restParams,
                     *m_printPainter, int(coords.first), coords.second);
                } else {
                    pixmap = m_notePixmapFactory->makeRestPixmap(restParams);
                }
            }

        } else if (elt->event()->isa(Clef::EventType)) {

            pixmap = m_notePixmapFactory->makeClefPixmap
                     (Clef(*elt->event()));

        } else if (elt->event()->isa(::Rosegarden::Key::EventType)) {

            ::Rosegarden::Key key(*elt->event());
            ::Rosegarden::Key cancelKey = currentKey;

            if (m_keySigCancelMode == 0) { // only when entering C maj / A min

                if (key.getAccidentalCount() != 0)
                    cancelKey = ::Rosegarden::Key();

            } else if (m_keySigCancelMode == 1) { // only when reducing acc count

                if (!(key.isSharp() == cancelKey.isSharp() &&
                        key.getAccidentalCount() < cancelKey.getAccidentalCount())) {
                    cancelKey = ::Rosegarden::Key();
                }
            }

            pixmap = m_notePixmapFactory->makeKeyPixmap
                     (key, currentClef, cancelKey);

        } else if (elt->event()->isa(Text::EventType)) {

            policy = MoveBackToFit;

            if (elt->event()->has(Text::TextTypePropertyName) &&
                    elt->event()->get
                    <String>
                    (Text::TextTypePropertyName) ==
                    Text::Annotation &&
                    !m_notationView->areAnnotationsVisible()) {

                // nothing I guess

            }
            else if (elt->event()->has(Text::TextTypePropertyName) &&
                     elt->event()->get
                     <String>
                     (Text::TextTypePropertyName) ==
                     Text::LilypondDirective &&
                     !m_notationView->areLilyPondDirectivesVisible()) {

                // nothing here either

            }
            else {

                try {
                    if (m_printPainter) {
                        Text text(*elt->event());
                        int length = m_notePixmapFactory->getTextWidth(text);
                        for (double w = -1, inc = 0; w != 0; inc += w) {
                            w = setPainterClipping(m_printPainter,
                                                   elt->getLayoutX(),
                                                   int(elt->getLayoutY()),
                                                   int(inc), length, coords,
                                                   policy);
                            m_notePixmapFactory->drawText
                            (text, *m_printPainter, int(coords.first), coords.second);
                            m_printPainter->restore();
                        }
                    } else {
                        pixmap = m_notePixmapFactory->makeTextPixmap
                                 (Text(*elt->event()));
                    }
                } catch (Exception e) { // Text ctor failed
                    NOTATION_DEBUG << "Bad text event" << endl;
                }
            }

        } else if (elt->event()->isa(Indication::EventType)) {

            policy = SplitToFit;

            try {
                Indication indication(*elt->event());

                timeT indicationDuration = indication.getIndicationDuration();
                timeT indicationEndTime =
                    elt->getViewAbsoluteTime() + indicationDuration;

                NotationElementList::iterator indicationEnd =
                    getViewElementList()->findTime(indicationEndTime);

                std::string indicationType = indication.getIndicationType();

                int length, y1;

                if ((indicationType == Indication::Slur ||
                        indicationType == Indication::PhrasingSlur) &&
                        indicationEnd != getViewElementList()->begin()) {
                    --indicationEnd;
                }

                if ((indicationType != Indication::Slur &&
                        indicationType != Indication::PhrasingSlur) &&
                        indicationEnd != getViewElementList()->begin() &&
                        (indicationEnd == getViewElementList()->end() ||
                         indicationEndTime ==
                         getSegment().getBarStartForTime(indicationEndTime))) {

                    while (indicationEnd == getViewElementList()->end() ||
                            (*indicationEnd)->getViewAbsoluteTime() >= indicationEndTime)
                        --indicationEnd;

                    double x, w;
                    static_cast<NotationElement *>(*indicationEnd)->
                    getLayoutAirspace(x, w);
                    length = (int)(x + w - elt->getLayoutX() -
                                   m_notePixmapFactory->getBarMargin());

                } else {

                    length = (int)((*indicationEnd)->getLayoutX() -
                                   elt->getLayoutX());

                    if (indication.isOttavaType()) {
                        length -= m_notePixmapFactory->getNoteBodyWidth();
                    }
                }

                y1 = (int)(*indicationEnd)->getLayoutY();

                if (length < m_notePixmapFactory->getNoteBodyWidth()) {
                    length = m_notePixmapFactory->getNoteBodyWidth();
                }

                if (indicationType == Indication::Crescendo ||
                        indicationType == Indication::Decrescendo) {

                    if (m_printPainter) {
                        for (double w = -1, inc = 0; w != 0; inc += w) {
                            w = setPainterClipping(m_printPainter,
                                                   elt->getLayoutX(),
                                                   int(elt->getLayoutY()),
                                                   int(inc), length, coords,
                                                   policy);
                            m_notePixmapFactory->drawHairpin
                            (length, indicationType == Indication::Crescendo,
                             *m_printPainter, int(coords.first), coords.second);
                            m_printPainter->restore();
                        }
                    } else {
                        pixmap = m_notePixmapFactory->makeHairpinPixmap
                                 (length, indicationType == Indication::Crescendo);
                    }

                } else if (indicationType == Indication::Slur ||
                           indicationType == Indication::PhrasingSlur) {

                    bool above = true;
                    long dy = 0;
                    long length = 10;

                    elt->event()->get
                    <Bool>(properties.SLUR_ABOVE, above);
                    elt->event()->get
                    <Int>(properties.SLUR_Y_DELTA, dy);
                    elt->event()->get
                    <Int>(properties.SLUR_LENGTH, length);

                    if (m_printPainter) {
                        for (double w = -1, inc = 0; w != 0; inc += w) {
                            w = setPainterClipping(m_printPainter,
                                                   elt->getLayoutX(),
                                                   int(elt->getLayoutY()),
                                                   int(inc), length, coords,
                                                   policy);
                            m_notePixmapFactory->drawSlur
                            (length, dy, above,
                             indicationType == Indication::PhrasingSlur,
                             *m_printPainter, int(coords.first), coords.second);
                            m_printPainter->restore();
                        }
                    } else {
                        pixmap = m_notePixmapFactory->makeSlurPixmap
                                 (length, dy, above,
                                  indicationType == Indication::PhrasingSlur);
                    }

                } else {

                    int octaves = indication.getOttavaShift();

                    if (octaves != 0) {
                        if (m_printPainter) {
                            for (double w = -1, inc = 0; w != 0; inc += w) {
                                w = setPainterClipping(m_printPainter,
                                                       elt->getLayoutX(),
                                                       int(elt->getLayoutY()),
                                                       int(inc), length, coords,
                                                       policy);
                                m_notePixmapFactory->drawOttava
                                (length, octaves,
                                 *m_printPainter, int(coords.first), coords.second);
                                m_printPainter->restore();
                            }
                        } else {
                            pixmap = m_notePixmapFactory->makeOttavaPixmap
                                     (length, octaves);
                        }
                    } else {

                        NOTATION_DEBUG
                        << "Unrecognised indicationType " << indicationType << endl;
                        if (m_showUnknowns) {
                            pixmap = m_notePixmapFactory->makeUnknownPixmap();
                        }
                    }
                }
            } catch (...) {
                NOTATION_DEBUG << "Bad indication!" << endl;
            }

        } else if (elt->event()->isa(Controller::EventType)) {

            bool isSustain = false;

            long controlNumber = 0;
            elt->event()->get
            <Int>(Controller::NUMBER, controlNumber);

            Studio *studio = &m_notationView->getDocument()->getStudio();
            Track *track = getSegment().getComposition()->getTrackById
                           (getSegment().getTrack());

            if (track) {

                Instrument *instrument = studio->getInstrumentById
                                         (track->getInstrument());
                if (instrument) {
                    MidiDevice *device = dynamic_cast<MidiDevice *>
                                         (instrument->getDevice());
                    if (device) {
                        for (ControlList::const_iterator i =
                                    device->getControlParameters().begin();
                                i != device->getControlParameters().end(); ++i) {
                            if (i->getType() == Controller::EventType &&
                                    i->getControllerValue() == controlNumber) {
                                if (i->getName() == "Sustain" ||
                                        strtoqstr(i->getName()) == i18n("Sustain")) {
                                    isSustain = true;
                                }
                                break;
                            }
                        }
                    } else if (instrument->getDevice() &&
                               instrument->getDevice()->getType() == Device::SoftSynth) {
                        if (controlNumber == 64) {
                            isSustain = true;
                        }
                    }
                }
            }

            if (isSustain) {
                long value = 0;
                elt->event()->get
                <Int>(Controller::VALUE, value);
                if (value > 0) {
                    pixmap = m_notePixmapFactory->makePedalDownPixmap();
                } else {
                    pixmap = m_notePixmapFactory->makePedalUpPixmap();
                }

            } else {

                if (m_showUnknowns) {
                    pixmap = m_notePixmapFactory->makeUnknownPixmap();
                }
            }
        } else if (elt->event()->isa(Guitar::Chord::EventType)) {

            // Create a guitar chord pixmap
            try {

                Guitar::Chord chord (*elt->event());

                /* UNUSED - for printing, just use a large pixmap as below
                            if (m_printPainter) {
                 
                              int length = m_notePixmapFactory->getTextWidth(text);
                              for (double w = -1, inc = 0; w != 0; inc += w) {
                                  w = setPainterClipping(m_printPainter,
                                                   elt->getLayoutX(),
                                                   int(elt->getLayoutY()),
                                                   int(inc), length, coords,
                                                   policy);
                                  m_notePixmapFactory->drawText
                                    (text, *m_printPainter, int(coords.first), coords.second);
                                  m_printPainter->restore();
                              }
                            } else {
                              */

                pixmap = m_notePixmapFactory->makeGuitarChordPixmap (chord.getFingering(),
                         int(coords.first),
                         coords.second);
                //                }
            } catch (Exception e) { // GuitarChord ctor failed
                NOTATION_DEBUG << "Bad guitar chord event" << endl;
            }

        } else {

            if (m_showUnknowns) {
                pixmap = m_notePixmapFactory->makeUnknownPixmap();
            }
        }

        // Show the result, one way or another

        if (elt->isNote()) {

            // No need, we already set and showed it in renderNote

        } else if (pixmap) {

            setPixmap(elt, pixmap, z, policy);

        } else {
            elt->removeCanvasItem();
        }

        //  NOTATION_DEBUG << "NotationStaff::renderSingleElement: Setting selected at " << elt->getAbsoluteTime() << " to " << selected << endl;

    } catch (...) {
        std::cerr << "Event lacks the proper properties: "
        << std::endl;
        elt->event()->dump(std::cerr);
    }

    m_notePixmapFactory->setSelected(false);
    m_notePixmapFactory->setShaded(false);
}

double
01326 NotationStaff::setPainterClipping(QPainter *painter, double lx, int ly,
                                  double dx, double w, LinedStaffCoords &coords,
                                  FitPolicy policy)
{
    painter->save();

    //    NOTATION_DEBUG << "NotationStaff::setPainterClipping: lx " << lx << ", dx " << dx << ", w " << w << endl;

    coords = getCanvasCoordsForLayoutCoords(lx + dx, ly);
    int row = getRowForLayoutX(lx + dx);
    double rightMargin = getCanvasXForRightOfRow(row);
    double available = rightMargin - coords.first;

    //    NOTATION_DEBUG << "NotationStaff::setPainterClipping: row " << row << ", rightMargin " << rightMargin << ", available " << available << endl;

    switch (policy) {

    case SplitToFit: {
            bool fit = (w - dx <= available + m_notePixmapFactory->getNoteBodyWidth());
            if (dx > 0.01 || !fit) {
                int clipLeft = int(coords.first), clipWidth = int(available);
                if (dx < 0.01) {
                    // never clip the left side of the first part of something
                    clipWidth += clipLeft;
                    clipLeft = 0;
                }
                QRect clip(clipLeft, coords.second - getRowSpacing() / 2,
                           clipWidth, getRowSpacing());
                painter->setClipRect(clip, QPainter::CoordPainter);
                coords.first -= dx;
            }
            if (fit) {
                return 0.0;
            }
            return available;
        }

    case MoveBackToFit:
        if (w - dx > available + m_notePixmapFactory->getNoteBodyWidth()) {
            coords.first -= (w - dx) - available;
        }
        return 0.0;

    default:
        return 0.0;
    }
}

void
01375 NotationStaff::setPixmap(NotationElement *elt, QCanvasPixmap *pixmap, int z,
                         FitPolicy policy)
{
    double layoutX = elt->getLayoutX();
    int layoutY = (int)elt->getLayoutY();

    elt->removeCanvasItem();

    while (1) {

        LinedStaffCoords coords =
            getCanvasCoordsForLayoutCoords(layoutX, layoutY);

        double canvasX = coords.first;
        int canvasY = coords.second;

        QCanvasItem *item = 0;

        if (m_pageMode == LinearMode || policy == PretendItFittedAllAlong) {

            item = new QCanvasNotationSprite(*elt, pixmap, m_canvas);

        } else {

            int row = getRowForLayoutX(layoutX);
            double rightMargin = getCanvasXForRightOfRow(row);
            double extent = canvasX + pixmap->width();

            //        NOTATION_DEBUG << "NotationStaff::setPixmap: row " << row << ", right margin " << rightMargin << ", extent " << extent << endl;

            if (extent > rightMargin + m_notePixmapFactory->getNoteBodyWidth()) {

                if (policy == SplitToFit) {

                    //            NOTATION_DEBUG << "splitting at " << (rightMargin-canvasX) << endl;

                    std::pair<QPixmap, QPixmap> split =
                        PixmapFunctions::splitPixmap(*pixmap,
                                                     int(rightMargin - canvasX));

                    QCanvasPixmap *leftCanvasPixmap = new QCanvasPixmap
                                                      (split.first, QPoint(pixmap->offsetX(), pixmap->offsetY()));

                    QCanvasPixmap *rightCanvasPixmap = new QCanvasPixmap
                                                       (split.second, QPoint(0, pixmap->offsetY()));

                    item = new QCanvasNotationSprite(*elt, leftCanvasPixmap, m_canvas);
                    item->setZ(z);

                    if (elt->getCanvasItem()) {
                        elt->addCanvasItem(item, canvasX, canvasY);
                    } else {
                        elt->setCanvasItem(item, canvasX, canvasY);
                    }

                    item->show();

                    delete pixmap;
                    pixmap = rightCanvasPixmap;

                    layoutX += rightMargin - canvasX + 0.01; // ensure flip to next row

                    continue;

                } else { // policy == MoveBackToFit

                    item = new QCanvasNotationSprite(*elt, pixmap, m_canvas);
                    elt->setLayoutX(elt->getLayoutX() - (extent - rightMargin));
                    coords = getCanvasCoordsForLayoutCoords(layoutX, layoutY);
                    canvasX = coords.first;
                }
            } else {
                item = new QCanvasNotationSprite(*elt, pixmap, m_canvas);
            }
        }

        item->setZ(z);
        if (elt->getCanvasItem()) {
            elt->addCanvasItem(item, canvasX, canvasY);
        } else {
            elt->setCanvasItem(item, canvasX, canvasY);
        }
        item->show();
        break;
    }
}

void
01463 NotationStaff::renderNote(ViewElementList::iterator &vli)
{
    NotationElement* elt = static_cast<NotationElement*>(*vli);

    const NotationProperties &properties(getProperties());
    static NotePixmapParameters params(Note::Crotchet, 0);

    Note::Type note = elt->event()->get
                      <Int>(BaseProperties::NOTE_TYPE);
    int dots = elt->event()->get
               <Int>(BaseProperties::NOTE_DOTS);

    Accidental accidental = Accidentals::NoAccidental;
    (void)elt->event()->get
    <String>(properties.DISPLAY_ACCIDENTAL, accidental);

    bool cautionary = false;
    if (accidental != Accidentals::NoAccidental) {
        (void)elt->event()->get
        <Bool>(properties.DISPLAY_ACCIDENTAL_IS_CAUTIONARY,
               cautionary);
    }

    bool up = true;
    //    (void)(elt->event()->get<Bool>(properties.STEM_UP, up));
    (void)(elt->event()->get
           <Bool>(properties.VIEW_LOCAL_STEM_UP, up));

    bool flag = true;
    (void)(elt->event()->get
           <Bool>(properties.DRAW_FLAG, flag));

    bool beamed = false;
    (void)(elt->event()->get
           <Bool>(properties.BEAMED, beamed));

    bool shifted = false;
    (void)(elt->event()->get
           <Bool>(properties.NOTE_HEAD_SHIFTED, shifted));

    bool dotShifted = false;
    (void)(elt->event()->get
           <Bool>(properties.NOTE_DOT_SHIFTED, dotShifted));

    long stemLength = m_notePixmapFactory->getNoteBodyHeight();
    (void)(elt->event()->get
           <Int>(properties.UNBEAMED_STEM_LENGTH, stemLength));

    long heightOnStaff = 0;
    int legerLines = 0;

    (void)(elt->event()->get
           <Int>(properties.HEIGHT_ON_STAFF, heightOnStaff));
    if (heightOnStaff < 0) {
        legerLines = heightOnStaff;
    } else if (heightOnStaff > 8) {
        legerLines = heightOnStaff - 8;
    }

    long slashes = 0;
    (void)(elt->event()->get
           <Int>(properties.SLASHES, slashes));

    bool quantized = false;
    if (m_colourQuantize && !elt->isTuplet()) {
        quantized =
            (elt->getViewAbsoluteTime() != elt->event()->getAbsoluteTime() ||
             elt->getViewDuration() != elt->event()->getDuration());
    }
    params.setQuantized(quantized);

    bool trigger = false;
    if (elt->event()->has(BaseProperties::TRIGGER_SEGMENT_ID))
        trigger = true;
    params.setTrigger(trigger);

    bool inRange = true;
    Pitch p(*elt->event());
    Segment *segment = &getSegment();
    if (m_showRanges) {
        int pitch = p.getPerformancePitch();
        if (pitch > segment->getHighestPlayable() ||
                pitch < segment->getLowestPlayable()) {
            inRange = false;
        }
    }
    params.setInRange(inRange);

    params.setNoteType(note);
    params.setDots(dots);
    params.setAccidental(accidental);
    params.setAccidentalCautionary(cautionary);
    params.setNoteHeadShifted(shifted);
    params.setNoteDotShifted(dotShifted);
    params.setDrawFlag(flag);
    params.setDrawStem(true);
    params.setStemGoesUp(up);
    params.setLegerLines(legerLines);
    params.setSlashes(slashes);
    params.setBeamed(false);
    params.setIsOnLine(heightOnStaff % 2 == 0);
    params.removeMarks();
    params.setSafeVertDistance(0);

    bool primary = false;
    int safeVertDistance = 0;

    if (elt->event()->get
            <Bool>(properties.CHORD_PRIMARY_NOTE, primary)
            && primary) {

        long marks = 0;
        elt->event()->get
        <Int>(properties.CHORD_MARK_COUNT, marks);
        if (marks) {
            NotationChord chord(*getViewElementList(), vli,
                                m_segment.getComposition()->getNotationQuantizer(),
                                properties);
            params.setMarks(chord.getMarksForChord());
        }

        //      params.setMarks(Marks::getMarks(*elt->event()));

        if (up && note < Note::Semibreve) {
            safeVertDistance = m_notePixmapFactory->getStemLength();
            safeVertDistance = std::max(safeVertDistance, int(stemLength));
        }
    }

    long tieLength = 0;
    (void)(elt->event()->get
           <Int>(properties.TIE_LENGTH, tieLength));
    if (tieLength > 0) {
        params.setTied(true);
        params.setTieLength(tieLength);
    } else {
        params.setTied(false);
    }

    long accidentalShift = 0;
    bool accidentalExtra = false;
    if (elt->event()->get
            <Int>(properties.ACCIDENTAL_SHIFT, accidentalShift)) {
        elt->event()->get
        <Bool>(properties.ACCIDENTAL_EXTRA_SHIFT, accidentalExtra);
    }
    params.setAccidentalShift(accidentalShift);
    params.setAccExtraShift(accidentalExtra);

    double airX, airWidth;
    elt->getLayoutAirspace(airX, airWidth);
    params.setWidth(int(airWidth));

    if (beamed) {

        if (elt->event()->get
                <Bool>(properties.CHORD_PRIMARY_NOTE, primary)
                && primary) {

            int myY = elt->event()->get
                      <Int>(properties.BEAM_MY_Y);

            stemLength = myY - (int)elt->getLayoutY();
            if (stemLength < 0)
                stemLength = -stemLength;

            int nextBeamCount =
                elt->event()->get
                <Int>(properties.BEAM_NEXT_BEAM_COUNT);
            int width =
                elt->event()->get
                <Int>(properties.BEAM_SECTION_WIDTH);
            int gradient =
                elt->event()->get
                <Int>(properties.BEAM_GRADIENT);

            bool thisPartialBeams(false), nextPartialBeams(false);
            (void)elt->event()->get
            <Bool>
            (properties.BEAM_THIS_PART_BEAMS, thisPartialBeams);
            (void)elt->event()->get
            <Bool>
            (properties.BEAM_NEXT_PART_BEAMS, nextPartialBeams);

            params.setBeamed(true);
            params.setNextBeamCount(nextBeamCount);
            params.setThisPartialBeams(thisPartialBeams);
            params.setNextPartialBeams(nextPartialBeams);
            params.setWidth(width);
            params.setGradient((double)gradient / 100.0);
            if (up)
                safeVertDistance = stemLength;

        }
        else {
            params.setBeamed(false);
            params.setDrawStem(false);
        }
    }

    if (heightOnStaff < 7) {
        int gap = (((7 - heightOnStaff) * m_notePixmapFactory->getLineSpacing()) / 2);
        if (safeVertDistance < gap)
            safeVertDistance = gap;
    }

    params.setStemLength(stemLength);
    params.setSafeVertDistance(safeVertDistance);
    setTuplingParameters(elt, params);

    NotePixmapFactory *factory = m_notePixmapFactory;

    if (elt->isGrace()) {
        params.setLegerLines(0);
        m_graceNotePixmapFactory->setSelected(m_notePixmapFactory->isSelected());
        m_graceNotePixmapFactory->setShaded(m_notePixmapFactory->isShaded());
        factory = m_graceNotePixmapFactory;
    }

    if (m_printPainter) {

        // Return no canvas item, but instead render straight to
        // the printer.

        LinedStaffCoords coords = getCanvasCoordsForLayoutCoords
                                  (elt->getLayoutX(), (int)elt->getLayoutY());

        // We don't actually know how wide the note drawing will be,
        // but we should be able to use a fairly pessimistic estimate
        // without causing any problems
        int length = tieLength + 10 * m_notePixmapFactory->getNoteBodyWidth();

        for (double w = -1, inc = 0; w != 0; inc += w) {

            w = setPainterClipping(m_printPainter,
                                   elt->getLayoutX(),
                                   int(elt->getLayoutY()),
                                   int(inc), length, coords,
                                   SplitToFit);

            factory->drawNote
            (params, *m_printPainter, int(coords.first), coords.second);

            m_printPainter->restore(); // save() called by setPainterClipping
        }

    } else {

        // The normal on-screen case

        bool collision = false;
        QCanvasItem * haloItem = 0;
        if (m_showCollisions) {
            collision = elt->isColliding();
            if (collision) {
                // Make collision halo
                QCanvasPixmap *haloPixmap = factory->makeNoteHaloPixmap(params);
                haloItem = new QCanvasNotationSprite(*elt, haloPixmap, m_canvas);
                haloItem->setZ(-1);
            }
        }

        QCanvasPixmap *pixmap = factory->makeNotePixmap(params);

        int z = 0;
        if (factory->isSelected())
            z = 3;
        else if (quantized)
            z = 2;

        setPixmap(elt, pixmap, z, SplitToFit);

        if (collision) {
            // Display collision halo
            LinedStaffCoords coords =
                getCanvasCoordsForLayoutCoords(elt->getLayoutX(),
                                               elt->getLayoutY());
            double canvasX = coords.first;
            int canvasY = coords.second;
            elt->addCanvasItem(haloItem, canvasX, canvasY);
            haloItem->show();
        }
    }
}

void
NotationStaff::setTuplingParameters(NotationElement *elt,
                                    NotePixmapParameters &params)
{
    const NotationProperties &properties(getProperties());

    params.setTupletCount(0);
    long tuplingLineY = 0;
    bool tupled = (elt->event()->get
                   <Int>(properties.TUPLING_LINE_MY_Y, tuplingLineY));

    if (tupled) {

        long tuplingLineWidth = 0;
        if (!elt->event()->get
                <Int>(properties.TUPLING_LINE_WIDTH, tuplingLineWidth)) {
            std::cerr << "WARNING: Tupled event at " << elt->event()->getAbsoluteTime() << " has no tupling line width" << std::endl;
        }

        long tuplingLineGradient = 0;
        if (!(elt->event()->get
                <Int>(properties.TUPLING_LINE_GRADIENT,
                      tuplingLineGradient))) {
            std::cerr << "WARNING: Tupled event at " << elt->event()->getAbsoluteTime() << " has no tupling line gradient" << std::endl;
        }

        bool tuplingLineFollowsBeam = false;
        elt->event()->get
        <Bool>(properties.TUPLING_LINE_FOLLOWS_BEAM,
               tuplingLineFollowsBeam);

        long tupletCount;
        if (elt->event()->get
                <Int>(BaseProperties::BEAMED_GROUP_UNTUPLED_COUNT, tupletCount)) {

            params.setTupletCount(tupletCount);
            params.setTuplingLineY(tuplingLineY - (int)elt->getLayoutY());
            params.setTuplingLineWidth(tuplingLineWidth);
            params.setTuplingLineGradient(double(tuplingLineGradient) / 100.0);
            params.setTuplingLineFollowsBeam(tuplingLineFollowsBeam);
        }
    }
}

bool
NotationStaff::isSelected(NotationElementList::iterator it)
{
    const EventSelection *selection =
        m_notationView->getCurrentSelection();
    return selection && selection->contains((*it)->event());
}

void
01801 NotationStaff::showPreviewNote(double layoutX, int heightOnStaff,
                               const Note &note)
{
    NotePixmapParameters params(note.getNoteType(), note.getDots());

    params.setAccidental(Accidentals::NoAccidental);
    params.setNoteHeadShifted(false);
    params.setDrawFlag(true);
    params.setDrawStem(true);
    params.setStemGoesUp(heightOnStaff <= 4);
    params.setLegerLines(heightOnStaff < 0 ? heightOnStaff :
                         heightOnStaff > 8 ? heightOnStaff - 8 : 0);
    params.setBeamed(false);
    params.setIsOnLine(heightOnStaff % 2 == 0);
    params.setTied(false);
    params.setBeamed(false);
    params.setTupletCount(0);
    params.setSelected(false);
    params.setHighlighted(true);

    delete m_previewSprite;
    m_previewSprite = new QCanvasSimpleSprite
                      (m_notePixmapFactory->makeNotePixmap(params), m_canvas);

    int layoutY = getLayoutYForHeight(heightOnStaff);
    LinedStaffCoords coords = getCanvasCoordsForLayoutCoords(layoutX, layoutY);

    m_previewSprite->move(coords.first, (double)coords.second);
    m_previewSprite->setZ(4);
    m_previewSprite->show();
    m_canvas->update();
}

void
01835 NotationStaff::clearPreviewNote()
{
    delete m_previewSprite;
    m_previewSprite = 0;
}

bool
01842 NotationStaff::wrapEvent(Event *e)
{
    bool wrap = true;

    /*!!! always wrap unknowns, just don't necessarily render them?
     
        if (!m_showUnknowns) {
      std::string etype = e->getType();
      if (etype != Note::EventType &&
          etype != Note::EventRestType &&
          etype != Clef::EventType &&
          etype != Key::EventType &&
          etype != Indication::EventType &&
          etype != Text::EventType) {
          wrap = false;
      }
        }
    */

    if (wrap)
        wrap = Staff::wrapEvent(e);

    return wrap;
}

void
01868 NotationStaff::eventRemoved(const Segment *segment,
                            Event *event)
{
    LinedStaff::eventRemoved(segment, event);
    m_notationView->handleEventRemoved(event);
}

void
01876 NotationStaff::markChanged(timeT from, timeT to, bool movedOnly)
{
    // first time through this, m_ready is false -- we mark it true

    NOTATION_DEBUG << "NotationStaff::markChanged (" << from << " -> " << to << ") " << movedOnly << endl;

    if (from == to) {

        m_status.clear();

        if (!movedOnly && m_ready) { // undo all the rendering we've already done
            for (NotationElementList::iterator i = getViewElementList()->begin();
                    i != getViewElementList()->end(); ++i) {
                static_cast<NotationElement *>(*i)->removeCanvasItem();
            }
        }

    } else {

        Segment *segment = &getSegment();
        Composition *composition = segment->getComposition();

        NotationElementList::iterator unchanged = findUnchangedBarEnd(to);

        int finalBar;
        if (unchanged == getViewElementList()->end()) {
            finalBar = composition->getBarNumber(segment->getEndMarkerTime());
        } else {
            finalBar = composition->getBarNumber((*unchanged)->getViewAbsoluteTime());
        }

        int fromBar = composition->getBarNumber(from);
        int toBar = composition->getBarNumber(to);
        if (finalBar < toBar)
            finalBar = toBar;

        for (int bar = fromBar; bar <= finalBar; ++bar) {

            if (bar > toBar)
                movedOnly = true;

            //        NOTATION_DEBUG << "bar " << bar << " status " << m_status[bar] << endl;

            if (bar >= m_lastRenderCheck.first &&
                    bar <= m_lastRenderCheck.second) {

                //            NOTATION_DEBUG << "bar " << bar << " rendering and positioning" << endl;

                if (!movedOnly || m_status[bar] == UnRendered) {
                    renderElements
                    (getViewElementList()->findTime(composition->getBarStart(bar)),
                     getViewElementList()->findTime(composition->getBarEnd(bar)));
                }
                positionElements(composition->getBarStart(bar),
                                 composition->getBarEnd(bar));
                m_status[bar] = Positioned;

            } else if (!m_ready) {
                //            NOTATION_DEBUG << "bar " << bar << " rendering and positioning" << endl;

                // first time through -- we don't need a separate render phase,
                // only to mark as not yet positioned
                m_status[bar] = Rendered;

            } else if (movedOnly) {
                if (m_status[bar] == Positioned) {
                    //            NOTATION_DEBUG << "bar " << bar << " marking unpositioned" << endl;
                    m_status[bar] = Rendered;
                }

            } else {
                //            NOTATION_DEBUG << "bar " << bar << " marking unrendered" << endl;

                m_status[bar] = UnRendered;
            }
        }
    }

    m_ready = true;
}

void
01958 NotationStaff::setPrintPainter(QPainter *painter)
{
    m_printPainter = painter;
}

bool
01964 NotationStaff::checkRendered(timeT from, timeT to)
{
    if (!m_ready)
        return false;
    Composition *composition = getSegment().getComposition();
    if (!composition) {
        NOTATION_DEBUG << "NotationStaff::checkRendered: warning: segment has no composition -- is my paint event late?" << endl;
        return false;
    }

    //    NOTATION_DEBUG << "NotationStaff::checkRendered: " << from << " -> " << to << endl;

    int fromBar = composition->getBarNumber(from);
    int toBar = composition->getBarNumber(to);
    bool something = false;

    if (fromBar > toBar)
        std::swap(fromBar, toBar);

    for (int bar = fromBar; bar <= toBar; ++bar) {
        //  NOTATION_DEBUG << "NotationStaff::checkRendered: bar " << bar << " status "
        //               << m_status[bar] << endl;

        switch (m_status[bar]) {

        case UnRendered:
            renderElements
            (getViewElementList()->findTime(composition->getBarStart(bar)),
             getViewElementList()->findTime(composition->getBarEnd(bar)));

        case Rendered:
            positionElements
            (composition->getBarStart(bar),
             composition->getBarEnd(bar));

            something = true;

        case Positioned:
            break;
        }

        m_status[bar] = Positioned;
    }

    m_lastRenderCheck = std::pair<int, int>(fromBar, toBar);
    return something;
}

bool
02013 NotationStaff::doRenderWork(timeT from, timeT to)
{
    if (!m_ready)
        return true;
    Composition *composition = getSegment().getComposition();

    int fromBar = composition->getBarNumber(from);
    int toBar = composition->getBarNumber(to);

    if (fromBar > toBar)
        std::swap(fromBar, toBar);

    for (int bar = fromBar; bar <= toBar; ++bar) {

        switch (m_status[bar]) {

        case UnRendered:
            renderElements
            (getViewElementList()->findTime(composition->getBarStart(bar)),
             getViewElementList()->findTime(composition->getBarEnd(bar)));
            m_status[bar] = Rendered;
            return true;

        case Rendered:
            positionElements
            (composition->getBarStart(bar),
             composition->getBarEnd(bar));
            m_status[bar] = Positioned;
            return true;

        case Positioned:
            continue;
        }
    }

    return false;
}

LinedStaff::BarStyle
02052 NotationStaff::getBarStyle(int barNo) const
{
    const Segment *s = &getSegment();
    Composition *c = s->getComposition();

    int firstBar = c->getBarNumber(s->getStartTime());
    int lastNonEmptyBar = c->getBarNumber(s->getEndMarkerTime() - 1);

    // Currently only the first and last bar in a segment have any
    // possibility of getting special treatment:
    if (barNo > firstBar && barNo <= lastNonEmptyBar)
        return PlainBar;

    // First and last bar in a repeating segment get repeat bars.

    if (s->isRepeating()) {
        if (barNo == firstBar)
            return RepeatStartBar;
        else if (barNo == lastNonEmptyBar + 1)
            return RepeatEndBar;
    }

    if (barNo <= lastNonEmptyBar)
        return PlainBar;

    // Last bar on a given track gets heavy double bars.  Exploit the
    // fact that Composition's iterator returns segments in track
    // order.

    Segment *lastSegmentOnTrack = 0;

    for (Composition::iterator i = c->begin(); i != c->end(); ++i) {
        if ((*i)->getTrack() == s->getTrack()) {
            lastSegmentOnTrack = *i;
        } else if (lastSegmentOnTrack != 0) {
            break;
        }
    }

    if (&getSegment() == lastSegmentOnTrack)
        return HeavyDoubleBar;
    else
        return PlainBar;
}

double
02098 NotationStaff::getBarInset(int barNo, bool isFirstBarInRow) const
{
    LinedStaff::BarStyle style = getBarStyle(barNo);

    NOTATION_DEBUG << "getBarInset(" << barNo << "," << isFirstBarInRow << ")" << endl;

    if (!(style == RepeatStartBar || style == RepeatBothBar))
        return 0.0;

    const Segment &s = getSegment();
    Composition *composition = s.getComposition();
    timeT barStart = composition->getBarStart(barNo);

    double inset = 0.0;

    NOTATION_DEBUG << "ready" << endl;

    bool haveKey = false, haveClef = false;

    ::Rosegarden::Key key;
    ::Rosegarden::Key cancelKey;
    Clef clef;

    for (Segment::iterator i = s.findTime(barStart);
            s.isBeforeEndMarker(i) && ((*i)->getNotationAbsoluteTime() == barStart);
            ++i) {

        NOTATION_DEBUG << "type " << (*i)->getType() << " at " << (*i)->getNotationAbsoluteTime() << endl;

        if ((*i)->isa(::Rosegarden::Key::EventType)) {

            try {
                key = ::Rosegarden::Key(**i);

                if (barNo > composition->getBarNumber(s.getStartTime())) {
                    cancelKey = s.getKeyAtTime(barStart - 1);
                }

                if (m_keySigCancelMode == 0) { // only when entering C maj / A min

                    if (key.getAccidentalCount() != 0)
                        cancelKey = ::Rosegarden::Key();

                } else if (m_keySigCancelMode == 1) { // only when reducing acc count

                    if (!(key.isSharp() == cancelKey.isSharp() &&
                            key.getAccidentalCount() < cancelKey.getAccidentalCount())) {
                        cancelKey = ::Rosegarden::Key();
                    }
                }

                haveKey = true;

            } catch (...) {
                NOTATION_DEBUG << "getBarInset: Bad key in event" << endl;
            }

        } else if ((*i)->isa(Clef::EventType)) {

            try {
                clef = Clef(**i);
                haveClef = true;
            } catch (...) {
                NOTATION_DEBUG << "getBarInset: Bad clef in event" << endl;
            }
        }
    }

    if (isFirstBarInRow) {
        if (!haveKey) {
            key = s.getKeyAtTime(barStart);
            haveKey = true;
        }
        if (!haveClef) {
            clef = s.getClefAtTime(barStart);
            haveClef = true;
        }
    }

    if (haveKey) {
        inset += m_notePixmapFactory->getKeyWidth(key, cancelKey);
    }
    if (haveClef) {
        inset += m_notePixmapFactory->getClefWidth(clef);
    }
    if (haveClef || haveKey) {
        inset += m_notePixmapFactory->getBarMargin() / 3;
    }
    if (haveClef && haveKey) {
        inset += m_notePixmapFactory->getNoteBodyWidth() / 2;
    }

    NOTATION_DEBUG << "getBarInset(" << barNo << "," << isFirstBarInRow << "): inset " << inset << endl;


    return inset;
}

Rosegarden::ViewElement* NotationStaff::makeViewElement(Rosegarden::Event* e)
{
    return new NotationElement(e);
}

}

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