Пример #1
0
void SLine::setLen(qreal l)
      {
      if (spannerSegments().isEmpty())
            add(createLineSegment());
      LineSegment* s = frontSegment();
      s->setPos(QPointF());
      s->setPos2(QPointF(l, 0));
      }
Пример #2
0
void SLine::layout()
      {
      if (parent() == 0) {
            //
            // when used in a palette, SLine has no parent and
            // tick and tick2 has no meaning so no layout is
            // possible and needed
            //
            if (!spannerSegments().isEmpty()) {
                  LineSegment* s = frontSegment();
                  s->layout();
                  setbbox(s->bbox());
                  }
            return;
            }
      if (startElement() == 0 || endElement() == 0) {
            qDebug("SLine::layout() failed: %s %s\n", parent()->name(), name());
            qDebug("   start %p   end %p\n", startElement(), endElement());
            return;
            }

      System* s1;
      System* s2;
      QPointF p1 = linePos(GRIP_LINE_START, &s1);
      QPointF p2 = linePos(GRIP_LINE_END,   &s2);

      QList<System*>* systems = score()->systems();
      int sysIdx1 = systems->indexOf(s1);
      int sysIdx2 = systems->indexOf(s2);
      int segmentsNeeded = 0;
      for (int i = sysIdx1; i < sysIdx2+1;  ++i) {
            if (systems->at(i)->isVbox())
                  continue;
            ++segmentsNeeded;
            }
      int segCount = spannerSegments().size();

      if (segmentsNeeded != segCount) {
            if (segmentsNeeded > segCount) {
                  int n = segmentsNeeded - segCount;
                  for (int i = 0; i < n; ++i) {
                        LineSegment* ls = createLineSegment();
                        add(ls);
                        // set user offset to previous segment's offset
                        if (segCount > 0)
                              ls->setUserOff(QPointF(0, segmentAt(segCount+i-1)->userOff().y()));
                        }
                  }
            else {
                  int n = segCount - segmentsNeeded;
                  qDebug("SLine: segments %d needed %d, remove %d\n", segCount, segmentsNeeded, n);
                  for (int i = 0; i < n; ++i) {
                        if (spannerSegments().isEmpty()) {
                              qDebug("SLine::layout(): no segment %d, %d expected\n", i, n);
                              break;
                              }
                        else {
                              // LineSegment* seg = takeLastSegment();
                              // TODO delete seg;
                              }
                        }
                  }
            }

      int segIdx = 0;
      int si  = staffIdx();
      for (int i = sysIdx1; i <= sysIdx2; ++i) {
            System* system = systems->at(i);
            if (system->isVbox())
                  continue;
            LineSegment* seg = segmentAt(segIdx++);
            seg->setSystem(system);

            Measure* m = system->firstMeasure();
            qreal x1 = m->first(SegChordRest)->pos().x() + m->pos().x();
            qreal x2 = system->bbox().right();
            qreal y  = system->staff(si)->y();

            if (sysIdx1 == sysIdx2) {
                  // single segment
                  seg->setSubtype(SEGMENT_SINGLE);
                  seg->setPos(p1);
                  seg->setPos2(QPointF(p2.x() - p1.x(), 0.0));
                  }
            else if (i == sysIdx1) {
                  // start segment
                  seg->setSubtype(SEGMENT_BEGIN);
                  seg->setPos(p1);
                  seg->setPos2(QPointF(x2 - p1.x(), 0.0));
                  }
            else if (i > 0 && i != sysIdx2) {
                  // middle segment
                  seg->setSubtype(SEGMENT_MIDDLE);
                  seg->setPos(QPointF(x1, y));
                  seg->setPos2(QPointF(x2 - x1, 0.0));
                  }
            else if (i == sysIdx2) {
                  // end segment
                  seg->setSubtype(SEGMENT_END);
                  seg->setPos(QPointF(x1, y));
                  seg->setPos2(QPointF(p2.x() - x1, 0.0));
                  }
            seg->layout();
            seg->rypos() += (_yoffset * spatium());
            seg->adjustReadPos();
            }
      }
Пример #3
0
void Glissando::layout()
      {
      qreal       _spatium    = spatium();

      if (score() == gscore                                                   // for use in palettes
                  || startElement() == nullptr || endElement() == nullptr) {  // or while dragging
            if (spannerSegments().isEmpty())
                  add(createLineSegment());
            LineSegment* s = frontSegment();
            s->setPos(QPointF());
            s->setPos2(QPointF(_spatium * GLISS_PALETTE_WIDTH, -_spatium * GLISS_PALETTE_HEIGHT));
            s->layout();
            return;
            }

      SLine::layout();
      setPos(0.0, 0.0);
      adjustReadPos();

      Note*       anchor1     = static_cast<Note*>(startElement());
      Note*       anchor2     = static_cast<Note*>(endElement());
      Chord*      cr1         = anchor1->chord();
      Chord*      cr2         = anchor2->chord();
      GlissandoSegment*       segm1 = static_cast<GlissandoSegment*>(frontSegment());
      GlissandoSegment*       segm2 = static_cast<GlissandoSegment*>(backSegment());

      // Note: line segments are defined by
      // initial point: ipos() (relative to system origin)
      // ending point:  pos2() (relative to initial point)

      // LINE ENDING POINTS TO NOTE HEAD CENTRES

      // assume gliss. line goes from centre of initial note centre to centre of ending note:
      // move first segment origin and last segment ending point from note head origin to note head centre
      QPointF     offs1       = QPointF(anchor1->headWidth() * 0.5, 0.0);
      QPointF     offs2       = QPointF(anchor2->headWidth() * 0.5, 0.0);

      // AVOID HORIZONTAL LINES

      int         upDown      = (0 < (anchor2->pitch() - anchor1->pitch())) - ((anchor2->pitch() - anchor1->pitch()) < 0);
      // on TAB's, glissando are by necessity on the same string, this gives an horizontal glissando line;
      // make bottom end point lower and top ending point higher
      if (cr1->staff()->isTabStaff()) {
                  qreal yOff = cr1->staff()->lineDistance() * 0.3 * _spatium;
                  offs1.ry() += yOff * upDown;
                  offs2.ry() -= yOff * upDown;
            }
      // if not TAB, angle glissando between notes on the same line
      else {
            if (anchor1->line() == anchor2->line()) {
                  offs1.ry() += _spatium * 0.25 * upDown;
                  offs2.ry() -= _spatium * 0.25 * upDown;
                  }
            }

      // move initial point of first segment and adjust its length accordingly
      segm1->setPos (segm1->ipos()  + offs1);
      segm1->setPos2(segm1->ipos2() - offs1);
      // adjust ending point of last segment
      segm2->setPos2(segm2->ipos2() + offs2);

      // FINAL SYSTEM-INITIAL NOTE
      // if the last gliss. segment attaches to a system-initial note, some extra width has to be added
      if (cr2->segment()->measure() == cr2->segment()->system()->firstMeasure() && cr2->rtick() == 0)
      {
            segm2->rxpos() -= GLISS_STARTOFSYSTEM_WIDTH * _spatium;
            segm2->rxpos2()+= GLISS_STARTOFSYSTEM_WIDTH * _spatium;
      }

      // INTERPOLATION OF INTERMEDIATE POINTS
      // This probably belongs to SLine class itself; currently it does not seem
      // to be needed for anything else than Glissando, though

      // get total x-width and total y-height of all segments
      qreal xTot = 0.0;
      for (SpannerSegment* segm : spannerSegments())
            xTot += segm->ipos2().x();
      qreal y0   = segm1->ipos().y();
      qreal yTot = segm2->ipos().y() + segm2->ipos2().y() - y0;
      qreal ratio = yTot / xTot;
      // interpolate y-coord of intermediate points across total width and height
      qreal xCurr = 0.0;
      qreal yCurr;
      for (int i = 0; i < spannerSegments().count()-1; i++)
      {
           SpannerSegment* segm = segmentAt(i);
           xCurr += segm->ipos2().x();
           yCurr = y0 + ratio * xCurr;
           segm->rypos2() = yCurr - segm->ipos().y();       // position segm. end point at yCurr
           // next segment shall start where this segment stopped
           segm = segmentAt(i+1);
           segm->rypos2() += segm->ipos().y() - yCurr;      // adjust next segm. vertical length
           segm->rypos() = yCurr;                           // position next segm. start point at yCurr
      }

      // STAY CLEAR OF NOTE APPENDAGES

      // initial note dots / ledger line / note head
      offs1 *= -1.0;          // discount changes already applied
      int dots = cr1->dots();
      LedgerLine * ledLin = cr1->ledgerLines();
      // if dots, start at right of last dot
      // if no dots, from right of ledger line, if any; from right of note head, if no ledger line
      offs1.rx() += (dots && anchor1->dot(dots-1) ? anchor1->dot(dots-1)->pos().x() + anchor1->dot(dots-1)->width()
                  : (ledLin ? ledLin->pos().x() + ledLin->width() : anchor1->headWidth()) );

      // final note arpeggio / accidental / ledger line / accidental / arpeggio (i.e. from outermost to innermost)
      offs2 *= -1.0;          // discount changes already applied
      if (Arpeggio* a = cr2->arpeggio())
            offs2.rx() += a->pos().x() + a->userOff().x();
      else if (Accidental* a = anchor2->accidental())
            offs2.rx() += a->pos().x() + a->userOff().x();
      else if ( (ledLin = cr2->ledgerLines()) != nullptr)
            offs2.rx() += ledLin->pos().x();

      // add another a quarter spatium of 'air'
      offs1.rx() += _spatium * 0.25;
      offs2.rx() -= _spatium * 0.25;

      // apply offsets: shorten first segment by x1 (and proportionally y) and adjust its length accordingly
      offs1.ry() = segm1->ipos2().y() * offs1.x() / segm1->ipos2().x();
      segm1->setPos(segm1->ipos() + offs1);
      segm1->setPos2(segm1->ipos2() - offs1);
      // adjust last segment length by x2 (and proportionally y)
      offs2.ry() = segm2->ipos2().y() * offs2.x() / segm2->ipos2().x();
      segm2->setPos2(segm2->ipos2() + offs2);

      for (SpannerSegment* segm : spannerSegments())
            static_cast<GlissandoSegment*>(segm)->layout();

      // compute glissando bbox as the bbox of the last segment, relative to the end anchor note
      QPointF anchor2PagePos = anchor2->pagePos();
      QPointF system2PagePos = cr2->segment()->system()->pagePos();
      QPointF anchor2SystPos = anchor2PagePos - system2PagePos;
      QRectF r = QRectF(anchor2SystPos - segm2->pos(), anchor2SystPos - segm2->pos() - segm2->pos2()).normalized();
      qreal lw = _spatium * lineWidth().val() * .5;
      setbbox(r.adjusted(-lw, -lw, lw, lw));
      }