bool Graph::SetXScale() { CCurve *pCurve; int nc; if(m_bAutoX) { bool bCurve = false; if (m_oaCurves.size()) { //init only if we have a curve for (nc=0; nc < m_oaCurves.size(); nc++) { pCurve = (CCurve*)m_oaCurves[nc]; if ((pCurve->IsVisible() ||pCurve->PointsVisible()) && pCurve->n>1) { bCurve = true; break;//there is something to draw } } } if (bCurve) { Cxmin = 9999999.0; Cxmax = -9999999.0; for (nc=0; nc < m_oaCurves.size(); nc++) { pCurve = (CCurve*)m_oaCurves[nc]; if ((pCurve->IsVisible() ||pCurve->PointsVisible()) && pCurve->n>0) { Cxmin = qMin(Cxmin, pCurve->GetxMin()); Cxmax = qMax(Cxmax, pCurve->GetxMax()); } } if(Cxmax<=Cxmin) Cxmax = (Cxmin+1.0)*2.0; if(m_Type == 1) { xmin = qMin(xmin, Cxmin); xmax = qMax(xmax, Cxmax); } else { xmin = Cxmin; xmax = Cxmax; } if(Cxmin>=0.0) xmin = 0.0; if(Cxmax<=0.0) xmax = 0.0; } else { // until things are made clear for (nc=0; nc < m_oaCurves.size(); nc++) { pCurve = (CCurve*)m_oaCurves[nc]; if ((pCurve->IsVisible() ||pCurve->PointsVisible()) && pCurve->n>0) { xmin = qMin(xmin, pCurve->x[0]); xmax = qMax(xmax, pCurve->x[0]); } } } xo=0.0; if(fabs((xmin-xmax)/xmin)<0.001) { if(fabs(xmin)<0.00001) xmax = 1.0; else { xmax = 2.0 * xmin; if(xmax < xmin) { double tmp = xmax; xmax = xmin; xmin = tmp; } } } if(m_w<=0.0) return false; m_scalex = (xmax-xmin)/m_w; //try to set an automatic scale for X Axis SetAutoXUnit(); } else { //scales are set manually if(m_w<=0.0) return false; // m_scalex = (xmax-xmin)/m_w; if (xunit<1.0) { exp_x = (int)log10(xunit*1.00001)-1; exp_x = qMax(-4, exp_x); } else exp_x = (int)log10(xunit*1.00001); } m_scalex = (xmax-xmin)/m_w; //graph center position int Xg = (m_rCltRect.right() + m_rCltRect.left())/2; // curves center position int Xc = (int)((xmin+xmax)/2.0/m_scalex); // center graph in drawing rectangle m_ptoffset.rx() = (Xg-Xc); return true; }
void QGraph::DrawCurve(int nIndex, QPainter &painter) { painter.save(); static double scaley; static int i, ptside; static QPoint From, To, Min, Max; static QRect rViewRect; ptside = 2; CCurve* pCurve = GetCurve(nIndex); scaley = m_scaley; QBrush FillBrush(m_BkColor); painter.setBrush(FillBrush); QPen CurvePen(pCurve->GetColor()); CurvePen.setStyle(GetStyle(pCurve->GetStyle())); CurvePen.setWidth((int)pCurve->GetWidth()); painter.setPen(CurvePen); Min.setX(int(xmin/m_scalex) +m_ptoffset.x()); Min.setY(int(ymin/scaley) +m_ptoffset.y()); Max.setX(int(xmax/m_scalex) +m_ptoffset.x()); Max.setY(int(ymax/scaley) +m_ptoffset.y()); rViewRect.setTopLeft(Min); rViewRect.setBottomRight(Max); if(pCurve->n>=1) { From.setX(int(pCurve->x[0]/m_scalex+m_ptoffset.x())); From.setY(int(pCurve->y[0]/scaley +m_ptoffset.y())); if(pCurve->IsVisible()) { for (i=1; i<pCurve->n;i++) { To.setX(int(pCurve->x[i]/m_scalex+m_ptoffset.x())); To.setY(int(pCurve->y[i]/scaley +m_ptoffset.y())); painter.drawLine(From, To); From = To; } } if(pCurve->PointsVisible()) { for (i=0; i<pCurve->n;i++) { if(pCurve->GetSelected() !=i) painter.drawRect(int(pCurve->x[i]/m_scalex+m_ptoffset.x())-ptside, int(pCurve->y[i]/ scaley+m_ptoffset.y())-ptside, 2*ptside,2*ptside); } } } if(m_bHighlightPoint) { int point = pCurve->GetSelected(); if(point>=0) { //highlight QColor HighColor(0,40, 150); CurvePen.setWidth((int)pCurve->GetWidth()); CurvePen.setColor(HighColor); painter.setPen(CurvePen); To.setX(int(pCurve->x[point]/m_scalex+m_ptoffset.x())); To.setY(int(pCurve->y[point]/scaley +m_ptoffset.y())); painter.drawRect(To.x()-ptside-1,To.y()-ptside-1, 2*(ptside+1),2*(ptside+1)); } } painter.restore(); }
bool Graph::SetYScale() { int nc; CCurve *pCurve; if(m_bAutoY) { bool bCurve = false; if (m_oaCurves.size()) { //init only if we have a curve for (nc=0; nc < m_oaCurves.size(); nc++) { pCurve = (CCurve*)m_oaCurves[nc]; if ((pCurve->IsVisible() ||pCurve->PointsVisible()) && pCurve->n>0) { bCurve = true; break; } } } if(bCurve) { Cymin = 9999999.0; Cymax = -9999999.0; for (nc=0; nc < m_oaCurves.size(); nc++) { pCurve = (CCurve*)m_oaCurves[nc]; if ((pCurve->IsVisible() ||pCurve->PointsVisible()) && pCurve->n>0) { Cymin = qMin(Cymin, pCurve->GetyMin()); Cymax = qMax(Cymax, pCurve->GetyMax()); } } if(Cymax<=Cymin) { Cymax = (Cymin+1.0)*2.0; } if(m_Type == 1) { ymin = qMin(ymin, Cymin); ymax = qMax(ymax, Cymax); } else { ymin = Cymin; ymax = Cymax; } if(Cymin>=0.0) ymin = 0.0; if(Cymax<=0.0) ymax = 0.0; } else { // until things are made clear for (int nc=0; nc < m_oaCurves.size(); nc++) { pCurve = (CCurve*)m_oaCurves[nc]; if ((pCurve->IsVisible() ||pCurve->PointsVisible()) && pCurve->n>0) { ymin = qMin(ymin, pCurve->y[0]); ymax = qMax(ymax, pCurve->y[0]); } } } yo=0.0; if (fabs((ymin-ymax)/ymin)<0.001) { if(fabs(ymin)<0.00001) ymax = 1.0; else { ymax = 2.0 * ymin; if(ymax < ymin) { double tmp = ymax; ymax = ymin; ymin = tmp; } } } if(m_h<=0.0) return false; if (!m_bYInverted) { m_scaley = -(ymax-ymin)/m_h; } else { m_scaley = (ymax-ymin)/m_h; } //try to set an automatic scale for Y Axis SetAutoYUnit(); } else { //scales are set manually if(m_h<=0) return false; if (!m_bYInverted) { m_scaley = -(ymax-ymin)/m_h; } else { m_scaley = (ymax-ymin)/m_h; } if (yunit<1.0) { exp_y = (int)log10(yunit*1.00001)-1; exp_y = qMax(-4, exp_y); } else exp_y = (int)log10(yunit*1.00001); } //graph center position int Yg = (m_rCltRect.top() + m_rCltRect.bottom())/2; // curves center position int Yc = (int)((ymin+ymax)/2.0/m_scaley); // center graph in drawing rectangle m_ptoffset.ry() = (Yg-Yc); return true; }