bool ShareIndexContainerAdapter::update(xce::sharesearch::ShareIndexInfoSeq shareinfos) { std::cout<<"enter in adapter..."<<std::endl; //Prx proxy; Prx proxy[PROXY_NUM]; setName("ShareIndexContainer_SubA"); setEndPoints("@ShareIndexContainer_SubA.ShareIndexContainer_SubA.ShareIndexContainer_SubA"); proxy[0] = locate<com::xiaonei::sharesearch::server::ShareIndexContainerPrx>(/*managers_,*/ "ShareIndexContainer_SubA", MyUtil::TWO_WAY); MCE_INFO(proxy[0]); setName("ShareIndexContainer_SubB"); setEndPoints("@ShareIndexContainer_SubB.ShareIndexContainer_SubB.ShareIndexContainer_SubB"); proxy[1] = locate<com::xiaonei::sharesearch::server::ShareIndexContainerPrx>(/*managers_,*/ "ShareIndexContainer_SubB", MyUtil::TWO_WAY); //std::cout<<proxies.size()<<std::endl; //int rand_index = (int)(rand() % proxies.size()); MCE_INFO(proxy[1]); proxy[0]->update(shareinfos); proxy[1]->update(shareinfos); //Prx proxy = locate<com::xiaonei::shareSearch::server::ShareIndexContainerPrx>(/* managers_,*/ "ShareIndexContainer_SubA", MyUtil::TWO_WAY); //MCE_INFO(proxy); //proxy->update(shareinfos); return true;//proxy->update(shareinfos); }
/** * This method simply ensures presence of two points and * adds the needed points for self associations. */ void AssociationLine::calculateInitialEndPoints() { if (m_associationWidget->isSelf() && count() < 4) { for (int i = count(); i < 4; ++i) { insertPoint(i, QPointF()); } UMLWidget *wid = m_associationWidget->widgetForRole(Uml::RoleType::B); if (!wid) { uError() << "AssociationWidget is partially constructed." "UMLWidget for role B is null."; return; } const QRectF rect = m_associationWidget->mapFromScene( mapToScene(wid->rect()).boundingRect()).boundingRect(); qreal l = rect.left() + .25 * rect.width(); qreal r = rect.left() + .75 * rect.width(); bool drawAbove = rect.top() >= SelfAssociationMinimumHeight; qreal y = drawAbove ? rect.top() : rect.bottom(); qreal yOffset = SelfAssociationMinimumHeight; if (drawAbove) { yOffset *= -1.0; } setPoint(0, QPointF(l, y)); setPoint(1, QPointF(l, y + yOffset)); setPoint(2, QPointF(r, y + yOffset)); setPoint(3, QPointF(r, y)); } else if (!m_associationWidget->isSelf() && count() < 2) { setEndPoints(QPointF(), QPointF()); } }
/** * Loads AssociationLine information saved in \a qElement XMI element. */ bool AssociationLine::loadFromXMI(QDomElement &qElement) { QString layout = qElement.attribute(QLatin1String("layout"), QLatin1String("polyline")); m_layout = fromString(layout); QDomNode node = qElement.firstChild(); m_points.clear(); QDomElement startElement = node.toElement(); if(startElement.isNull() || startElement.tagName() != QLatin1String("startpoint")) { return false; } QString x = startElement.attribute(QLatin1String("startx"), QLatin1String("0")); qreal nX = x.toFloat(); QString y = startElement.attribute(QLatin1String("starty"), QLatin1String("0")); qreal nY = y.toFloat(); QPointF startPoint(nX, nY); node = startElement.nextSibling(); QDomElement endElement = node.toElement(); if(endElement.isNull() || endElement.tagName() != QLatin1String("endpoint")) { return false; } x = endElement.attribute(QLatin1String("endx"), QLatin1String("0")); nX = x.toFloat(); y = endElement.attribute(QLatin1String("endy"), QLatin1String("0")); nY = y.toFloat(); QPointF endPoint(nX, nY); setEndPoints(startPoint, endPoint); QPointF point; node = endElement.nextSibling(); QDomElement element = node.toElement(); int i = 1; while(!element.isNull()) { if(element.tagName() == QLatin1String("point")) { x = element.attribute(QLatin1String("x"), QLatin1String("0")); y = element.attribute(QLatin1String("y"), QLatin1String("0")); point.setX(x.toFloat()); point.setY(y.toFloat()); insertPoint(i++, point); } node = element.nextSibling(); element = node.toElement(); } return true; }
CapsuleShape::CapsuleShape(float radius, const glm::vec3& startPoint, const glm::vec3& endPoint) : Shape(CAPSULE_SHAPE), _radius(radius), _halfHeight(0.0f) { setEndPoints(startPoint, endPoint); }