const String& IDBCursor::direction() const { IDB_TRACE("IDBCursor::direction"); ExceptionCode ec = 0; const AtomicString& direction = directionToString(m_direction, ec); ASSERT(!ec); return direction; }
bool Function::saveXMLDirection(QXmlStreamWriter *doc) const { Q_ASSERT(doc != NULL); doc->writeTextElement(KXMLQLCFunctionDirection, directionToString(direction())); return true; }
char *vehiculeToString(vehicule v, int bus, char *resultat) { char directionDepart[6]; char directionArrivee[6]; directionToString(v.directionDepart, directionDepart); directionToString(v.directionArrivee, directionArrivee); if (bus) { sprintf(resultat, "Bus : %s -> %s", directionDepart, directionArrivee); } else { sprintf(resultat, "Voiture : %s -> %s", directionDepart, directionArrivee); } return resultat; }
bool Function::saveXMLDirection(QDomDocument* doc, QDomElement* root) const { Q_ASSERT(doc != NULL); Q_ASSERT(root != NULL); QDomElement tag = doc->createElement(KXMLQLCFunctionDirection); root->appendChild(tag); QDomText text = doc->createTextNode(directionToString(direction())); tag.appendChild(text); return true; }
/** * Get the axis label for the pointing horizontal direction. * @return Axis label for the axis that is perpendicular to the beam and up * direction in the instrument */ std::string ReferenceFrame::pointingHorizontalAxis() const { return directionToString(pointingHorizontal()); }
/** * Get the axis label for the pointing along direction. * @return label for up */ std::string ReferenceFrame::pointingAlongBeamAxis() const { return directionToString(m_alongBeam); }
/** * Get the axis label for the pointing up direction. * @return label for up */ std::string ReferenceFrame::pointingUpAxis() const { return directionToString(m_up); }
const String& IDBCursor::direction() const { IDB_TRACE("IDBCursor::direction"); return directionToString(m_direction); }