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);
}
