void SpicePosition::getbodies(const std::string &kernel) {
SPICEINT_CELL (ids, 1000);
spkobj_c(kernel.c_str(), &ids);
for (SpiceInt i = 0; i < card_c(&ids); i++) {
SpiceInt obj = SPICE_CELL_ELEM_I(&ids, i);
int key = obj;
if (m_bodies[key] == 0) {
double values[3], radius, gm;
char name[200];
SpiceInt dim;
SpiceBoolean found;
bodc2n_c(obj, sizeof(name), name, &found);
if (found) {
for (int i = 1; name[i] != 0; i++) {
name[i] = tolower(name[i]);
}
radius = gm = 0;
bodvcd_c(obj, "RADII", 3, &dim, values);
if (dim == 3) {
radius = (values[0] + values[1] + values[2]) / 3.;
bodvcd_c(obj, "GM", 1, &dim, values);
if (dim > 0) {
gm = values[0];
BodyConstants bc(obj, name, radius, gm, 40);
m_bodies.addBody(new BodyConstants(obj, name, radius, gm, 40));
}
}
}
}
}
}
/**
* @brief Convert NAIF code to frame or body name
*
* This routine will convert a NAIF integer code to either the frame (first) or
* body (second) name.
*
* @author kbecker (3/26/2011)
*
* @param naifid NAIF integer code to convert to a name
*
* @return QString Returns the frame or body name.
*/
QString SpiceSegment::getNaifName(int naifid) const {
SpiceChar naifBuf[40];
frmnam_c ( (SpiceInt) naifid, sizeof(naifBuf), naifBuf);
string cframe(naifBuf);
if ( cframe.empty() ) {
SpiceBoolean found;
bodc2n_c((SpiceInt) naifid, sizeof(naifBuf), naifBuf, &found);
if ( found ) cframe = naifBuf;
}
// If it fails, just report it missing
if ( cframe.empty() ) {
string mess = "Failed to convert FrameId (" + IString(naifid) +
") to string - perhaps the frame kernel is missing or not" +
" loaded.";
cframe = "_UNKNOWN_";
// throw iException::Message(iException::User, mess.c_str(), _FILEINFO_);
}
return (cframe.c_str());
}
//------------------------------------------------------------------------------
void SpiceAttitudeKernelReader::GetCoverageStartAndEnd(StringArray &kernels,
Integer forNaifId,
Real &start,
Real &end,
bool needAngVel)
{
// first check to see if a kernel specified is not loaded; if not,
// try to load it
for (unsigned int ii = 0; ii < kernels.size(); ii++)
if (!IsLoaded(kernels.at(ii))) LoadKernel(kernels.at(ii));
SpiceInt idSpice = forNaifId;
SpiceInt arclen = 4;
SpiceInt typlen = 5;
bool firstInt = true;
bool idOnKernel = false;
char kStr[5] = " ";
char aStr[4] = " ";
char levelStr[8] = "SEGMENT";
char timeStr[4] = "TDB";
SpiceBoolean needAv = needAngVel;
ConstSpiceChar *kernelName = NULL;
ConstSpiceChar *level = levelStr;
ConstSpiceChar *timeSys = timeStr;
SpiceDouble tol = 0.0;
SpiceInt objId = 0;
SpiceInt numInt = 0;
SpiceChar *kernelType;
SpiceChar *arch;
SpiceDouble b;
SpiceDouble e;
Real bA1;
Real eA1;
SPICEINT_CELL(ids, 200);
SPICEDOUBLE_CELL(cover, 200000);
// look through each kernel
for (unsigned int ii = 0; ii < kernels.size(); ii++)
{
#ifdef DEBUG_CK_COVERAGE
MessageInterface::ShowMessage(wxT("Checking coverage for ID %d on kernel %s\n"),
forNaifId, (kernels.at(ii)).c_str());
#endif
kernelName = kernels[ii].char_str();
// check the type of kernel
arch = aStr;
kernelType = kStr;
getfat_c(kernelName, arclen, typlen, arch, kernelType);
if (failed_c())
{
ConstSpiceChar option[] = "LONG";
SpiceInt numChar = MAX_LONG_MESSAGE_VALUE;
SpiceChar err[MAX_LONG_MESSAGE_VALUE];
getmsg_c(option, numChar, err);
wxString errStr(wxString::FromAscii( err));
wxString errmsg = wxT("Error determining type of kernel \"");
errmsg += kernels.at(ii) + wxT("\". Message received from CSPICE is: ");
errmsg += errStr + wxT("\n");
reset_c();
throw UtilityException(errmsg);
}
#ifdef DEBUG_CK_COVERAGE
MessageInterface::ShowMessage(wxT("Kernel is of type %s\n"),
kernelType);
#endif
// only deal with CK kernels
if (eqstr_c(kernelType, "ck") || eqstr_c(kernelType, "CK"))
{
ckobj_c(kernelName, &ids);
// get the list of objects (IDs) for which data exists in the CK kernel
for (SpiceInt jj = 0; jj < card_c(&ids); jj++)
{
objId = SPICE_CELL_ELEM_I(&ids,jj);
#ifdef DEBUG_CK_COVERAGE
MessageInterface::ShowMessage(wxT("Kernel contains data for object %d\n"),
(Integer) objId);
#endif
// look to see if this kernel contains data for the object we're interested in
if (objId == idSpice)
{
idOnKernel = true;
break;
}
// if (objId == (idSpice * 1000))
// {
// idSpice = idSpice * 1000;
// naifIDSPICE = idSpice; // not the way to do this - should pass it back
// idOnKernel = true;
// break;
// }
}
// only deal with kernels containing data for the object we're interested in
if (idOnKernel)
{
#ifdef DEBUG_CK_COVERAGE
MessageInterface::ShowMessage(wxT("Checking kernel %s for data for object %d\n"),
(kernels.at(ii)).c_str(), (Integer) objId);
#endif
scard_c(0, &cover); // reset the coverage cell
ckcov_c (kernelName, idSpice, needAv, level, tol, timeSys, &cover);
if (failed_c())
{
ConstSpiceChar option[] = "LONG";
SpiceInt numChar = MAX_LONG_MESSAGE_VALUE;
SpiceChar err[MAX_LONG_MESSAGE_VALUE];
getmsg_c(option, numChar, err);
wxString errStr(wxString::FromAscii(err));
wxString errmsg = wxT("Error determining coverage for CK kernel \"");
errmsg += kernels.at(ii) + wxT("\". Message received from CSPICE is: ");
errmsg += errStr + wxT("\n");
reset_c();
throw UtilityException(errmsg);
}
numInt = wncard_c(&cover);
#ifdef DEBUG_CK_COVERAGE
MessageInterface::ShowMessage(wxT("Number of intervals found = %d\n"),
(Integer) numInt);
#endif
if ((firstInt) && (numInt > 0))
{
wnfetd_c(&cover, 0, &b, &e);
if (failed_c())
{
ConstSpiceChar option[] = "LONG";
SpiceInt numChar = MAX_LONG_MESSAGE_VALUE;
SpiceChar err[MAX_LONG_MESSAGE_VALUE];
getmsg_c(option, numChar, err);
wxString errStr(wxString::FromAscii(err));
wxString errmsg = wxT("Error getting interval times for CK kernel \"");
errmsg += kernels.at(ii) + wxT("\". Message received from CSPICE is: ");
errmsg += errStr + wxT("\n");
reset_c();
throw UtilityException(errmsg);
}
start = SpiceTimeToA1(b);
end = SpiceTimeToA1(e);
firstInt = false;
}
for (SpiceInt jj = 0; jj < numInt; jj++)
{
wnfetd_c(&cover, jj, &b, &e);
bA1 = SpiceTimeToA1(b);
eA1 = SpiceTimeToA1(e);
if (bA1 < start) start = bA1;
if (eA1 > end) end = eA1;
}
}
}
}
if (firstInt)
{
char itsName[256];
SpiceChar *itsNameSPICE = itsName;
SpiceBoolean found2;
bodc2n_c(naifIDSPICE, 256, itsNameSPICE, &found2);
if (found2 == SPICEFALSE)
{
wxString errmsg = wxT("Error - unable to find name for body in SPICE kernel pool");
throw UtilityException(errmsg);
}
else
{
wxString nameStr = wxString::FromAscii(itsNameSPICE);
wxString errmsg = wxT("Error - no data available for body ");
errmsg += nameStr + wxT(" on specified CK kernels");
throw UtilityException(errmsg);
}
}
}