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case IMessage::Set :
if(propReceive.getDevice() != "sharknir_temp" && propReceive.getName() != "sensor")
{
// U9_LLOG(__FUNCTION__ << " ~ Received a SET for : \"" << Me.full_property_string(propReceive) << "\"");
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}
Me.UpdateProperty(propReceive);
break;
default:
E_LLOG(__FUNCTION__ << " ~ Unexpected INDI message (" << indiMsgReceive.getType() << ") : \"" << Me.full_property_string(propReceive) << "\"");
break;
}
}
}
usleep(60000000);
}
W_LLOG(__FUNCTION__ << " ~ Exiting");
return NULL;
}
unsigned int SeqDataMgr::ExtimateTiming()
{
int nreads, ngroups, ndrops, ncoadds, nresets, ndit;
std::string readout = sashaReadout["value"].getValue();
double frame_time = 4.5f;
if(m_sashaTiming.find(readout) != m_sashaTiming.end())
frame_time = m_sashaTiming[readout];
nreads = su::convertStringToType<int>(sashaNumReads["value"].getValue());
ngroups = su::convertStringToType<int>(sashaNumGroups["value"].getValue());
ndrops = su::convertStringToType<int>(sashaNumDrops["value"].getValue());
nresets = su::convertStringToType<int>(sashaNumResets["value"].getValue());
ncoadds = su::convertStringToType<int>(sashaNumCoadds["value"].getValue());
ndit = su::convertStringToType<int>(sashaNumSeqs["value"].getValue());
unsigned int result = 1000*frame_time*ndit*(ngroups*(nreads + ndrops)*ncoadds - ndrops*ncoadds + nresets);
// U9_LLOG("ndit : " << ndit << "; nreads : " << nreads << "; ngroups : " << ngroups << "; ndrops : " << ndrops << "; ncoadds : " << ncoadds << "; nresets : " << nresets << "; frame time : " << frame_time << "; result = " << result);
return result;
}
void SeqDataMgr::SendNewProperty(IProperty & prop)
{
U6_LLOG(__FUNCTION__ << " ~ " << full_property_string(prop));
m_newPropMutex.lock();
// prop.setState(IProperty::Ok);
m_newProperties.push_back(prop);
m_newPropMutex.unlock();
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}
void SeqDataMgr::UpdateProperty(const IProperty & prop)
{
std::string device = prop.getDevice();
std::string name = prop.getName();
bool prop_updated = false;
std::map<std::string, IProperty &>::iterator it;
if(device == "sasha_save" && name == "save_image")
{
m_bBlobArrived = true;
SaveIncomingFile(prop);
}
else
{
for(it = m_sashaProps.begin(); it != m_sashaProps.end(); it++)
{
if(device == it->second.getDevice())
{
if(name == it->second.getName())
{
prop_updated = true;
if(prop.getDevice() == "sharknir_temp" && prop.getName() == "sensor")
{
std::string id = "identifier";
if(prop.getElements().find(id) != prop.getElements().end())
if(prop[id].get() == it->second[id].get())
{
it->second = prop;
// U9_LLOG("Property SET : " << prop.getDevice() << "." << prop.getName() << "." << prop[id].get());
}
continue;
}
}
it->second = prop;
m_sashaPropsSet[it->first] = true;
// if(prop.getDevice() != "sharknir_temp" && prop.getName() != "sensor" && prop.getDevice() != "sharknir_pres1" && prop.getName() != "sensor")
// U9_LLOG("Property SET : " << prop.getDevice() << "." << prop.getName());
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}
}
}
if(!prop_updated)
{
U9_LLOG("Unrecognized property " << prop.getDevice() << "." << prop.getName() << " received");
}
}
}
void SeqDataMgr::CheckUpdateProperty(const IProperty & prop)// DEF
{
bool prop_updated = false;
std::map<std::string, IProperty &>::iterator it;
for(it = m_sashaProps.begin(); it != m_sashaProps.end(); it++)
{
if(prop.getDevice() == it->second.getDevice())
{
if(prop.getName() == it->second.getName())
{
if(prop.getDevice() == "sharknir_temp" && prop.getName() == "sensor")
// U9_LLOG(full_property_string(it->second));
// U9_LLOG(full_property_string(prop));
}
std::string id = "identifier";
if(prop.getElements().find(id) != prop.getElements().end())
{
if(prop[id].get() == it->second[id].get())
{
prop_updated = true;
if(it->second.getElements().size() == 1)
{
it->second = prop;
U9_LLOG("Property Initialized : " << prop.getDevice() << "." << prop.getName() << "." << prop[id].get());
break;
}
}
else
// U9_LLOG(full_property_string(prop));
continue;
else
{
U9_LLOG("Property NOT Initialized : " << full_property_string(prop));
continue;
}
}
else
{
prop_updated = true;
if(it->second.getElements().empty())
{
it->second = prop;
// it->second.setState(IProperty::Ok);
U9_LLOG("Property Initialized : " << full_property_string(prop));
}
break;
}
}
}
}
if(!prop_updated)
{
U9_LLOG("Unrecognized property \"" << full_property_string(prop) << "\" received");
}
}
std::string SeqDataMgr::full_property_string(const IProperty &prop)
{
std::stringstream log_message;
log_message << prop.createUniqueKey();
log_message << " : ";
std::map<std::string, indi::IElement>::const_iterator it;
const std::map<std::string, indi::IElement> & elements = prop.getElements();
switch(prop.getType())
{
case IProperty::Text:
case IProperty::Number:
if(prop.getType() == IProperty::Text)
log_message << "IProperty::Text -> ";
else
log_message << "IProperty::Number -> ";
for(it = elements.begin(); it != elements.end(); it++)
{
if(it->first != "file")
{
log_message << "Element: '" << it->first << "'; Value : " << it->second.get() << "; ";
}
else
{
log_message << "Element: '" << it->first << "'";
}
}
break;
case IProperty::Switch:
log_message << "IProperty::Switch -> ";
for(it = elements.begin(); it != elements.end(); it++)
{
if(it->first == "value")
{
bool isOn = it->second.getSwitchState() == IElement::On;
log_message << "Element: '" << it->first << "'; Value : IElement::" << (isOn ? "On" : "Off") << "; ";
}
else
{
log_message << "Element: '" << it->first << "'; Value : " << it->second.get() << "; ";
}
}
break;
case IProperty::Unknown:
log_message << "IProperty::Unknown -> ";
for(it = elements.begin(); it != elements.end(); it++)
{
log_message << "Element: '" << it->first << "'; Value : " << it->second.get() << "; ";
}
break;
case IProperty::Light:
log_message << "IProperty::Light -> ";
for(it = elements.begin(); it != elements.end(); it++)
{
log_message << "Ligth Type - Element: \"" << it->first << "\"; Value : \"" << it->second.get() << "\"; ";
}
break;
case IProperty::BLOB:
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for(it = elements.begin(); it != elements.end(); it++)
{
log_message << "BLOB Type size : " << prop["file"].getSize<unsigned int>() << "; ";
}
break;
}
// else
{
// log_message << "EOF Message";
}
return log_message.str();
}
void * SeqDataMgr::fit_mem_realloc(void * old_pointer, size_t new_size)
{
void * pNew = NULL;
pNew = realloc(old_pointer, new_size);
U9_LLOG(__FUNCTION__ << " ~ " << old_pointer << " -> " << pNew << " ~ " << new_size/2880.f);
return pNew;
}
int SeqDataMgr::UpdateFitFile(fitsfile * pInFit, fitsfile * ptrFits)
{
char simple_test[84];
*(simple_test + 80) = 0;
char string_value[32];
int ref_fit_status = 0;
int update_fit_status = 0;
int int_value;
float float_value;
fits_read_key(pInFit, TFLOAT, "BZERO", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == KEY_NO_EXIST || ref_fit_status)
{
if(ref_fit_status != KEY_NO_EXIST)
{
U9_LLOG("ref_fit_status = " << ref_fit_status);
}
ref_fit_status = 0;
}
else
{
fits_update_key(ptrFits, TFLOAT, "BZERO ", &float_value, simple_test, &update_fit_status);
}
fits_read_key(pInFit, TFLOAT, "BSCALE", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == KEY_NO_EXIST)
{
ref_fit_status = 0;
}
else
{
fits_update_key(ptrFits, TFLOAT, "BSCALE ", &float_value, simple_test, &update_fit_status);
}
fits_read_key(pInFit, TSTRING, "CAMERA", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "CAMERA", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "CAPCOMP", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "CAPCOMP", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "DATE-OBS", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "DTEOBSM", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "DETECTOR", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "DETECTOM", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "EXPMODE", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "EXPMODE", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "EXPTIME", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "EXPTIME", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "FILENAME", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "FILENAME", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "FILTPOLE", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "FILTPOLE", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "FRAME", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "FRAME", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "GAIN", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "GAINM", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "ITIME", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "ITIME", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "NCOADDS", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "NCOADDS", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "NCOADDS", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "NDROPS", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "NDROPS", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "NGROUPS", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "NGROUPS", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "NOUTPUTS", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "NOUTPUTS", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "NRAMPS", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "NRAMPS", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "NREADS", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "NREADS", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "NREADS", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "NRESETS", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "NRESETS", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "OBJNAME", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "OBJNAME", string_value, simple_test, &update_fit_status);
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else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "RAMPTIM", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "RAMPTIM", &float_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "SUBSECNM", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "SUBSECNM", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "SUBSECH ", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "SUBSECH ", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "SUBSECW ", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "SUBSECW ", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "SUBSECX1 ", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "SUBSECX1 ", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "SUBSECX2 ", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "SUBSECX2 ", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "SUBSECY1 ", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "SUBSECY1 ", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "SUBSECY2 ", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "SUBSECY2 ", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "SYSSWVER", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "SYSSWVER", &string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "TIME-END", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "TIME-END", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TSTRING, "TIME-OBS", string_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TSTRING, "TIME-OBS", string_value, simple_test, &update_fit_status);
else ref_fit_status = 0;
fits_read_key(pInFit, TFLOAT, "USEREXP", &float_value, simple_test, &ref_fit_status);
if(ref_fit_status == 0)fits_update_key(ptrFits, TFLOAT, "USEREXP", &float_value, simple_test, &update_fit_status);
if(update_fit_status)
{
U9_LLOG("Update Fit Status : " << update_fit_status);
LogCfitsioStack(5);
}
return update_fit_status;
}
void SeqDataMgr::LogCfitsioStack(int n)
{
char simple_test[84];
*(simple_test + 80) = 0;
for(int i = 0; i < 7; i++)
{
fits_read_errmsg(simple_test);
U9_LLOG(simple_test);
}
}
void SeqDataMgr::SaveIncomingFile(const IProperty & prop)
{
U6_LLOG(__FUNCTION__);
std::string filenameSASHA, filenameSHINS, dateISO8601;
if(m_ExpectedBlobs > 0)m_ExpectedBlobs--;
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fitsfile * ptrFitsFileSASHA = NULL;
fitsfile * ptrFitsFileSHINS = NULL;
int FitsStatusShins = 0, FitsStatusSasha = 0;
// std::vector<long> vecNaxes(4, 0);
long naxes[4] = { 36, 40, 1, 1 };
int bitpix = 16, naxis = 2;
long naxesSasha[4] = { 36, 40, 1, 1 };
int bitpixSasha = 16, naxisSasha = 4;
char simple_test[84];
*(simple_test + 80) = 0;
if(prop.find("file"))
{
if(prop["file"].getSize<float>() > 0.0)
{
const char * fitsBytes = prop["file"].get().c_str();
size_t blobSize = prop["file"].getSize<unsigned int>();
void * pBlobIncoming = malloc(blobSize);
if(pBlobIncoming)
{
int blobLength = from64tobits((char *)pBlobIncoming, fitsBytes);
if(blobLength < 0)
{
free(pBlobIncoming);
A_LLOG("Bad base 64 FITS file WILL NOT BE SAVED");
}
else
{
dateISO8601 = prop.getTimeStamp().getFormattedIso8601Str();
su::SetTimeWorkingDirectory(dateISO8601);
filenameSHINS = "SHARKNIR." + dateISO8601 + "." + m_sashaSetup[suc::instrument_mode] + ".fits";
filenameSASHA = "SHARKNIR." + dateISO8601 + "." + m_sashaSetup[suc::instrument_mode] + ".SASHA.fits";
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if(m_bSaveIncomingBlob)
su::debug_save_memory_block((char *)pBlobIncoming, blobSize, filenameSASHA.c_str());
fits_open_memfile(&ptrFitsFileSASHA, "", READONLY, &pBlobIncoming, &blobSize, 0, NULL, &FitsStatusSasha);
fits_get_img_param(ptrFitsFileSASHA, 4, &bitpixSasha, &naxisSasha, naxesSasha, &FitsStatusSasha);
if(FitsStatusSasha)LogCfitsioStack(5);
fits_create_file(&ptrFitsFileSHINS, filenameSHINS.c_str(), &FitsStatusShins);
fits_create_img(ptrFitsFileSHINS, bitpix, naxis, naxes, &FitsStatusShins);
FitsStatusShins = SetFitsValues(ptrFitsFileSHINS);
FitsStatusShins = UpdateFitFile(ptrFitsFileSASHA, ptrFitsFileSHINS);
fits_resize_img(ptrFitsFileSHINS, bitpixSasha, naxisSasha, naxesSasha, &FitsStatusShins);
fits_copy_data(ptrFitsFileSASHA, ptrFitsFileSHINS, &FitsStatusShins);
fits_write_chksum(ptrFitsFileSHINS, &FitsStatusShins);
fits_flush_file(ptrFitsFileSHINS, &FitsStatusShins);
if(FitsStatusShins)LogCfitsioStack(5);
FitsStatusShins = 0;
fits_close_file(ptrFitsFileSHINS, &FitsStatusShins);
if(FitsStatusShins)LogCfitsioStack(5);
fits_close_file(ptrFitsFileSASHA, &FitsStatusSasha);
U9_LLOG("Saved fits file " << filenameSHINS);
m_last_generated_files.push_back(filenameSHINS);
free(pBlobIncoming);
}
}
else
{
std::stringstream log_msg;
log_msg << "Error : could not allocate memory for incoming blob";
E_LLOG(log_msg.str());
U8_LLOG("");
throw std::runtime_error(log_msg.str());
}
}
}
U8_LLOG("");
}
void SeqDataMgr::updateInstrumentHeader()
{
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SInstrumentHeader & ih = m_instrumentHeader;
if(ih.init)
{
ih.init = false;
ih.adc.nameid = suc::ADC1;
ih.adc.mechanical_id = 0;
ih.apodizer_w.nameid = suc::APODIZER_W;
ih.apodizer_w.mechanical_id = 0;
ih.cal_fiber_defocus_lamp.nameid = suc::CAL_FIBER_DEFOCUS_LAMP;
ih.cal_fiber_defocus_lamp.mechanical_id = 0;
ih.cal_fiber_dep.nameid = suc::CAL_FIBER_DEP;
ih.cal_fiber_dep.mechanical_id = 0;
ih.cal_fiber_focus_lamp.nameid = suc::CAL_FIBER_FOCUS_LAMP;
ih.cal_fiber_focus_lamp.mechanical_id = 0;
ih.cal_filter_dep.nameid = suc::CAL_FILTER_DEP;
ih.cal_filter_dep.mechanical_id = 0;
ih.cal_flat_field_lamp.nameid = suc::CAL_FF_LAMP;
ih.cal_flat_field_lamp.mechanical_id = 0;
ih.cal_mirror_dep.nameid = suc::CAL_MIRROR_DEP;
ih.cal_mirror_dep.mechanical_id = 0;
ih.coro_slit_w.nameid = suc::CORO_SLIT_W;
ih.coro_slit_w.mechanical_id = 0;
ih.db_filt_w.nameid = suc::DB_FILT_W;
ih.db_filt_w.mechanical_id = 0;
ih.derotator.nameid = suc::DEROT;
ih.derotator.mechanical_id = 0;
ih.inbeam_dep.nameid = suc::INBEAM_DEP;
ih.inbeam_dep.mechanical_id = 0;
ih.inbeam_tt.nameid = suc::INBEAM_TT;
ih.inbeam_tt.mechanical_id = 0;
ih.lyot_grism_w.nameid = suc::LYOT_GRISM_W;
ih.lyot_grism_w.mechanical_id = 0;
ih.nd_filt_w.nameid = suc::ND_FILT_W;
ih.nd_filt_w.mechanical_id = 0;
ih.pupil_lens_dep.nameid = suc::PUPIL_LENS_DEP;
ih.pupil_lens_dep.mechanical_id = 0;
ih.sci_filt_w1.nameid = suc::SCI_FILT_W1;
ih.sci_filt_w1.mechanical_id = 0;
ih.sci_filt_w2.nameid = suc::SCI_FILT_W2;
ih.sci_filt_w2.mechanical_id = 0;
ih.shutter.nameid = suc::SHUTTER;
ih.shutter.mechanical_id = 0;
ih.adc_mode.nameid = suc::ADCMode;
ih.drot_mode.nameid = suc::DROTMode;
ih.mask_comb.nameid = suc::mask_comb;
ih.temperature_start = ih.temperature_end = 0.0f;
}
ih.temperature_end = ih.temperature_start;
ih.temperature_start = getMeanTemperature();
const std::map<std::string, indi::IElement> & elementsA = sharknirTemperatureDetector.getElements();
float valueA = 0.f;
bool bValueA = false;
if(elementsA.find("value") != elementsA.end())
{
valueA = elementsA.find("value")->second.get<float>();
bValueA = true;
}
ih.temperature_start = valueA;
if(m_pGetMotorStatus)
{
m_pGetMotorStatus(ih.apodizer_w);
m_pGetMotorStatus(ih.coro_slit_w);
m_pGetMotorStatus(ih.lyot_grism_w);
m_pGetMotorStatus(ih.nd_filt_w);
m_pGetMotorStatus(ih.db_filt_w);
m_pGetMotorStatus(ih.sci_filt_w1);
m_pGetMotorStatus(ih.sci_filt_w2);
m_pGetMotorStatus(ih.inbeam_dep);
m_pGetMotorStatus(ih.pupil_lens_dep);
ih.pupil_lens_dep.status = ih.pupil_lens_dep.type == "IN";
m_pGetMotorStatus(ih.shutter);
ih.shutter.status = ih.shutter.type == "OUT";
m_pGetMotorStatus(ih.inbeam_tt);
m_pGetMotorStatus(ih.cal_fiber_dep);
m_pGetMotorStatus(ih.cal_mirror_dep);
ih.cal_mirror_dep.status = ih.cal_mirror_dep.type == "IN";
m_pGetMotorStatus(ih.cal_filter_dep);
m_pGetMotorStatus(ih.derotator);
m_pGetMotorStatus(ih.adc);
m_pGetMotorStatus(ih.drot_mode);
m_pGetMotorStatus(ih.adc_mode);
m_pGetMotorStatus(ih.mask_comb);
ih.cal_flat_field_lamp.status = m_obContext.flat_field_lamp == "ON";
ih.cal_flat_field_lamp.type = m_obContext.flat_field_lamp;
ih.cal_fiber_focus_lamp.status = m_obContext.focus_lamp == "ON";
ih.cal_fiber_focus_lamp.type = m_obContext.focus_lamp;
ih.cal_fiber_defocus_lamp.status = m_obContext.defocus_lamp == "ON";
ih.cal_fiber_defocus_lamp.type = m_obContext.defocus_lamp;
if(m_pGetRtcStatus)
{
for(std::map<std::string, std::string>::iterator itRtc = m_rtcKeywords.begin(); itRtc != m_rtcKeywords.end(); itRtc++)
{
itRtc->second = m_pGetRtcStatus(itRtc->first);
}
if(m_pGetTcsPreset)
{
m_TcsPreset = m_pGetTcsPreset();
}
m_bInstrumentSetupUpdated = true;
U8_LLOG("");
float SeqDataMgr::getMeanTemperature()
{
const std::map<std::string, indi::IElement> & elementsA = sharknirTemperatureDetector.getElements();
float valueA = 0.f, valueB = 0.f;
bool bValueA = false, bValueB = false;
if(elementsA.find("value") != elementsA.end())
{
valueA = elementsA.find("value")->second.get<float>();
bValueA = true;
}
const std::map<std::string, indi::IElement> & elementsB = sharknirTemperatureColdFinger.getElements();
if(elementsB.find("value") != elementsB.end())
{
valueB = elementsB.find("value")->second.get<float>();
bValueB = true;
}
float meanTemperature = 0.f;
if(bValueA)meanTemperature += valueA;
if(bValueB)meanTemperature += valueB;
if(bValueA && bValueB)meanTemperature /= 2.f;
return meanTemperature;
}