internal CSVExportOptions GetSelectedOptions()
{
var rv = new CSVExportOptions();
if (rbTimeString.Checked)
{
rv.TimeFormat = TimeFormat.String;
}
else if (rbDecimalDays.Checked)
{
rv.TimeFormat = TimeFormat.DecimalDays;
}
else if (rbJulianDays.Checked)
{
rv.TimeFormat = TimeFormat.DecimalJulianDays;
}
rv.ExcelFriendly = cbExcelFriendly.Checked;
if (rbFlux.Checked)
{
rv.PhotometricFormat = PhotometricFormat.RelativeFlux;
}
else if (rbMagnitude.Checked)
{
rv.PhotometricFormat = PhotometricFormat.Magnitudes;
}
rv.M0 = m_M0;
rv.ExportAtmosphericExtinction = cbxAtmExtExport.Checked;
rv.ExportObjectPosition = cbxExportPositions.Checked;
rv.ExportPsfParameters = cbxExportFSPParameters.Checked;
if (cbxAtmExtExport.Checked)
{
rv.RAHours = m_RAHours;
rv.DEDeg = m_DEDeg;
rv.LongitudeDeg = m_Longitude;
rv.LatitudeDeg = m_Latitude;
rv.HeightKM = m_HeightKm;
}
if (m_ConfirmedDate.HasValue)
{
rv.FistMeasurementDay = m_ConfirmedDate;
rv.FistMeasurementTimeStamp = LCFile.GetTimeForFrame(LCFile.Header.MinFrame);
}
rv.Spacing = cbxSpacingOptions.SelectedIndex + 1;
rv.ExportStartingFrame = (int)nudExportStartFromFrame.Value;
rv.ForceSignalMinusBackground = this.OnlyExportSignalMunusBg || rbSeriesSmB.Checked;
return(rv);
}
public DateTime?ParseExposure(string fileName, Header header, out bool isMidPoint, out double?fitsExposure)
{
isMidPoint = true;
fitsExposure = null;
if (m_FitsIndex == null)
{
return(null);
}
string lowerFileNameOnly = Path.GetFileName(fileName);
if (string.IsNullOrWhiteSpace(lowerFileNameOnly))
{
return(null);
}
uint frameNo;
if (m_FitsIndex.TryGetValue(lowerFileNameOnly, out frameNo) &&
m_LCFile.CanDetermineFrameTimes)
{
string correctedForInstrumentalDelayMessage;
return(m_LCFile.GetTimeForFrame(frameNo, out correctedForInstrumentalDelayMessage));
}
return(null);
}
internal SingleMeasurement(LCMeasurement lcMeasurement, double frameNo, LCFile lcFile, bool dontIncludeTimes)
{
CurrFrameNo = (int)lcMeasurement.CurrFrameNo;
TargetNo = lcMeasurement.TargetNo;
Measurement = lcMeasurement.IsSuccessfulReading ? 1.0f * lcMeasurement.AdjustedReading : INVALID_MEASUREMENT_VALUE;
Background = lcMeasurement.IsSuccessfulReading
// NOTE: Make sure negative backgrounds are sent as negative values (not as the serialized UINTs)
? 1.0f * (int)lcMeasurement.TotalBackground
: INVALID_MEASUREMENT_VALUE;
string isCorrectedForInstrumentalDelay;
if (dontIncludeTimes ||
!lcFile.Footer.ReductionContext.HasEmbeddedTimeStamps /* If the times are entered by the user, only include the times for the frames enterred by the user*/)
{
Timestamp = DateTime.MinValue;
isCorrectedForInstrumentalDelay = null;
if ((int)frameNo == lcFile.Header.FirstTimedFrameNo)
Timestamp = lcFile.Header.FirstTimedFrameTime;
else if ((int)frameNo == lcFile.Header.LastTimedFrameNo)
Timestamp = lcFile.Header.SecondTimedFrameTime;
}
else
{
Timestamp = lcFile.GetTimeForFrame(frameNo, out isCorrectedForInstrumentalDelay);
}
IsCorrectedForInstrumentalDelay = lcFile.Header.InstrumentalDelayCorrectionsNotRequired() || !string.IsNullOrEmpty(isCorrectedForInstrumentalDelay);
IsSuccessful = lcMeasurement.IsSuccessfulReading;
}
internal SingleMeasurement(LCMeasurement lcMeasurement, double frameNo, LCFile lcFile, bool dontIncludeTimes)
{
CurrFrameNo = (int)lcMeasurement.CurrFrameNo;
TargetNo = lcMeasurement.TargetNo;
Measurement = lcMeasurement.IsSuccessfulReading ? 1.0f * lcMeasurement.AdjustedReading : INVALID_MEASUREMENT_VALUE;
Background = lcMeasurement.IsSuccessfulReading
// NOTE: Make sure negative backgrounds are sent as negative values (not as the serialized UINTs)
? 1.0f * (int)lcMeasurement.TotalBackground
: INVALID_MEASUREMENT_VALUE;
string isCorrectedForInstrumentalDelay;
if (dontIncludeTimes ||
!lcFile.Footer.ReductionContext.HasEmbeddedTimeStamps /* If the times are entered by the user, only include the times for the frames enterred by the user*/)
{
Timestamp = DateTime.MinValue;
isCorrectedForInstrumentalDelay = null;
if ((int)frameNo == lcFile.Header.FirstTimedFrameNo)
{
Timestamp = lcFile.Header.FirstTimedFrameTime;
}
else if ((int)frameNo == lcFile.Header.LastTimedFrameNo)
{
Timestamp = lcFile.Header.SecondTimedFrameTime;
}
}
else
{
Timestamp = lcFile.GetTimeForFrame(frameNo, out isCorrectedForInstrumentalDelay);
}
IsCorrectedForInstrumentalDelay = lcFile.Header.InstrumentalDelayCorrectionsNotRequired() || !string.IsNullOrEmpty(isCorrectedForInstrumentalDelay);
IsSuccessful = lcMeasurement.IsSuccessfulReading;
}
internal SingleMeasurement(frmLightCurve.BinnedValue binnedMeasurement, int targetNo, double binMiddleFrameNo, LCFile lcFile, bool dontIncludeTimes, int totalBins)
{
CurrFrameNo = (int)binnedMeasurement.BinNo;
TargetNo = (byte)targetNo;
Measurement = binnedMeasurement.IsSuccessfulReading ? (float)binnedMeasurement.AdjustedValue : INVALID_MEASUREMENT_VALUE;
Background = binnedMeasurement.IsSuccessfulReading ? (float)binnedMeasurement.BackgroundValue : INVALID_MEASUREMENT_VALUE;
string isCorrectedForInstrumentalDelay;
if (dontIncludeTimes ||
/* If the times are entered by the user, only include the times for the first and last bin derived from the frame times enterred by the user*/
(!lcFile.Footer.ReductionContext.HasEmbeddedTimeStamps && binnedMeasurement.BinNo != 1 && binnedMeasurement.BinNo != totalBins))
{
Timestamp = DateTime.MinValue;
isCorrectedForInstrumentalDelay = null;
}
else
{
Timestamp = lcFile.GetTimeForFrame(binMiddleFrameNo, out isCorrectedForInstrumentalDelay);
}
IsCorrectedForInstrumentalDelay = lcFile.Header.InstrumentalDelayCorrectionsNotRequired() || !string.IsNullOrEmpty(isCorrectedForInstrumentalDelay);
IsSuccessful = binnedMeasurement.IsSuccessfulReading;
}
internal SingleMeasurement(frmLightCurve.BinnedValue binnedMeasurement, int targetNo, double binMiddleFrameNo, LCFile lcFile, bool dontIncludeTimes, int totalBins)
{
CurrFrameNo = (int)binnedMeasurement.BinNo;
TargetNo = (byte)targetNo;
Measurement = binnedMeasurement.IsSuccessfulReading ? (float)binnedMeasurement.AdjustedValue : INVALID_MEASUREMENT_VALUE;
Background = binnedMeasurement.IsSuccessfulReading ? (float)binnedMeasurement.BackgroundValue : INVALID_MEASUREMENT_VALUE;
string isCorrectedForInstrumentalDelay;
if (dontIncludeTimes ||
/* If the times are entered by the user, only include the times for the first and last bin derived from the frame times enterred by the user*/
(!lcFile.Footer.ReductionContext.HasEmbeddedTimeStamps && binnedMeasurement.BinNo != 1 && binnedMeasurement.BinNo != totalBins))
{
Timestamp = DateTime.MinValue;
isCorrectedForInstrumentalDelay = null;
}
else
{
Timestamp = lcFile.GetTimeForFrame(binMiddleFrameNo, out isCorrectedForInstrumentalDelay);
}
IsCorrectedForInstrumentalDelay = lcFile.Header.InstrumentalDelayCorrectionsNotRequired() || !string.IsNullOrEmpty(isCorrectedForInstrumentalDelay);
IsSuccessful = binnedMeasurement.IsSuccessfulReading;
}