private static MSScan GetScanFromFile(int argScanNo, double argSingleToNoise, double argPeakBackground, double argPeptideBackground, short argMaxCharge, GlypID.Readers.clsRawData Raw)
{
float[] _cidMzs = null;
float[] _cidIntensities = null;
GlypID.Peaks.clsPeak[] _cidPeaks = new GlypID.Peaks.clsPeak[1];
GlypID.Peaks.clsPeak[] _parentPeaks = new GlypID.Peaks.clsPeak[1];
GlypID.HornTransform.clsHornTransform mobjTransform = new GlypID.HornTransform.clsHornTransform();
GlypID.HornTransform.clsHornTransformParameters mobjTransformParameters = new GlypID.HornTransform.clsHornTransformParameters();
GlypID.HornTransform.clsHornTransformResults[] _transformResult;
GlypID.Peaks.clsPeakProcessor cidPeakProcessor = new GlypID.Peaks.clsPeakProcessor();
GlypID.Peaks.clsPeakProcessorParameters cidPeakParameters = new GlypID.Peaks.clsPeakProcessorParameters();
GlypID.Peaks.clsPeakProcessor parentPeakProcessor = new GlypID.Peaks.clsPeakProcessor();
GlypID.Peaks.clsPeakProcessorParameters parentPeakParameters = new GlypID.Peaks.clsPeakProcessorParameters();
//Start Read Scan
MSScan scan = new MSScan(argScanNo);
Raw.GetSpectrum(argScanNo, ref _cidMzs, ref _cidIntensities);
scan.MsLevel = Raw.GetMSLevel(Convert.ToInt32(argScanNo));
double min_peptide_intensity = 0;
scan.Time = Raw.GetScanTime(scan.ScanNo);
scan.ScanHeader = Raw.GetScanDescription(scan.ScanNo);
if (scan.MsLevel != 1)
{
float[] _parentRawMzs = null;
float[] _parentRawIntensitys = null;
string Header = Raw.GetScanDescription(argScanNo);
cidPeakProcessor.ProfileType = GlypID.enmProfileType.CENTROIDED;
if (Header.Substring(Header.IndexOf("+") + 1).Trim().StartsWith("p"))
{
cidPeakProcessor.ProfileType = GlypID.enmProfileType.PROFILE;
}
// cidPeakProcessor.DiscoverPeaks(ref _cidMzs, ref _cidIntensities, ref _cidPeaks,
// Convert.ToSingle(mobjTransformParameters.MinMZ), Convert.ToSingle(mobjTransformParameters.MaxMZ), false);
for (int chNum = 0; chNum < _cidMzs.Length; chNum++)
{
scan.MSPeaks.Add(new MSPeak(
Convert.ToSingle(_cidMzs[chNum]),
Convert.ToSingle(_cidIntensities[chNum])));
}
//for (int chNum = 0; chNum < _cidMzs.Length; chNum++)
//{
// scan.MSPeaks.Add(new MSPeak(
// Convert.ToSingle(_cidMzs[chNum]),
// Convert.ToSingle(_cidIntensities[chNum])));
//}
// Get parent information
scan.ParentScanNo = Raw.GetParentScan(scan.ScanNo);
Raw.GetSpectrum(scan.ParentScanNo, ref _parentRawMzs, ref _parentRawIntensitys);
parentPeakProcessor.ProfileType = GlypID.enmProfileType.PROFILE;
parentPeakProcessor.DiscoverPeaks(ref _parentRawMzs, ref _parentRawIntensitys, ref _parentPeaks, Convert.ToSingle(mobjTransformParameters.MinMZ), Convert.ToSingle(mobjTransformParameters.MaxMZ), true);
float _parentBackgroundIntensity = (float)parentPeakProcessor.GetBackgroundIntensity(ref _parentRawIntensitys);
_transformResult = new GlypID.HornTransform.clsHornTransformResults[1];
bool found = false;
if (Raw.IsFTScan(scan.ParentScanNo))
{
// High resolution data
found = mobjTransform.FindPrecursorTransform(Convert.ToSingle(_parentBackgroundIntensity), Convert.ToSingle(min_peptide_intensity), ref _parentRawMzs, ref _parentRawIntensitys, ref _parentPeaks, Convert.ToSingle(scan.ParentMZ), ref _transformResult);
}
if (!found)//de-isotope fail
{
// Low resolution data or bad high res spectra
short cs = Raw.GetMonoChargeFromHeader(scan.ScanNo);
double monoMZ = Raw.GetMonoMzFromHeader(scan.ScanNo);
List <float> ParentMzs = new List <float>(_parentRawMzs);
int CloseIdx = MassUtility.GetClosestMassIdx(ParentMzs, Convert.ToSingle(monoMZ));
if (cs > 0)
{
short[] charges = new short[1];
charges[0] = cs;
mobjTransform.AllocateValuesToTransform(Convert.ToSingle(scan.ParentMZ), Convert.ToInt32(_parentRawIntensitys[CloseIdx]), ref charges, ref _transformResult);
}
else
{
// instrument has no charge just store 2 and 3.
short[] charges = new short[2];
charges[0] = 2;
charges[1] = 3;
mobjTransform.AllocateValuesToTransform(Convert.ToSingle(scan.ParentMZ), Convert.ToInt32(_parentRawIntensitys[CloseIdx]), ref charges, ref _transformResult);
}
}
if (_transformResult[0].mint_peak_index == -1) //De-isotope parent scan
{
//Get parent info
MSScan _parentScan = GetScanFromFile(scan.ParentScanNo, argSingleToNoise, argPeakBackground, argPeptideBackground, argMaxCharge, Raw);
float[] _MSMzs = null;
float[] _MSIntensities = null;
Raw.GetSpectrum(scan.ParentScanNo, ref _MSMzs, ref _MSIntensities);
// Now find peaks
parentPeakParameters.SignalToNoiseThreshold = 0;
parentPeakParameters.PeakBackgroundRatio = 0.01;
parentPeakProcessor.SetOptions(parentPeakParameters);
parentPeakProcessor.ProfileType = GlypID.enmProfileType.PROFILE;
parentPeakProcessor.DiscoverPeaks(ref _MSMzs, ref _MSIntensities, ref _cidPeaks,
Convert.ToSingle(mobjTransformParameters.MinMZ), Convert.ToSingle(mobjTransformParameters.MaxMZ), true);
//Look for charge and mono.
float[] monoandcharge = FindChargeAndMono(_cidPeaks, Convert.ToSingle(Raw.GetParentMz(scan.ScanNo)), scan.ScanNo, Raw);
//scan.ParentMonoMW = _parentScan.MSPeaks[ClosedIdx].MonoMass;
//scan.ParentAVGMonoMW = _parentScan.MSPeaks[ClosedIdx].;
scan.ParentMZ = monoandcharge[0];
if (monoandcharge[1] == 0.0f)
{
scan.ParentCharge = Convert.ToInt32(Raw.GetMonoChargeFromHeader(scan.ParentScanNo));
}
else
{
scan.ParentCharge = Convert.ToInt32(monoandcharge[1]);
}
scan.ParentMonoMW = (monoandcharge[0] - Atoms.ProtonMass) * monoandcharge[1];
}
else
{
scan.ParentMonoMW = (float)_transformResult[0].mdbl_mono_mw;
scan.ParentAVGMonoMW = (float)_transformResult[0].mdbl_average_mw;
scan.ParentMZ = (float)_transformResult[0].mdbl_mz;
scan.ParentCharge = (int)_transformResult[0].mshort_cs;
}
scan.IsCIDScan = Raw.IsCIDScan(argScanNo);
scan.IsFTScan = Raw.IsFTScan(argScanNo);
Array.Clear(_transformResult, 0, _transformResult.Length);
Array.Clear(_cidPeaks, 0, _cidPeaks.Length);
Array.Clear(_cidMzs, 0, _cidMzs.Length);
Array.Clear(_cidIntensities, 0, _cidIntensities.Length);
Array.Clear(_parentRawMzs, 0, _parentRawMzs.Length);
Array.Clear(_parentRawIntensitys, 0, _parentRawIntensitys.Length);
}
else //MS Scan
{
scan.ParentMZ = 0.0f;
double mdbl_current_background_intensity = 0;
// Now find peaks
parentPeakParameters.SignalToNoiseThreshold = argSingleToNoise;
parentPeakParameters.PeakBackgroundRatio = argPeakBackground;
parentPeakProcessor.SetOptions(parentPeakParameters);
parentPeakProcessor.ProfileType = GlypID.enmProfileType.PROFILE;
parentPeakProcessor.DiscoverPeaks(ref _cidMzs, ref _cidIntensities, ref _cidPeaks,
Convert.ToSingle(mobjTransformParameters.MinMZ), Convert.ToSingle(mobjTransformParameters.MaxMZ), true);
mdbl_current_background_intensity = parentPeakProcessor.GetBackgroundIntensity(ref _cidIntensities);
// Settings
min_peptide_intensity = mdbl_current_background_intensity * mobjTransformParameters.PeptideMinBackgroundRatio;
if (mobjTransformParameters.UseAbsolutePeptideIntensity)
{
if (min_peptide_intensity < mobjTransformParameters.AbsolutePeptideIntensity)
{
min_peptide_intensity = mobjTransformParameters.AbsolutePeptideIntensity;
}
}
mobjTransformParameters.PeptideMinBackgroundRatio = argPeptideBackground;
mobjTransformParameters.MaxCharge = argMaxCharge;
mobjTransform.TransformParameters = mobjTransformParameters;
// Now perform deisotoping
_transformResult = new GlypID.HornTransform.clsHornTransformResults[1];
mobjTransform.PerformTransform(Convert.ToSingle(mdbl_current_background_intensity), Convert.ToSingle(min_peptide_intensity), ref _cidMzs, ref _cidIntensities, ref _cidPeaks, ref _transformResult);
// for getting results
for (int chNum = 0; chNum < _transformResult.Length; chNum++)
{
double sumintensity = 0.0;
double mostIntenseIntensity = 0.0;
for (int i = 0; i < _transformResult[chNum].marr_isotope_peak_indices.Length; i++)
{
sumintensity = sumintensity + _cidPeaks[_transformResult[chNum].marr_isotope_peak_indices[i]].mdbl_intensity;
if (Math.Abs(_transformResult[chNum].mdbl_most_intense_mw -
(_cidPeaks[_transformResult[chNum].marr_isotope_peak_indices[i]].mdbl_mz * _transformResult[chNum].mshort_cs - Atoms.ProtonMass * _transformResult[chNum].mshort_cs))
< 1.0 / _transformResult[chNum].mshort_cs)
{
mostIntenseIntensity = _cidPeaks[_transformResult[chNum].mint_peak_index].mdbl_intensity;
}
}
scan.MSPeaks.Add(new MSPeak(
Convert.ToSingle(_transformResult[chNum].mdbl_mono_mw),
_transformResult[chNum].mint_mono_intensity,
_transformResult[chNum].mshort_cs,
Convert.ToSingle(_transformResult[chNum].mdbl_mz),
Convert.ToSingle(_transformResult[chNum].mdbl_fit),
Convert.ToSingle(_transformResult[chNum].mdbl_most_intense_mw),
mostIntenseIntensity,
sumintensity
));
}
Array.Clear(_transformResult, 0, _transformResult.Length);
Array.Clear(_cidPeaks, 0, _cidPeaks.Length);
Array.Clear(_cidMzs, 0, _cidMzs.Length);
Array.Clear(_cidIntensities, 0, _cidIntensities.Length);
}
return(scan);
}
public bool IsCIDScan(int argScanNum)
{
return(Raw.IsCIDScan(argScanNum));
}