Example #1
0
        /// <summary>
        /// Aligns fragments observed Mz values
        /// </summary>
        /// <param name="result"></param>
        /// <param name="allPSMs"></param>
        public static void AlignProductsByDiff(Result result, PeptideSpectrumMatches allPSMs)
        {
            List <double> observedDiff = new List <double>();
            List <double> observedMz   = new List <double>();

            //Precursors and Tracks
            foreach (Precursor precursor in result.matchedPrecursors)//.ComputeAtFDR(result.dbOptions.maximumFalseDiscoveryRate, false))
            {
                PeptideSpectrumMatch psm = precursor.OptimizedBestPsm();
                if (psm.Target)
                {
                    foreach (ProductMatch fragment in psm.AllProductMatches)
                    {
                        observedMz.Add(fragment.obsMz);
                        observedDiff.Add(fragment.mass_diff);
                    }
                }
            }
            PolynominalRegression pr = new PolynominalRegression(observedMz, observedDiff, 2);

            foreach (PeptideSpectrumMatch psm in allPSMs)
            {
                foreach (ProductMatch match in psm.AllProductMatches)
                {
                    match.obsMz    += pr.Calculate(match.obsMz);
                    match.mass_diff = match.theoMz - match.obsMz;
                }
                psm.Initialize(result.dbOptions, psm.AllProductMatches);

                foreach (MsMsPeak peak in psm.Query.spectrum.Peaks)
                {
                    peak.MZ += pr.Calculate(peak.MZ);
                }
            }
        }
Example #2
0
        public double OptimizedBestPsmScore(Peptide peptide = null, bool checkMods = false)
        {
            PeptideSpectrumMatch psm = OptimizedBestPsm(peptide, checkMods);

            if (psm != null)
            {
                return(psm.ProbabilityScore());
            }
            else
            {
                return(0);
            }
        }
        public static int DescendingOptimizedScoreComparison(PeptideSpectrumMatch left, PeptideSpectrumMatch right)
        {
            int comparison = -(left.ProbabilityScore().CompareTo(right.ProbabilityScore()));

            if (comparison != 0)
            {
                return(comparison);
            }
            else
            {
                return(left.Target.CompareTo(right.Target));
            }
        }
Example #4
0
 public bool KeepPSM(PeptideSpectrumMatch psm)
 {
     return(psm.MatchingIntensity >= minIntensityScore &&
            psm.MatchingIntensityFraction >= minIntensityFractionScore &&
            psm.ProductScore >= minProductScore &&
            psm.PrecursorScore >= minPrecursorScore &&
            psm.MatchingProductsFraction >= minMatchingProductFractionScore &&
            psm.MatchingProducts >= minMatchingProductScore &&
            psm.ProteinScore >= minProteinScore &&
            psm.PeptideScore >= minPeptideScore &&
            psm.FragmentScore >= minFragmentScore &&
            psm.ProbabilityScore() >= minProbabilityScore);
 }
        public void Merge(PeptideSpectrumMatch psm, DBOptions options)
        {
            //TODO Replace merging with Max flow approach
            //Augment list A
            List <ProductMatch> newList = new List <ProductMatch>();

            foreach (ProductMatch matchA in this.AllProductMatches)
            {
                bool isNew = true;
                foreach (ProductMatch matchB in psm.AllProductMatches)
                {
                    if (matchA.theoMz == matchB.theoMz && matchA.charge == matchB.charge)
                    {
                        if (matchA.mass_diff > matchB.mass_diff)
                        {
                            matchA.mass_diff = matchB.mass_diff;
                            matchA.obsMz     = matchB.obsMz;
                        }
                        matchA.obsIntensity += matchB.obsIntensity;
                        newList.Add(matchA);
                        isNew = false;
                    }
                }
                if (isNew)
                {
                    newList.Add(matchA);
                }
            }
            //Add items unique to list B
            foreach (ProductMatch matchB in psm.AllProductMatches)
            {
                bool isNew = true;
                foreach (ProductMatch matchNew in newList)
                {
                    if (matchNew.theoMz == matchB.theoMz && matchNew.charge == matchB.charge)
                    {
                        isNew = false;
                    }
                }
                if (isNew)
                {
                    newList.Add(matchB);
                }
            }

            highestFragmentIntensity += psm.highestFragmentIntensity;

            Initialize(options, newList);
        }//*/
Example #6
0
 public IEnumerable <PeptideSpectrumMatch> OptimizedBestPsms()
 {
     if (psms.Count > 0)
     {
         PeptideSpectrumMatch bestpsm = OptimizedBestPsm();
         double score = bestpsm.ProbabilityScore();
         for (int i = 0; i < psms.Count; i++)
         {
             if (psms[i].ProbabilityScore() >= score)
             {
                 yield return(psms[i]);
             }
         }
     }
 }
Example #7
0
        //public ConcurrentDictionary<string, List<Protein>> DicOfProteins = new ConcurrentDictionary<string, List<Protein>>();
        private void ComputePSMs(Query query, Peptide modified_peptide)
        {
            PeptideSpectrumMatch psm = new PeptideSpectrumMatch(query, modified_peptide, options);

            if (psm.MatchingProducts > options.fragments.Count)
            {
                //DicOfProteins.GetOrAdd(psm.Peptide.BaseSequence, new List<Protein>()).Add(psm.Peptide.Parent);
//                if (!DicOfProteins.ContainsKey(psm.Peptide.BaseSequence))
//                    DicOfProteins.AddOrUpdate(psm.Peptide.BaseSequence, new List<Protein>());
//                DicOfProteins[psm.Peptide.BaseSequence].Add(psm.Peptide.Parent);

                //List<PeptideSpectrumMatch> psmsOfQuery = query.psms;

                if (query.psms.Count < options.NbPSMToKeep)
                {
                    query.psms.Add(psm);
                }
                else if (query.psms[options.NbPSMToKeep - 1].ProbabilityScore() < psm.ProbabilityScore())
                {
                    for (int i = 0; i < query.psms.Count; i++)
                    {
                        if (query.psms[i].ProbabilityScore() <= psm.ProbabilityScore())
                        {
                            query.psms.Insert(i, psm);
                            break;
                        }
                    }
                    if (query.psms.Count > options.NbPSMToKeep)
                    {
                        query.psms.RemoveAt(options.NbPSMToKeep - 1);
                    }
                }//*/
                 //TODO check optimal number of PSM to store

                /*
                 * //TODO Reactivate this to save on memory space
                 * if (psmsOfPrecursor.Count == 0 || psmsOfPrecursor[0].MaxQuantScore() == psm.MaxQuantScore())
                 *  psmsOfPrecursor.Add(psm);
                 * else
                 *  if (psm.MaxQuantScore() > psmsOfPrecursor[0].MaxQuantScore())
                 *  {
                 *      psmsOfPrecursor.Clear();
                 *      psmsOfPrecursor.Add(psm);
                 *  }
                 * //*/
            }
        }
Example #8
0
        /// <summary>
        /// Crop observed precursors values outside the variance or Standard Deviation (whichever is bigger)
        /// </summary>
        /// <param name="result"></param>
        /// <param name="allPSMs"></param>
        /// <returns>Returns the newly computed Precursor tolerance</returns>
        public static double CropPrecursors(Result result, PeptideSpectrumMatches allPSMs)
        {
            List <double> errorPrecursor = new List <double>(result.precursors.Count);

            foreach (Precursor precursor in result.matchedPrecursors)
            {
                PeptideSpectrumMatch psm = precursor.OptimizedBestPsm();
                if (psm.Target)
                {
                    errorPrecursor.Add(psm.PrecursorMzError);
                }
            }
            double variance = Numerics.Variance(errorPrecursor);
            double stdev    = Numerics.StandardDeviation(errorPrecursor);

            result.dbOptions.ConSole.WriteLine("Computed Precursor Variance = " + variance + "          STDev = " + stdev);
            if (variance < stdev)
            {
                variance = stdev;
            }
            //variance = result.dbOptions.precursorMassTolerance.Value * ((2 * variance) / result.dbOptions.precursorMassTolerance.Value);

            int nbRemovedPSM = 0;

            foreach (Precursor precursor in result.precursors)
            {
                for (int i = 0; i < precursor.psms.Count;)
                {
                    if (Math.Abs(precursor.psms[i].PrecursorMzError) > variance)
                    {
                        //allPSMs[i].Query.precursor.psms_AllPossibilities.Remove(allPSMs[i]);
                        precursor.psms.RemoveAt(i);
                        //allPSMs.RemoveAt(i);
                        nbRemovedPSM++;
                    }
                    else
                    {
                        i++;
                    }
                }
            }
            result.dbOptions.ConSole.WriteLine("Removed " + nbRemovedPSM + " [" + allPSMs.Count + " remaining] Peptide Spectrum matches outside the variance [" + variance + "]");
            return(variance);
        }
        public static void Export(string filename, List <Precursor> precursors)
        {
            vsCSVWriter writer = new vsCSVWriter(filename);

            writer.AddLine("Index.Mz,Rt,Precursor Mz,Charge,Most Intense Charge,Precursor Mass,Peptide Mass,Sequence,Modified Sequence,Precursor Score,Product Score,Intensity Score,Final Score,Precursor Mass Error,Decoy?,Protein Score");

            foreach (Precursor precursor in precursors)
            {
                string line = precursor.INDEX + "," + precursor.Track.RT + "," + precursor.Track.MZ + "," + precursor.Charge + "," + precursor.GetMostIntenseCharge() + "," + precursor.Mass + ",";
                PeptideSpectrumMatch match = precursor.OptimizedBestPsm();
                if (match != null)
                {
                    line += match.Peptide.MonoisotopicMass + "," + match.Peptide.BaseSequence + "," + match.Peptide.Sequence + "," + match.PrecursorScore + "," + match.ProductScore + "," + match.IntensityScore + "," + precursor.ProbabilityScore(match.Peptide) + "," +
                            match.PrecursorMzError + "," + match.Decoy + "," + match.ProteinScore;
                }
                writer.AddLine(line);
            }

            writer.WriteToFile();
        }
Example #10
0
        public static void Export(string filename, IEnumerable <Query> queries)
        {
            vsCSVWriter writer = new vsCSVWriter(filename);

            writer.AddLine("Spectrum Precursor Mz,Rt,Charge,BaseSequence,Sequence,Precursor Score,Product Score,Intensity Score,Final Score,Precursor Mass Error,Decoy?,Protein Score");

            foreach (Query query in queries)
            {
                string line = query.spectrum.PrecursorMZ + "," + query.precursor.Track.RT + "," + query.precursor.Charge + ",";
                PeptideSpectrumMatch match = query.precursor.OptimizedBestPsm();
                if (match != null)
                {
                    line += match.Peptide.BaseSequence + "," + match.Peptide.Sequence + "," + match.PrecursorScore + "," + match.ProductScore + "," + match.IntensityScore + "," + query.ScoreFct(match.Peptide) + "," +
                            match.PrecursorMzError + "," + match.Decoy + "," + match.ProteinScore;
                }
                writer.AddLine(line);
            }

            writer.WriteToFile();
        }
Example #11
0
        /*
         * public List<PeptideSpectrumMatch> GetPSMs(double fdr, double decoyOverTargetRatio = 1, int nbMaxPsm = 1)
         * {
         *  return FDR.PSMs(clusters, fdr, decoyOverTargetRatio, nbMaxPsm);
         * }//*/
        /*
         * public List<PeptideMatch> GetPeptides(double fdr)
         * {
         *  if (peptides != null)
         *      return FDR.Peptides(peptides, fdr);
         *  else
         *      return null;
         * }
         *
         * public List<ProteinGroupMatch> GetProteins(double fdr)
         * {
         *  if (proteins != null)
         *      return FDR.Proteins(proteins, fdr);
         *  else
         *      return null;
         * }//*/

        public static int DescendingProteinScoreComparison(Precursor left, Precursor right)
        {
            PeptideSpectrumMatch psmLeft = left.OptimizedBestPsm();

            if (psmLeft != null)
            {
                PeptideSpectrumMatch psmRight = right.OptimizedBestPsm();
                if (psmRight != null)
                {
                    return(-(psmLeft.ProteinScore.CompareTo(psmRight.ProteinScore)));
                }
                else
                {
                    return(-1);
                }
            }
            else
            {
                return(1);
            }
        }
Example #12
0
        /// <summary>
        /// Aligns precursors observed Mz values
        /// </summary>
        /// <param name="result"></param>
        /// <param name="allPSMs"></param>
        public static void AlignPrecursorsByDiff(Result result, PeptideSpectrumMatches allPSMs)
        {
            List <double> observedDiff = new List <double>();
            List <double> observedMz   = new List <double>();

            //Precursors and Tracks
            foreach (Precursor precursor in result.matchedPrecursors)//.ComputeAtFDR(result.dbOptions.maximumFalseDiscoveryRate, false))
            {
                PeptideSpectrumMatch psm = precursor.OptimizedBestPsm();
                if (psm.Target)
                {
                    observedMz.Add(precursor.Track.MZ);
                    observedDiff.Add(Numerics.MZFromMass(psm.Peptide.MonoisotopicMass, precursor.Charge) - precursor.Track.MZ);
                }
            }
            PolynominalRegression pr = new PolynominalRegression(observedMz, observedDiff, 2);

            foreach (Query query in result.queries)
            {
                query.precursor.Track.MZ += pr.Calculate(query.precursor.Track.MZ);
                query.precursor.Mass      = Numerics.MassFromMZ(query.precursor.Track.MZ, query.precursor.Charge);
                foreach (Precursor precursor in query.precursor.Isotopes)
                {
                    precursor.Track.MZ += pr.Calculate(precursor.Track.MZ);
                    precursor.Mass      = Numerics.MassFromMZ(precursor.Track.MZ, precursor.Charge);
                }
                foreach (Precursor precursor in query.precursor.OtherCharges)
                {
                    precursor.Track.MZ += pr.Calculate(precursor.Track.MZ);
                    precursor.Mass      = Numerics.MassFromMZ(precursor.Track.MZ, precursor.Charge);
                }

                query.spectrum.PrecursorMZ  += pr.Calculate(query.spectrum.PrecursorMZ);
                query.spectrum.PrecursorMass = Numerics.MassFromMZ(query.spectrum.PrecursorMZ, query.spectrum.PrecursorCharge);
            }
            foreach (PeptideSpectrumMatch psm in allPSMs)
            {
                psm.UpdatePrecursor(result.dbOptions);
            }
        }
Example #13
0
        public static double CropProductsBKP(Result result, PeptideSpectrumMatches allPSMs)
        {
            List <double> errorProduct = new List <double>(result.precursors.Count);

            foreach (Precursor precursor in result.matchedPrecursors)
            {
                PeptideSpectrumMatch psm = precursor.OptimizedBestPsm();
                if (psm.Target)
                {
                    foreach (ProductMatch match in psm.AllProductMatches)
                    {
                        errorProduct.Add(match.mass_diff);
                    }
                }
            }
            double variance = Numerics.Variance(errorProduct);
            double stdev    = Numerics.StandardDeviation(errorProduct);

            result.dbOptions.ConSole.WriteLine("Computed Product Variance = " + variance + "          STDev = " + stdev);
            if (variance < stdev)
            {
                variance = stdev;
            }
            //variance = result.dbOptions.productMassTolerance.Value * ((2 * variance) / result.dbOptions.productMassTolerance.Value);

            int nbRemovedProduct = 0;

            foreach (PeptideSpectrumMatch psm in allPSMs)
            {
                for (int i = 0; i < psm.AllProductMatches.Count;)
                {
                    if (Math.Abs(psm.AllProductMatches[i].mass_diff) > variance)
                    {
                        psm.AllProductMatches.RemoveAt(i);
                        nbRemovedProduct++;
                    }
                    else
                    {
                        i++;
                    }
                }
                psm.MatchingProducts = psm.AllProductMatches.Count;
            }

            int nbRemovedPSM = 0;

            foreach (Precursor precursor in result.precursors)
            {
                for (int i = 0; i < precursor.psms.Count;)
                {
                    if (precursor.psms[i].MatchingProducts < 2)
                    {
                        precursor.psms.RemoveAt(i);
                    }
                    else
                    {
                        precursor.psms[i].Initialize(result.dbOptions, precursor.psms[i].AllProductMatches);
                        i++;
                    }
                }
            }
            result.dbOptions.ConSole.WriteLine("Removed " + nbRemovedProduct + " [" + nbRemovedPSM + " removed PSMs] Fragment matches outside the variance [" + variance + "]");
            return(variance);
        }
Example #14
0
        public void ExportFragments(PeptideSpectrumMatch psm)
        {
            vsCSVWriter          writer    = new vsCSVWriter(dbOptions.OutputFolder + psm.Peptide.Sequence + "_" + vsCSV.GetFileName_NoExtension(psm.Query.sample.sSDF) + "_" + psm.Query.precursor.Track.RT + ".csv");
            List <FragmentClass> fragments = new List <FragmentClass>();

            foreach (FragmentClass fragment in dbOptions.fragments)
            //foreach (string fragment in FragmentDictionary.Fragments.Keys)
            {
                bool found = false;
                foreach (ProductMatch match in dbOptions.fragments.ComputeFragments(psm.Peptide, psm.Query.precursor.Charge, dbOptions))
                {
                    if (fragment == match.Fragment)
                    {
                        found = true;
                        break;
                    }
                }
                if (found)
                {
                    fragments.Add(fragment);
                }
            }

            string title = "Theoretical Fragments";

            for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
            {
                foreach (FragmentClass fragment in dbOptions.fragments)
                {
                    title += "," + fragment.Name + " ^" + charge;
                }
            }
            for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
            {
                foreach (FragmentClass fragment in fragments)
                {
                    title += "," + fragment.Name + " ^" + charge;
                }
            }
            writer.AddLine(title);

            for (int i = 1; i <= psm.Peptide.Length; i++)
            {
                string line = i.ToString();
                for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
                {
                    foreach (FragmentClass fragment in dbOptions.fragments)
                    {
                        bool found = false;
                        foreach (ProductMatch match in dbOptions.fragments.ComputeFragments(psm.Peptide, psm.Query.precursor.Charge, dbOptions))
                        {
                            if (fragment == match.Fragment && match.fragmentPos == i && match.charge == charge)
                            {
                                line += "," + match.theoMz;
                                found = true;
                                break;
                            }
                        }
                        if (!found)
                        {
                            line += ",";
                        }
                    }
                }
                for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
                {
                    foreach (FragmentClass fragment in fragments)
                    {
                        bool found = false;
                        foreach (ProductMatch match in dbOptions.fragments.ComputeFragments(psm.Peptide, psm.Query.precursor.Charge, dbOptions))
                        {
                            if (fragment == match.Fragment && match.fragmentPos == i && match.charge == charge)
                            {
                                line += "," + match.theoMz;
                                found = true;
                                break;
                            }
                        }
                        if (!found)
                        {
                            line += ",";
                        }
                    }
                }
                writer.AddLine(line);
            }

            title = "Observed Fragments Intensities";
            for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
            {
                foreach (FragmentClass fragment in dbOptions.fragments)
                {
                    title += "," + fragment.Name + " ^" + charge;
                }
            }
            for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
            {
                foreach (FragmentClass fragment in fragments)
                {
                    title += "," + fragment.Name + " ^" + charge;
                }
            }
            writer.AddLine(title);

            for (int i = 1; i <= psm.Peptide.Length; i++)
            {
                string line = i.ToString();
                for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
                {
                    foreach (FragmentClass fragment in dbOptions.fragments)
                    {
                        bool found = false;
                        foreach (ProductMatch match in psm.AllProductMatches)
                        {
                            if (fragment == match.Fragment && match.fragmentPos == i && match.charge == charge)
                            {
                                line += "," + match.obsIntensity;
                                found = true;
                                break;
                            }
                        }
                        if (!found)
                        {
                            line += ",";
                        }
                    }
                }
                for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
                {
                    foreach (FragmentClass fragment in fragments)
                    {
                        bool found = false;
                        foreach (ProductMatch match in psm.AllProductMatches)
                        {
                            if (fragment == match.Fragment && match.fragmentPos == i && match.charge == charge)
                            {
                                line += "," + match.obsIntensity;
                                found = true;
                                break;
                            }
                        }
                        if (!found)
                        {
                            line += ",";
                        }
                    }
                }
                writer.AddLine(line);
            }

            title = "Observed Fragments Mz";
            for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
            {
                foreach (FragmentClass fragment in dbOptions.fragments)
                {
                    title += "," + fragment.Name + " ^" + charge;
                }
            }
            for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
            {
                foreach (FragmentClass fragment in fragments)
                {
                    title += "," + fragment.Name + " ^" + charge;
                }
            }
            writer.AddLine(title);

            for (int i = 1; i <= psm.Peptide.Length; i++)
            {
                string line = i.ToString();
                for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
                {
                    foreach (FragmentClass fragment in dbOptions.fragments)
                    {
                        bool found = false;
                        foreach (ProductMatch match in psm.AllProductMatches)
                        {
                            if (fragment == match.Fragment && match.fragmentPos == i && match.charge == charge)
                            {
                                line += "," + match.obsMz;
                                found = true;
                                break;
                            }
                        }
                        if (!found)
                        {
                            line += ",";
                        }
                    }
                }
                for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
                {
                    foreach (FragmentClass fragment in fragments)
                    {
                        bool found = false;
                        foreach (ProductMatch match in psm.AllProductMatches)
                        {
                            if (fragment == match.Fragment && match.fragmentPos == i && match.charge == charge)
                            {
                                line += "," + match.obsMz;
                                found = true;
                                break;
                            }
                        }
                        if (!found)
                        {
                            line += ",";
                        }
                    }
                }
                writer.AddLine(line);
            }

            title = "Error on Fragments";
            for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
            {
                foreach (FragmentClass fragment in dbOptions.fragments)
                {
                    title += "," + fragment.Name + " ^" + charge;
                }
            }
            for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
            {
                foreach (FragmentClass fragment in fragments)
                {
                    title += "," + fragment.Name + " ^" + charge;
                }
            }
            writer.AddLine(title);

            for (int i = 1; i <= psm.Peptide.Length; i++)
            {
                string line = i.ToString();
                for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
                {
                    foreach (FragmentClass fragment in dbOptions.fragments)
                    {
                        bool found = false;
                        foreach (ProductMatch match in psm.AllProductMatches)
                        {
                            if (fragment == match.Fragment && match.fragmentPos == i && match.charge == charge)
                            {
                                line += "," + match.mass_diff;
                                found = true;
                                break;
                            }
                        }
                        if (!found)
                        {
                            line += ",";
                        }
                    }
                }
                for (int charge = 1; charge <= psm.Query.precursor.Charge; charge++)
                {
                    foreach (FragmentClass fragment in fragments)
                    {
                        bool found = false;
                        foreach (ProductMatch match in psm.AllProductMatches)
                        {
                            if (fragment == match.Fragment && match.fragmentPos == i && match.charge == charge)
                            {
                                line += "," + match.mass_diff;
                                found = true;
                                break;
                            }
                        }
                        if (!found)
                        {
                            line += ",";
                        }
                    }
                }
                writer.AddLine(line);
            }
            writer.WriteToFile();
        }
Example #15
0
        public void WriteFragmentation(bool target)
        {
            vsCSVWriter writer = new vsCSVWriter(dbOptions.OutputFolder + "FragmentStats_" + (target ? "Targets" : "Decoy") + ".csv");

            writer.AddLine("  === Fragmentation of " + (target ? "Targets" : "Decoys") + " ===");
            foreach (FragmentClass fragment in dbOptions.fragments)
            {
                double cumulIntensity           = 0;
                int    nbFrag                   = 0;
                Dictionary <int, int> positions = new Dictionary <int, int>();
                foreach (Precursor precursor in matchedPrecursors)
                {
                    PeptideSpectrumMatch psm = precursor.OptimizedBestPsm();
                    if (psm.Target == target)
                    {
                        foreach (ProductMatch match in psm.AllProductMatches)
                        {
                            if (fragment == match.Fragment)
                            {
                                nbFrag++;
                                if (!positions.ContainsKey(match.fragmentPos))
                                {
                                    positions.Add(match.fragmentPos, 1);
                                }
                                else
                                {
                                    positions[match.fragmentPos]++;
                                }
                                cumulIntensity += match.obsIntensity;
                            }
                        }
                    }
                }
                string strPos = "";
                if (positions.Count > 0)
                {
                    foreach (int key in positions.Keys)
                    {
                        strPos += "|" + key + ":" + positions[key];
                    }
                }
                else
                {
                    strPos += ",";
                }
                writer.AddLine("    " + fragment.Name + ", Number of fragments = , " + nbFrag + ",   Intensity = ," + cumulIntensity + ", fragment matched [" + strPos.Substring(1) + "]");
            }
            foreach (FragmentClass fragment in dbOptions.fragments)
            //foreach (string fragment in FragmentDictionary.Fragments.Keys)
            {
                double cumulIntensity = 0;
                int    nbFrag         = 0;
                foreach (Precursor precursor in matchedPrecursors)
                {
                    PeptideSpectrumMatch psm = precursor.OptimizedBestPsm();
                    if (psm.Target == target)
                    {
                        foreach (ProductMatch match in psm.AllProductMatches)
                        {
                            if (fragment == match.Fragment)
                            {
                                nbFrag++;
                                cumulIntensity += match.obsIntensity;
                            }
                        }
                    }
                }
                writer.AddLine("    " + fragment + ", Number of fragments = ," + nbFrag + ",   Intensity = ," + cumulIntensity);
            }
            foreach (FragmentClass fragment in dbOptions.fragments)
            //foreach (string fragment in FragmentDictionary.AAFragments.Keys)
            {
                double cumulIntensity = 0;
                int    nbFrag         = 0;
                foreach (Precursor precursor in matchedPrecursors)
                {
                    PeptideSpectrumMatch psm = precursor.OptimizedBestPsm();
                    if (psm.Target == target)
                    {
                        foreach (ProductMatch match in psm.AllProductMatches)
                        {
                            if (fragment == match.Fragment)
                            {
                                nbFrag++;
                                cumulIntensity += match.obsIntensity;
                            }
                        }
                    }
                }
                writer.AddLine("    " + fragment + ", Number of fragments = ," + nbFrag + ",   Intensity = ," + cumulIntensity);
            }
            writer.WriteToFile();
        }
 public static int AscendingSpectrumNumberComparison(PeptideSpectrumMatch left, PeptideSpectrumMatch right)
 {
     return(left.Query.spectrum.ScanNumber.CompareTo(right.Query.spectrum.ScanNumber));
 }
Example #17
0
 public static int DescendingProteinScoreComparison(PeptideSpectrumMatch left, PeptideSpectrumMatch right)
 {
     return(-left.ProteinScore.CompareTo(right.ProteinScore));
 }