C# (CSharp) RawTools.Algorithms Averagine Examples

Example #1

        /// <summary>
        ///
        /// </summary>
        /// <param name="centroidData"></param>
        /// <param name="parentMZ"></param>
        /// <param name="possibleChargeStates"></param>
        /// <param name="assignedChargeState"></param>
        /// <returns></returns>
        static (int charge, double mass) GetMonoIsotopicMassCharge(CentroidStreamData centroidData, double parentMZ, List <int> possibleChargeStates, int assignedChargeState)
        {
            Dictionary <(int charge, double monoIsoMass), (double distance, double correlation)> scores =
                new Dictionary <(int charge, double monoIsoMass), (double distance, double correlation)>();;
            List <double> possibleMonoIsoMasses;
            Averagine     averagine = new Averagine();

            double[] masses, intensities;
            (masses, intensities) = AdditionalMath.SubsetMsData(centroidData.Masses, centroidData.Intensities, parentMZ - 2.2, parentMZ + 5);

            if (masses.Length == 0)
            {
                return(assignedChargeState, parentMZ);
            }

            foreach (int charge in possibleChargeStates)
            {
                // populate a list of possible monoisotopic masses
                possibleMonoIsoMasses = new List <double>()
                {
                    parentMZ
                };
                for (int i = 1; i < 4; i++)
                {
                    double isotope = parentMZ - i * Masses.C13MinusC12 / charge;
                    if (masses.withinTolerance(isotope, 10))
                    {
                        possibleMonoIsoMasses.Add(isotope);
                    }
                    else
                    {
                        break;
                    }
                }

                if (possibleChargeStates.Count() == 1 & possibleMonoIsoMasses.Count() == 1)
                {
                    // only one possible monoisotopic mass was found, so just return that
                    return(possibleChargeStates.First(), parentMZ);
                }

                // now score
                foreach (double monoisoMZ in possibleMonoIsoMasses)
                {
                    // calculate the actual mass and intensity envelope of the potential monoisotopicMZ
                    double   monoIsotopeMass    = (monoisoMZ - Masses.Proton) * charge;
                    double[] isotopomerEnvelope = Averagine.GetIsotopomerEnvelope(monoIsotopeMass).Envelope;

                    // get out the observed intensities corresponding to the isotope envelope
                    List <double> observedIntensities = new List <double>();
                    int           currentIndex        = masses.ToList().IndexOf(monoisoMZ);

                    for (int i = 0; i < isotopomerEnvelope.Count(); i++)
                    {
                        if ((masses.withinTolerance(monoisoMZ + i * Masses.C13MinusC12 / charge, 10)))
                        {
                            if (currentIndex < intensities.Count())
                            {
                                int index = masses.indexOfClosest(monoisoMZ + i * Masses.C13MinusC12 / charge);
                                observedIntensities.Add(intensities[index]);
                            }
                            else
                            {
                                // we've run out of ions
                                double[] temp = new double[observedIntensities.Count()];
                                for (int j = 0; j < temp.Length; j++)
                                {
                                    temp[j] = isotopomerEnvelope[j];
                                }
                                isotopomerEnvelope = temp;
                            }
                        }
                        else
                        {
                            observedIntensities.Add(0);
                        }
                        currentIndex++;
                    }

                    // normalize the observed intensities
                    double maxInt = observedIntensities.Max();
                    for (int i = 0; i < observedIntensities.Count(); i++)
                    {
                        observedIntensities[i] = observedIntensities[i] / maxInt;
                    }

                    // calculate distance and correlation
                    double distance, correlation;
                    (distance, correlation) = FitScores.GetDistanceAndCorrelation(observedIntensities.ToArray(), isotopomerEnvelope);
                    if (distance < 0.3)
                    {
                        scores.Add((charge, monoisoMZ), (distance, correlation));
                    }
                }
            }

            double smallestDistance = 1;
            double massOut          = 0;
            int    chargeOut        = assignedChargeState;

            if (scores.Keys.Count == 0)
            {
                return(chargeOut, parentMZ);
            }

            foreach (var key in scores?.Keys)
            {
                if (scores[key].distance < smallestDistance)
                {
                    smallestDistance = scores[key].distance;
                    massOut          = key.monoIsoMass;
                    chargeOut        = key.charge;
                }
            }

            return(chargeOut, massOut);
        }

Example #2

 static Averagine()
 {
     DefaultAveragine = new Averagine();
 }