예제 #1
0
        public void TestSortByMassIsotopePattern()
        {
            var spExp = new IsotopePattern(new[]
            {
                new IsotopeContainer(157.07503, 0.0002),
                new IsotopeContainer(156.07770, 2),
                new IsotopeContainer(158.08135, 0.004),
                new IsotopeContainer(157.08059, 0.0006),
            });

            spExp.MonoIsotope = spExp.Isotopes[1];
            spExp.Charge      = 1;

            var isoNorma = IsotopePatternManipulator.SortByMass(spExp);
            var listISO  = isoNorma.Isotopes;

            Assert.AreEqual(156.07770, isoNorma.MonoIsotope.Mass, 0.001);
            Assert.AreEqual(156.07770, listISO[0].Mass, 0.00001);
            Assert.AreEqual(157.07503, listISO[1].Mass, 0.00001);
            Assert.AreEqual(157.08059, listISO[2].Mass, 0.00001);
            Assert.AreEqual(158.08135, listISO[3].Mass, 0.00001);

            Assert.AreEqual(2, isoNorma.MonoIsotope.Intensity, 0.001);
            Assert.AreEqual(2, listISO[0].Intensity, 0.001);
            Assert.AreEqual(0.0002, listISO[1].Intensity, 0.00001);
            Assert.AreEqual(0.0006, listISO[2].Intensity, 0.00001);
            Assert.AreEqual(0.004, listISO[3].Intensity, 0.00001);

            Assert.AreEqual(1, isoNorma.Charge, 0.001);
        }
예제 #2
0
        /// <summary>
        /// Get all combinatorial chemical isotopes given a structure.
        /// </summary>
        /// <param name="molFor">The IMolecularFormula to start</param>
        /// <returns>A IsotopePattern object containing the different combinations</returns>
        public IsotopePattern GetIsotopes(IMolecularFormula molFor)
        {
            if (builder == null)
            {
                try
                {
                    isoFactory = CDK.IsotopeFactory;
                    builder    = molFor.Builder;
                }
                catch (Exception e)
                {
                    Console.WriteLine(e.StackTrace);
                }
            }
            var mf = MolecularFormulaManipulator.GetString(molFor, true);

            var molecularFormula = MolecularFormulaManipulator.GetMajorIsotopeMolecularFormula(mf, builder);

            IsotopePattern abundance_Mass = null;

            foreach (var isos in molecularFormula.Isotopes)
            {
                var elementSymbol = isos.Symbol;
                var atomCount     = molecularFormula.GetCount(isos);

                // Generate possible isotope containers for the current atom's
                // these will then me 'multiplied' with the existing patten
                var additional = new List <IsotopeContainer>();
                foreach (var isotope in isoFactory.GetIsotopes(elementSymbol))
                {
                    double mass      = isotope.ExactMass.Value;
                    double abundance = isotope.Abundance.Value;
                    if (abundance <= 0.000000001)
                    {
                        continue;
                    }
                    IsotopeContainer container = new IsotopeContainer(mass, abundance);
                    if (storeFormula)
                    {
                        container.Formula = AsFormula(isotope);
                    }
                    additional.Add(container);
                }
                for (int i = 0; i < atomCount; i++)
                {
                    abundance_Mass = CalculateAbundanceAndMass(abundance_Mass, additional);
                }
            }

            var isoP = IsotopePatternManipulator.SortAndNormalizedByIntensity(abundance_Mass);

            isoP = CleanAbundance(isoP, minIntensity);
            var isoPattern = IsotopePatternManipulator.SortByMass(isoP);

            return(isoPattern);
        }