public static void DetectTranslatableControls(this LocalizationEngine engine, Application app)
        {
            // Get the type of ITranslatable
            var translatableControls = new List <Type>();

            // Add ITranslatable types
            foreach (var type in Assembly.GetEntryAssembly().GetTypes().Where(x => x.GetInterfaces().Contains(typeof(ITranslatable))))
            {
                if (typeof(Control).IsAssignableFrom(type))
                {
                    translatableControls.Add(type);
                }
            }

            // Translate every control
            foreach (var controlType in translatableControls)
            {
                // If the control type is a Window
                if (controlType.BaseType == typeof(Window))
                {
                    foreach (Window window in app.Windows)
                    {
                        if (window.GetType() == controlType)
                        {
                        }
                    }
                }
            }
        }
Exemplo n.º 2
0
        static void Main(string[] args)
        {
            string url = string.Format(@"http://translate.google.com/translate_a/t?client=j&text={0}&hl=en&sl={1}&tl={2}",
                                       HttpUtility.UrlEncode("hello my dear"), "en", "es");

            WebClient client = new WebClient();

            client.Headers.Add(HttpRequestHeader.UserAgent, "Mozilla/5.0");
            client.Headers.Add(HttpRequestHeader.AcceptCharset, "UTF-8");
            client.Encoding = Encoding.UTF8;
            string result = client.DownloadString(url);

            LocalizationEngine.MakeNew(new PhysicalFileDecoder(Path.Combine(Directory.GetCurrentDirectory(), "langs")));

            LocalizationEngine.Instance.DetectLanguages("fr");

            Console.WriteLine("Installed languages:");
            foreach (var lang in LocalizationEngine.Instance.GetInstalledLanguages())
            {
                Console.WriteLine($"\t- {lang.ToString()}");
            }

            Console.WriteLine($"Current language: {LocalizationEngine.Instance.CurrentLanguage.ToString()}");

            LocalizationEngine.Instance.ChangeLanguage("");

            string value = LocalizationEngine.Localizator["Titles.Principal"];

            Console.WriteLine($"A value: {value}");

            // Keep console opened
            Console.ReadLine();
        }
Exemplo n.º 3
0
        public static void TestLocalization()
        {
            var protease = new Protease("Custom Protease", new List <string> {
                "K"
            }, new List <string>(), TerminusType.C, CleavageSpecificity.Full, null, null, null);

            Protein         parentProteinForMatch = new Protein("MEK", null);
            DigestionParams digestionParams       = new DigestionParams
            {
                MinPeptideLength = 1,
            };

            ModificationMotif.TryGetMotif("E", out ModificationMotif motif);
            List <ModificationWithMass> variableModifications = new List <ModificationWithMass> {
                new ModificationWithMass("21", null, motif, TerminusLocalization.Any, 21.981943)
            };

            List <PeptideWithSetModifications> allPeptidesWithSetModifications = parentProteinForMatch.Digest(digestionParams, new List <ModificationWithMass>(), variableModifications).ToList();

            Assert.AreEqual(4, allPeptidesWithSetModifications.Count());
            PeptideWithSetModifications ps = allPeptidesWithSetModifications.First();

            List <ProductType> lp = new List <ProductType> {
                ProductType.BnoB1ions, ProductType.Y
            };

            PeptideWithSetModifications pepWithSetModsForSpectrum            = allPeptidesWithSetModifications[1];
            IMsDataFile <IMsDataScan <IMzSpectrum <IMzPeak> > > myMsDataFile = new TestDataFile(new List <PeptideWithSetModifications> {
                pepWithSetModsForSpectrum
            });
            Tolerance fragmentTolerance = new AbsoluteTolerance(0.01);

            Ms2ScanWithSpecificMass scan   = new Ms2ScanWithSpecificMass(myMsDataFile.Last() as IMsDataScanWithPrecursor <IMzSpectrum <IMzPeak> >, pepWithSetModsForSpectrum.MonoisotopicMass.ToMz(1), 1, null);
            PeptideSpectralMatch    newPsm = new PeptideSpectralMatch(ps.CompactPeptide(TerminusType.None), 0, 0, 2, scan);

            Dictionary <ModificationWithMass, ushort> modsDictionary = new Dictionary <ModificationWithMass, ushort>();
            Dictionary <CompactPeptideBase, HashSet <PeptideWithSetModifications> > matching = new Dictionary <CompactPeptideBase, HashSet <PeptideWithSetModifications> >
            {
                { ps.CompactPeptide(TerminusType.None), new HashSet <PeptideWithSetModifications> {
                      ps
                  } }
            };

            newPsm.MatchToProteinLinkedPeptides(matching);

            LocalizationEngine f = new LocalizationEngine(new List <PeptideSpectralMatch> {
                newPsm
            }, lp, myMsDataFile, fragmentTolerance, new List <string>(), false);

            f.Run();

            // Was single peak!!!
            Assert.AreEqual(0, newPsm.MatchedIonDictOnlyMatches[ProductType.BnoB1ions].Count(b => b > 0));
            Assert.AreEqual(1, newPsm.MatchedIonDictOnlyMatches[ProductType.Y].Count(b => b > 0));
            // If localizing, three match!!!
            Assert.IsTrue(newPsm.LocalizedScores[1] > 3 && newPsm.LocalizedScores[1] < 4);
        }
Exemplo n.º 4
0
        public static void TestLocalization()
        {
            Protein         parentProteinForMatch = new Protein("MEK", null);
            DigestionParams digestionParams       = new DigestionParams(minPeptideLength: 1);

            ModificationMotif.TryGetMotif("E", out ModificationMotif motif);
            List <ModificationWithMass> variableModifications = new List <ModificationWithMass> {
                new ModificationWithMass("21", null, motif, TerminusLocalization.Any, 21.981943)
            };

            List <PeptideWithSetModifications> allPeptidesWithSetModifications = parentProteinForMatch.Digest(digestionParams, new List <ModificationWithMass>(), variableModifications).ToList();

            Assert.AreEqual(4, allPeptidesWithSetModifications.Count());
            PeptideWithSetModifications ps = allPeptidesWithSetModifications.First();

            List <ProductType> lp = new List <ProductType> {
                ProductType.BnoB1ions, ProductType.Y
            };

            PeptideWithSetModifications pepWithSetModsForSpectrum = allPeptidesWithSetModifications[1];
            MsDataFile myMsDataFile = new TestDataFile(new List <PeptideWithSetModifications> {
                pepWithSetModsForSpectrum
            });
            Tolerance fragmentTolerance = new AbsoluteTolerance(0.01);

            Ms2ScanWithSpecificMass scan   = new Ms2ScanWithSpecificMass(myMsDataFile.GetAllScansList().Last(), pepWithSetModsForSpectrum.MonoisotopicMass.ToMz(1), 1, null);
            PeptideSpectralMatch    newPsm = new PeptideSpectralMatch(ps.CompactPeptide(TerminusType.None), 0, 0, 2, scan, digestionParams);

            Dictionary <ModificationWithMass, ushort> modsDictionary = new Dictionary <ModificationWithMass, ushort>();
            Dictionary <CompactPeptideBase, HashSet <PeptideWithSetModifications> > matching = new Dictionary <CompactPeptideBase, HashSet <PeptideWithSetModifications> >
            {
                { ps.CompactPeptide(TerminusType.None), new HashSet <PeptideWithSetModifications> {
                      ps
                  } }
            };

            newPsm.MatchToProteinLinkedPeptides(matching);

            CommonParameters   commonParameters = new CommonParameters(productMassTolerance: fragmentTolerance);
            LocalizationEngine f = new LocalizationEngine(new List <PeptideSpectralMatch> {
                newPsm
            }, lp, myMsDataFile, commonParameters, new List <string>());

            f.Run();

            // Was single peak!!!
            Assert.AreEqual(0, newPsm.MatchedIonMassToChargeRatioDict[ProductType.BnoB1ions].Count(b => b > 0));
            Assert.AreEqual(1, newPsm.MatchedIonMassToChargeRatioDict[ProductType.Y].Count(b => b > 0));
            Assert.AreEqual(0, newPsm.MatchedIonIntensitiesDict[ProductType.BnoB1ions].Count(b => b > 0));
            Assert.AreEqual(1, newPsm.MatchedIonIntensitiesDict[ProductType.Y].Count(b => b > 0));
            // If localizing, three match!!!
            Assert.IsTrue(newPsm.LocalizedScores[1] > 3 && newPsm.LocalizedScores[1] < 4);
        }
Exemplo n.º 5
0
        protected override void OnStartup(StartupEventArgs e)
        {
            base.OnStartup(e);

            // Make a new localization engine
            var m          = LocalizationEngine.MakeNew(new PhysicalFileDecoder(Path.Combine(Directory.GetCurrentDirectory(), "langs")));
            int foundLangs = LocalizationEngine.Instance.DetectLanguages(); // Detect the languages

            LocalizationEngine.Instance.AddOnlineLanguage(LocalizationEngine.Instance.GetLanguage("en-US"), CultureInfo.GetCultureInfo("de"));

            Console.WriteLine($"Loaded languages: {foundLangs} [{string.Join(",", LocalizationEngine.Instance.GetInstalledLanguages())}]");
        }
Exemplo n.º 6
0
        public static void SingleEventArgsTest()
        {
            Protein          parentProteinForMatch = new Protein("MEK", null);
            CommonParameters commonParameters      = new CommonParameters(digestionParams: new DigestionParams(minPeptideLength: 1));
            var fsp = new List <(string fileName, CommonParameters fileSpecificParameters)>();

            fsp.Add(("", commonParameters));
            ModificationMotif.TryGetMotif("E", out ModificationMotif motif);
            List <Modification> variableModifications = new List <Modification> {
                new Modification(_originalId: "21", _target: motif, _locationRestriction: "Anywhere.", _monoisotopicMass: 21.981943)
            };

            List <PeptideWithSetModifications> allPeptidesWithSetModifications = parentProteinForMatch.Digest(commonParameters.DigestionParams, new List <Modification>(), variableModifications).ToList();

            Assert.AreEqual(4, allPeptidesWithSetModifications.Count());
            PeptideWithSetModifications ps = allPeptidesWithSetModifications.First();

            PeptideWithSetModifications pepWithSetModsForSpectrum = allPeptidesWithSetModifications[1];
            MsDataFile myMsDataFile = new TestDataFile(new List <PeptideWithSetModifications> {
                pepWithSetModsForSpectrum
            });
            Tolerance fragmentTolerance = new AbsoluteTolerance(0.01);

            Ms2ScanWithSpecificMass scan = new Ms2ScanWithSpecificMass(myMsDataFile.GetAllScansList().Last(), pepWithSetModsForSpectrum.MonoisotopicMass.ToMz(1), 1, null, new CommonParameters());

            var theoreticalProducts = new List <Product>();

            ps.Fragment(DissociationType.HCD, FragmentationTerminus.Both, theoreticalProducts);

            var matchedIons             = MetaMorpheusEngine.MatchFragmentIons(scan, theoreticalProducts, new CommonParameters());
            PeptideSpectralMatch newPsm = new PeptideSpectralMatch(ps, 0, 0, 2, scan, commonParameters, matchedIons);

            LocalizationEngine f = new LocalizationEngine(new List <PeptideSpectralMatch> {
                newPsm
            }, myMsDataFile, new CommonParameters(), fsp, new List <string>());

            var singleEngine = new SingleEngineEventArgs(f);

            Assert.That(singleEngine.MyEngine.Equals(f));

            var singleFile = new SingleFileEventArgs("", new List <string>());

            Assert.That(singleFile.WrittenFile.Equals(""));

            var stringList = new StringListEventArgs(new List <string>());
            var rr         = (stringList.StringList.DefaultIfEmpty().First());

            Assert.That(stringList.StringList.DefaultIfEmpty().First() == null);
        }
Exemplo n.º 7
0
        public static void TestLocalization()
        {
            Protein          parentProteinForMatch = new Protein("MEK", null);
            CommonParameters commonParameters      = new CommonParameters(digestionParams: new DigestionParams(minPeptideLength: 1));
            var fsp = new List <(string fileName, CommonParameters fileSpecificParameters)>();

            fsp.Add(("", commonParameters));
            ModificationMotif.TryGetMotif("E", out ModificationMotif motif);
            List <Modification> variableModifications = new List <Modification> {
                new Modification(_originalId: "21", _target: motif, _locationRestriction: "Anywhere.", _monoisotopicMass: 21.981943)
            };

            List <PeptideWithSetModifications> allPeptidesWithSetModifications = parentProteinForMatch.Digest(commonParameters.DigestionParams, new List <Modification>(), variableModifications).ToList();

            Assert.AreEqual(4, allPeptidesWithSetModifications.Count());
            PeptideWithSetModifications ps = allPeptidesWithSetModifications.First();

            PeptideWithSetModifications pepWithSetModsForSpectrum = allPeptidesWithSetModifications[1];
            MsDataFile myMsDataFile = new TestDataFile(new List <PeptideWithSetModifications> {
                pepWithSetModsForSpectrum
            });
            Tolerance fragmentTolerance = new AbsoluteTolerance(0.01);

            Ms2ScanWithSpecificMass scan = new Ms2ScanWithSpecificMass(myMsDataFile.GetAllScansList().Last(), pepWithSetModsForSpectrum.MonoisotopicMass.ToMz(1), 1, null, new CommonParameters());

            var theoreticalProducts = new List <Product>();

            ps.Fragment(DissociationType.HCD, FragmentationTerminus.Both, theoreticalProducts);
            var matchedIons             = MetaMorpheusEngine.MatchFragmentIons(scan, theoreticalProducts, new CommonParameters());
            PeptideSpectralMatch newPsm = new PeptideSpectralMatch(ps, 0, 0, 2, scan, commonParameters, matchedIons);

            newPsm.ResolveAllAmbiguities();

            LocalizationEngine f = new LocalizationEngine(new List <PeptideSpectralMatch> {
                newPsm
            }, myMsDataFile, commonParameters, fsp, new List <string>());

            f.Run();

            // single peak matches
            Assert.AreEqual(1, newPsm.MatchedFragmentIons.Where(p => p.NeutralTheoreticalProduct.ProductType == ProductType.b).Count());//including b1 now
            Assert.AreEqual(1, newPsm.MatchedFragmentIons.Where(p => p.NeutralTheoreticalProduct.ProductType == ProductType.y).Count());

            // when localizing, three peaks match
            Assert.IsTrue(newPsm.LocalizedScores[1] > 4 && newPsm.LocalizedScores[1] < 5);//we have another matched ion
        }
Exemplo n.º 8
0
        private (List <PeptideSpectralMatch>, DataPointAquisitionResults) GetDataAcquisitionResults(IMsDataFile <IMsDataScan <IMzSpectrum <IMzPeak> > > myMsDataFile, string currentDataFile, List <ModificationWithMass> variableModifications, List <ModificationWithMass> fixedModifications, List <Protein> proteinList, string taskId, ICommonParameters combinedParameters, Tolerance initPrecTol, Tolerance initProdTol)
        {
            var fileNameWithoutExtension = Path.GetFileNameWithoutExtension(currentDataFile);
            MassDiffAcceptor searchMode;

            if (initPrecTol is PpmTolerance)
            {
                searchMode = new SinglePpmAroundZeroSearchMode(initPrecTol.Value);
            }
            else
            {
                searchMode = new SingleAbsoluteAroundZeroSearchMode(initPrecTol.Value);
            }

            FragmentTypes fragmentTypesForCalibration = FragmentTypes.None;

            if (combinedParameters.BIons)
            {
                fragmentTypesForCalibration = fragmentTypesForCalibration | FragmentTypes.b;
            }
            if (combinedParameters.YIons)
            {
                fragmentTypesForCalibration = fragmentTypesForCalibration | FragmentTypes.y;
            }
            if (combinedParameters.CIons)
            {
                fragmentTypesForCalibration = fragmentTypesForCalibration | FragmentTypes.c;
            }
            if (combinedParameters.ZdotIons)
            {
                fragmentTypesForCalibration = fragmentTypesForCalibration | FragmentTypes.zdot;
            }

            var listOfSortedms2Scans = GetMs2Scans(myMsDataFile, currentDataFile, combinedParameters.DoPrecursorDeconvolution, combinedParameters.UseProvidedPrecursorInfo, combinedParameters.DeconvolutionIntensityRatio, combinedParameters.DeconvolutionMaxAssumedChargeState, combinedParameters.DeconvolutionMassTolerance).OrderBy(b => b.PrecursorMass).ToArray();

            PeptideSpectralMatch[] allPsmsArray = new PeptideSpectralMatch[listOfSortedms2Scans.Length];

            List <ProductType> lp = new List <ProductType>();

            if (combinedParameters.BIons)
            {
                lp.Add(ProductType.B);
            }
            if (combinedParameters.YIons)
            {
                lp.Add(ProductType.Y);
            }
            if (combinedParameters.CIons)
            {
                lp.Add(ProductType.C);
            }
            if (combinedParameters.ZdotIons)
            {
                lp.Add(ProductType.Zdot);
            }

            Log("Searching with searchMode: " + searchMode, new List <string> {
                taskId, "Individual Spectra Files", fileNameWithoutExtension
            });
            Log("Searching with productMassTolerance: " + initProdTol, new List <string> {
                taskId, "Individual Spectra Files", fileNameWithoutExtension
            });

            new ClassicSearchEngine(allPsmsArray, listOfSortedms2Scans, variableModifications, fixedModifications, proteinList, lp, searchMode, false, combinedParameters, initProdTol, new List <string> {
                taskId, "Individual Spectra Files", fileNameWithoutExtension
            }).Run();

            List <PeptideSpectralMatch> allPsms = allPsmsArray.ToList();

            Dictionary <CompactPeptideBase, HashSet <PeptideWithSetModifications> > compactPeptideToProteinPeptideMatching = ((SequencesToActualProteinPeptidesEngineResults) new SequencesToActualProteinPeptidesEngine(allPsms, proteinList, fixedModifications, variableModifications, lp, new List <IDigestionParams> {
                combinedParameters.DigestionParams
            }, combinedParameters.ReportAllAmbiguity, new List <string> {
                taskId, "Individual Spectra Files", fileNameWithoutExtension
            }).Run()).CompactPeptideToProteinPeptideMatching;

            foreach (var huh in allPsms)
            {
                if (huh != null)
                {
                    huh.MatchToProteinLinkedPeptides(compactPeptideToProteinPeptideMatching);
                }
            }

            allPsms = allPsms.Where(b => b != null).OrderByDescending(b => b.Score).ThenBy(b => b.PeptideMonisotopicMass.HasValue ? Math.Abs(b.ScanPrecursorMass - b.PeptideMonisotopicMass.Value) : double.MaxValue).GroupBy(b => (b.FullFilePath, b.ScanNumber, b.PeptideMonisotopicMass)).Select(b => b.First()).ToList();

            new FdrAnalysisEngine(allPsms, searchMode.NumNotches, false, new List <string> {
                taskId, "Individual Spectra Files", fileNameWithoutExtension
            }).Run();

            List <PeptideSpectralMatch> goodIdentifications = allPsms.Where(b => b.FdrInfo.QValueNotch < 0.01 && !b.IsDecoy && b.FullSequence != null).ToList();

            if (!goodIdentifications.Any())
            {
                Warn("No PSMs below 1% FDR observed!");
                return(new List <PeptideSpectralMatch>(), null);
            }

            var dissociationTypes = MetaMorpheusEngine.DetermineDissociationType(lp);

            foreach (var psm in allPsms)
            {
                var    theScan          = myMsDataFile.GetOneBasedScan(psm.ScanNumber);
                double thePrecursorMass = psm.ScanPrecursorMass;

                foreach (var huh in lp)
                {
                    var ionMasses = psm.CompactPeptides.First().Key.ProductMassesMightHaveDuplicatesAndNaNs(new List <ProductType> {
                        huh
                    });
                    Array.Sort(ionMasses);
                    List <double> matchedIonMassesList    = new List <double>();
                    List <double> productMassErrorDaList  = new List <double>();
                    List <double> productMassErrorPpmList = new List <double>();
                    LocalizationEngine.MatchIons(theScan, initProdTol, ionMasses, matchedIonMassesList, productMassErrorDaList, productMassErrorPpmList, thePrecursorMass, dissociationTypes, false);
                    double[] matchedIonMassesOnlyMatches = matchedIonMassesList.ToArray();
                    psm.MatchedIonDictOnlyMatches.Add(huh, matchedIonMassesOnlyMatches);
                    psm.ProductMassErrorDa.Add(huh, productMassErrorDaList.ToArray());
                    psm.ProductMassErrorPpm.Add(huh, productMassErrorPpmList.ToArray());
                }
            }

            DataPointAquisitionResults currentResult = (DataPointAquisitionResults) new DataPointAcquisitionEngine(
                goodIdentifications,
                myMsDataFile,
                initPrecTol,
                initProdTol,
                CalibrationParameters.NumFragmentsNeededForEveryIdentification,
                CalibrationParameters.MinMS1IsotopicPeaksNeededForConfirmedIdentification,
                CalibrationParameters.MinMS2IsotopicPeaksNeededForConfirmedIdentification,
                fragmentTypesForCalibration,
                new List <string> {
                taskId, "Individual Spectra Files", fileNameWithoutExtension
            }).Run();

            return(goodIdentifications, currentResult);
        }