Esempio n. 1
0
        protected override void DoTest()
        {
            var resultsPath = TestFilesDir.GetTestPath("PeakSortingIssue.raw");
            var docPath     = TestFilesDir.GetTestPath("PeakSortingIssue.sky");
            var doc         = ResultsUtil.DeserializeDocument(docPath);

            AssertEx.IsDocumentState(doc, 0, 1, 3, 6, 90);
            using (var docContainer = new ResultsTestDocumentContainer(doc, docPath))
            {
                var replicateName     = Path.GetFileNameWithoutExtension(resultsPath);
                var listChromatograms =
                    new List <ChromatogramSet> {
                    new ChromatogramSet(replicateName, new[] { MsDataFileUri.Parse(resultsPath) })
                };
                var docResults = doc.ChangeMeasuredResults(new MeasuredResults(listChromatograms));
                Assert.IsTrue(docContainer.SetDocument(docResults, doc, true));
                docContainer.AssertComplete();
                docResults = docContainer.Document;
                AssertResult.IsDocumentResultsState(docResults, replicateName, 0, 0, 0, 0, 3);
            }
        }
        protected void DoTest()
        {
            if (TestFilesZipPaths != null)
            {
                TestFilesDirs = new TestFilesDir[TestFilesZipPaths.Length];
                for (int i = 0; i < TestFilesZipPaths.Length; i++)
                {
                    TestFilesDirs[i] = new TestFilesDir(TestContext, TestFilesZipPaths[i], TestDirectoryName,
                                                        TestFilesPersistent, IsExtractHere(i));
                }
            }

            File.Copy(_baseSkyFile, _skyFile, true);
            Stopwatch loadStopwatch = new Stopwatch();

            loadStopwatch.Start();
            var doc = ResultsUtil.DeserializeDocument(_skyFile);

            if (_centroided)
            {
                doc = doc.ChangeSettings(doc.Settings.ChangeTransitionFullScan(f =>
                                                                               f.ChangePrecursorResolution(FullScanMassAnalyzerType.centroided, 20, null)
                                                                               .ChangeProductResolution(FullScanMassAnalyzerType.centroided, 20, null)));
            }
            doc = ConnectLibrarySpecs(doc, _skyFile);
            using (var docContainer = new ResultsTestDocumentContainer(doc, _skyFile))
            {
                var chromSets = new[]
                {
                    new ChromatogramSet(_replicateName, new[]
                                        { new MsDataFilePath(_dataFile), }),
                };
                var docResults = doc.ChangeMeasuredResults(new MeasuredResults(chromSets));
                Assert.IsTrue(docContainer.SetDocument(docResults, doc, true));
                docContainer.AssertComplete();
            }
            loadStopwatch.Stop();

            DebugLog.Info("{0} load time = {1}", _dataFile, loadStopwatch.ElapsedMilliseconds);
        }
        public void ChromatogramExportTest()
        {
            var    testFilesDir    = new TestFilesDir(TestContext, TEST_ZIP_PATH);
            string chromExportDoc  = testFilesDir.GetTestPath("ChromToExport.sky");
            string fileExpected1   = testFilesDir.GetTestPathLocale(EXPORT_1);
            string fileActual1     = GetActualName(fileExpected1);
            string fileExpected2   = testFilesDir.GetTestPathLocale(EXPORT_2);
            string fileActual2     = GetActualName(fileExpected2);
            string fileExpectedAll = testFilesDir.GetTestPathLocale(EXPORT_ALL);
            string fileActualAll   = GetActualName(fileExpectedAll);

            SrmDocument doc = ResultsUtil.DeserializeDocument(chromExportDoc);

            // Load an empty doc, so that we can make a change and
            // cause the .skyd to be loaded
            using (var docContainer = new ResultsTestDocumentContainer(null, chromExportDoc))
            {
                docContainer.SetDocument(doc, null, true);
                docContainer.AssertComplete();
                SrmDocument docResults = docContainer.Document;
                if (IsSaveAll)
                {
                    // For regenerating all of the required expected files, if things change
                    SaveChrom(docResults, testFilesDir.GetTestPath(EXPORT_1), FILE_NAMES_1.ToList(), CultureInfo.GetCultureInfo("en-US"), EXTRACTOR_1, SOURCES_1);
                    SaveChrom(docResults, testFilesDir.GetTestPath(EXPORT_2), FILE_NAMES_2.ToList(), CultureInfo.GetCultureInfo("en-US"), EXTRACTOR_2, SOURCES_2);
                    SaveChrom(docResults, testFilesDir.GetTestPath(EXPORT_ALL), FILE_NAMES_ALL.ToList(), CultureInfo.GetCultureInfo("en-US"), EXTRACTOR_ALL, SOURCES_ALL);
                    SaveChrom(docResults, testFilesDir.GetTestPathIntl(EXPORT_1), FILE_NAMES_1.ToList(), CultureInfo.GetCultureInfo("fr-FR"), EXTRACTOR_1, SOURCES_1);
                    SaveChrom(docResults, testFilesDir.GetTestPathIntl(EXPORT_2), FILE_NAMES_2.ToList(), CultureInfo.GetCultureInfo("fr-FR"), EXTRACTOR_2, SOURCES_2);
                    SaveChrom(docResults, testFilesDir.GetTestPathIntl(EXPORT_ALL), FILE_NAMES_ALL.ToList(), CultureInfo.GetCultureInfo("fr-FR"), EXTRACTOR_ALL, SOURCES_ALL);
                }

                SaveChrom(docResults, fileActual1, FILE_NAMES_1.ToList(), LocalizationHelper.CurrentCulture, EXTRACTOR_1, SOURCES_1);
                SaveChrom(docResults, fileActual2, FILE_NAMES_2.ToList(), LocalizationHelper.CurrentCulture, EXTRACTOR_2, SOURCES_2);
                SaveChrom(docResults, fileActualAll, FILE_NAMES_ALL.ToList(), LocalizationHelper.CurrentCulture, EXTRACTOR_ALL, SOURCES_ALL);

                AssertEx.FileEquals(fileExpected1, fileActual1);
                AssertEx.FileEquals(fileExpected2, fileActual2);
                AssertEx.FileEquals(fileExpectedAll, fileActualAll);
            }
        }
        private void PerformTestMeasuredDriftValues(bool asSmallMolecules)
        {
            if (asSmallMolecules)
            {
                if (!RunSmallMoleculeTestVersions)
                {
                    Console.Write(MSG_SKIPPING_SMALLMOLECULE_TEST_VERSION);
                    return;
                }
                TestSmallMolecules = false;                                                          // No need to add the magic small molecule test node
            }
            var testFilesDir = new TestFilesDir(TestContext, @"Test\Results\BlibDriftTimeTest.zip"); // Re-used from BlibDriftTimeTest
            // Open document with some peptides but no results
            var docPath = testFilesDir.GetTestPath("BlibDriftTimeTest.sky");
            // This was a malformed document, which caused problems after a fix to not recalculate
            // document library settings on open. To avoid rewriting this test for the document
            // which now contains 2 precursors, the first precursor is removed immediately.
            SrmDocument docOriginal      = ResultsUtil.DeserializeDocument(docPath);
            var         pathFirstPeptide = docOriginal.GetPathTo((int)SrmDocument.Level.Molecules, 0);
            var         nodeFirstPeptide = (DocNodeParent)docOriginal.FindNode(pathFirstPeptide);

            docOriginal = (SrmDocument)docOriginal.RemoveChild(pathFirstPeptide, nodeFirstPeptide.Children[0]);
            if (asSmallMolecules)
            {
                var refine = new RefinementSettings();
                docOriginal = refine.ConvertToSmallMolecules(docOriginal, testFilesDir.FullPath);
            }
            using (var docContainer = new ResultsTestDocumentContainer(docOriginal, docPath))
            {
                var doc = docContainer.Document;

                // Import an mz5 file that contains drift info
                const string replicateName = "ID12692_01_UCA168_3727_040714";
                var          chromSets     = new[]
                {
                    new ChromatogramSet(replicateName, new[]
                                        { new MsDataFilePath(testFilesDir.GetTestPath("ID12692_01_UCA168_3727_040714" + ExtensionTestContext.ExtMz5)), }),
                };
                var docResults = doc.ChangeMeasuredResults(new MeasuredResults(chromSets));
                Assert.IsTrue(docContainer.SetDocument(docResults, docOriginal, true));
                docContainer.AssertComplete();
                var document = docContainer.Document;
                document = document.ChangeSettings(document.Settings.ChangePeptidePrediction(prediction => new PeptidePrediction(null, IonMobilityPredictor.EMPTY)));

                // Verify ability to extract predictions from raw data
                var newPred = document.Settings.PeptideSettings.Prediction.IonMobilityPredictor.ChangeMeasuredIonMobilityValuesFromResults(
                    document, docContainer.DocumentFilePath);
                var result = newPred.MeasuredMobilityIons;
                Assert.AreEqual(TestSmallMolecules ? 2 : 1, result.Count);
                const double expectedDT     = 4.0019;
                var          expectedOffset = .4829;
                Assert.AreEqual(expectedDT, result.Values.First().IonMobility.Mobility.Value, .001);
                Assert.AreEqual(expectedOffset, result.Values.First().HighEnergyIonMobilityValueOffset, .001);

                // Check ability to update, and to preserve unchanged
                var revised = new Dictionary <LibKey, IonMobilityAndCCS>();
                var libKey  = result.Keys.First();
                revised.Add(libKey, IonMobilityAndCCS.GetIonMobilityAndCCS(IonMobilityValue.GetIonMobilityValue(4, eIonMobilityUnits.drift_time_msec), null, 0.234));  // N.B. CCS handling would require actual raw data in this test, it's covered in a perf test
                var libKey2 = new LibKey("DEADEELS", asSmallMolecules ? Adduct.NonProteomicProtonatedFromCharge(2) : Adduct.DOUBLY_PROTONATED);
                revised.Add(libKey2, IonMobilityAndCCS.GetIonMobilityAndCCS(IonMobilityValue.GetIonMobilityValue(5, eIonMobilityUnits.drift_time_msec), null, 0.123));
                document =
                    document.ChangeSettings(
                        document.Settings.ChangePeptidePrediction(prediction => new PeptidePrediction(null, new IonMobilityPredictor("test", revised, null, null, IonMobilityWindowWidthCalculator.IonMobilityPeakWidthType.resolving_power, 40, 0, 0))));
                newPred = document.Settings.PeptideSettings.Prediction.ChangeDriftTimePredictor(
                    document.Settings.PeptideSettings.Prediction.IonMobilityPredictor.ChangeMeasuredIonMobilityValuesFromResults(
                        document, docContainer.DocumentFilePath)).IonMobilityPredictor;
                result = newPred.MeasuredMobilityIons;
                Assert.AreEqual(TestSmallMolecules ? 3 : 2, result.Count);
                Assert.AreEqual(expectedDT, result[libKey].IonMobility.Mobility.Value, .001);
                Assert.AreEqual(expectedOffset, result[libKey].HighEnergyIonMobilityValueOffset, .001);
                Assert.AreEqual(5, result[libKey2].IonMobility.Mobility.Value, .001);
                Assert.AreEqual(0.123, result[libKey2].HighEnergyIonMobilityValueOffset, .001);
            }
        }
Esempio n. 5
0
        public void TestImportPeakBoundary()
        {
            // Load the SRM document and relevant files
            var  testFilesDir        = new TestFilesDir(TestContext, TEST_ZIP_PATH);
            bool isIntl              = (TextUtil.CsvSeparator != TextUtil.SEPARATOR_CSV);
            var  precursorMzs        = isIntl ? _precursorMzsIntl : _precursorMzsUs;
            var  peakBoundaryFileTsv = testFilesDir.GetTestPath(isIntl
                                                                   ? "PeakBoundaryTsvIntl.tsv"
                                                                   : "PeakBoundaryTsv.tsv");
            var peakBoundaryFileCsv = testFilesDir.GetTestPath(isIntl
                                                                   ? "PeakBoundaryIntl.csv"
                                                                   : "PeakBoundaryUS.csv");
            var         peakBoundaryDoc = testFilesDir.GetTestPath("Chrom05.sky");
            SrmDocument doc             = ResultsUtil.DeserializeDocument(peakBoundaryDoc);

            var    cult     = LocalizationHelper.CurrentCulture;
            var    cultI    = CultureInfo.InvariantCulture;
            string csvSep   = TextUtil.CsvSeparator.ToString(cultI);
            string spaceSep = TextUtil.SEPARATOR_SPACE.ToString(cultI);

            // Load an empty doc, so that we can make a change and
            // cause the .skyd to be loaded
            using (var docContainer = new ResultsTestDocumentContainer(null, peakBoundaryDoc))
            {
                docContainer.SetDocument(doc, null, true);
                docContainer.AssertComplete();
                SrmDocument docResults = docContainer.Document;
                // Test Tsv import, looking at first .raw file
                DoFileImportTests(docResults, peakBoundaryFileTsv, _precursorCharge,
                                  _tsvMinTime1, _tsvMaxTime1, _tsvIdentified1, _tsvAreas1, _peptides, 0, precursorMzs, annote);
                // Test Tsv import, looking at second .raw file
                DoFileImportTests(docResults, peakBoundaryFileTsv, _precursorCharge,
                                  _tsvMinTime2, _tsvMaxTime2, _tsvIdentified2, _tsvAreas2, _peptides, 1, precursorMzs, annote);

                // Test Csv import for local format
                DoFileImportTests(docResults, peakBoundaryFileCsv, _precursorCharge,
                                  _csvMinTime1, _csvMaxTime1, _csvIdentified1, _csvAreas1, _peptides, 0, precursorMzs, annote);
                DoFileImportTests(docResults, peakBoundaryFileCsv, _precursorCharge,
                                  _csvMinTime2, _csvMaxTime2, _csvIdentified2, _csvAreas2, _peptides, 1, precursorMzs, annote);

                // Test that importing same file twice leads to no change to document the second time
                var docNew     = ImportFileToDoc(docResults, peakBoundaryFileTsv);
                var docNewSame = ImportFileToDoc(docNew, peakBoundaryFileTsv);
                Assert.AreSame(docNew, docNewSame);
                Assert.AreNotSame(docNew, docResults);

                // Test that exporting peak boundaries and then importing them leads to no change
                string     peakBoundaryExport = testFilesDir.GetTestPath("TestRoundTrip.csv");
                ReportSpec reportSpec         = MakeReportSpec();
                ReportToCsv(reportSpec, docNew, peakBoundaryExport);
                var docRoundTrip = ImportFileToDoc(docNew, peakBoundaryExport);
                Assert.AreSame(docNew, docRoundTrip);


                // 1. Empty file -
                ImportThrowsException(docResults, string.Empty,
                                      Resources.PeakBoundaryImporter_Import_Failed_to_read_the_first_line_of_the_file);

                // 2. No separator in first line
                ImportThrowsException(docResults, "No-valid-separators",
                                      TextUtil.CsvSeparator == TextUtil.SEPARATOR_CSV
                        ? Resources.PeakBoundaryImporter_DetermineCorrectSeparator_The_first_line_does_not_contain_any_of_the_possible_separators_comma__tab_or_space_
                        : Resources.PeakBoundaryImporter_DetermineCorrectSeparator_The_first_line_does_not_contain_any_of_the_possible_separators_semicolon__tab_or_space_);

                // 3. Missing field names
                ImportThrowsException(docResults, string.Join(csvSep, PeakBoundaryImporter.STANDARD_FIELD_NAMES.Take(3).ToArray()),
                                      Resources.PeakBoundaryImporter_Import_Failed_to_find_the_necessary_headers__0__in_the_first_line);

                string   headerRow       = string.Join(csvSep, PeakBoundaryImporter.STANDARD_FIELD_NAMES.Take(6));
                string   headerRowSpaced = string.Join(spaceSep, PeakBoundaryImporter.STANDARD_FIELD_NAMES.Take(6));
                string[] values          =
                {
                    "TPEVDDEALEK", "Q_2012_0918_RJ_13.raw", (3.5).ToString(cult), (4.5).ToString(cult), 2.ToString(cult), 0.ToString(cult)
                };

                // 4. Mismatched field count
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRow, string.Join(spaceSep, values)),
                                      Resources.PeakBoundaryImporter_Import_Line__0__field_count__1__differs_from_the_first_line__which_has__2_);

                // 5. Invalid charge state
                string[] valuesBadCharge = new List <string>(values).ToArray();
                valuesBadCharge[(int)PeakBoundaryImporter.Field.charge] = (3.5).ToString(cult);
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRow, string.Join(csvSep, valuesBadCharge)),
                                      Resources.PeakBoundaryImporter_Import_The_value___0___on_line__1__is_not_a_valid_charge_state_);
                valuesBadCharge[(int)PeakBoundaryImporter.Field.charge] = TextUtil.EXCEL_NA;
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRow, string.Join(csvSep, valuesBadCharge)),
                                      Resources.PeakBoundaryImporter_Import_The_value___0___on_line__1__is_not_a_valid_charge_state_);

                // 6. Invalid start time
                string[] valuesBadTime = new List <string>(values).ToArray();
                valuesBadTime[(int)PeakBoundaryImporter.Field.start_time] = "bad";
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadTime)),
                                      Resources.PeakBoundaryImporter_Import_The_value___0___on_line__1__is_not_a_valid_start_time_);
                valuesBadTime[(int)PeakBoundaryImporter.Field.end_time] = "bad";
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadTime)),
                                      Resources.PeakBoundaryImporter_Import_The_value___0___on_line__1__is_not_a_valid_start_time_);

                // But ok if not adjusting peaks
                ImportNoException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadTime)), true, false, false);

                // 7. Invalid end time
                valuesBadTime[(int)PeakBoundaryImporter.Field.start_time] =
                    values[(int)PeakBoundaryImporter.Field.start_time];
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadTime)),
                                      Resources.PeakBoundaryImporter_Import_The_value___0___on_line__1__is_not_a_valid_end_time_);

                // But ok if not adjusting peaks
                ImportNoException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadTime)), true, false, false);

                // #N/A in times ok
                valuesBadTime[(int)PeakBoundaryImporter.Field.start_time]   =
                    valuesBadTime[(int)PeakBoundaryImporter.Field.end_time] = TextUtil.EXCEL_NA;
                ImportNoException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadTime)));
                // If only start time #N/A throws exception
                valuesBadTime[(int)PeakBoundaryImporter.Field.start_time] = (3.5).ToString(cult);
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadTime)),
                                      Resources.PeakBoundaryImporter_Import_Missing_end_time_on_line__0_);
                // If only end time #N/A throws exception
                valuesBadTime[(int)PeakBoundaryImporter.Field.start_time] = TextUtil.EXCEL_NA;
                valuesBadTime[(int)PeakBoundaryImporter.Field.end_time]   = (3.5).ToString(cult);
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadTime)),
                                      Resources.PeakBoundaryImporter_Import_Missing_start_time_on_line__0_);
                // Empty times throws exception
                valuesBadTime[(int)PeakBoundaryImporter.Field.start_time]   =
                    valuesBadTime[(int)PeakBoundaryImporter.Field.end_time] = string.Empty;
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadTime)),
                                      Resources.PeakBoundaryImporter_Import_The_value___0___on_line__1__is_not_a_valid_start_time_);

                // 8. Not imported file gets skipped
                string[] valuesBadFile = new List <string>(values).ToArray();
                valuesBadFile[(int)PeakBoundaryImporter.Field.filename] = "Q_2012_0918_RJ_15.raw";
                ImportNoException(docResults, TextUtil.LineSeparate(headerRowSpaced, string.Join(spaceSep, valuesBadFile)));

                // 9. Unknown modification state gets skipped
                string[] valuesBadSequence = new List <string>(values).ToArray();
                valuesBadSequence[(int)PeakBoundaryImporter.Field.modified_peptide] = "T[+80]PEVDDEALEK";
                ImportNoException(docResults, TextUtil.LineSeparate(headerRow, string.Join(csvSep, valuesBadSequence)));

                // 10. Unknown peptide sequence gets skipped
                valuesBadSequence[(int)PeakBoundaryImporter.Field.modified_peptide] = "PEPTIDER";
                ImportNoException(docResults, TextUtil.LineSeparate(headerRow, string.Join(csvSep, valuesBadSequence)));

                // 11. Bad value in decoy field
                string[] valuesBadDecoys = new List <string>(values).ToArray();
                valuesBadDecoys[(int)PeakBoundaryImporter.Field.is_decoy] = 3.ToString(cult);
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRow, string.Join(csvSep, valuesBadDecoys)),
                                      Resources.PeakBoundaryImporter_Import_The_decoy_value__0__on_line__1__is_invalid__must_be_0_or_1_);

                // 12. Import with bad sample throws exception
                string[] valuesSample =
                {
                    "TPEVDDEALEK", "Q_2012_0918_RJ_13.raw", (3.5).ToString(cult), (4.5).ToString(cult), 2.ToString(cult), 0.ToString(cult), "badSample"
                };
                string headerRowSample = string.Join(csvSep, PeakBoundaryImporter.STANDARD_FIELD_NAMES);
                ImportThrowsException(docResults, TextUtil.LineSeparate(headerRowSample, string.Join(csvSep, valuesSample)),
                                      Resources.PeakBoundaryImporter_Import_Sample__0__on_line__1__does_not_match_the_file__2__);

                // 13. Decoys, charge state, and sample missing ok
                var    valuesFourFields = valuesSample.Take(4);
                string headerFourFields = string.Join(csvSep, PeakBoundaryImporter.STANDARD_FIELD_NAMES.Take(4));
                ImportNoException(docResults, TextUtil.LineSeparate(headerFourFields, string.Join(csvSep, valuesFourFields)));

                // 14. Valid (charge state, fileName, peptide) combo that is not in document gets skipped
                string[] valuesBadCombo = new List <string>(values).ToArray();
                valuesBadCombo[(int)PeakBoundaryImporter.Field.charge] = (5).ToString(cult);
                ImportNoException(docResults, TextUtil.LineSeparate(headerRow, string.Join(csvSep, valuesBadCombo)));

                // Note: Importing with all 7 columns is tested as part of MProphetResultsHandlerTest
            }

            // Now check a file that has peptide ID's, and see that they're properly ported
            var         peptideIdPath = testFilesDir.GetTestPath("Template_MS1Filtering_1118_2011_3-2min.sky");
            SrmDocument docId         = ResultsUtil.DeserializeDocument(peptideIdPath);

            docId = docId.ChangeSettings(docId.Settings.ChangePeptideLibraries(libraries =>
            {
                var lib = libraries.Libraries[0];
                return(libraries.ChangeLibrarySpecs(new LibrarySpec[]
                {
                    new BiblioSpecLiteSpec(lib.Name, testFilesDir.GetTestPath(lib.FileNameHint))
                }));
            }));

            using (var docContainerId = new ResultsTestDocumentContainer(null, peptideIdPath))
            {
                docContainerId.SetDocument(docId, null, true);
                docContainerId.AssertComplete();
                SrmDocument docResultsId       = docContainerId.Document;
                var         peakBoundaryFileId = testFilesDir.GetTestPath(isIntl
                                                                      ? "Template_MS1Filtering_1118_2011_3-2min_new_intl.tsv"
                                                                      : "Template_MS1Filtering_1118_2011_3-2min_new.tsv");
                DoFileImportTests(docResultsId, peakBoundaryFileId, _precursorChargeId,
                                  _idMinTime1, _idMaxTime1, _idIdentified1, _idAreas1, _peptidesId, 0);

                // 15. Decminal import format ok
                var headerUnimod = string.Join(csvSep, PeakBoundaryImporter.STANDARD_FIELD_NAMES.Take(4));
                var valuesUnimod = new[]
                {
                    "LGGLRPES[+" + string.Format("{0:F01}", 80.0) + "]PESLTSVSR", "100803_0005b_MCF7_TiTip3.wiff", (80.5).ToString(cult), (82.0).ToString(cult)
                };
                ImportNoException(docResultsId, TextUtil.LineSeparate(headerUnimod, string.Join(csvSep, valuesUnimod)));

                // 16. Integer import format ok
                valuesUnimod[0] = "LGGLRPES[+80]PESLTSVSR";
                ImportNoException(docResultsId, TextUtil.LineSeparate(headerUnimod, string.Join(csvSep, valuesUnimod)));

                // 17. Unimod import format ok
                valuesUnimod[0] = "LGGLRPES(UniMod:21)PESLTSVSR";
                ImportNoException(docResultsId, TextUtil.LineSeparate(headerUnimod, string.Join(csvSep, valuesUnimod)));

                // 18. Strange capitalizations OK
                valuesUnimod[0] = "LGGLRPES(uniMoD:21)PESLTSVSR";
                ImportNoException(docResultsId, TextUtil.LineSeparate(headerUnimod, string.Join(csvSep, valuesUnimod)));

                // 18. Unimod with brackets OK
                valuesUnimod[0] = "LGGLRPES[uniMoD:21]PESLTSVSR";
                ImportNoException(docResultsId, TextUtil.LineSeparate(headerUnimod, string.Join(csvSep, valuesUnimod)));
            }
        }
Esempio n. 6
0
        public void WiffResultsTest()
        {
            TestFilesDir testFilesDir = new TestFilesDir(TestContext, ZIP_FILE);

            SrmDocument doc = InitWiffDocument(testFilesDir);

            using (var docContainer = new ResultsTestDocumentContainer(doc,
                                                                       testFilesDir.GetTestPath("SimpleWiffTest.sky")))
            {
                FileEx.SafeDelete(ChromatogramCache.FinalPathForName(docContainer.DocumentFilePath, null));

                var listChromatograms = new List <ChromatogramSet>();

                if (ExtensionTestContext.CanImportAbWiff)
                {
                    string   pathWiff = testFilesDir.GetTestPath("051309_digestion.wiff");
                    string[] dataIds  = MsDataFileImpl.ReadIds(pathWiff);

                    for (int i = 0; i < dataIds.Length; i++)
                    {
                        string nameSample = dataIds[i];
                        if (!Equals(nameSample, "test") && listChromatograms.Count == 0)
                        {
                            continue;
                        }
                        string pathSample = SampleHelp.EncodePath(pathWiff, nameSample, i, LockMassParameters.EMPTY, false, false);
                        listChromatograms.Add(new ChromatogramSet(nameSample, new[] { MsDataFileUri.Parse(pathSample) }));
                    }
                }
                else
                {
                    listChromatograms.Add(new ChromatogramSet("test",
                                                              new[] { MsDataFileUri.Parse(testFilesDir.GetTestPath("051309_digestion-test.mzML")) }));
                    listChromatograms.Add(new ChromatogramSet("rfp9,before,h,1",
                                                              new[] { MsDataFileUri.Parse(testFilesDir.GetTestPath("051309_digestion-rfp9,before,h,1.mzML")) }));
                }

                // Should have added test and one after
                Assert.AreEqual(2, listChromatograms.Count);

                var docResults = doc.ChangeMeasuredResults(new MeasuredResults(listChromatograms));
                Assert.IsTrue(docContainer.SetDocument(docResults, doc, true));
                docContainer.AssertComplete();

                docResults = docContainer.Document;

                AssertEx.IsDocumentState(docResults, 6, 9, 9, 18, 54);
                Assert.IsTrue(docResults.Settings.MeasuredResults.IsLoaded);

                foreach (var nodeTran in docResults.PeptideTransitions)
                {
                    Assert.IsTrue(nodeTran.HasResults);
                    Assert.AreEqual(2, nodeTran.Results.Count);
                }

                // Remove the last chromatogram
                listChromatograms.RemoveAt(1);

                var docResultsSingle = docResults.ChangeMeasuredResults(new MeasuredResults(listChromatograms));

                AssertResult.IsDocumentResultsState(docResultsSingle, "test", 9, 2, 9, 8, 27);

                // Add mzXML version of test sample
                listChromatograms.Add(new ChromatogramSet("test-mzXML", new[] { MsDataFileUri.Parse(testFilesDir.GetTestPath("051309_digestion-s3.mzXML")) }));

                var docMzxml = docResults.ChangeMeasuredResults(new MeasuredResults(listChromatograms));
                Assert.IsTrue(docContainer.SetDocument(docMzxml, docResults, true));
                docContainer.AssertComplete();
                docMzxml = docContainer.Document;
                // Verify mzXML and native contained same results
                // Unfortunately mzWiff produces chromatograms with now zeros, which
                // need to be interpolated into place.  This means a .wiff file and
                // its mzWiff mzXML file will never be the same.
                AssertResult.MatchChromatograms(docMzxml, 0, 1, -1, 0);
            }

            // TODO: Switch to a using clause when PWiz is fixed, and this assertion fails
//            AssertEx.ThrowsException<IOException>(() => testFilesDir.Dispose());
        }
Esempio n. 7
0
        private void WatersImsMseChromatogramTest(DriftFilterType mode,
                                                  IonMobilityWindowWidthCalculator.IonMobilityPeakWidthType driftPeakWidthCalcType,
                                                  RefinementSettings.ConvertToSmallMoleculesMode asSmallMolecules = RefinementSettings.ConvertToSmallMoleculesMode.none)
        {
            if (asSmallMolecules != RefinementSettings.ConvertToSmallMoleculesMode.none && !RunSmallMoleculeTestVersions)
            {
                Console.Write(MSG_SKIPPING_SMALLMOLECULE_TEST_VERSION);
                return;
            }

            string subdir       = (asSmallMolecules == RefinementSettings.ConvertToSmallMoleculesMode.none) ? null : asSmallMolecules.ToString();
            var    testFilesDir = new TestFilesDir(TestContext, ZIP_FILE, subdir);

            TestSmallMolecules = false;                                               // Don't need that extra magic node

            bool        withDriftTimePredictor = (mode == DriftFilterType.predictor); // Load the doc that has a drift time predictor?
            bool        withDriftTimeFilter    = (mode != DriftFilterType.none);      // Perform drift time filtering?  (either with predictor, or with bare times in blib file)
            string      docPath;
            SrmDocument document = InitWatersImsMseDocument(testFilesDir, driftPeakWidthCalcType, withDriftTimeFilter, withDriftTimePredictor, out docPath);

            AssertEx.IsDocumentState(document, null, 1, 1, 1, 8); // Drift time lib load bumps the doc version, so does small mol conversion
            var listChromatograms = new List <ChromatogramSet>();
            // A small subset of the QC_HDMSE_02_UCA168_3495_082213 data set (RT 21.5-22.5) from Will Thompson
            string mz5Path     = "waters-mobility" + ExtensionTestContext.ExtMz5;
            string testModeStr = withDriftTimePredictor ? "with drift time predictor" : "without drift time info";

            if (withDriftTimeFilter && !withDriftTimePredictor)
            {
                testModeStr = "with drift times from spectral library";
            }

            listChromatograms.Add(AssertResult.FindChromatogramSet(document, new MsDataFilePath(mz5Path)) ??
                                  new ChromatogramSet(Path.GetFileName(mz5Path).Replace('.', '_'), new[] { mz5Path }));
            using (var docContainer = new ResultsTestDocumentContainer(document, docPath))
            {
                var doc        = docContainer.Document;
                var docResults = doc.ChangeMeasuredResults(new MeasuredResults(listChromatograms));
                Assume.IsTrue(docContainer.SetDocument(docResults, doc, true));
                docContainer.AssertComplete();
                document = docContainer.Document;
            }
            document = ConvertToSmallMolecules(document, ref docPath, new[] { mz5Path }, asSmallMolecules);
            using (var docContainer = new ResultsTestDocumentContainer(document, docPath))
            {
                float  tolerance = (float)document.Settings.TransitionSettings.Instrument.MzMatchTolerance;
                double maxHeight = 0;
                var    results   = document.Settings.MeasuredResults;
                Assume.AreEqual(1, document.MoleculePrecursorPairs.Count());
                foreach (var pair in document.MoleculePrecursorPairs)
                {
                    ChromatogramGroupInfo[] chromGroupInfo;
                    Assume.IsTrue(results.TryLoadChromatogram(0, pair.NodePep, pair.NodeGroup,
                                                              tolerance, true, out chromGroupInfo));
                    Assume.AreEqual(1, chromGroupInfo.Length, testModeStr);
                    var chromGroup = chromGroupInfo[0];
                    int expectedPeaks;
                    if (withDriftTimeFilter)
                    {
                        expectedPeaks = 3;
                    }
                    else if (asSmallMolecules != RefinementSettings.ConvertToSmallMoleculesMode.masses_only)
                    {
                        expectedPeaks = 5;
                    }
                    else
                    {
                        expectedPeaks = 6;                                            // No libraries
                    }
                    Assume.AreEqual(expectedPeaks, chromGroup.NumPeaks, testModeStr); // This will be higher if we don't filter on DT
                    foreach (var tranInfo in chromGroup.TransitionPointSets)
                    {
                        maxHeight = Math.Max(maxHeight, tranInfo.MaxIntensity);
                    }
                }
                Assume.AreEqual(withDriftTimeFilter ? 5226 : 20075, maxHeight, 1, testModeStr);  // Without DT filtering, this will be much greater

                // now drill down for specific values
                int nPeptides = 0;
                foreach (var nodePep in document.Molecules.Where(nodePep => !nodePep.Results[0].IsEmpty))
                {
                    // expecting just one peptide result in this small data set
                    if (nodePep.Results[0].Sum(chromInfo => chromInfo.PeakCountRatio > 0 ? 1 : 0) > 0)
                    {
                        Assume.AreEqual(21.94865, (double)nodePep.GetMeasuredRetentionTime(0), .0001, testModeStr);
                        Assume.AreEqual(1.0, (double)nodePep.GetPeakCountRatio(0), 0.0001, testModeStr);
                        nPeptides++;
                    }
                }
                Assume.AreEqual(1, nPeptides);

                if (withDriftTimePredictor || withDriftTimeFilter)
                {
                    // Verify that the .imdb pr .blib file goes out in the share zipfile
                    for (int complete = 0; complete <= 1; complete++)
                    {
                        var sharePath =
                            testFilesDir.GetTestPath(complete == 1 ? "share_complete.zip" : "share_minimized.zip");
                        var share = new SrmDocumentSharing(document, docPath, sharePath,
                                                           new ShareType(complete == 1, SkylineVersion.CURRENT)); // Explicitly declaring version number forces a save before zip
                        share.Share(new SilentProgressMonitor());

                        var files    = share.ListEntries().ToArray();
                        var imdbFile = withDriftTimePredictor ? "scaled.imdb" : "waters-mobility.filtered-scaled.blib";
                        if (asSmallMolecules != RefinementSettings.ConvertToSmallMoleculesMode.none)
                        {
                            var ext = "." + imdbFile.Split('.').Last();
                            imdbFile = imdbFile.Replace(ext, BiblioSpecLiteSpec.DotConvertedToSmallMolecules + ext);
                        }
                        Assume.IsTrue(files.Contains(imdbFile));
                        // And round trip it to make sure we haven't left out any new features in minimized imdb or blib files
                        share.Extract(new SilentProgressMonitor());
                        using (var cmdline = new CommandLine())
                        {
                            Assume.IsTrue(cmdline.OpenSkyFile(share.DocumentPath)); // Handles any path shifts in database files, like our .imdb file
                            var document2 = cmdline.Document;
                            Assume.IsNotNull(document2);

                            Assume.IsTrue(docContainer.SetDocument(document2, docContainer.Document, true));
                            docContainer.AssertComplete();

                            document2 = docContainer.Document;
                            var im  = document2.Settings.GetIonMobilities(new MsDataFilePath(mz5Path));
                            var pep = document2.Molecules.First();
                            foreach (TransitionGroupDocNode nodeGroup in pep.Children)
                            {
                                double windowDT;
                                var    centerDriftTime = document2.Settings.GetIonMobility(
                                    pep, nodeGroup, null, im, null, driftTimeMax, out windowDT);
                                Assume.AreEqual(3.86124, centerDriftTime.IonMobility.Mobility.Value, .0001, testModeStr);
                                Assume.AreEqual(0.077224865797235934, windowDT, .0001, testModeStr);
                            }
                        }
                    }
                }
            }
        }
Esempio n. 8
0
        public void WatersMultiReplicateTest()
        {
            var testFilesDir = new TestFilesDir(TestContext, ZIP_FILE);

            string      docPath;
            SrmDocument docOriginal    = InitWatersDocument(testFilesDir, out docPath);
            SrmDocument doc            = docOriginal;
            var         listCachePaths = new List <string>();

            using (var docContainer = new ResultsTestDocumentContainer(doc, docPath))
            {
                string extRaw = ExtensionTestContext.ExtWatersRaw;

                string[] replicatePaths =
                {
                    testFilesDir.GetTestPath("160109_Mix1_calcurve_070.mzML"),
                    testFilesDir.GetTestPath("160109_Mix1_calcurve_073.mzML"),
                    testFilesDir.GetTestPath("160109_Mix1_calcurve_075" + extRaw),
                    testFilesDir.GetTestPath("160109_Mix1_calcurve_078.mzML")
                };
                // Count peaks where higher concentration replicates show less area
                int outOfOrder = 0;
                foreach (string path in replicatePaths)
                {
                    var listChromatograms = new List <ChromatogramSet>();
                    if (doc.Settings.HasResults)
                    {
                        listChromatograms.AddRange(doc.Settings.MeasuredResults.Chromatograms);
                    }

                    string name = Path.GetFileNameWithoutExtension(path);
                    if (name != null)
                    {
                        name = name.Substring(name.Length - 12);
                    }
                    listChromatograms.Add(new ChromatogramSet(name, new[] { MsDataFileUri.Parse(path) }));
                    int len = listChromatograms.Count;

                    var docResults = doc.ChangeMeasuredResults(doc.Settings.MeasuredResults != null
                        ? doc.Settings.MeasuredResults.ChangeChromatograms(listChromatograms)
                        : new MeasuredResults(listChromatograms));
                    // Adding unloaded results should add a new null result.
                    foreach (var nodeTran in docResults.PeptideTransitions)
                    {
                        Assert.IsTrue(nodeTran.HasResults);
                        Assert.AreEqual(listChromatograms.Count, nodeTran.Results.Count);
                        Assert.IsTrue(nodeTran.Results[len - 1].IsEmpty);
                    }

                    Assert.IsTrue(docContainer.SetDocument(docResults, doc, true),
                                  string.Format("Failed adding results for {0}.", path));
                    docContainer.AssertComplete();
                    docResults = docContainer.Document;

                    Assert.IsTrue(docResults.Settings.MeasuredResults.IsLoaded);

                    var transOld = doc.PeptideTransitions.ToArray();
                    var transNew = docResults.PeptideTransitions.ToArray();
                    Assert.AreEqual(transOld.Length, transNew.Length);
                    int countPeaks = 0;
                    for (int i = 0; i < transNew.Length; i++)
                    {
                        // Make sure new peak was added to each transition
                        var nodeTranNew = transNew[i];
                        Assert.IsTrue(nodeTranNew.HasResults);
                        Assert.AreEqual(len, nodeTranNew.Results.Count);
                        var chromInfo = nodeTranNew.Results[len - 1][0];
                        Assert.IsNotNull(chromInfo);

                        if (!chromInfo.IsEmpty)
                        {
                            countPeaks++;
                        }

                        // Make sure previously loaded peaks did not change
                        for (int j = 0; j < len - 1; j++)
                        {
                            var chromInfoPrevious = transOld[i].Results[j][0];
                            Assert.AreSame(chromInfoPrevious, nodeTranNew.Results[j][0]);
                            if ((chromInfo.IsEmpty && !chromInfoPrevious.IsEmpty) ||
                                (!chromInfo.IsEmpty && chromInfoPrevious.Area >= chromInfo.Area))
                            {
                                outOfOrder++;
                            }
                        }
                    }
                    // Allow 2 missed peaks
                    Assert.IsTrue(countPeaks >= transNew.Length - (TestSmallMolecules ? 1 : 0) - 2);

                    // Check results calculations for peptides and groups
                    foreach (var nodePep in docResults.Peptides)
                    {
                        Assert.AreEqual(len, nodePep.Results.Count);
                        Assert.IsTrue(nodePep.HasResults);
                        var chromInfo = nodePep.Results[len - 1][0];
                        Assert.AreEqual(1, nodePep.Children.Count);
                        var nodeGroup = (TransitionGroupDocNode)nodePep.Children[0];
                        Assert.IsTrue(nodeGroup.HasResults);
                        Assert.AreEqual(len, nodeGroup.Results.Count);
                        var chromInfoGroup = nodeGroup.Results[len - 1][0];
                        Assert.IsTrue(chromInfoGroup.PeakCountRatio >= 0.5);
                        Assert.IsTrue(chromInfoGroup.RetentionTime.HasValue);
                        Assert.IsTrue(chromInfoGroup.Area.HasValue && chromInfoGroup.Area > 290);

                        Assert.AreEqual(chromInfo.RetentionTime, chromInfoGroup.RetentionTime);
                        Assert.AreEqual(chromInfo.PeakCountRatio, chromInfoGroup.PeakCountRatio);
                    }

                    doc = docResults;
                }

                Assert.AreEqual(13, outOfOrder, 1);

                // Remove the original data
                foreach (string path in replicatePaths)
                {
                    if (File.Exists(path))
                    {
                        FileEx.SafeDelete(path);
                    }
                    else
                    {
                        DirectoryEx.SafeDelete(path);
                    }
                }
                FileEx.SafeDelete(docPath);

                // Save the document
                string xmlSaved     = null;
                var    docPersisted = AssertEx.RoundTrip(doc, ref xmlSaved);
                Assert.IsTrue(!docPersisted.Settings.MeasuredResults.IsLoaded);
                // Make sure the persisted document round-trips.
                // The orginal doesn't because of changing precision in the results info.
                AssertEx.Serializable(docPersisted, AssertEx.DocumentCloned);

                // Make sure the loaded document has reasonable results info
                // before the cache files are loaded
                for (int i = 0; i < doc.Children.Count; i++)
                {
                    PeptideGroupDocNode nodePepGroup1 = (PeptideGroupDocNode)doc.Children[i];
                    if (TestSmallMolecules && nodePepGroup1.Name.Equals(SrmDocument.TestingNonProteomicMoleculeGroupName))
                    {
                        continue;
                    }
                    PeptideGroupDocNode nodePepGroup2 = (PeptideGroupDocNode)docPersisted.Children[i];
                    Assert.AreNotSame(nodePepGroup1, nodePepGroup2);
                    for (int j = 0; j < nodePepGroup1.Children.Count; j++)
                    {
                        PeptideDocNode nodePep1 = (PeptideDocNode)nodePepGroup1.Children[j];
                        PeptideDocNode nodePep2 = (PeptideDocNode)nodePepGroup2.Children[j];
                        Assert.AreNotSame(nodePep1, nodePep2);
                        Assert.AreEqual(nodePep1.Results.Count, nodePep2.Results.Count);
                        for (int k = 0; k < nodePep1.Results.Count; k++)
                        {
                            Assert.AreEqual(nodePep1.Results[k][0].PeakCountRatio, nodePep2.Results[k][0].PeakCountRatio);
                        }
                        for (int k = 0; k < nodePep1.Children.Count; k++)
                        {
                            TransitionGroupDocNode nodeGroup1 = (TransitionGroupDocNode)nodePep1.Children[k];
                            TransitionGroupDocNode nodeGroup2 = (TransitionGroupDocNode)nodePep2.Children[k];
                            Assert.AreNotSame(nodeGroup1, nodeGroup2);
                            Assert.AreEqual(nodeGroup1.Results.Count, nodeGroup2.Results.Count);
                            for (int l = 0; l < nodeGroup1.Results.Count; l++)
                            {
                                Assert.AreEqual(nodeGroup1.Results[l][0].PeakCountRatio,
                                                nodeGroup2.Results[l][0].PeakCountRatio);
                            }
                            for (int l = 0; l < nodeGroup1.Children.Count; l++)
                            {
                                TransitionDocNode nodeTran1 = (TransitionDocNode)nodeGroup1.Children[l];
                                TransitionDocNode nodeTran2 = (TransitionDocNode)nodeGroup2.Children[l];
                                Assert.AreNotSame(nodeTran1, nodeTran2);
                                Assert.AreEqual(nodeTran1.Results.Count, nodeTran2.Results.Count);
                                for (int m = 0; m < nodeTran1.Results.Count; m++)
                                {
                                    if (!nodeTran1.Results[m].IsEmpty && !nodeTran2.Results[m].IsEmpty)
                                    {
                                        Assert.AreEqual(nodeTran1.Results[m][0].IsEmpty, nodeTran2.Results[m][0].IsEmpty);
                                    }
                                    else
                                    {
                                        Assert.AreEqual(nodeTran1.Results[m], nodeTran2.Results[m]); // both null
                                    }
                                }
                            }
                        }
                    }
                }

                // Reload data from .skyd files
                Assert.IsTrue(docContainer.SetDocument(docPersisted, doc, true));
                docContainer.AssertComplete();
                doc = docContainer.Document;

                var         results   = doc.Settings.MeasuredResults;
                const float tolerance = (float)TransitionInstrument.DEFAULT_MZ_MATCH_TOLERANCE;
                foreach (var pair in doc.PeptidePrecursorPairs)
                {
                    foreach (var chromSet in results.Chromatograms)
                    {
                        ChromatogramGroupInfo[] chromGroupInfo;
                        Assert.IsTrue(results.TryLoadChromatogram(chromSet, pair.NodePep, pair.NodeGroup,
                                                                  tolerance, true, out chromGroupInfo));
                    }
                }

                // The single final cache path should be open now
                listCachePaths.AddRange(doc.Settings.MeasuredResults.CachePaths);
                // Should only have one cache file at this point
                Assert.AreEqual(1, listCachePaths.Count);
                foreach (var cachePath in listCachePaths)
                {
                    // Attempting to delete should throw
                    string path = cachePath;
                    AssertEx.ThrowsException <IOException>(() => FileEx.SafeDelete(path));
                }
            }

            foreach (var cachePath in listCachePaths)
            {
                // Cache files should be closed now, and delete successfully.
                FileEx.SafeDelete(cachePath);
            }
            testFilesDir.Dispose();
        }
Esempio n. 9
0
        public void DoAgilentMseChromatogramTest(RefinementSettings.ConvertToSmallMoleculesMode asSmallMolecules, small_mol_mode smallMolMode = small_mol_mode.simple, string expectedError = null)
        {
            if (asSmallMolecules != RefinementSettings.ConvertToSmallMoleculesMode.none && !RunSmallMoleculeTestVersions && smallMolMode == small_mol_mode.simple)
            {
                System.Console.Write(MSG_SKIPPING_SMALLMOLECULE_TEST_VERSION);
                return;
            }

            var testFilesDir = new TestFilesDir(TestContext, ZIP_FILE);

            string      docPath;
            SrmDocument document = InitAgilentMseDocument(testFilesDir, out docPath);

            if (asSmallMolecules != RefinementSettings.ConvertToSmallMoleculesMode.none)
            {
                var refine = new RefinementSettings();
                document = refine.ConvertToSmallMolecules(document, testFilesDir.FullPath, asSmallMolecules, smallMolMode == small_mol_mode.simple ? RefinementSettings.ConvertToSmallMoleculesChargesMode.none : RefinementSettings.ConvertToSmallMoleculesChargesMode.invert);
            }
            using (var docContainer = new ResultsTestDocumentContainer(document, docPath))
            {
                var doc = docContainer.Document;
                var listChromatograms = new List <ChromatogramSet>();
                var path = MsDataFileUri.Parse(smallMolMode == small_mol_mode.invert_charges_and_data ? @"AgilentMse\BSA-AI-0-10-25-41_first_100_scans_neg.mzML" : @"AgilentMse\BSA-AI-0-10-25-41_first_100_scans.mzML");
                listChromatograms.Add(AssertResult.FindChromatogramSet(doc, path) ??
                                      new ChromatogramSet(path.GetFileName().Replace('.', '_'), new[] { path }));
                var docResults = doc.ChangeMeasuredResults(new MeasuredResults(listChromatograms));
                Assert.IsTrue(docContainer.SetDocument(docResults, doc, true));
                if (expectedError != null)
                {
                    docContainer.AssertError(expectedError);
                }
                else
                {
                    docContainer.AssertComplete();
                    document = docContainer.Document;

                    float tolerance = (float)document.Settings.TransitionSettings.Instrument.MzMatchTolerance;
                    var   results   = document.Settings.MeasuredResults;
                    foreach (var pair in document.MoleculePrecursorPairs)
                    {
                        ChromatogramGroupInfo[] chromGroupInfo;
                        Assert.IsTrue(results.TryLoadChromatogram(0, pair.NodePep, pair.NodeGroup,
                                                                  tolerance, true, out chromGroupInfo));
                        Assert.AreEqual(1, chromGroupInfo.Length);
                        VerifyMs1Truncated(chromGroupInfo.First());
                    }

                    // now drill down for specific values
                    int nPeptides = 0;
                    foreach (var nodePep in document.Molecules.Where(nodePep => !nodePep.Results[0].IsEmpty))
                    {
                        // expecting just one peptide result in this small data set
                        if (nodePep.Results[0].Any(chromInfo => chromInfo.PeakCountRatio > 0))
                        {
                            Assert.AreEqual(0.25205,
                                            (double)nodePep.GetMeasuredRetentionTime(0), .0001, "averaged retention time differs in node " + nodePep.ModifiedTarget);
                            Assert.AreEqual(0.3333, (double)nodePep.GetPeakCountRatio(0), 0.0001);
                            nPeptides++;
                        }
                    }
                    Assert.AreEqual(smallMolMode == small_mol_mode.invert_charges ? 0 : 1, nPeptides); // If we switched document polarity, we'd expect no chromatograms extracted
                }
            }
            testFilesDir.Dispose();
        }
Esempio n. 10
0
        public void WatersMultiFileTest()
        {
            var testFilesDir = new TestFilesDir(TestContext, ZIP_FILE);

            string      docPath;
            SrmDocument docOriginal = InitWatersDocument(testFilesDir, out docPath);
            SrmDocument doc         = docOriginal;

            using (var docContainer = new ResultsTestDocumentContainer(doc, docPath))
            {
                string extRaw = ExtensionTestContext.ExtWatersRaw;

                var listChromatograms = new List <ChromatogramSet>
                {
                    new ChromatogramSet("double", new[]
                    {
                        MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_070.mzML")),
                        MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_073.mzML"))
                    }),
                    new ChromatogramSet("trouble", new[]
                    {
                        MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_075" + extRaw)),
                        MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_078.mzML"))
                    })
                };
                var docResults = doc.ChangeMeasuredResults(new MeasuredResults(listChromatograms));
                Assert.IsTrue(docContainer.SetDocument(docResults, doc, true));
                docContainer.AssertComplete();
                docResults = docContainer.Document;
                Assert.IsTrue(docResults.Settings.HasResults);
                var measuredResults = docResults.Settings.MeasuredResults;
                var chromatograms   = measuredResults.Chromatograms;
                Assert.AreEqual(2, chromatograms.Count);

                const float tolerance = (float)TransitionInstrument.DEFAULT_MZ_MATCH_TOLERANCE;

                foreach (var pair in docResults.PeptidePrecursorPairs)
                {
                    var nodePep   = pair.NodePep;
                    var nodeGroup = pair.NodeGroup;
                    Assert.IsTrue(nodeGroup.HasResults);
                    Assert.AreEqual(2, nodeGroup.Results.Count);
                    foreach (var result in nodeGroup.Results)
                    {
                        Assert.AreEqual(2, result.Count);
                    }
                    for (int i = 0; i < 2; i++)
                    {
                        ChromatogramGroupInfo[] chromInfos;
                        Assert.IsTrue(measuredResults.TryLoadChromatogram(i, nodePep, nodeGroup, tolerance, true, out chromInfos));
                        Assert.AreEqual(2, chromInfos.Length);
                        double[] peakAreas = new double[2];
                        for (int j = 0; j < 2; j++)
                        {
                            var chromInfo = chromInfos[j];
                            Assert.IsTrue(chromInfo.BestPeakIndex != -1);
                            foreach (var tranInfo in chromInfo.TransitionPointSets)
                            {
                                var peakInfo = tranInfo.GetPeak(chromInfo.BestPeakIndex);
                                if (peakInfo.IsEmpty || peakInfo.IsForcedIntegration)
                                {
                                    continue;
                                }

                                // Check times
                                var times  = tranInfo.Times;
                                int iStart = CollectionUtil.BinarySearch(times, peakInfo.StartTime);
                                Assert.IsTrue(iStart >= 0);
                                int iEnd = CollectionUtil.BinarySearch(times, peakInfo.EndTime);
                                Assert.IsTrue(iEnd >= 0);
                                int iPeak = CollectionUtil.BinarySearch(times, peakInfo.RetentionTime);
                                // Check intensities at times
                                var intensities = tranInfo.Intensities;
                                Assert.IsTrue(intensities[iStart] < intensities[iPeak]);
                                Assert.IsTrue(intensities[iEnd] < intensities[iPeak]);
                                // Sum peak area
                                peakAreas[j] += peakInfo.Area;
                            }
                        }
                        Assert.IsTrue(peakAreas[0] < peakAreas[1]);
                    }
                }
            }
            testFilesDir.Dispose();
        }
Esempio n. 11
0
        private void PerformTestMeasuredDriftValues(bool asSmallMolecules)
        {
            if (asSmallMolecules)
            {
                if (!RunSmallMoleculeTestVersions)
                {
                    Console.Write(MSG_SKIPPING_SMALLMOLECULE_TEST_VERSION);
                    return;
                }
            }
            var testFilesDir = new TestFilesDir(TestContext, @"TestData\Results\BlibDriftTimeTest.zip"); // Re-used from BlibDriftTimeTest
            // Open document with some peptides but no results
            var docPath = testFilesDir.GetTestPath("BlibDriftTimeTest.sky");
            // This was a malformed document, which caused problems after a fix to not recalculate
            // document library settings on open. To avoid rewriting this test for the document
            // which now contains 2 precursors, the first precursor is removed immediately.
            SrmDocument docOriginal      = ResultsUtil.DeserializeDocument(docPath);
            var         pathFirstPeptide = docOriginal.GetPathTo((int)SrmDocument.Level.Molecules, 0);
            var         nodeFirstPeptide = (DocNodeParent)docOriginal.FindNode(pathFirstPeptide);

            docOriginal = (SrmDocument)docOriginal.RemoveChild(pathFirstPeptide, nodeFirstPeptide.Children[0]);
            if (asSmallMolecules)
            {
                var refine = new RefinementSettings();
                docOriginal = refine.ConvertToSmallMolecules(docOriginal, testFilesDir.FullPath);
            }
            using (var docContainer = new ResultsTestDocumentContainer(docOriginal, docPath))
            {
                var doc = docContainer.Document;

                // Import an mz5 file that contains drift info
                const string replicateName = "ID12692_01_UCA168_3727_040714";
                var          chromSets     = new[]
                {
                    new ChromatogramSet(replicateName, new[]
                                        { new MsDataFilePath(testFilesDir.GetTestPath("ID12692_01_UCA168_3727_040714" + ExtensionTestContext.ExtMz5)), }),
                };
                var docResults = doc.ChangeMeasuredResults(new MeasuredResults(chromSets));
                Assert.IsTrue(docContainer.SetDocument(docResults, docOriginal, true));
                docContainer.AssertComplete();
                var document = docContainer.Document;

                // Clear out any current settings
                document = document.ChangeSettings(document.Settings.ChangeTransitionIonMobilityFiltering(s => TransitionIonMobilityFiltering.EMPTY));

                // Verify ability to extract predictions from raw data
                var libraryName0   = "test0";
                var dbPath0        = testFilesDir.GetTestPath(libraryName0 + IonMobilityDb.EXT);
                var newIMFiltering = document.Settings.TransitionSettings.IonMobilityFiltering.ChangeLibrary(
                    IonMobilityLibrary.CreateFromResults(
                        document, docContainer.DocumentFilePath, true,
                        libraryName0, dbPath0));
                var result = newIMFiltering.IonMobilityLibrary.GetIonMobilityLibKeyMap().AsDictionary();
                Assert.AreEqual(1, result.Count);
                var expectedDT     = 4.0019;
                var expectedOffset = .4829;
                Assert.AreEqual(expectedDT, result.Values.First().First().IonMobility.Mobility.Value, .001);
                Assert.AreEqual(expectedOffset, result.Values.First().First().HighEnergyIonMobilityValueOffset ?? 0, .001);

                // Check ability to update, and to preserve unchanged
                var revised = new List <PrecursorIonMobilities>();
                var libKey  = result.Keys.First();
                revised.Add(new PrecursorIonMobilities(libKey, IonMobilityAndCCS.GetIonMobilityAndCCS(IonMobilityValue.GetIonMobilityValue(expectedDT = 4, eIonMobilityUnits.drift_time_msec), null, expectedOffset = 0.234)));  // N.B. CCS handling would require actual raw data in this test, it's covered in a perf test
                var pepSequence = "DEADEELS";
                var libKey2     = asSmallMolecules ?
                                  new LibKey(SmallMoleculeLibraryAttributes.Create(pepSequence, "C12H5", null, null, null, null), Adduct.M_PLUS_2H) :
                                  new LibKey(pepSequence, Adduct.DOUBLY_PROTONATED);
                revised.Add(new PrecursorIonMobilities(libKey2, IonMobilityAndCCS.GetIonMobilityAndCCS(IonMobilityValue.GetIonMobilityValue(5, eIonMobilityUnits.drift_time_msec), null, 0.123)));
                var libraryName = "test";
                var dbPath      = testFilesDir.GetTestPath(libraryName + IonMobilityDb.EXT);
                var imsdb       = IonMobilityDb.CreateIonMobilityDb(dbPath, libraryName, false, revised);
                var newLibIM    = new IonMobilityLibrary(libraryName, dbPath, imsdb);
                var ionMobilityWindowWidthCalculator = new IonMobilityWindowWidthCalculator(
                    IonMobilityWindowWidthCalculator.IonMobilityWindowWidthType.resolving_power, 40, 0, 0, 0);
                var calculator = ionMobilityWindowWidthCalculator;
                document = document.ChangeSettings(
                    document.Settings.ChangeTransitionIonMobilityFiltering(
                        imf => imf.ChangeFilterWindowWidthCalculator(calculator).
                        ChangeLibrary(newLibIM)));
                result = document.Settings.TransitionSettings.IonMobilityFiltering.IonMobilityLibrary.GetIonMobilityLibKeyMap().AsDictionary();
                Assert.AreEqual(2, result.Count);
                Assert.AreEqual(expectedDT, result[libKey].First().IonMobility.Mobility.Value, .001);
                Assert.AreEqual(expectedOffset, result[libKey].First().HighEnergyIonMobilityValueOffset ?? 0, .001);
                Assert.AreEqual(5, result[libKey2].First().IonMobility.Mobility.Value, .001);
                Assert.AreEqual(0.123, result[libKey2].First().HighEnergyIonMobilityValueOffset ?? 0, .001);

                ionMobilityWindowWidthCalculator = new IonMobilityWindowWidthCalculator(
                    IonMobilityWindowWidthCalculator.IonMobilityWindowWidthType.fixed_width, 40, 0, 0, 100);
                document = document.ChangeSettings(
                    document.Settings.ChangeTransitionIonMobilityFiltering(
                        imf => imf.ChangeFilterWindowWidthCalculator(ionMobilityWindowWidthCalculator).
                        ChangeLibrary(newLibIM)));
                result = document.Settings.TransitionSettings.IonMobilityFiltering.IonMobilityLibrary.GetIonMobilityLibKeyMap().AsDictionary();
                Assert.AreEqual(2, result.Count);
                Assert.AreEqual(expectedDT, result[libKey].First().IonMobility.Mobility.Value, .001);
                Assert.AreEqual(expectedOffset, result[libKey].First().HighEnergyIonMobilityValueOffset ?? 0, .001);
                Assert.AreEqual(5, result[libKey2].First().IonMobility.Mobility.Value, .001);
                Assert.AreEqual(0.123, result[libKey2].First().HighEnergyIonMobilityValueOffset ?? 0, .001);
            }
        }
        public void TestMProphetResultsHandler()
        {
            var         testFilesDir = new TestFilesDir(TestContext, ZIP_FILE);
            var         documentFile = testFilesDir.GetTestPath("MProphetGold-trained.sky");
            SrmDocument doc          = ResultsUtil.DeserializeDocument(documentFile);

            // Load libraries
            doc = doc.ChangeSettings(doc.Settings.ChangePeptideLibraries(libraries =>
            {
                var lib = libraries.Libraries[0];
                return(libraries.ChangeLibrarySpecs(new LibrarySpec[]
                {
                    new BiblioSpecLiteSpec(lib.Name, testFilesDir.GetTestPath(lib.FileNameHint))
                }));
            }));
            // Load an empty doc, so that we can make a change and
            // cause the .skyd to be loaded
            var docContainer = new ResultsTestDocumentContainer(null, documentFile);

            docContainer.SetDocument(doc, null, true);
            docContainer.AssertComplete();
            SrmDocument docOriginal      = docContainer.Document;
            var         peakScoringModel = docOriginal.Settings.PeptideSettings.Integration.PeakScoringModel;
            var         resultsHandler   = new MProphetResultsHandler(docOriginal, peakScoringModel)
            {
                QValueCutoff = Q_CUTOFF
            };

            // 1. Reintegrate and export report produces expected file
            resultsHandler.ScoreFeatures();
            var docNew     = resultsHandler.ChangePeaks();
            var reportSpec = MakeReportSpec();

            if (IsSaveAll)
            {
                // For regenerating expected files if things change
                ReportToCsv(reportSpec, docNew, testFilesDir.GetTestPath(REPORT_EXPECTED), CultureInfo.GetCultureInfo("en-US"));
                ReportToCsv(reportSpec, docNew, testFilesDir.GetTestPathIntl(REPORT_EXPECTED), CultureInfo.GetCultureInfo("fr-FR"));
            }
            string docNewActual   = testFilesDir.GetTestPath(REPORT_ACTUAL);
            string docNewExpected = testFilesDir.GetTestPathLocale(REPORT_EXPECTED);

            ReportToCsv(reportSpec, docNew, docNewActual, CultureInfo.CurrentCulture);
            AssertEx.FileEquals(docNewExpected, docNewActual);

            // 2. Reintegrating again gives no change in document
            var resultsHandlerRepeat = new MProphetResultsHandler(docNew, peakScoringModel)
            {
                QValueCutoff = Q_CUTOFF
            };

            resultsHandlerRepeat.ScoreFeatures();
            var docRepeat = resultsHandlerRepeat.ChangePeaks();

            Assert.AreSame(docRepeat, docNew);
            Assert.AreNotSame(docOriginal, docNew);

            // 3. Export mProphet results gives expected file
            var calcs            = peakScoringModel.PeakFeatureCalculators;
            var mProphetActual   = testFilesDir.GetTestPath(MPROPHET_ACTUAL);
            var mProphetExpected = testFilesDir.GetTestPathLocale(MPROPHET_EXPECTED);

            if (IsSaveAll)
            {
                // For regenerating files
                SaveMProphetFeatures(resultsHandler, testFilesDir.GetTestPath(MPROPHET_EXPECTED), CultureInfo.GetCultureInfo("en-US"), calcs);
                SaveMProphetFeatures(resultsHandler, testFilesDir.GetTestPathIntl(MPROPHET_EXPECTED), CultureInfo.GetCultureInfo("fr-FR"), calcs);
            }
            SaveMProphetFeatures(resultsHandler, mProphetActual, CultureInfo.CurrentCulture, calcs);
            AssertEx.FileEquals(mProphetExpected, mProphetActual);

            // 4. Export mProphet -> Import Peak Boundaries leads to same result as reintegrate
            var resultsHandlerQAll = new MProphetResultsHandler(docOriginal, peakScoringModel)
            {
                QValueCutoff = 1.0
            };

            resultsHandlerQAll.ScoreFeatures();
            var  docNewQAll           = resultsHandlerQAll.ChangePeaks();
            var  peakBoundaryImporter = new PeakBoundaryImporter(docNewQAll);
            long lineCount            = Helpers.CountLinesInFile(mProphetActual);

            peakBoundaryImporter.Import(mProphetActual, null, lineCount);
            var docImport = peakBoundaryImporter.Document;
            // Serialized documents are easier to debug when something is different
            string strDocNew    = SerializeDoc(docNewQAll);
            string strDocImport = SerializeDoc(docImport);

            AssertEx.NoDiff(strDocNew, strDocImport);
            Assert.AreSame(docNewQAll, docImport);

            // 5. Reintegration with q value cutoff of <0 causes all peaks set to null
            var handlerAllNull = new MProphetResultsHandler(docOriginal, peakScoringModel)
            {
                QValueCutoff = -0.001
            };

            handlerAllNull.ScoreFeatures();
            var docNull = handlerAllNull.ChangePeaks();

            foreach (var transitionNode in docNull.PeptideTransitions)
            {
                foreach (var chromInfo in transitionNode.ChromInfos)
                {
                    Assert.IsTrue(chromInfo.IsEmpty || transitionNode.IsDecoy);
                }
            }

            // 6. Reintegration adjusts example peak to null at q=0.005 cutoff, but adjusts it to a non-null peak at q=0.20
            const int groupNum = 11;
            var       midQNode = resultsHandler.Document.PeptideTransitionGroups.ToList()[groupNum];

            foreach (var chromInfo in midQNode.Transitions.SelectMany(transition => transition.ChromInfos))
            {
                Assert.IsTrue(chromInfo.IsEmpty);
            }
            resultsHandler.QValueCutoff = Q_CUTOFF_HIGH;
            resultsHandler.ChangePeaks();
            var midQNodeNew = resultsHandler.Document.PeptideTransitionGroups.ToList()[groupNum];

            foreach (var chromInfo in midQNodeNew.Transitions.SelectMany(transition => transition.ChromInfos))
            {
                Assert.IsFalse(chromInfo.IsEmpty);
            }

            // 7. Labeled peptide pairs still have matching peaks
            foreach (var peptideNode in resultsHandler.Document.Peptides)
            {
                Assert.AreEqual(2, peptideNode.TransitionGroupCount);
                var groupList      = peptideNode.TransitionGroups.ToList();
                var lightGroup     = groupList[0];
                var heavyGroup     = groupList[0];
                var lightChromInfo = lightGroup.ChromInfos.ToList()[0];
                var heavyChromInfo = heavyGroup.ChromInfos.ToList()[0];
                Assert.AreEqual(lightChromInfo.StartRetentionTime, heavyChromInfo.StartRetentionTime);
                Assert.AreEqual(lightChromInfo.EndRetentionTime, heavyChromInfo.EndRetentionTime);
                Assert.AreEqual(lightChromInfo.RetentionTime, heavyChromInfo.RetentionTime);
            }

            // 8. Verify that chosen peaks and q values are the same as those in mProphet paper:
            // http://www.nature.com/nmeth/journal/v8/n5/full/nmeth.1584.html#/supplementary-information
            // TODO: Grab this data from the mProphet paper

            // Release open streams
            docContainer.Release();
        }
Esempio n. 13
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        /* TODO bspratt drift time libs for small molecules
         *
         * [TestMethod]
         * public void WatersImsMsePredictedDriftTimesChromatogramTestAsSmallMolecules()
         * {
         *  WatersImsMseChromatogramTest(DriftFilterType.predictor, true);
         * }
         *
         * [TestMethod]
         * public void WatersImsMseLibraryDriftTimesChromatogramTestAsSmallMolecules()
         * {
         *  WatersImsMseChromatogramTest(DriftFilterType.library, true);
         * }
         *
         */

        private void WatersImsMseChromatogramTest(DriftFilterType mode,
                                                  RefinementSettings.ConvertToSmallMoleculesMode asSmallMolecules = RefinementSettings.ConvertToSmallMoleculesMode.none)
        {
            string subdir       = (asSmallMolecules == RefinementSettings.ConvertToSmallMoleculesMode.none) ? null : asSmallMolecules.ToString();
            var    testFilesDir = new TestFilesDir(TestContext, ZIP_FILE, subdir);

            TestSmallMolecules = false;                                               // Don't need that extra magic node

            bool        withDriftTimePredictor = (mode == DriftFilterType.predictor); // Load the doc that has a drift time predictor?
            bool        withDriftTimeFilter    = (mode != DriftFilterType.none);      // Perform drift time filtering?  (either with predictor, or with bare times in blib file)
            string      docPath;
            SrmDocument document = InitWatersImsMseDocument(testFilesDir, withDriftTimePredictor ? "single_with_driftinfo.sky" : "single_no_driftinfo.sky", asSmallMolecules, out docPath);

            AssertEx.IsDocumentState(document, (withDriftTimePredictor || (asSmallMolecules != RefinementSettings.ConvertToSmallMoleculesMode.none)) ? 1 : 0, 1, 1, 1, 8); // Drift time lib load bumps the doc version
            var docContainer = new ResultsTestDocumentContainer(document, docPath);
            var doc          = docContainer.Document;
            var docOriginal  = doc;

            string testModeStr = withDriftTimePredictor ? "with drift time predictor" : "without drift time info";

            if (withDriftTimeFilter && !withDriftTimePredictor)
            {
                // Use the bare drift times in the spectral library
                var librarySpec = new BiblioSpecLiteSpec("drift test",
                                                         testFilesDir.GetTestPath("mse-mobility.filtered-scaled.blib"));
                doc = doc.ChangeSettings(
                    doc.Settings.ChangePeptideLibraries(lib => lib.ChangeLibrarySpecs(new[] { librarySpec })).
                    ChangePeptidePrediction(p => p.ChangeLibraryDriftTimesResolvingPower(100)).
                    ChangePeptidePrediction(p => p.ChangeUseLibraryDriftTimes(true))
                    );
                testModeStr = "with drift times from spectral library";
            }

            var listChromatograms = new List <ChromatogramSet>();
            // A small subset of the QC_HDMSE_02_UCA168_3495_082213 data set (RT 21.5-22.5) from Will Thompson
            const string path = @"waters-mobility.mz5";

            listChromatograms.Add(AssertResult.FindChromatogramSet(doc, new MsDataFilePath(path)) ??
                                  new ChromatogramSet(Path.GetFileName(path).Replace('.', '_'), new[] { path }));
            var docResults = doc.ChangeMeasuredResults(new MeasuredResults(listChromatograms));

            Assert.IsTrue(docContainer.SetDocument(docResults, docOriginal, true));
            docContainer.AssertComplete();
            document = docContainer.Document;

            float  tolerance = (float)document.Settings.TransitionSettings.Instrument.MzMatchTolerance;
            double maxHeight = 0;
            var    results   = document.Settings.MeasuredResults;

            Assert.AreEqual(1, document.MoleculePrecursorPairs.Count());
            foreach (var pair in document.MoleculePrecursorPairs)
            {
                ChromatogramGroupInfo[] chromGroupInfo;
                Assert.IsTrue(results.TryLoadChromatogram(0, pair.NodePep, pair.NodeGroup,
                                                          tolerance, true, out chromGroupInfo));
                Assert.AreEqual(1, chromGroupInfo.Length, testModeStr);
                var chromGroup    = chromGroupInfo[0];
                var expectedPeaks = ((asSmallMolecules == RefinementSettings.ConvertToSmallMoleculesMode.masses_only) ? 6 : 5);
                Assert.AreEqual(withDriftTimeFilter ? 3 : expectedPeaks, chromGroup.NumPeaks, testModeStr); // This will be higher if we don't filter on DT
                foreach (var tranInfo in chromGroup.TransitionPointSets)
                {
                    maxHeight = Math.Max(maxHeight, tranInfo.MaxIntensity);
                }
            }
            Assert.AreEqual(withDriftTimeFilter? 5226 : 20075, maxHeight, 1, testModeStr);   // Without DT filtering, this will be much greater

            // now drill down for specific values
            int nPeptides = 0;

            foreach (var nodePep in document.Molecules.Where(nodePep => nodePep.Results[0] != null))
            {
                // expecting just one peptide result in this small data set
                if (nodePep.Results[0].Sum(chromInfo => chromInfo.PeakCountRatio > 0 ? 1 : 0) > 0)
                {
                    Assert.AreEqual(21.94865, (double)nodePep.GetMeasuredRetentionTime(0), .0001, testModeStr);
                    Assert.AreEqual(1.0, (double)nodePep.GetPeakCountRatio(0), 0.0001, testModeStr);
                    nPeptides++;
                }
            }
            Assert.AreEqual(1, nPeptides);

            if (withDriftTimePredictor || withDriftTimeFilter)
            {
                // Verify that the .imdb pr .blib file goes out in the share zipfile
                for (int complete = 0; complete <= 1; complete++)
                {
                    var sharePath = testFilesDir.GetTestPath(complete == 1?"share_complete.zip":"share_minimized.zip");
                    var share     = new SrmDocumentSharing(document, docPath, sharePath, complete == 1);
                    using (var longWaitDlg = new LongWaitDlg
                    {
                        // ReSharper disable once LocalizableElement
                        Text = "unit test WatersImsTest -- sharing document",
                    })
                    {
                        longWaitDlg.PerformWork(null, 1000, share.Share);
                        Assert.IsFalse(longWaitDlg.IsCanceled);
                    }

                    var files = share.ListEntries().ToArray();
                    Assert.IsTrue(files.Contains(withDriftTimePredictor ? "scaled.imdb" : "mse-mobility.filtered-scaled.blib"));
                    // And round trip it to make sure we haven't left out any new features in minimized imdb or blib files
                    using (var longWaitDlg = new LongWaitDlg
                    {
                        // ReSharper disable once LocalizableElement
                        Text = "unit test WatersImsTest",
                    })
                    {
                        longWaitDlg.PerformWork(null, 1000, share.Extract);
                        Assert.IsFalse(longWaitDlg.IsCanceled);
                    }
                    using (TextReader reader = new StreamReader(share.DocumentPath))
                    {
                        XmlSerializer documentSerializer = new XmlSerializer(typeof(SrmDocument));
                        var           document2          = (SrmDocument)documentSerializer.Deserialize(reader);
                        Assert.IsNotNull(document2);
                        var im  = document.Settings.GetIonMobilities(new MsDataFilePath(path));
                        var pep = document2.Molecules.First();
                        foreach (TransitionGroupDocNode nodeGroup in pep.Children)
                        {
                            double windowDT;
                            var    centerDriftTime = document.Settings.PeptideSettings.Prediction.GetDriftTime(
                                pep, nodeGroup, im, out windowDT);
                            Assert.AreEqual(3.86124, centerDriftTime.DriftTimeMsec(false) ?? 0, .0001, testModeStr);
                            Assert.AreEqual(0.077224865797235934, windowDT, .0001, testModeStr);
                        }
                    }
                }
            }

            // Release file handles
            docContainer.Release();
            testFilesDir.Dispose();
            string cachePath = ChromatogramCache.FinalPathForName(docPath, null);

            FileEx.SafeDelete(cachePath);
        }
Esempio n. 14
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        public void DoThermoRatioTest(RefinementSettings.ConvertToSmallMoleculesMode smallMoleculesTestMode)
        {
            TestSmallMolecules = false;  // We do this explicitly

            var         testFilesDir = new TestFilesDir(TestContext, ZIP_FILE);
            string      docPath;
            SrmDocument doc      = InitThermoDocument(testFilesDir, out docPath);
            SrmSettings settings = doc.Settings.ChangePeptideModifications(mods =>
                                                                           mods.ChangeInternalStandardTypes(new[] { IsotopeLabelType.light }));

            doc = doc.ChangeSettings(settings);
            if (smallMoleculesTestMode != RefinementSettings.ConvertToSmallMoleculesMode.none)
            {
                var docOrig = doc;
                var refine  = new RefinementSettings();
                doc = refine.ConvertToSmallMolecules(doc, smallMoleculesTestMode);
                // This is our first example of a converted label doc - check roundtripping
                AssertEx.ConvertedSmallMoleculeDocumentIsSimilar(docOrig, doc);
                AssertEx.Serializable(doc);
            }
            var    docContainer      = new ResultsTestDocumentContainer(doc, docPath);
            string extRaw            = ExtensionTestContext.ExtThermoRaw;
            var    listChromatograms = new List <ChromatogramSet>
            {
                new ChromatogramSet("rep03", new[]
                {
                    MsDataFileUri.Parse(testFilesDir.GetTestPath(
                                            "Site20_STUDY9P_PHASEII_QC_03" + extRaw))
                }),
                new ChromatogramSet("rep05", new[]
                {
                    MsDataFileUri.Parse(testFilesDir.GetTestPath(
                                            "Site20_STUDY9P_PHASEII_QC_05" + extRaw))
                })
            };
            var docResults = doc.ChangeMeasuredResults(new MeasuredResults(listChromatograms));

            Assert.IsTrue(docContainer.SetDocument(docResults, doc, true));
            docContainer.AssertComplete();
            docResults = docContainer.Document;
            // Make sure all groups have at least 5 transitions (of 6) with ratios
            int ratioGroupMissingCount = 0;

            foreach (var nodeGroup in docResults.MoleculeTransitionGroups)
            {
                if (nodeGroup.TransitionGroup.LabelType.IsLight)
                {
                    foreach (var result in nodeGroup.Results)
                    {
                        Assert.IsFalse(result[0].Ratio.HasValue, "Light group found with a ratio");
                    }
                    foreach (TransitionDocNode nodeTran in nodeGroup.Children)
                    {
                        foreach (var resultTran in nodeTran.Results)
                        {
                            Assert.IsFalse(resultTran[0].Ratio.HasValue, "Light transition found with a ratio");
                        }
                    }
                }
                else
                {
                    bool missingRatio = false;
                    foreach (ChromInfoList <TransitionGroupChromInfo> chromInfoList in nodeGroup.Results)
                    {
                        var ratioHeavy = chromInfoList[0].Ratio;
                        if (!ratioHeavy.HasValue)
                        {
                            missingRatio = true;
                        }
                    }
                    int ratioCount1 = 0;
                    int ratioCount2 = 0;
                    foreach (TransitionDocNode nodeTranHeavy in nodeGroup.Children)
                    {
                        float?ratioHeavy = nodeTranHeavy.Results[0][0].Ratio;
                        if (ratioHeavy.HasValue)
                        {
                            Assert.IsFalse(float.IsNaN(ratioHeavy.Value) || float.IsInfinity(ratioHeavy.Value));
                            ratioCount1++;
                        }
                        ratioHeavy = nodeTranHeavy.Results[1][0].Ratio;
                        if (ratioHeavy.HasValue)
                        {
                            Assert.IsFalse(float.IsNaN(ratioHeavy.Value) || float.IsInfinity(ratioHeavy.Value));
                            ratioCount2++;
                        }
                    }
                    Assert.AreEqual(3, ratioCount1);
                    if (ratioCount2 < 2)
                    {
                        ratioGroupMissingCount++;
                    }
                    else
                    {
                        Assert.IsFalse(missingRatio, "Precursor missing ratio when transitions have ratios");
                    }
                }
            }
            // 3 groups with less than 2 transition ratios
            Assert.AreEqual(3, ratioGroupMissingCount);

            // Remove the first light transition, checking that this removes the ratio
            // from the corresponding heavy transition, but not the entire group, until
            // after all light transitions have been removed.
            IdentityPath pathFirstPep = docResults.GetPathTo((int)SrmDocument.Level.Molecules, 0);
            var          nodePep      = (PeptideDocNode)docResults.FindNode(pathFirstPep);

            Assert.AreEqual(2, nodePep.Children.Count);
            var          nodeGroupLight = (TransitionGroupDocNode)nodePep.Children[0];
            IdentityPath pathGroupLight = new IdentityPath(pathFirstPep, nodeGroupLight.TransitionGroup);

            Assert.IsNull(nodeGroupLight.Results[0][0].Ratio, "Light group has ratio");
            var          nodeGroupHeavy = (TransitionGroupDocNode)nodePep.Children[1];
            IdentityPath pathGroupHeavy = new IdentityPath(pathFirstPep, nodeGroupHeavy.TransitionGroup);
            float?       ratioStart     = nodeGroupHeavy.Results[0][0].Ratio;

            Assert.IsTrue(ratioStart.HasValue, "No starting heavy group ratio");
            var expectedValues = new[] { 1.403414, 1.38697791, 1.34598482 };

            for (int i = 0; i < 3; i++)
            {
                var pathLight = docResults.GetPathTo((int)SrmDocument.Level.Transitions, 0);
                var pathHeavy = docResults.GetPathTo((int)SrmDocument.Level.Transitions, 3);
                TransitionDocNode nodeTran  = (TransitionDocNode)docResults.FindNode(pathHeavy);
                float?            ratioTran = nodeTran.Results[0][0].Ratio;
                Assert.IsTrue(ratioTran.HasValue, "Expected transition ratio not found");
                Assert.AreEqual(ratioTran.Value, expectedValues[i], 1.0e-5);
                docResults = (SrmDocument)docResults.RemoveChild(pathLight.Parent, docResults.FindNode(pathLight));
                nodeTran   = (TransitionDocNode)docResults.FindNode(pathHeavy);
                Assert.IsFalse(nodeTran.Results[0][0].Ratio.HasValue, "Unexpected transiton ratio found");
                Assert.AreEqual(pathGroupHeavy, pathHeavy.Parent, "Transition found outside expected group");
//                nodePep = (PeptideDocNode) docResults.FindNode(pathFirstPep);
                nodeGroupHeavy = (TransitionGroupDocNode)docResults.FindNode(pathGroupHeavy);
//                Assert.AreEqual(nodePep.Results[0][0].RatioToStandard, nodeGroupHeavy.Results[0][0].Ratio,
//                                "Peptide and group ratios not equal");
                if (i < 2)
                {
                    float?ratioGroup = nodeGroupHeavy.Results[0][0].Ratio;
                    Assert.IsTrue(ratioGroup.HasValue, "Group ratio removed with transition ratios");
                    Assert.AreEqual(ratioStart.Value, ratioGroup.Value, 0.1,
                                    "Unexpected group ratio change by more than 0.1");
                }
                else
                {
                    Assert.IsFalse(nodeGroupHeavy.Results[0][0].Ratio.HasValue,
                                   "Group ratio still present with no transition ratios");
                }
            }
            bool asSmallMolecules = (smallMoleculesTestMode != RefinementSettings.ConvertToSmallMoleculesMode.none);

            if (!asSmallMolecules) // GetTransitions() doesn't work the same way for small molecules - it only lists existing ones
            {
                bool      firstAdd           = true;
                var       nodeGroupLightOrig = (TransitionGroupDocNode)doc.FindNode(pathGroupLight);
                DocNode[] lightChildrenOrig  = nodeGroupLightOrig.Children.ToArray();
                foreach (var nodeTran in nodeGroupLightOrig.GetTransitions(docResults.Settings,
                                                                           null, nodeGroupLightOrig.PrecursorMz, null, null, null, false))
                {
                    var transition = nodeTran.Transition;
                    if (!firstAdd && lightChildrenOrig.IndexOf(node => Equals(node.Id, transition)) == -1)
                    {
                        continue;
                    }
                    // Add the first transition, and then the original transitions
                    docResults     = (SrmDocument)docResults.Add(pathGroupLight, nodeTran);
                    nodeGroupHeavy = (TransitionGroupDocNode)docResults.FindNode(pathGroupHeavy);
                    if (firstAdd)
                    {
                        Assert.IsNull(nodeGroupHeavy.Results[0][0].Ratio, "Unexpected heavy ratio found");
                    }
                    else
                    {
                        Assert.IsNotNull(nodeGroupHeavy.Results[0][0].Ratio,
                                         "Heavy ratio null after adding light children");
                    }
                    firstAdd = false;
                }
                Assert.AreEqual(ratioStart, nodeGroupHeavy.Results[0][0].Ratio);
            }
            // Release file handles
            docContainer.Release();
            testFilesDir.Dispose();
        }
Esempio n. 15
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        public void WatersCacheTest()
        {
            // First test transition from per-replicate caching strategy to
            // single cache per document strategy.
            var testFilesDir = new TestFilesDir(TestContext, ZIP_FILE);

            // Open the replicate document, and let it reload the data from mzML
            // showing the document can find data files by name in its own directory,
            // since the document paths will not match those on disk.
            string docPath;
            var    doc       = InitWatersDocument(testFilesDir, out docPath);
            var    docReload = InitWatersDocument(testFilesDir, "160109_Mix1_calcurve_rep.sky", out docPath);

            using (var docContainer = new ResultsTestDocumentContainer(doc, docPath))
            {
                var streamManager = docContainer.ChromatogramManager.StreamManager;
                Assert.IsTrue(docContainer.SetDocument(docReload, doc, true));
                docContainer.AssertComplete();
                docReload = docContainer.Document;
                // Release file handles to cache files created during load
                Assert.IsTrue(docContainer.SetDocument(doc, docReload));
                // Delete the cache
                string cachePath = Path.ChangeExtension(docPath, ".skyd");
                FileEx.SafeDelete(cachePath);

                // Then try using cached replicate files
                // Move per-replicate cache files into place
                var replicateCacheNames = new[]
                {
                    "160109_Mix1_calcurve_rep_calcurve_070.skyd",
                    "160109_Mix1_calcurve_rep_calcurve_073.skyd"
                };
                GetCacheFiles(testFilesDir, replicateCacheNames);
                // Delete the files these cache
                DeleteFiles(testFilesDir,
                            new[]
                {
                    "160109_Mix1_calcurve_070.mzML",
                    "160109_Mix1_calcurve_073.mzML",
                });
                var docCached = InitWatersDocument(testFilesDir, "160109_Mix1_calcurve_rep.sky", out docPath);
                Assert.IsTrue(docContainer.SetDocument(docCached, doc, true));
                docContainer.AssertComplete();
                docCached = docContainer.Document;

                // The document with data from the .mzML files should be the same as
                // the one loaded from the .skyd files.
                // Unfortunately, this is to hard to maintain when cache changes are made.
                // AssertEx.Cloned(docCached, docReload);

                // The one cache should be present
                Assert.IsTrue(File.Exists(cachePath));
                // And the replicate cache files should have been removed
                foreach (var cacheName in replicateCacheNames)
                {
                    var path = testFilesDir.GetTestPath(cacheName);
                    Assert.IsFalse(File.Exists(path));
                }

                // Save the cache file time stamp
                // ReSharper disable once AssignNullToNotNullAttribute
                var  cacheInfo = new FileInfo(cachePath);
                long cacheSize = cacheInfo.Length;

                // Adding files already in the document should have no impact on the cache.
                string extRaw            = ExtensionTestContext.ExtWatersRaw;
                var    listChromatograms = new List <ChromatogramSet>(docCached.Settings.MeasuredResults.Chromatograms)
                {
                    new ChromatogramSet("extra1",
                                        new[] { MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_075" + extRaw)) }),
                    new ChromatogramSet("extra2",
                                        new[] { MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_078.mzML")) })
                };

                // Adding a new file should cause the cache to grow.
                var settings = docCached.Settings.MeasuredResults.ChangeChromatograms(listChromatograms);
                var docGrow  = docCached.ChangeMeasuredResults(settings);
                Assert.IsTrue(docContainer.SetDocument(docGrow, docCached, true));
                docContainer.AssertComplete();
                docGrow = docContainer.Document;

                cacheInfo = new FileInfo(cachePath);
                Assert.IsTrue(cacheSize < cacheInfo.Length);

                cacheSize = cacheInfo.Length;
                var writeTime = cacheInfo.LastWriteTime;

                listChromatograms.Add(
                    new ChromatogramSet("double",
                                        new[]
                {
                    testFilesDir.GetTestPath("160109_Mix1_calcurve_075" + extRaw),
                    testFilesDir.GetTestPath("160109_Mix1_calcurve_078.mzML")
                }));

                settings = docGrow.Settings.MeasuredResults.ChangeChromatograms(listChromatograms);
                var docNoCacheChange1 = docGrow.ChangeMeasuredResults(settings);
                Assert.IsTrue(docContainer.SetDocument(docNoCacheChange1, docGrow, true));
                docContainer.AssertComplete();
                docNoCacheChange1 = docContainer.Document;

                Assert.AreEqual(writeTime, File.GetLastWriteTime(cachePath));

                // Removing files should have no impact, until optimized
                listChromatograms.RemoveRange(listChromatograms.Count - 2, 2);
                listChromatograms.RemoveAt(1);

                settings = docNoCacheChange1.Settings.MeasuredResults.ChangeChromatograms(listChromatograms);
                var docNoCacheChange2 = docNoCacheChange1.ChangeMeasuredResults(settings);
                Assert.IsTrue(docContainer.SetDocument(docNoCacheChange2, docNoCacheChange1, true));
                docContainer.AssertComplete();
                docNoCacheChange2 = docContainer.Document;

                Assert.AreEqual(writeTime, File.GetLastWriteTime(cachePath));

                // Optimizing should shrink the cache
                var results      = docNoCacheChange2.Settings.MeasuredResults.OptimizeCache(docPath, streamManager);
                var docOptimized = docNoCacheChange2.ChangeSettings(docNoCacheChange2.Settings.ChangeMeasuredResults(results));
                // This should not cause a reload
                Assert.IsTrue(docContainer.SetDocument(docOptimized, docNoCacheChange2, false));

                cacheInfo = new FileInfo(cachePath);
                Assert.IsTrue(cacheSize > cacheInfo.Length);

                // Test file caches
                // First reload the files from .mzML
                docReload = InitWatersDocument(testFilesDir, "160109_Mix1_calcurve_file.sky", out docPath);
                // Change the path to use the right .skyd file
                docContainer.DocumentFilePath = docPath;
                Assert.IsTrue(docContainer.SetDocument(docReload, docOptimized, true));
                docContainer.AssertComplete();
                docReload = docContainer.Document;
                // Release file handles to cache files created during load
                Assert.IsTrue(docContainer.SetDocument(doc, docReload));
                // Delete the cache
                cachePath = Path.ChangeExtension(docPath, ".skyd");
                FileEx.SafeDelete(cachePath);

                // Then try using cached files
                // Move per-file cache files into place
                var fileCacheNames = new[]
                {
                    "160109_Mix1_calcurve_075.mzML.skyd",
                    "160109_Mix1_calcurve_078.mzML.skyd"
                };
                GetCacheFiles(testFilesDir, fileCacheNames);
                // Swap the mzML files, so the test will fail, if not reading from the cache
                // CONSIDER: Should this really work, since they have different time stamps?
                string file075  = testFilesDir.GetTestPath("160109_Mix1_calcurve_075.mzML");
                string file078  = testFilesDir.GetTestPath("160109_Mix1_calcurve_078.mzML");
                string fileTemp = file075 + ".tmp";
                File.Move(file075, fileTemp);
                File.Move(file078, file075);
                File.Move(fileTemp, file078);

                docCached = InitWatersDocument(testFilesDir, "160109_Mix1_calcurve_file.sky", out docPath);
                // Make sure cache files exactly match the names the loader will look for
                var listResultsFiles = new List <MsDataFileUri>();
                foreach (var chromatogram in docCached.Settings.MeasuredResults.Chromatograms)
                {
                    listResultsFiles.AddRange(chromatogram.MSDataFilePaths);
                }
                for (int i = 0; i < fileCacheNames.Length; i++)
                {
                    string partPath = ChromatogramCache.PartPathForName(docPath, listResultsFiles[i]);
                    File.Move(testFilesDir.GetTestPath(fileCacheNames[i]), partPath);
                }

                Assert.IsTrue(docContainer.SetDocument(docCached, doc, true));
                docContainer.AssertComplete();
                // docCached = docContainer.Document;

                // The document with data from the .mzML files should be the same as
                // the one loaded from the .skyd files.
                // Unfortunately, this is to hard to maintain when cache changes are made.
                // AssertEx.Cloned(docCached, docReload);

                // The one cache should be present
                Assert.IsTrue(File.Exists(Path.ChangeExtension(docPath, ".skyd")));
                // And the replicate cache files should have been removed
                foreach (var cacheName in fileCacheNames)
                {
                    Assert.IsFalse(File.Exists(testFilesDir.GetTestPath(cacheName)));
                }
            }

            testFilesDir.Dispose();
        }
Esempio n. 16
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        public void DocLoadLibrary()
        {
            // Load the document
            var    testFilesDir = new TestFilesDir(TestContext, TEST_ZIP_PATH);
            string loadPath     = testFilesDir.GetTestPath("DocWithLibrary.sky");
            string libraryPath  = testFilesDir.GetTestPath("Yeast_MRMer_min.blib");
            var    doc          = ResultsUtil.DeserializeDocument(loadPath);

            doc = doc.ChangeSettings(doc.Settings.ChangePeptideLibraries(
                                         lib => lib.ChangeLibrarySpecs(new[] { new BiblioSpecLiteSpec(lib.Libraries[0].Name, libraryPath), })));

            // Cause library load and subsequent document update
            using (var docContainer = new ResultsTestDocumentContainer(null, loadPath))
            {
                docContainer.SetDocument(doc, null, true);
                docContainer.WaitForProcessing();
                docContainer.AssertComplete();

                // Check that library info on peptides and transitions were not recalculated
                // during document load
                var docLoaded = docContainer.Document;
                Assert.AreEqual(6, docLoaded.PeptideCount);
                Assert.AreEqual(36, docLoaded.PeptideTransitionCount);
                var transitions = docLoaded.PeptideTransitions.ToArray();
                Assert.AreEqual("y12", transitions[0].FragmentIonName);
                Assert.AreEqual(1, transitions[0].LibInfo.Rank);
                Assert.AreEqual("y12", transitions[3].FragmentIonName);
                Assert.AreEqual(1, transitions[3].LibInfo.Rank);
                Assert.AreEqual("b3", transitions[14].FragmentIonName);
                Assert.AreEqual(2, transitions[14].LibInfo.Rank);
                Assert.AreEqual("b3", transitions[17].FragmentIonName);
                Assert.AreEqual(2, transitions[17].LibInfo.Rank);

                var docLibraryChanged = docLoaded.ChangeSettings(docLoaded.Settings.ChangePeptideLibraries(
                                                                     lib => lib.ChangeLibraries(new LibrarySpec[0], new Library[0])
                                                                     .ChangeLibrarySpecs(new[] { new BiblioSpecLiteSpec("Test reload", libraryPath), })));
                docContainer.SetDocument(docLibraryChanged, docLoaded, true);
                var docChangedLoaded = docContainer.Document;

                // Check that document changed to be in synch with the library
                Assert.AreEqual(3, docChangedLoaded.PeptideCount);
                Assert.AreEqual(18, docChangedLoaded.PeptideTransitionCount);
                var transitionsNew = docChangedLoaded.PeptideTransitions.ToArray();
                Assert.AreEqual("y7", transitionsNew[0].FragmentIonName);
                Assert.AreEqual(1, transitionsNew[0].LibInfo.Rank);
                Assert.AreEqual("y7", transitionsNew[3].FragmentIonName);
                Assert.AreEqual(1, transitionsNew[3].LibInfo.Rank);
                Assert.AreEqual("y6", transitionsNew[8].FragmentIonName);
                Assert.AreEqual(2, transitionsNew[8].LibInfo.Rank);
                Assert.AreEqual("y6", transitionsNew[11].FragmentIonName);
                Assert.AreEqual(2, transitionsNew[11].LibInfo.Rank);
                for (int i = 1; i < 3; i++)
                {
                    Assert.AreSame(transitions[i], transitionsNew[i]);
                    Assert.AreSame(transitions[i + 3], transitionsNew[i + 3]);
                }
                for (int i = 12; i < 14; i++)
                {
                    Assert.AreSame(transitions[i], transitionsNew[i - 6]);
                    Assert.AreSame(transitions[i + 3], transitionsNew[i - 3]);
                }
                for (int i = 24; i < 27; i++)
                {
                    Assert.AreSame(transitions[i], transitionsNew[i - 12]);
                    Assert.AreSame(transitions[i + 3], transitionsNew[i - 9]);
                }
            }
            PeakAnnotationsTest();
        }
Esempio n. 17
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        public void WatersMultiFileTest()
        {
            var testFilesDir = new TestFilesDir(TestContext, ZIP_FILE);

            string      docPath;
            SrmDocument docOriginal = InitWatersDocument(testFilesDir, out docPath);
            SrmDocument doc         = docOriginal;

            using (var docContainer = new ResultsTestDocumentContainer(doc, docPath))
            {
                string extRaw = ExtensionTestContext.ExtWatersRaw;

                var listChromatograms = new List <ChromatogramSet>
                {
                    new ChromatogramSet("double", new[]
                    {
                        MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_070.mzML")),
                        MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_073.mzML"))
                    }),
                    new ChromatogramSet("trouble", new[]
                    {
                        MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_075" + extRaw)),
                        MsDataFileUri.Parse(testFilesDir.GetTestPath("160109_Mix1_calcurve_078.mzML"))
                    })
                };
                var docResults = doc.ChangeMeasuredResults(new MeasuredResults(listChromatograms));
                Assert.IsTrue(docContainer.SetDocument(docResults, doc, true));
                docContainer.AssertComplete();
                docResults = docContainer.Document;
                Assert.IsTrue(docResults.Settings.HasResults);
                var measuredResults = docResults.Settings.MeasuredResults;
                var chromatograms   = measuredResults.Chromatograms;
                Assert.AreEqual(2, chromatograms.Count);
                var dictPathToIndex = new Dictionary <MsDataFileUri, int>();
                for (int i = 0; i < 2; i++)
                {
                    Assert.AreEqual(listChromatograms[i].BatchName, chromatograms[i].BatchName);
                    for (int j = 0; j < 2; j++)
                    {
                        Assert.AreEqual(listChromatograms[i].MSDataFileInfos[j].FilePath, chromatograms[i].MSDataFileInfos[j].FilePath);
                        dictPathToIndex.Add(listChromatograms[i].MSDataFileInfos[j].FilePath, j);
                    }
                }

                const float tolerance = (float)TransitionInstrument.DEFAULT_MZ_MATCH_TOLERANCE;

                foreach (var pair in docResults.PeptidePrecursorPairs)
                {
                    var nodePep   = pair.NodePep;
                    var nodeGroup = pair.NodeGroup;
                    Assert.IsTrue(nodeGroup.HasResults, string.Format("Missing results on {0}", nodeGroup));
                    Assert.AreEqual(2, nodeGroup.Results.Count);
                    foreach (var result in nodeGroup.Results)
                    {
                        Assert.AreEqual(2, result.Count);
                    }
                    for (int i = 0; i < 2; i++)
                    {
                        ChromatogramGroupInfo[] chromInfos;
                        Assert.IsTrue(measuredResults.TryLoadChromatogram(i, nodePep, nodeGroup, tolerance, true, out chromInfos),
                                      string.Format("Missing chromatogram {0} - {1}", nodeGroup, i));
                        Assert.AreEqual(2, chromInfos.Length);
                        double[] peakAreas = new double[2];
                        for (int j = 0; j < 2; j++)
                        {
                            var chromInfo = chromInfos[j];
                            // No guarantee that chromInfos will be in the same order as the ChromatogramSet.MsDataFileInfos
                            int peakAreaIndex = dictPathToIndex[chromInfo.FilePath];
                            Assert.IsTrue(chromInfo.BestPeakIndex != -1, string.Format("Missing peak {0} - {1}:{2}", nodeGroup, i, j));
                            foreach (var tranInfo in chromInfo.TransitionPointSets)
                            {
                                var peakInfo = tranInfo.GetPeak(chromInfo.BestPeakIndex);
                                if (peakInfo.IsEmpty || peakInfo.IsForcedIntegration)
                                {
                                    continue;
                                }

                                // Check times
                                var times  = tranInfo.Times;
                                int iStart = CollectionUtil.BinarySearch(times, peakInfo.StartTime);
                                Assert.IsTrue(iStart >= 0, string.Format("Start time not {0}", iStart));
                                int iEnd = CollectionUtil.BinarySearch(times, peakInfo.EndTime);
                                Assert.IsTrue(iEnd >= 0, string.Format("End time not found {0}", iEnd));
                                int iPeak = CollectionUtil.BinarySearch(times, peakInfo.RetentionTime);
                                // Check intensities at times
                                var intensities = tranInfo.Intensities;
                                Assert.IsTrue(intensities[iStart] < intensities[iPeak],
                                              string.Format("Start intensity {0} >= peak intensity {1}", intensities[iStart], intensities[iPeak]));
                                Assert.IsTrue(intensities[iEnd] < intensities[iPeak],
                                              string.Format("End intensity {0} >= peak intensity {1}", intensities[iEnd], intensities[iPeak]));
                                // Sum peak area
                                peakAreas[peakAreaIndex] += peakInfo.Area;
                            }
                        }

                        Assert.IsTrue(peakAreas[0] < peakAreas[1],
                                      string.Format("{0} analyte area >= {1} standard area", peakAreas[0], peakAreas[1]));
                    }
                }
            }
            testFilesDir.Dispose();
        }