Exemplo n.º 1
0
        private static void CheckGstGraphs(int rtCurveCount, int areaCurveCount)
        {
            var graphChrom = SkylineWindow.GetGraphChrom("FOXN1-GST");

            Assert.IsNotNull(graphChrom);
            Assert.IsTrue(graphChrom.BestPeakTime.HasValue);
            Assert.AreEqual(20.9, graphChrom.BestPeakTime.Value, 0.05);
            Assert.AreEqual(rtCurveCount, SkylineWindow.RTGraphController.GraphSummary.CurveCount);
            Assert.AreEqual(9, SkylineWindow.RTGraphController.GraphSummary.Categories.Count());
            Assert.AreEqual(areaCurveCount, SkylineWindow.GraphPeakArea.Controller.GraphSummary.CurveCount);
            Assert.AreEqual(9, SkylineWindow.GraphPeakArea.Controller.GraphSummary.Categories.Count());
        }
Exemplo n.º 2
0
        private void TestOriginalPeak()
        {
            RunUI(() =>
            {
                SkylineWindow.ActivateReplicate("1");
            });
            WaitForGraphs();
            var graphChrom = SkylineWindow.GetGraphChrom("1");

            // If the entire graph object list may be empty when the graph is offscreen
            // It is not worth it to make this work.
            if (!graphChrom.GraphItem.GraphObjList.Any() && Program.SkylineOffscreen)
            {
                return;
            }

            var norect = GetChromRect(graphChrom);

            Assert.IsNull(norect);
            RunUI(() =>
            {
                var pathPep     = SkylineWindow.DocumentUI.GetPathTo((int)SrmDocument.Level.Molecules, 0);
                var nodeGroup   = SkylineWindow.DocumentUI.Peptides.ElementAt(0).TransitionGroups.First();
                var listChanges = new List <ChangedPeakBoundsEventArgs>
                {
                    new ChangedPeakBoundsEventArgs(new IdentityPath(pathPep, nodeGroup.TransitionGroup),
                                                   null,
                                                   graphChrom.NameSet,
                                                   graphChrom.ChromGroupInfos[0].FilePath,
                                                   graphChrom.GraphItems.First().GetNearestDisplayTime(40.0),
                                                   graphChrom.GraphItems.First().GetNearestDisplayTime(42.0),
                                                   PeakIdentification.ALIGNED,
                                                   PeakBoundsChangeType.both)
                };
                graphChrom.SimulateChangedPeakBounds(listChanges);
            });

            WaitForGraphs();
            var rect = GetChromRect(graphChrom);

            Assert.IsNotNull(rect);
            var tag = (ChromGraphItem.GraphObjTag)rect.Tag;

            Assert.AreEqual(tag.StartTime.DisplayTime.ToString("N2"), 40.31.ToString(CultureInfo.CurrentCulture));
            Assert.AreEqual(tag.EndTime.DisplayTime.ToString("N2"), 41.21.ToString(CultureInfo.CurrentCulture));
            Assert.IsNull(GetChromRect(SkylineWindow.GetGraphChrom("2")));
            Assert.IsNull(GetChromRect(SkylineWindow.GetGraphChrom("3")));
            Assert.IsNull(GetChromRect(SkylineWindow.GetGraphChrom("4")));
        }
Exemplo n.º 3
0
        private static int GetRawTimeCount(string chromName)
        {
            var graphChrom = SkylineWindow.GetGraphChrom(chromName);

            // Graph objects will not be present when the program is off screen
            if (!graphChrom.GraphItem.GraphObjList.Any() && Program.SkylineOffscreen)
            {
                return(graphChrom.GraphItems.Sum(g => g.RawTimesCount));
            }

            int count = 0;

            foreach (var graphObj in graphChrom.GraphItem.GraphObjList)
            {
                var objTag = graphObj.Tag as ChromGraphItem.GraphObjTag;
                if (objTag != null && objTag.GraphObjType == ChromGraphItem.GraphObjType.raw_time)
                {
                    count++;
                }
            }
            return(count);
        }
Exemplo n.º 4
0
        protected override void DoTest()
        {
            // Skyline Targeted Method Refinement

            var folderMethodRefine = UseRawFiles ? "MethodRefine" : "MethodRefineMzml"; // Not L10N

            // Results Data, p. 2
            var doc = SkylineWindow.Document;

            RunUI(() => SkylineWindow.OpenFile(TestFilesDirs[1].GetTestPath(folderMethodRefine + @"\WormUnrefined.sky"))); // Not L10N
            WaitForDocumentChangeLoaded(doc);
            RunUI(() =>
            {
                // Adjust font sizes for better screen shots
                Settings.Default.ChromatogramFontSize = 14;
                Settings.Default.SpectrumFontSize     = 14;
                SkylineWindow.ChangeTextSize(TreeViewMS.LRG_TEXT_FACTOR);

                SkylineWindow.SequenceTree.SelectedNode = SkylineWindow.SequenceTree.Nodes[0].Nodes[0];
                SkylineWindow.AutoZoomBestPeak();   // TODO: Mention this in the tutorial
                SkylineWindow.Size = new Size(1160, 660);

                Assert.AreEqual(SkylineWindow.SequenceTree.SelectedNode.Text, "YLGAYLLATLGGNASPSAQDVLK"); // Not L10N
            });
            PauseForScreenShot("Main window", 2);

            // TODO: Update tutorial to view b-ions.
            RunUI(() => SkylineWindow.GraphSpectrumSettings.ShowBIons = true);

            // Unrefined Methods, p. 3
            {
                var exportDlg = ShowDialog <ExportMethodDlg>(() => SkylineWindow.ShowExportMethodDialog(ExportFileType.List));
                RunUI(() =>
                {
                    exportDlg.ExportStrategy = ExportStrategy.Buckets;
                    exportDlg.MethodType     = ExportMethodType.Standard;
                    exportDlg.OptimizeType   = ExportOptimize.NONE;
                    exportDlg.MaxTransitions = 59;
                });
                PauseForScreenShot("Export Transition List form", 3);                                                       // Not L10N
                OkDialog(exportDlg, () => exportDlg.OkDialog(TestFilesDirs[1].GetTestPath(folderMethodRefine + @"\worm"))); // Not L10N
            }

            for (int i = 1; i < 10; i++)
            {
                Assert.IsTrue(File.Exists(TestFilesDirs[1].GetTestPath(folderMethodRefine + @"\worm_000" + i + TextUtil.EXT_CSV))); // Not L10N
            }
            for (int i = 10; i < 40; i++)
            {
                Assert.IsTrue(File.Exists(TestFilesDirs[1].GetTestPath(folderMethodRefine + @"\worm_00" + i + TextUtil.EXT_CSV))); // Not L10N
            }

            // Importing Multiple Injection Data, p. 4

            Assert.IsTrue(SkylineWindow.Document.Settings.HasResults);
            RunDlg <ManageResultsDlg>(SkylineWindow.ManageResults, manageResultsDlg =>
            {
                manageResultsDlg.RemoveReplicates();
                Assert.AreEqual(manageResultsDlg.Chromatograms.ToArray().Length, 0);
                manageResultsDlg.OkDialog();
            });

            RunUI(() => SkylineWindow.SaveDocument());
            Assert.IsFalse(SkylineWindow.Document.Settings.HasResults);

            const string replicateName = "Unrefined"; // Not L10N

            RunDlg <ImportResultsDlg>(SkylineWindow.ImportResults, importResultsDlg =>
            {
                importResultsDlg.RadioAddNewChecked = true;
                var namedPathSets = DataSourceUtil.GetDataSourcesInSubdirs(TestFilesDirs[0].FullPath).ToArray();
                importResultsDlg.NamedPathSets =
                    new[] { new KeyValuePair <string, MsDataFileUri[]>(replicateName, namedPathSets[0].Value.Take(15).ToArray()) };
                importResultsDlg.OkDialog();
            });
            WaitForOpenForm <AllChromatogramsGraph>();                                                        // To make the AllChromatogramsGraph form accessible to the SkylineTester forms tab
            PauseForScreenShot <AllChromatogramsGraph>("Loading Chromatograms: Take screenshot at about 25% loaded...", 5);
            WaitForCondition(15 * 60 * 1000, () => SkylineWindow.Document.Settings.MeasuredResults.IsLoaded); // 15 minutes

            Assert.IsTrue(SkylineWindow.Document.Settings.HasResults);
            Assert.AreEqual(15, SkylineWindow.Document.Settings.MeasuredResults.CachedFilePaths.ToArray().Length);

            RunDlg <ImportResultsDlg>(SkylineWindow.ImportResults, importResultsDlg =>
            {
                importResultsDlg.RadioAddExistingChecked = true;
                var namedPathSets = DataSourceUtil.GetDataSourcesInSubdirs(TestFilesDirs[0].FullPath).ToArray();
                importResultsDlg.NamedPathSets =
                    new[] { new KeyValuePair <string, MsDataFileUri[]>(replicateName, namedPathSets[0].Value.Skip(15).ToArray()) };
                importResultsDlg.OkDialog();
            });
            WaitForCondition(20 * 60 * 1000, () => SkylineWindow.Document.Settings.MeasuredResults.IsLoaded);  // 15 minutes

            Assert.AreEqual(39, SkylineWindow.Document.Settings.MeasuredResults.CachedFilePaths.ToArray().Length);

            RunUI(SkylineWindow.AutoZoomNone);
            RestoreViewOnScreen(7);
            PauseForScreenShot("Chromatogram graph metafile", 7);

            // Simple Manual Refinement, p. 6
            int startingNodeCount = SkylineWindow.SequenceTree.Nodes[0].GetNodeCount(false);

            Assert.AreEqual("YLGAYLLATLGGNASPSAQDVLK", SkylineWindow.SequenceTree.Nodes[0].Nodes[0].Text); // Not L10N

            RunUI(() =>
            {
                SkylineWindow.SequenceTree.SelectedNode = SkylineWindow.SequenceTree.Nodes[0].Nodes[0];
                SkylineWindow.AutoZoomNone();
                SkylineWindow.AutoZoomBestPeak();
                SkylineWindow.EditDelete();
                SkylineWindow.ShowRTLinearRegressionGraph();
            });
            Assert.AreEqual(SkylineWindow.SequenceTree.Nodes[0].GetNodeCount(false), startingNodeCount - 1);
            Assert.AreEqual("VLEAGGLDCDMENANSVVDALK", SkylineWindow.SequenceTree.Nodes[0].Nodes[0].Text); // Not L10N
            PauseForScreenShot("Retention Times Regression plot metafile", 8);

            RunDlg <RegressionRTThresholdDlg>(SkylineWindow.ShowRegressionRTThresholdDlg, rtThresholdDlg =>
            {
                rtThresholdDlg.Threshold = 0.95;
                rtThresholdDlg.OkDialog();
            });
            WaitForConditionUI(() => SkylineWindow.RTGraphController.RegressionRefined != null);
            WaitForGraphs();
            PauseForScreenShot("Retention Times Regression plot metafile with 0.95 threshold", 9); // Not L10N

            TestRTResidualsSwitch();

            RunDlg <EditRTDlg>(SkylineWindow.CreateRegression, editRTDlg => editRTDlg.OkDialog());

            RunUI(() => SkylineWindow.ShowGraphRetentionTime(false));
            RunUI(SkylineWindow.AutoZoomNone);
            PauseForScreenShot("Chromatogram graph metafile zoomed out", 10); // Not L10N

            // Missing Data, p. 10
            RunUI(() =>
            {
                SkylineWindow.RTGraphController.SelectPeptide(SkylineWindow.Document.GetPathTo(1, 163));
                Assert.AreEqual("YLAEVASEDR", SkylineWindow.SequenceTree.SelectedNode.Text);     // Not L10N
            });
            RestoreViewOnScreen(11);
            //  Restoring the view changes the selection
            RunUI(SkylineWindow.CollapsePeptides);
            FindNode("YLAEVASEDR");
            RunUI(() => SkylineWindow.SequenceTree.TopNode = SkylineWindow.SequenceTree.Nodes[0].Nodes[153]);

            PauseForScreenShot("Targets view clipped from the main window", 11);

            RunUI(() =>
            {
                var nodePep = (PeptideDocNode)((SrmTreeNode)SkylineWindow.SequenceTree.SelectedNode).Model;
                Assert.AreEqual(null,
                                nodePep.GetPeakCountRatio(
                                    SkylineWindow.SequenceTree.GetDisplayResultsIndex(nodePep)));
                SkylineWindow.SequenceTree.SelectedPath = SkylineWindow.Document.GetPathTo(1, 157);
                Assert.AreEqual("VTVVDDQSVILK", SkylineWindow.SequenceTree.SelectedNode.Text);
            });
            WaitForGraphs();
            RunUI(() =>
            {
                SkylineWindow.ActivateReplicate("Unrefined");
                SkylineWindow.AutoZoomNone();
            });
            PauseForScreenShot("Unrefined chromatogram graph page clipped from main window", 12); // Not L10N

//            foreach (var peptideDocNode in SkylineWindow.Document.Peptides)
//            {
//                var nodeGroup = ((TransitionGroupDocNode)peptideDocNode.Children[0]);
//                Console.WriteLine("{0} - {1}", peptideDocNode.Peptide.Sequence,
//                    nodeGroup.GetDisplayText(SkylineWindow.SequenceTree.GetDisplaySettings(peptideDocNode)));
//            }
//            Console.WriteLine("---------------------------------");

            RunUI(() =>
            {
                var graphChrom = SkylineWindow.GetGraphChrom("Unrefined"); // Not L10N
                Assert.AreEqual(2, graphChrom.Files.Count);
                SkylineWindow.SequenceTree.SelectedNode = SkylineWindow.SequenceTree.Nodes[0];

                // Picking Measurable Peptides and Transitions, p. 12
                SkylineWindow.ExpandPeptides();
                SkylineWindow.SequenceTree.SelectedNode = SkylineWindow.SequenceTree.Nodes[0].Nodes[0];
            });

            RunUI(SkylineWindow.AutoZoomBestPeak);
            RestoreViewOnScreen(13);
            RunUI(() => SkylineWindow.ShowGraphSpectrum(false));
            PauseForScreenShot("Targets view clipped from the main window and chromatogram graph metafile", 13);

            RunUI(() => SkylineWindow.ShowGraphSpectrum(true));
            PauseForScreenShot("Library Match plot metafile", 14);

            RunUI(() =>
            {
                SkylineWindow.ShowGraphSpectrum(false);
                SkylineWindow.SelectedPath = SkylineWindow.Document.GetPathTo((int)SrmDocument.Level.Transitions, 0);
                SkylineWindow.SelectedNode.Expand();
                SkylineWindow.SelectedPath = SkylineWindow.Document.GetPathTo((int)SrmDocument.Level.Molecules, 0);
            });

            PauseForScreenShot("Targetes view clipped from the main window", 14); // Not L10N

            RunUI(() =>
            {
                double dotpExpect = Math.Round(Statistics.AngleToNormalizedContrastAngle(0.78), 2);  // 0.57
                AssertEx.Contains(SkylineWindow.SequenceTree.SelectedNode.Nodes[0].Text,
                                  dotpExpect.ToString(LocalizationHelper.CurrentCulture));
                SkylineWindow.EditDelete();

                dotpExpect = 0.34; // Math.Round(Statistics.AngleToNormalizedContrastAngle(0.633), 2);  // 0.44
                SkylineWindow.SequenceTree.SelectedNode = SkylineWindow.SequenceTree.Nodes[0].Nodes[0];
                AssertEx.Contains(SkylineWindow.SequenceTree.SelectedNode.Nodes[0].Text,
                                  dotpExpect.ToString(LocalizationHelper.CurrentCulture));
                SkylineWindow.EditDelete();

                PeptideTreeNode nodePep;
                for (int i = 0; i < 2; i++)
                {
                    nodePep = (PeptideTreeNode)SkylineWindow.SequenceTree.Nodes[0].Nodes[i];
                    nodePep.ExpandAll();
                    foreach (TransitionTreeNode nodeTran in nodePep.Nodes[0].Nodes)
                    {
                        TransitionDocNode nodeTranDoc = (TransitionDocNode)nodeTran.Model;
                        Assert.AreEqual((int)SequenceTree.StateImageId.peak,
                                        TransitionTreeNode.GetPeakImageIndex(nodeTranDoc,
                                                                             (PeptideDocNode)nodePep.Model,
                                                                             SkylineWindow.SequenceTree));
                        var resultsIndex = SkylineWindow.SequenceTree.GetDisplayResultsIndex(nodePep);
                        var rank         = nodeTranDoc.GetPeakRank(resultsIndex);
                        if (rank == null || rank > 3)
                        {
                            SkylineWindow.SequenceTree.SelectedNode = nodeTran;
                        }
                        SkylineWindow.SequenceTree.KeysOverride = Keys.Control;
                    }
                }
                nodePep = (PeptideTreeNode)SkylineWindow.SequenceTree.Nodes[0].Nodes[2];
                nodePep.ExpandAll();
                foreach (TransitionTreeNode nodeTran in nodePep.Nodes[0].Nodes)
                {
                    TransitionDocNode nodeTranDoc = (TransitionDocNode)nodeTran.Model;
                    Assert.AreEqual((int)SequenceTree.StateImageId.peak,
                                    TransitionTreeNode.GetPeakImageIndex(nodeTranDoc,
                                                                         (PeptideDocNode)nodePep.Model,
                                                                         SkylineWindow.SequenceTree));
                    var name = ((TransitionDocNode)nodeTran.Model).FragmentIonName;
                    if (!(name == "y11" || name == "y13" || name == "y14")) // Not L10N
                    {
                        SkylineWindow.SequenceTree.SelectedNode = nodeTran;
                    }
                    SkylineWindow.SequenceTree.KeysOverride = Keys.Control;
                }
                SkylineWindow.SequenceTree.KeysOverride = Keys.None;
                SkylineWindow.EditDelete();
                for (int i = 0; i < 3; i++)
                {
                    Assert.IsTrue(SkylineWindow.SequenceTree.Nodes[0].Nodes[i].Nodes[0].Nodes.Count == 3);
                }
                SkylineWindow.AutoZoomNone();

                SkylineWindow.SelectedPath = SkylineWindow.Document.GetPathTo((int)SrmDocument.Level.Transitions, 5);
                SkylineWindow.Size         = new Size(722, 449);
            });

            RunUI(SkylineWindow.AutoZoomBestPeak);
            RestoreViewOnScreen(15);
            PauseForScreenShot("Targetes view clipped from main window and chromatogram graph metafile", 15);

            // Automated Refinement, p. 16
            RunDlg <RefineDlg>(SkylineWindow.ShowRefineDlg, refineDlg =>
            {
                refineDlg.MaxTransitionPeakRank = 3;
                refineDlg.PreferLargerIons      = true;
                refineDlg.RemoveMissingResults  = true;
                refineDlg.RTRegressionThreshold = 0.95;
                refineDlg.DotProductThreshold   = Statistics.AngleToNormalizedContrastAngle(0.95);  // Convert from original cos(angle) dot-product
                refineDlg.OkDialog();
            });
            WaitForCondition(() => SkylineWindow.Document.PeptideCount < 73);
//            foreach (var peptideDocNode in SkylineWindow.Document.Peptides)
//            {
//                var nodeGroup = ((TransitionGroupDocNode) peptideDocNode.Children[0]);
//                Console.WriteLine("{0} - {1}", peptideDocNode.Peptide.Sequence,
//                    nodeGroup.GetDisplayText(SkylineWindow.SequenceTree.GetDisplaySettings(peptideDocNode)));
//            }
            RunUI(() =>
            {
                Assert.AreEqual(72, SkylineWindow.Document.PeptideCount);
                Assert.AreEqual(216, SkylineWindow.Document.PeptideTransitionCount);
                SkylineWindow.CollapsePeptides();
                SkylineWindow.Undo();
            });
            RunDlg <RefineDlg>(SkylineWindow.ShowRefineDlg, refineDlg =>
            {
                refineDlg.MaxTransitionPeakRank = 6;
                refineDlg.RemoveMissingResults  = true;
                refineDlg.RTRegressionThreshold = 0.90;
                refineDlg.DotProductThreshold   = Statistics.AngleToNormalizedContrastAngle(0.90);  // Convert from original cos(angle) dot-product
                refineDlg.OkDialog();
            });

            WaitForCondition(() => SkylineWindow.Document.PeptideCount < 120);
            RunUI(() =>
            {
                Assert.AreEqual(113, SkylineWindow.Document.PeptideCount);

                // Scheduling for Efficient Acquisition, p. 17
                SkylineWindow.Undo();
            });

            RunDlg <ManageResultsDlg>(SkylineWindow.ManageResults, mResults =>
            {
                Assert.AreEqual(1, mResults.Chromatograms.Count());

                mResults.SelectedChromatograms =
                    SkylineWindow.Document.Settings.MeasuredResults.Chromatograms.Where(
                        set => Equals("Unrefined", set.Name)); // Not L10N

                mResults.RemoveReplicates();

                Assert.AreEqual(0, mResults.Chromatograms.Count());
                mResults.OkDialog();
            });

            var importResultsDlg0 = ShowDialog <ImportResultsDlg>(SkylineWindow.ImportResults);

            RunUI(() =>
            {
                SkylineWindow.SequenceTree.SelectedNode           = SkylineWindow.SequenceTree.Nodes[0];
                importResultsDlg0.RadioCreateMultipleMultiChecked = true;
                importResultsDlg0.NamedPathSets =
                    DataSourceUtil.GetDataSourcesInSubdirs(Path.Combine(TestFilesDirs[1].FullPath,
                                                                        Path.GetFileName(TestFilesDirs[1].FullPath) ??
                                                                        string.Empty)).ToArray();
            });
            var importResultsNameDlg = ShowDialog <ImportResultsNameDlg>(importResultsDlg0.OkDialog);

            RunUI(importResultsNameDlg.NoDialog);
            WaitForCondition(15 * 60 * 1000, () => SkylineWindow.Document.Settings.HasResults && SkylineWindow.Document.Settings.MeasuredResults.IsLoaded); // 15 minutes

            var docCurrent = SkylineWindow.Document;

            RunUI(SkylineWindow.RemoveMissingResults);
            WaitForDocumentChange(docCurrent);
            Assert.AreEqual(86, SkylineWindow.Document.PeptideCount);
            Assert.AreEqual(255, SkylineWindow.Document.PeptideTransitionCount);

            TestRTResidualsSwitch();

            // Measuring Retention Times, p. 17
            {
                var exportDlg = ShowDialog <ExportMethodDlg>(() => SkylineWindow.ShowExportMethodDialog(ExportFileType.List));
                RunUI(() => exportDlg.MaxTransitions = 130);
                PauseForScreenShot <ExportMethodDlg.TransitionListView>("Export Transition List form", 18);
                OkDialog(exportDlg, () => exportDlg.OkDialog(TestFilesDirs[1].FullPath + "\\unscheduled")); // Not L10N
            }
            ///////////////////////

            // Reviewing Retention Time Runs, p. 18
            RunUI(() =>
            {
                SkylineWindow.ShowGraphSpectrum(false);
                SkylineWindow.ArrangeGraphsTiled();
                SkylineWindow.AutoZoomNone();
                SkylineWindow.AutoZoomBestPeak();
            });
            FindNode("FWEVISDEHGIQPDGTFK");

            RunUI(() => SkylineWindow.Size = new Size(1060, 550));
            RestoreViewOnScreen(19);
            PauseForScreenShot("Main window", 19); // Not L10N

            RunUI(() => SkylineWindow.ShowRTSchedulingGraph());
            WaitForCondition(() => SkylineWindow.GraphRetentionTime != null);

            PauseForScreenShot("Retention Times - Scheduling graph metafile", 19);

            RestoreViewOnScreen(20);

            // Creating a Scheduled Transition List, p. 20
            {
                var peptideSettingsUI = ShowDialog <PeptideSettingsUI>(SkylineWindow.ShowPeptideSettingsUI);
                RunUI(() =>
                {
                    peptideSettingsUI.SelectedTab = PeptideSettingsUI.TABS.Prediction;
                    peptideSettingsUI.TimeWindow  = 4;
                });
                PauseForScreenShot <PeptideSettingsUI.PredictionTab>("Peptide Settings - Prediction tab", 21);
                OkDialog(peptideSettingsUI, peptideSettingsUI.OkDialog); // Not L10N
            }

            var exportMethodDlg1 = ShowDialog <ExportMethodDlg>(() =>
                                                                SkylineWindow.ShowExportMethodDialog(ExportFileType.List));

            RunUI(() =>
            {
                exportMethodDlg1.ExportStrategy = ExportStrategy.Single;
                exportMethodDlg1.MethodType     = ExportMethodType.Scheduled;
            });
            // TODO: Update tutorial to mention the scheduling options dialog.
            PauseForScreenShot("Export Transition List form", 22);                                              // Not L10N
            RunDlg <SchedulingOptionsDlg>(() =>
                                          exportMethodDlg1.OkDialog(TestFilesDirs[1].FullPath + "\\scheduled"), // Not L10N
                                          schedulingOptionsDlg => schedulingOptionsDlg.OkDialog());
            WaitForClosedForm(exportMethodDlg1);

            // Reviewing Multi-Replicate Data, p. 22
            RunDlg <ManageResultsDlg>(SkylineWindow.ManageResults, manageResultsDlg =>
            {
                manageResultsDlg.RemoveAllReplicates();
                manageResultsDlg.OkDialog();
            });
            var importResultsDlg1 = ShowDialog <ImportResultsDlg>(SkylineWindow.ImportResults);

            RunDlg <OpenDataSourceDialog>(() => importResultsDlg1.NamedPathSets = importResultsDlg1.GetDataSourcePathsFile(null),
                                          openDataSourceDialog =>
            {
                openDataSourceDialog.SelectAllFileType(ExtThermoRaw);
                openDataSourceDialog.Open();
            });
            RunDlg <ImportResultsNameDlg>(importResultsDlg1.OkDialog, importResultsNameDlg0 =>
            {
                importResultsNameDlg0.Prefix = "Scheduled_"; // Not L10N
                importResultsNameDlg0.YesDialog();
            });
            WaitForCondition(15 * 60 * 1000, () => SkylineWindow.Document.Settings.HasResults && SkylineWindow.Document.Settings.MeasuredResults.IsLoaded); // 15 minutes
            Assert.AreEqual(5, SkylineWindow.GraphChromatograms.Count(graphChrom => !graphChrom.IsHidden));
            RunUI(() =>
            {
                SkylineWindow.RemoveMissingResults();
                SkylineWindow.ArrangeGraphsTiled();
                SkylineWindow.ShowGraphRetentionTime(false);
            });
            WaitForCondition(() => SkylineWindow.GraphRetentionTime.IsHidden);
            RunUI(() =>
            {
                SkylineWindow.SequenceTree.SelectedNode = SkylineWindow.SequenceTree.Nodes[0].Nodes[0];
                SkylineWindow.ShowRTReplicateGraph();
                SkylineWindow.ShowPeakAreaReplicateComparison();
                SkylineWindow.CollapsePeptides();
                SkylineWindow.ShowChromatogramLegends(false);
                SkylineWindow.Size = new Size(1024, 768);
            });
            RestoreViewOnScreen(24);
            WaitForGraphs();
            PauseForScreenShot("Main window", 24); // Not L10N

            RunUI(() => SkylineWindow.SaveDocument());
            RunUI(SkylineWindow.NewDocument);
        }
Exemplo n.º 5
0
        protected override void DoTest()
        {
            // Clear all the settings lists that will be defined in this tutorial
            ClearSettingsLists();

            // Open the file
            RunUI(() => SkylineWindow.OpenFile(GetTestPath(DIA_START_CHECKPOINT)));
            WaitForDocumentLoaded();

            // Specify DIA acquisition scheme and machine settings
            var transitionSettings = ShowDialog <TransitionSettingsUI>(SkylineWindow.ShowTransitionSettingsUI);

            RunUI(() =>
            {
                transitionSettings.SelectedTab              = TransitionSettingsUI.TABS.FullScan;
                transitionSettings.AcquisitionMethod        = FullScanAcquisitionMethod.DIA;
                transitionSettings.PrecursorIsotopesCurrent = FullScanPrecursorIsotopes.Count;
                transitionSettings.PrecursorMassAnalyzer    = FullScanMassAnalyzerType.orbitrap;
                transitionSettings.PrecursorRes             = 35000;
                transitionSettings.PrecursorResMz           = 200;
                transitionSettings.ProductMassAnalyzer      = FullScanMassAnalyzerType.orbitrap;
                transitionSettings.ProductRes   = 17500;
                transitionSettings.ProductResMz = 200;
            });
            PauseForScreenShot <TransitionSettingsUI.FullScanTab>("Transition Settings - Full-Scan", 4);

            // Set up isolation scheme
            var isolationSchemeDlg = ShowDialog <EditIsolationSchemeDlg>(transitionSettings.AddIsolationScheme);

            PauseForScreenShot <EditIsolationSchemeDlg>("Edit Isolation Scheme form", 5);

            RunUI(() =>
            {
                isolationSchemeDlg.UseResults = false;
            });

            var calculateIsolationDlg = ShowDialog <CalculateIsolationSchemeDlg>(isolationSchemeDlg.Calculate);

            RunUI(() =>
            {
                calculateIsolationDlg.WindowWidth             = 20;
                calculateIsolationDlg.Start                   = 500;
                calculateIsolationDlg.End                     = 900;
                calculateIsolationDlg.OptimizeWindowPlacement = true;
            });
            PauseForScreenShot <CalculateIsolationSchemeDlg>("Calculate Isolation Scheme form", 6);
            OkDialog(calculateIsolationDlg, calculateIsolationDlg.OkDialog);
            PauseForScreenShot <EditIsolationSchemeDlg>("Edit Isolation Scheme Dialog Filled", 7);

            var isolationSchemeGraphDlg = ShowDialog <DiaIsolationWindowsGraphForm>(isolationSchemeDlg.OpenGraph);

            PauseForScreenShot <DiaIsolationWindowsGraphForm>("Graph of Isolation Scheme", 8);
            OkDialog(isolationSchemeGraphDlg, isolationSchemeGraphDlg.CloseButton);
            RunUI(() => isolationSchemeDlg.IsolationSchemeName = "500 to 900 by 20");
            OkDialog(isolationSchemeDlg, isolationSchemeDlg.OkDialog);
            OkDialog(transitionSettings, transitionSettings.OkDialog);

            // Export isolation scheme
            var exportIsolationDlg = ShowDialog <ExportMethodDlg>(() => SkylineWindow.ShowExportMethodDialog(ExportFileType.IsolationList));

            PauseForScreenShot <ExportMethodDlg>("Export Isolation List form", 9);
            OkDialog(exportIsolationDlg, () => exportIsolationDlg.OkDialog(GetTestPath("DIA_tutorial_isolation_list.csv")));

            // Adjust modifications and filter
            var newPeptideSettings = ShowDialog <PeptideSettingsUI>(SkylineWindow.ShowPeptideSettingsUI);

            RunUI(() => newPeptideSettings.AutoSelectMatchingPeptides = true);
            OkDialog(newPeptideSettings, newPeptideSettings.OkDialog);

            // Set up chromatogram retention time restriction
            var newTransitionSettings = ShowDialog <TransitionSettingsUI>(SkylineWindow.ShowTransitionSettingsUI);

            RunUI(() => newTransitionSettings.SetRetentionTimeFilter(RetentionTimeFilterType.ms2_ids, 5.0));
            PauseForScreenShot <TransitionSettingsUI.FullScanTab>("Retention time filtering options", 16);

            // Adjust library transition ranking
            RunUI(() =>
            {
                newTransitionSettings.SelectedTab    = TransitionSettingsUI.TABS.Library;
                newTransitionSettings.UseLibraryPick = true;
                newTransitionSettings.Filtered       = true;
            });
            PauseForScreenShot <TransitionSettingsUI.LibraryTab>("Transition Settings - Library tab", 22);
            OkDialog(newTransitionSettings, newTransitionSettings.OkDialog);
            PauseForScreenShot <SequenceTreeForm>("Targets pane with precursors and best 5 transitions only", 23);

            // Build spectral library using Import Peptide Search
            RunUI(() => SkylineWindow.SaveDocument(GetTestPath(DIA_TUTORIAL_CHECKPOINT)));

            // "Build Spectral Library" page
            var importPeptideSearchDlg = ShowDialog <ImportPeptideSearchDlg>(() => SkylineWindow.ShowImportPeptideSearchDlg());

            RunUI(() =>
            {
                Assert.IsTrue(importPeptideSearchDlg.CurrentPage == ImportPeptideSearchDlg.Pages.spectra_page);
                importPeptideSearchDlg.BuildPepSearchLibControl.AddSearchFiles(new[] { GetTestPath("interact-20130311_DDA_Pit01.pep.xml") }); // Not L10N
                importPeptideSearchDlg.BuildPepSearchLibControl.WorkflowType = ImportPeptideSearchDlg.Workflow.dia;
            });
            PauseForScreenShot <BuildLibraryDlg>("Build Library form - input files", 10);

            const string prefixKeep = "DIA_Pit0";

            if (IsFullImportMode)
            {
                SrmDocument doc = SkylineWindow.Document;
                RunUI(() => Assert.IsTrue(importPeptideSearchDlg.ClickNextButton()));
                doc = WaitForDocumentChange(doc);

                // "Extract Chromatograms" page
                RunUI(() =>
                {
                    Assert.IsTrue(importPeptideSearchDlg.CurrentPage == ImportPeptideSearchDlg.Pages.chromatograms_page);
                    importPeptideSearchDlg.ImportResultsControl.FoundResultsFiles =
                        _importFiles.Select(f => new ImportPeptideSearch.FoundResultsFile(f, GetTestPath(f + ExtensionTestContext.ExtThermoRaw))).ToList();
                });
                var importResultsNameDlg = ShowDialog <ImportResultsNameDlg>(importPeptideSearchDlg.ClickNextButtonNoCheck);
                RunUI(() =>
                {
                    string prefix = importResultsNameDlg.Prefix;
                    Assert.IsTrue(prefix.EndsWith(prefixKeep));
                    importResultsNameDlg.Prefix = prefix.Substring(0, prefix.Length - prefixKeep.Length);
                    importResultsNameDlg.YesDialog();
                });
                WaitForClosedForm(importResultsNameDlg);

                // "Add Modifications" page
                RunUI(() =>
                {
                    const string modCarbamidomethyl = "Carbamidomethyl (C)";
                    const string modOxidation       = "Oxidation (M)";
                    Assert.IsTrue(importPeptideSearchDlg.CurrentPage == ImportPeptideSearchDlg.Pages.match_modifications_page);
                    // Define expected matched/unmatched modifications
                    var expectedMatched = new[] { modCarbamidomethyl, modOxidation };
                    // Verify matched/unmatched modifications
                    AssertEx.AreEqualDeep(expectedMatched, importPeptideSearchDlg.MatchModificationsControl.MatchedModifications.ToArray());
                    Assert.IsFalse(importPeptideSearchDlg.MatchModificationsControl.UnmatchedModifications.Any());
                    importPeptideSearchDlg.MatchModificationsControl.CheckedModifications = new[] { modCarbamidomethyl };
                    Assert.IsTrue(importPeptideSearchDlg.ClickNextButton());
                });
                WaitForDocumentChange(doc);

                // "Configure Transition Settings" page
                RunUI(() =>
                {
                    Assert.IsTrue(importPeptideSearchDlg.CurrentPage == ImportPeptideSearchDlg.Pages.transition_settings_page);
                    importPeptideSearchDlg.TransitionSettingsControl.PrecursorCharges      = new[] { 1, 2, 3, 4 };
                    importPeptideSearchDlg.TransitionSettingsControl.IonCharges            = new[] { 1, 2 };
                    importPeptideSearchDlg.TransitionSettingsControl.IonTypes              = new[] { IonType.y, IonType.b, IonType.precursor };
                    importPeptideSearchDlg.TransitionSettingsControl.ExclusionUseDIAWindow = true;
                    importPeptideSearchDlg.TransitionSettingsControl.IonCount              = 5;
                    importPeptideSearchDlg.TransitionSettingsControl.IonMatchTolerance     = 0.05;
                    Assert.IsTrue(importPeptideSearchDlg.ClickNextButton());
                });

                // "Configure Full-Scan Settings" page
                RunUI(() =>
                {
                    Assert.IsTrue(importPeptideSearchDlg.CurrentPage == ImportPeptideSearchDlg.Pages.full_scan_settings_page);
                    Assert.IsTrue(importPeptideSearchDlg.ClickNextButton());
                });

                // "Import FASTA" page
                RunUI(() =>
                {
                    importPeptideSearchDlg.ImportFastaControl.SetFastaContent(GetTestPath("pituitary_database.fasta"));
                    Assert.IsTrue(importPeptideSearchDlg.ClickNextButton());
                });

                WaitForClosedForm(importPeptideSearchDlg);
                WaitForCondition(10 * 60 * 1000, () => SkylineWindow.Document.Settings.MeasuredResults.IsLoaded);    // 10 minutes

                RunUI(() =>
                {
                    SkylineWindow.SaveDocument(GetTestPath(DIA_IMPORTED_CHECKPOINT));
                    SkylineWindow.SaveDocument(GetTestPath(DIA_TUTORIAL_CHECKPOINT));
                });
            }
            else
            {
                OkDialog(importPeptideSearchDlg, importPeptideSearchDlg.CancelDialog);
                RunUI(() => SkylineWindow.OpenFile(GetTestPath(DIA_IMPORTED_CHECKPOINT)));
            }
            WaitForDocumentLoaded();
            WaitForGraphs();

            RunUI(() =>
            {
                SkylineWindow.ExpandPrecursors();
                SkylineWindow.Size = new Size(750, 788);
            });

            // Generate decoys
//            var decoysDlg = ShowDialog<GenerateDecoysDlg>(SkylineWindow.ShowGenerateDecoysDlg);
//            PauseForScreenShot<GenerateDecoysDlg>("Add Decoy Peptides form", 24);
//            RunUI(() =>
//            {
//                decoysDlg.NumDecoys = 26;
//                Assert.AreEqual(decoysDlg.DecoysMethod, DecoyGeneration.SHUFFLE_SEQUENCE);
//            });
//            OkDialog(decoysDlg, decoysDlg.OkDialog);
//            RunUI(() => SkylineWindow.SequenceTree.TopNode = SkylineWindow.SequenceTree.SelectedNode.PrevNode.Nodes[6]);
//            PauseForScreenShot<SequenceTreeForm>("Targets pane with decoys added", 25);

            RunUI(() =>
            {
                SkylineWindow.CollapsePeptides();
                SkylineWindow.SelectedPath = SkylineWindow.Document.GetPathTo((int)SrmDocument.Level.Molecules, 6);
                var nodePepTree            = SkylineWindow.SelectedNode as PeptideTreeNode;
                Assert.IsNotNull(nodePepTree);
                Assert.AreEqual("VLQAVLPPLPQVVCTYR", nodePepTree.DocNode.Peptide.Sequence);
                SkylineWindow.ShowSplitChromatogramGraph(true);
                SkylineWindow.AutoZoomBestPeak();
                var graphChrom   = SkylineWindow.GetGraphChrom(prefixKeep + "1");
                var labelStrings = graphChrom.GetAnnotationLabelStrings().ToArray();
                Assert.IsTrue(labelStrings.Contains(string.Format("{0}\n+{1} ppm\n(idotp {2})", 75.4, 3, 0.59)),
                              string.Format("Missing expected label in {0}", string.Join("|", labelStrings)));
                SkylineWindow.Width = 1250;
            });

            RunDlg <ChromChartPropertyDlg>(SkylineWindow.ShowChromatogramProperties, dlg =>
            {
                dlg.FontSize = GraphFontSize.NORMAL;
                dlg.OkDialog();
            });

            RestoreViewOnScreen(27);
            PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile", 26);

            RunUI(() =>
            {
                SkylineWindow.SelectedNode.Expand();
                var nodeTree = SkylineWindow.SelectedNode.Nodes[0].Nodes[0] as SrmTreeNode;
                Assert.IsNotNull(nodeTree);
                Assert.AreEqual((int)SequenceTree.StateImageId.no_peak, nodeTree.StateImageIndex);
            });

            PauseForScreenShot <SequenceTreeForm>("Targets view - ", 27);

            RunUI(() =>
            {
                SkylineWindow.SetIntegrateAll(true);
                var nodeTree = SkylineWindow.SelectedNode.Nodes[0].Nodes[0] as SrmTreeNode;
                Assert.IsNotNull(nodeTree);
                Assert.AreEqual((int)SequenceTree.StateImageId.peak, nodeTree.StateImageIndex);
                var nodeGroupTree = SkylineWindow.SelectedNode.Nodes[0] as TransitionGroupTreeNode;
                Assert.IsNotNull(nodeGroupTree);
                Assert.AreEqual(0.99, nodeGroupTree.DocNode.GetIsotopeDotProduct(0) ?? 0, 0.005);
                Assert.AreEqual(0.83, nodeGroupTree.DocNode.GetLibraryDotProduct(0) ?? 0, 0.005);
                SkylineWindow.ShowOtherRunPeptideIDTimes(true);
            });

            PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile - with ID lines", 28);

            RunUI(() =>
            {
                SkylineWindow.AutoZoomNone();
                SkylineWindow.SelectedPath = SkylineWindow.Document.GetPathTo((int)SrmDocument.Level.Molecules, 1);
            });

            PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile - zoomed out and small peak", 30);

            RunUI(SkylineWindow.AutoZoomBestPeak);

            PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile - zoomed to peak", 31);
            if (IsFullImportMode)
            {
                ClickChromatogram(74.9, 1.775E+7, PaneKey.PRECURSORS);
                RestoreViewOnScreen(33);
                PauseForScreenShot <GraphFullScan>("Full Scan graph with precursors - zoom manually", 32);

                ClickChromatogram(74.8, 1.753E+6, PaneKey.PRODUCTS);
                PauseForScreenShot <GraphFullScan>("Full Scan graph showing y7", 33);

                ClickChromatogram(74.9, 9.64E+5, PaneKey.PRODUCTS);
                PauseForScreenShot <GraphFullScan>("Full Scan graph showing b3 - zoom manually", 34);

                ClickChromatogram(74.9, 1.25E+5, PaneKey.PRODUCTS);
                PauseForScreenShot <GraphFullScan>("Full Scan graph showing y3 - zoom manually", 34);
            }

            RunUI(() =>
            {
                SkylineWindow.SelectedPath = SkylineWindow.Document.GetPathTo((int)SrmDocument.Level.Molecules, 2);
                Assert.AreEqual("CNTDYSDCIHEAIK", ((PeptideTreeNode)SkylineWindow.SelectedNode).DocNode.Peptide.Sequence);
            });

            PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile - split between two precursors", 35);

            RunUI(() =>
            {
                SkylineWindow.SelectedNode.Expand();
                SkylineWindow.SelectedPath = ((SrmTreeNode)SkylineWindow.SelectedNode.Nodes[0]).Path;
            });

            PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile - double charged precursor", 36);

            RunUI(() =>
            {
                SkylineWindow.SelectedPath = SkylineWindow.Document.GetPathTo((int)SrmDocument.Level.Molecules, 3);
                Assert.AreEqual("ELVYETVR", ((PeptideTreeNode)SkylineWindow.SelectedNode).DocNode.Peptide.Sequence);
            });

            RunUI(() =>
            {
                SkylineWindow.SelectedNode.Expand();
                var nodeGroupTree = SkylineWindow.SelectedNode.Nodes[0] as TransitionGroupTreeNode;
                Assert.IsNotNull(nodeGroupTree);
                Assert.AreEqual(0.99, nodeGroupTree.DocNode.GetIsotopeDotProduct(0) ?? 0, 0.005);
                Assert.AreEqual(0.99, nodeGroupTree.DocNode.GetIsotopeDotProduct(0) ?? 0, 0.005);
            });

            RestoreViewOnScreen(38);
            PauseForScreenShot <GraphSpectrum>("Library Match view - zoom manually", 37);

            RestoreViewOnScreen(39);
            PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile", 38);

            if (IsFullImportMode)
            {
                RestoreViewOnScreen(40);
                ClickChromatogram(41.9, 1.166E+8, PaneKey.PRECURSORS);
                PauseForScreenShot <GraphFullScan>("Full Scan graph showing precursor interference - zoom manually", 39);

                RunUI(() => SkylineWindow.GraphFullScan.ChangeScan(-12));
                CheckFullScanSelection(41.7, 1.532E+8, PaneKey.PRECURSORS);
                PauseForScreenShot <GraphFullScan>("Full Scan graph showing transition between interference and real peak - zoom manually", 39);
            }

            // Clear all the settings lists that were defined in this tutorial
            ClearSettingsLists();
        }
Exemplo n.º 6
0
 private static GraphChromatogram GetGraphChrom(string graphName)
 {
     return(graphName != null
         ? SkylineWindow.GetGraphChrom(graphName)
         : SkylineWindow.GraphChromatograms.First());
 }
Exemplo n.º 7
0
        protected override void DoTest()
        {
            // iRT Retention Time Prediction
            string standardDocumentFile = GetTestPath("iRT-C18 Standard.sky"); // Not L10N

            RunUI(() => SkylineWindow.OpenFile(standardDocumentFile));
            WaitForDocumentLoaded();                                                       // might have some updating to do for protein metadata
            RunUI(() => SkylineWindow.SaveDocument(GetTestPath("iRT-C18 Calibrate.sky"))); // Not L10N

            // Load raw files for iRT calculator calibration p. 2
            const string unschedHuman1Fileroot = "A_D110907_SiRT_HELA_11_nsMRM_150selected_1_30min-5-35"; // Not L10N
            string       unschedHuman1Name     = unschedHuman1Fileroot.Substring(41);
            const string unschedHuman2Fileroot = "A_D110907_SiRT_HELA_11_nsMRM_150selected_2_30min-5-35"; // Not L10N
            string       unschedHuman2Name     = unschedHuman2Fileroot.Substring(41);

            ImportNewResults(new[] { unschedHuman1Fileroot, unschedHuman2Fileroot }, 41, false, false);
            var       docCalibrate = WaitForProteinMetadataBackgroundLoaderCompletedUI();
            const int pepCount = 11, tranCount = 33;

            AssertEx.IsDocumentState(docCalibrate, null, 1, pepCount, pepCount, tranCount);
            AssertResult.IsDocumentResultsState(docCalibrate, unschedHuman1Name, pepCount, pepCount, 0, tranCount, 0);
            AssertResult.IsDocumentResultsState(docCalibrate, unschedHuman2Name, pepCount, pepCount, 0, tranCount, 0);

            RunUI(() =>
            {
                SkylineWindow.ArrangeGraphsTiled();
                SkylineWindow.ShowRTPeptideGraph();
                using (var enumLabels = SkylineWindow.RTGraphController.GraphSummary.Categories.GetEnumerator())
                {
                    foreach (var nodePep in docCalibrate.Peptides)
                    {
                        Assert.IsTrue(enumLabels.MoveNext() && enumLabels.Current != null);
                        Assert.IsTrue(nodePep.Peptide.Sequence.StartsWith(enumLabels.Current.Substring(0, 3)));
                    }
                }
            });

            // Page 3.
            PauseForScreenShot <GraphSummary.RTGraphView>("RT graph metafile", 3);   // Peptide RT graph

            RunUI(() =>
            {
                SkylineWindow.ShowRTReplicateGraph();
                SkylineWindow.AutoZoomBestPeak();
                SkylineWindow.SelectedPath = docCalibrate.GetPathTo((int)SrmDocument.Level.Molecules, 0);
            });
            // Ensure graphs look like p. 3 and 4
            WaitForGraphs();

            RestoreViewOnScreen(04);
            PauseForScreenShot("Main window showing chromatograms and RT graph", 4);   // Skyline window with docked RT replicate comparison graph

            RunUI(() =>
            {
                Assert.AreEqual(3, SkylineWindow.RTGraphController.GraphSummary.CurveCount);
                Assert.AreEqual(2, SkylineWindow.RTGraphController.GraphSummary.Categories.Count());
                var chromGraphs = SkylineWindow.GraphChromatograms.ToArray();
                Assert.AreEqual(2, chromGraphs.Length);
                Assert.AreEqual(11.3, chromGraphs[0].GraphItems.First().BestPeakTime, 0.05);
                Assert.AreEqual(11.2, chromGraphs[1].GraphItems.First().BestPeakTime, 0.05);
            });

            var listTimes = new List <double>();

            for (int i = 0; i < docCalibrate.PeptideCount; i++)
            {
                int iPeptide = i;
                RunUI(() =>
                {
                    SkylineWindow.SelectedPath = docCalibrate.GetPathTo((int)SrmDocument.Level.Molecules, iPeptide);
                });
                WaitForGraphs();
                RunUI(() =>
                {
                    var chromGraphs = SkylineWindow.GraphChromatograms.ToArray();
                    double time1    = chromGraphs[0].GraphItems.First(g => g.BestPeakTime > 0).BestPeakTime;
                    double time2    = chromGraphs[1].GraphItems.First(g => g.BestPeakTime > 0).BestPeakTime;
                    listTimes.Add((time1 + time2) / 2);
                    Assert.AreEqual(time1, time2, 0.2);
                });
            }

            // Calibrate a calculator p. 4-5
            const string irtCalcName        = "iRT-C18";
            var          peptideSettingsUI1 = ShowDialog <PeptideSettingsUI>(SkylineWindow.ShowPeptideSettingsUI);
            var          editIrtCalc1       = ShowDialog <EditIrtCalcDlg>(peptideSettingsUI1.AddCalculator);

            RunUI(() =>
            {
                editIrtCalc1.CalcName = irtCalcName;
                editIrtCalc1.CreateDatabase(GetTestPath("iRT-C18.irtdb"));           // Not L10N
            });
            {
                var calibrateDlg = ShowDialog <CalibrateIrtDlg>(editIrtCalc1.Calibrate);
                RunUI(() =>
                {
                    calibrateDlg.UseResults();
                    Assert.AreEqual(11, calibrateDlg.StandardPeptideCount);
                    calibrateDlg.SetFixedPoints(1, 10);
                    for (int i = 0; i < calibrateDlg.StandardPeptideCount; i++)
                    {
                        Assert.AreEqual(listTimes[i], calibrateDlg.StandardPeptideList[i].RetentionTime, 0.2);
                    }
                });

                PauseForScreenShot <CalibrateIrtDlg>("Calibrate iRT Calculator form", 5);   // Calibrate iRT Calculator form

                RunUI(calibrateDlg.OkDialog);
            }
            Assert.IsTrue(WaitForConditionUI(() => editIrtCalc1.StandardPeptideCount == 11));

            PauseForScreenShot <EditIrtCalcDlg>("Edit iRT Calculater form", 6);   // Edit iRT Caclulator form

            // Check iRT values and update to defined values p. 6-7
            var    irtDefinitionPath = GetTestPath("iRT definition.xlsx");                      // Not L10N
            string irtDefText        = GetExcelFileText(irtDefinitionPath, "iRT-C18", 2, true); // Not L10N

            RunUI(() =>
            {
                var standardPeptidesArray = editIrtCalc1.StandardPeptides.ToArray();
                Assert.AreEqual(11, standardPeptidesArray.Length);
                Assert.AreEqual(0, standardPeptidesArray[1].Irt, 0.00001);
                Assert.AreEqual(100, standardPeptidesArray[10].Irt, 0.00001);
                CheckIrtStandardPeptides(standardPeptidesArray, irtDefText, 6);

                SetClipboardText(irtDefText);
                editIrtCalc1.DoPasteStandard();

                standardPeptidesArray = editIrtCalc1.StandardPeptides.ToArray();
                Assert.AreEqual(11, standardPeptidesArray.Length);
                Assert.AreEqual(0, standardPeptidesArray[1].Irt, 0.001);
                Assert.AreEqual(100, standardPeptidesArray[10].Irt, 0.005);
                CheckIrtStandardPeptides(standardPeptidesArray, irtDefText, 0.00001);
            });
            OkDialog(editIrtCalc1, editIrtCalc1.OkDialog);
            OkDialog(peptideSettingsUI1, peptideSettingsUI1.OkDialog);

            // Inspect RT regression graph p. 8
            RunUI(SkylineWindow.ShowRTRegressionGraphScoreToRun);
            WaitForRegression();

            RestoreViewOnScreen(08);
            PauseForScreenShot <GraphSummary.RTGraphView>("Retention Times Regression graph metafile", 8);   // RT Regression graph

            RunUI(() =>
            {
                VerifyRTRegression(0.15, 15.09, 0.9991);

                SkylineWindow.ShowSingleReplicate();
                SkylineWindow.SequenceTree.Focus();             // If the focus is left on the results tab, then the next line does nothing
                SkylineWindow.SelectedResultsIndex = 0;
            });

            WaitForRegression();

            RunUI(() =>
            {
                VerifyRTRegression(0.15, 15.15, 0.9991);

                SkylineWindow.SelectedResultsIndex = 1;
            });

            WaitForRegression();

            RunUI(() => VerifyRTRegression(0.15, 15.04, 0.9991));
            RunUI(() => SkylineWindow.ShowAverageReplicates());
            RunUI(() => SkylineWindow.SaveDocument());

            // Create a document containing human and standard peptides, p. 9
            RunUI(() => SkylineWindow.OpenFile(GetTestPath("iRT Human.sky")));
            WaitForProteinMetadataBackgroundLoaderCompletedUI(); // let peptide metadata background loader do its work
            RunUI(() =>
            {
                SkylineWindow.SelectedPath = new IdentityPath(SequenceTree.NODE_INSERT_ID);
                SkylineWindow.ImportFiles(standardDocumentFile);
            });
            WaitForProteinMetadataBackgroundLoaderCompletedUI(); // let peptide metadata background loader do its work

            RestoreViewOnScreen(09);
            PauseForScreenShot("Targets tree clipped out of main winodw", 9);   // Target tree

            RunUI(() =>
            {
                Assert.AreEqual("iRT-C18 Standard Peptides", SkylineWindow.SelectedNode.Text);           // Not L10N
                Assert.AreEqual(1231, SkylineWindow.DocumentUI.PeptideTransitionCount);

                SkylineWindow.SaveDocument(GetTestPath("iRT Human+Standard.sky"));           // Not L10N
                SkylineWindow.SaveDocument(GetTestPath("iRT Human+Standard Calibrate.sky")); // Not L10N
            });

            // Remove heavy precursors, p. 10
            var docHumanAndStandard = SkylineWindow.Document;

            RunDlg <RefineDlg>(SkylineWindow.ShowRefineDlg, refineDlg =>
            {
                refineDlg.RefineLabelType = IsotopeLabelType.heavy;
                refineDlg.OkDialog();
            });
            var docLightOnly = WaitForDocumentChange(docHumanAndStandard);

            Assert.AreEqual(632, docLightOnly.PeptideTransitionCount);

            // Create auto-calculate regression RT predictor, p. 10
            const string irtPredictorName = "iRT-C18"; // Not L10N

            {
                var docPre             = SkylineWindow.Document;
                var peptideSettingsUI2 = ShowDialog <PeptideSettingsUI>(SkylineWindow.ShowPeptideSettingsUI);
                RunUI(() => peptideSettingsUI2.ChooseRegression(irtPredictorName));
                var regressionDlg = ShowDialog <EditRTDlg>(peptideSettingsUI2.EditRegression);
                RunUI(() =>
                {
                    Assert.AreEqual(irtPredictorName, regressionDlg.Regression.Name);
                    Assert.AreEqual(irtCalcName, regressionDlg.Regression.Calculator.Name);
                    regressionDlg.SetAutoCalcRegression(true);
                    regressionDlg.SetTimeWindow(5);
                });

                PauseForScreenShot("Edit Retention Time Predictor form", 10);   // Edit retention time predictor form

                OkDialog(regressionDlg, regressionDlg.OkDialog);
                OkDialog(peptideSettingsUI1, peptideSettingsUI2.OkDialog);
                // Make sure iRT calculator is loaded
                WaitForDocumentChangeLoaded(docPre);
            }

            // Export unscheduled transition list, p. 11
            {
                const string calibrateBasename = "iRT Human+Standard Calibrate"; // Not L10N
                var          exportMethodDlg   = ShowDialog <ExportMethodDlg>(() => SkylineWindow.ShowExportMethodDialog(ExportFileType.List));
                RunUI(() =>
                {
                    exportMethodDlg.ExportStrategy = ExportStrategy.Buckets;
                    exportMethodDlg.IgnoreProteins = true;
                    exportMethodDlg.MaxTransitions = 335;
                });

                PauseForScreenShot <ExportMethodDlg.TransitionListView>("Export Transition List form", 11);

                RunUI(() => exportMethodDlg.OkDialog(GetTestPath(calibrateBasename + TextUtil.EXT_CSV)));
                WaitForClosedForm(exportMethodDlg);

                Assert.AreEqual(332, File.ReadAllLines(GetTestPath(calibrateBasename + "_0001.csv")).Length);                                // Not L10N
                Assert.AreEqual(333 + (TestSmallMolecules ? 2 : 0), File.ReadAllLines(GetTestPath(calibrateBasename + "_0002.csv")).Length); // Not L10N
            }

            // Import human peptide calibration results p. 12
            ImportNewResults(new[] { unschedHuman1Fileroot, unschedHuman2Fileroot }, -1, true);

            // Review iRT-C18 graph p. 12-13
            RunUI(() => SkylineWindow.ChooseCalculator(irtCalcName));
            RunUI(SkylineWindow.ShowRTRegressionGraphScoreToRun);
            WaitForRegression();

            PauseForScreenShot <GraphSummary.RTGraphView>("RT Regression graph metafile", 13);

            RunUI(() =>
            {
                VerifyRTRegression(0.15, 15.09, 0.9991);
                Assert.AreEqual(11, SkylineWindow.DocumentUI.PeptideCount -
                                SkylineWindow.RTGraphController.Outliers.Length);
            });

            // Find all unintegrated transitions, p. 13-14
            {
                var findDlg = ShowDialog <FindNodeDlg>(SkylineWindow.ShowFindNodeDlg);
                RunUI(() =>
                {
                    findDlg.FindOptions = new FindOptions().ChangeText(string.Empty)
                                          .ChangeCustomFinders(Finders.ListAllFinders().Where(f => f is UnintegratedTransitionFinder));
                });

                PauseForScreenShot <FindNodeDlg>("Find form", 14);

                RestoreViewOnScreen(15);

                RunUI(() =>
                {
                    findDlg.FindAll();
                    findDlg.Close();
                });
                WaitForClosedForm(findDlg);
            }

            PauseForScreenShot <FindResultsForm>("Find Results pane", 14);

            var findAllForm = WaitForOpenForm <FindResultsForm>();

            Assert.IsNotNull(findAllForm);
            const int expectedItems = 6;

            RunUI(() =>
            {
                Assert.AreEqual(expectedItems, findAllForm.ItemCount);

                SkylineWindow.ShowAllTransitions();
                SkylineWindow.AutoZoomBestPeak();
            });

            // Review peaks with missing transitions, p. 15
            for (int i = 0; i < expectedItems; i++)
            {
                int iItem = i;
                RunUI(() => findAllForm.ActivateItem(iItem));
                WaitForGraphs();
                RunUI(() => Assert.AreEqual((int)SequenceTree.StateImageId.no_peak,
                                            SkylineWindow.SelectedNode.StateImageIndex));

                if (i == 2)
                {
                    PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile (1 of 2)", 15);
                }
                if (i == 3)
                {
                    RunUI(() =>
                    {
                        var document  = SkylineWindow.DocumentUI;
                        var nodeGroup = document.FindNode(SkylineWindow.SelectedPath.Parent) as TransitionGroupDocNode;
                        Assert.IsNotNull(nodeGroup);
                        var nodeTran = document.FindNode(SkylineWindow.SelectedPath) as TransitionDocNode;
                        Assert.IsNotNull(nodeTran);
                        var graph = SkylineWindow.GetGraphChrom(Resources.ImportResultsDlg_DefaultNewName_Default_Name);
                        // New peak picking picks correct peak
                        Assert.AreEqual(19.8, graph.BestPeakTime.Value, 0.05);
//                        TransitionGroupDocNode nodeGroupGraph;
//                        TransitionDocNode nodeTranGraph;
//                        var scaledRT = graph.FindAnnotatedPeakRetentionTime(19.8, out nodeGroupGraph, out nodeTranGraph);
//                        Assert.AreSame(nodeGroup, nodeGroupGraph);
//                        Assert.AreNotSame(nodeTran, nodeTranGraph);
//                        Assert.AreEqual(7, nodeTranGraph.Transition.Ordinal);   // y7
//                        graph.FirePickedPeak(nodeGroupGraph, nodeTranGraph, scaledRT);
                    });
                }
                if (i == 4)
                {
                    PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile (2 of 2)", 15);   // Chromatogram graph
                }
            }

            // New peak picking picks correct peak
//            RunUI(() => findAllForm.ActivateItem(3));
//            PauseForScreenShot<GraphChromatogram>("Chromatogram graph metafile (3 of 3)", 15);

            RunUI(SkylineWindow.ToggleIntegrateAll);
            RunUI(findAllForm.Close);
            WaitForClosedForm(findAllForm);

            RestoreViewOnScreen(17);

            // Calculate new iRT values for human peptides, p. 16
            {
                var editIrtCalc2 = ShowDialog <EditIrtCalcDlg>(SkylineWindow.ShowEditCalculatorDlg);
                RunUI(() => Assert.AreEqual(0, editIrtCalc2.LibraryPeptideCount));
                var addPeptidesDlg = ShowDialog <AddIrtPeptidesDlg>(editIrtCalc2.AddResults);

                PauseForScreenShot <AddIrtPeptidesDlg>("Add Peptides form", 15);

                RunUI(() =>
                {
                    Assert.AreEqual(148, addPeptidesDlg.PeptidesCount);
                    Assert.AreEqual(2, addPeptidesDlg.RunsConvertedCount);
                    Assert.AreEqual(0, addPeptidesDlg.RunsFailedCount);
                });
                var recalibrateDlg = ShowDialog <MultiButtonMsgDlg>(addPeptidesDlg.OkDialog);
                OkDialog(recalibrateDlg, recalibrateDlg.Btn1Click);

                PauseForScreenShot <EditIrtCalcDlg>("Edit iRT Calculator form", 16);

                RunUI(() => Assert.AreEqual(148, editIrtCalc2.LibraryPeptideCount));
                RunUI(editIrtCalc2.OkDialog);
                WaitForClosedForm(editIrtCalc2);
            }

            // Check the RT regression, p. 17
            WaitForRegression();

            PauseForScreenShot <GraphSummary.RTGraphView>("RT Regression graph metafile", 17);

            RunUI(() =>
            {
                VerifyRTRegression(0.15, 15.09, 0.99985);
                Assert.AreEqual(0, SkylineWindow.RTGraphController.Outliers.Length);

                SkylineWindow.SaveDocument();
                SkylineWindow.HideFindResults();
            });

            // Recalibrate method to 90-minute gradient, p. 18
            RunUI(() => SkylineWindow.OpenFile(GetTestPath("iRT Human+Standard.sky"))); // Not L10N
            RunDlg <FindNodeDlg>(SkylineWindow.ShowFindNodeDlg, findDlg =>
            {
                findDlg.FindOptions = new FindOptions().ChangeText("NSAQ");         // Not L10N
                findDlg.FindNext();
                findDlg.Close();
            });
            RunUI(SkylineWindow.EditDelete);

            {
                var peptideSettingsUI = ShowDialog <PeptideSettingsUI>(SkylineWindow.ShowPeptideSettingsUI);
                RunUI(() =>
                {
                    peptideSettingsUI.SelectedTab = PeptideSettingsUI.TABS.Prediction;
                    peptideSettingsUI.ChooseRegression(irtPredictorName);
                    peptideSettingsUI.IsUseMeasuredRT = true;
                    peptideSettingsUI.TimeWindow      = 5;
                });

                PauseForScreenShot <PeptideSettingsUI.PredictionTab>("Peptide Settings - Prediction tab", 18);

                RunUI(peptideSettingsUI.OkDialog);
                WaitForClosedForm(peptideSettingsUI);
            }

            // Import 90-minute standard mix run, p. 19
            const string unsched90MinFileroot = "A_D110913_SiRT_HELA_11_nsMRM_150selected_90min-5-40_TRID2215_01"; // Not L10N

            ImportNewResults(new[] { unsched90MinFileroot }, -1, false);
            WaitForGraphs();

            // Verify regression graph, p. 19
            RunUI(SkylineWindow.ShowRTRegressionGraphScoreToRun);
            WaitForRegression();
            PauseForScreenShot <GraphSummary.RTGraphView>("RT Regression graph metafile", 19);
            RunUI(() =>
            {
                VerifyRTRegression(0.40, 24.77, 0.9998);
                Assert.AreEqual(147, SkylineWindow.RTGraphController.Outliers.Length);
            });

            // Check scheduling graph, p. 20
            RunUI(SkylineWindow.ShowRTSchedulingGraph);
            RunDlg <SchedulingGraphPropertyDlg>(() => SkylineWindow.ShowRTPropertyDlg(SkylineWindow.GraphRetentionTime), propertyDlg =>
            {
                propertyDlg.TimeWindows = new[] { 2.0, 5.0, 10.0 };
                propertyDlg.OkDialog();
            });
            WaitForGraphs();

            PauseForScreenShot <GraphSummary.RTGraphView>("RT Scheduling graph metafile", 20);

            // Export new 90-minute scheduled transition list, p. 22
            const string scheduledBasename = "iRT Human+Standard"; // Not L10N

            {
                var exportMethodDlg = ShowDialog <ExportMethodDlg>(() => SkylineWindow.ShowExportMethodDialog(ExportFileType.List));
                RunUI(() =>
                {
                    exportMethodDlg.ExportStrategy = ExportStrategy.Buckets;
                    exportMethodDlg.MaxTransitions = 265;
                    exportMethodDlg.MethodType     = ExportMethodType.Scheduled;
                });

                PauseForScreenShot <ExportMethodDlg.TransitionListView>("Export Transition List form", 21);

                RunUI(() => exportMethodDlg.OkDialog(GetTestPath(scheduledBasename + TextUtil.EXT_CSV)));
                WaitForClosedForm(exportMethodDlg);
            }

            Assert.AreEqual(1223 + (TestSmallMolecules ? 4 : 0), File.ReadAllLines(GetTestPath(scheduledBasename + "_0001.csv")).Length); // Not L10N
            Assert.IsFalse(File.Exists(GetTestPath("iRT Human+Standard_0002.csv")));                                                      // Not L10N

            // Import scheduled data, p. 23
            RunDlg <ManageResultsDlg>(SkylineWindow.ManageResults, manageResultsDlg =>
            {
                manageResultsDlg.RemoveAllReplicates();
                manageResultsDlg.OkDialog();
            });

            RunUI(() => SkylineWindow.SaveDocument());
            const string sched90MinFileroot = "A_D110913_SiRT_HELA_11_sMRM_150selected_90min-5-40_SIMPLE"; // Not L10N

            ImportNewResults(new[] { sched90MinFileroot }, -1, false);

            RunUI(SkylineWindow.ShowRTRegressionGraphScoreToRun);
            WaitForRegression();

            PauseForScreenShot <GraphSummary.RTGraphView>("RT Regression graph metafile", 23);

            // Review regression and outliers, p. 24
            RunUI(() =>
            {
                VerifyRTRegression(0.358, 25.920, 0.91606);
                Assert.AreEqual(0, SkylineWindow.RTGraphController.Outliers.Length);
            });

            RunDlg <RegressionRTThresholdDlg>(SkylineWindow.ShowRegressionRTThresholdDlg, thresholdDlg =>
            {
                thresholdDlg.Threshold = 0.998;
                thresholdDlg.OkDialog();
            });

            PauseForScreenShot <GraphSummary.RTGraphView>("RT Regression graph metafile", 24);

            // Verify 2 outliers highlighed and removed, p. 25
            WaitForConditionUI(() => SkylineWindow.RTGraphController.Outliers.Length == 2);
            RunUI(() =>
            {
                VerifyRTRegression(0.393, 24.85, 0.9989);

                SkylineWindow.RemoveRTOutliers();
            });
            WaitForRegression();

            PauseForScreenShot <GraphSummary.RTGraphView>("RT Regression graph metafile", 25);

            // Check outlier removal, p. 25
            RunUI(() =>
            {
                VerifyRTRegression(0.393, 24.85, 0.9989);
                Assert.AreEqual(0, SkylineWindow.RTGraphController.Outliers.Length);
            });

            // Review a peak and its predicted retention time, p. 26
            RunDlg <FindNodeDlg>(SkylineWindow.ShowFindNodeDlg, findDlg =>
            {
                findDlg.FindOptions = new FindOptions().ChangeText("DATNVG");         // Not L10N
                findDlg.FindNext();
                findDlg.Close();
            });
            WaitForGraphs();

            RestoreViewOnScreen(27);
            PauseForScreenShot <GraphChromatogram>("Chromatogram graph metafile", 26);   // Chromatogram graph

            RunUI(() =>
            {
                var graphChrom = SkylineWindow.GetGraphChrom(sched90MinFileroot);
                Assert.IsTrue(graphChrom.BestPeakTime.HasValue);
                Assert.AreEqual(47.3, graphChrom.BestPeakTime.Value, 0.05);
                Assert.IsTrue(graphChrom.PredictedRT.HasValue);
                Assert.AreEqual(47.6, graphChrom.PredictedRT.Value, 0.05);
            });

            // Import retention times from a spectral library, p. 27
            RestoreViewOnScreen(17); // get regression graph back
            {
                var editIrtCalc  = ShowDialog <EditIrtCalcDlg>(SkylineWindow.ShowEditCalculatorDlg);
                var addLibrayDlg = ShowDialog <AddIrtSpectralLibrary>(editIrtCalc.AddLibrary);
                RunUI(() =>
                {
                    addLibrayDlg.Source   = SpectralLibrarySource.file;
                    addLibrayDlg.FilePath = GetTestPath(Path.Combine("Yeast+Standard",               // Not L10N
                                                                     "Yeast_iRT_C18_0_00001.blib")); // Not L10N
                });

                PauseForScreenShot <AddIrtSpectralLibrary>("Add Spectral Library form", 27);

                // Verify converted peptide iRT values and OK dialogs, p. 28
                var addPeptidesDlg = ShowDialog <AddIrtPeptidesDlg>(addLibrayDlg.OkDialog);
                RunUI(() =>
                {
                    Assert.AreEqual(558, addPeptidesDlg.PeptidesCount);
                    Assert.AreEqual(1, addPeptidesDlg.RunsConvertedCount);  // Libraries now convert through internal alignment to single RT scale
                    Assert.AreEqual(3, addPeptidesDlg.KeepPeptidesCount);
                });

                PauseForScreenShot <AddIrtPeptidesDlg>("Add Peptides form", 28);

                var recalibrateDlg = ShowDialog <MultiButtonMsgDlg>(addPeptidesDlg.OkDialog);
                OkDialog(recalibrateDlg, recalibrateDlg.Btn1Click);

                Assert.IsTrue(WaitForConditionUI(() => editIrtCalc.LibraryPeptideCount == 706));
                RunUI(editIrtCalc.OkDialog);
                WaitForClosedForm(editIrtCalc);
            }

            // Inspect MS1 filtered Skyline file created from library DDA data, p. 29
            RunUI(() => SkylineWindow.OpenFile(GetTestPath(Path.Combine("Yeast+Standard", // Not L10N
                                                                        "Yeast+Standard (refined) - 2min.sky"))));
            WaitForDocumentLoaded();
            RunUI(() => SkylineWindow.SelectedPath = SkylineWindow.DocumentUI.GetPathTo((int)SrmDocument.Level.Molecules, 0));
            WaitForRegression();

            // Verify numbers that show up in the screenshot
            RunUI(() =>
            {
                // If the cache gets rebuilt, then because the chromatograms
                // were minimized, the peak picking is not exactly the same
                // using the minimized chromatograms.
                VerifyRTRegression(0.3, 19.37, 0.9998);
                var graphChrom = SkylineWindow.GetGraphChrom("Velos_2011_1110_RJ_16");           // Not L10N
                Assert.AreEqual(37.6, graphChrom.RetentionMsMs[0], 0.05);
                Assert.IsTrue(graphChrom.BestPeakTime.HasValue);
                Assert.AreEqual(37.6, graphChrom.BestPeakTime.Value, 0.05);
                graphChrom = SkylineWindow.GetGraphChrom("Velos_2011_1110_RJ_14");           // Not L10N
                Assert.AreEqual(37.3, graphChrom.RetentionMsMs[0], 0.05);
                Assert.AreEqual(37.6, graphChrom.RetentionMsMs[1], 0.05);
                Assert.IsTrue(graphChrom.BestPeakTime.HasValue);
                Assert.AreEqual(37.4, graphChrom.BestPeakTime.Value, 0.05);
            });

            PauseForScreenShot("Main window", 29);

            // Add results and verify add dialog counts, p. 29-30
            {
                var editIrtCalc    = ShowDialog <EditIrtCalcDlg>(SkylineWindow.ShowEditCalculatorDlg);
                var addPeptidesDlg = ShowDialog <AddIrtPeptidesDlg>(editIrtCalc.AddResults);
                RunUI(() =>
                {
                    Assert.AreEqual(0, addPeptidesDlg.PeptidesCount);
                    Assert.AreEqual(2, addPeptidesDlg.RunsConvertedCount);
                    Assert.AreEqual(558, addPeptidesDlg.OverwritePeptidesCount);
                    Assert.AreEqual(3, addPeptidesDlg.ExistingPeptidesCount);
                });

                PauseForScreenShot <AddIrtPeptidesDlg>("Add Peptides form", 30);

                var recalibrateDlg = ShowDialog <MultiButtonMsgDlg>(addPeptidesDlg.OkDialog);
                OkDialog(recalibrateDlg, recalibrateDlg.Btn1Click);
                RunUI(editIrtCalc.OkDialog);
                WaitForClosedForm(editIrtCalc);
            }

            RunUI(() => SkylineWindow.SaveDocument());
            RunUI(SkylineWindow.NewDocument);
        }
Exemplo n.º 8
0
        protected override void DoTest()
        {
            RunUI(() =>
            {
                SkylineWindow.ResetDefaultSettings();
                SkylineWindow.NewDocument();
            });
            ShowAndPositionAuditLog(false);
            PauseForScreenShot <AuditLogForm>("Empty Audit Log form.", 2);

            // Configuring Settings for Inserting a New Peptide, p. 3
            {
                var doc = SkylineWindow.Document;
                var transitionSettingsUI = ShowDialog <TransitionSettingsUI>(SkylineWindow.ShowTransitionSettingsUI);

                RunUI(() =>
                {
                    // Filter Settings
                    transitionSettingsUI.SelectedTab = TransitionSettingsUI.TABS.Filter;
                    transitionSettingsUI.RangeFrom   = Resources.TransitionFilter_FragmentStartFinders_ion_3;
                    transitionSettingsUI.RangeTo     = Resources.TransitionFilter_FragmentEndFinders_last_ion_minus_1;
                });
                OkDialog(transitionSettingsUI, transitionSettingsUI.OkDialog);
                WaitForDocumentChange(doc);
            }

            PeptideSettingsUI peptideSettingsUi = ShowDialog <PeptideSettingsUI>(SkylineWindow.ShowPeptideSettingsUI);

            RunUI(() => peptideSettingsUi.SelectedTab = PeptideSettingsUI.TABS.Modifications);

            var modHeavyK = new StaticMod("Label:13C(6)15N(2) (C-term K)", "K", ModTerminus.C, false, null, LabelAtoms.C13 | LabelAtoms.N15,
                                          RelativeRT.Matching, null, null, null);

            AddHeavyMod(modHeavyK, peptideSettingsUi);
            RunUI(() => peptideSettingsUi.PickedHeavyMods = new[] { modHeavyK.Name });

            OkDialog(peptideSettingsUi, peptideSettingsUi.OkDialog);

            PauseForScreenShot <AuditLogForm>("Audit Log form with settings modifications.", 4);

            RunUI(() =>
            {
                SkylineWindow.AuditLogForm.Close();
                SkylineWindow.Width = 1010;
            });

            PauseForScreenShot("Undo list expanded. (manual)", 4);

            RunUI(SkylineWindow.Undo);

            PauseForScreenShot("Redo list expanded. (manual)", 5);

            RunUI(SkylineWindow.Redo);

            // Inserting a peptide sequence p. 5
            using (new CheckDocumentState(1, 1, 2, 10))
            {
                WaitForProteinMetadataBackgroundLoaderCompletedUI();

                var pasteDlg = ShowDialog <PasteDlg>(SkylineWindow.ShowPastePeptidesDlg);
                RunUI(() => SetClipboardText("IEAIPQIDK\tGST-tag"));
                RunUI(pasteDlg.PastePeptides);
                RunUI(() =>
                {
                    pasteDlg.Size = new Size(700, 210);
                    pasteDlg.Top  = SkylineWindow.Bottom + 20;
                });
                PauseForScreenShot <PasteDlg.PeptideListTab>("Insert Peptide List", 6);

                using (new WaitDocumentChange())
                {
                    OkDialog(pasteDlg, pasteDlg.OkDialog);
                }

                WaitForConditionUI(() => SkylineWindow.SequenceTree.Nodes.Count > 0);
            }

            RunUI(() =>
            {
                SkylineWindow.ExpandPrecursors();
                SkylineWindow.Height = 390;
            });

            PauseForScreenShot("Main window with Targets view", 6);

            ShowAndPositionAuditLog(true);
            PauseForScreenShot <AuditLogForm>("Audit Log form with inserted peptide.", 7);

            ShowLastExtraInfo("Extra info form with inserted peptide info.", 7);

            string documentPath = GetTestPath("AuditLogTutorial" + SrmDocument.EXT);

            RunUI(() => SkylineWindow.SaveDocument(documentPath));
            WaitForCondition(() => File.Exists(documentPath));

            // Importing RAW files into Skyline p. 7
            var importResultsDlg = ShowDialog <ImportResultsDlg>(SkylineWindow.ImportResults);

            RunUI(() =>
            {
                var rawFiles      = DataSourceUtil.GetDataSources(TestFilesDirs[0].FullPath).First().Value;
                var namedPathSets = from rawFile in rawFiles
                                    select new KeyValuePair <string, MsDataFileUri[]>(
                    rawFile.GetFileNameWithoutExtension(), new[] { rawFile });
                importResultsDlg.NamedPathSets = namedPathSets.ToArray();
            });
            OkDialog(importResultsDlg, importResultsDlg.OkDialog);

            WaitForGraphs();

            RunUI(() =>
            {
                SkylineWindow.SelectedPath             = SkylineWindow.Document.GetPathTo((int)SrmDocument.Level.Molecules, 0);
                Settings.Default.ArrangeGraphsOrder    = GroupGraphsOrder.Document.ToString();
                Settings.Default.ArrangeGraphsReversed = false;
                SkylineWindow.ArrangeGraphsTabbed();
                SkylineWindow.AutoZoomBestPeak();
            });
            WaitForCondition(() => Equals(9, SkylineWindow.GraphChromatograms.Count(graphChrom => !graphChrom.IsHidden)),
                             "unexpected visible graphChromatogram count");

            WaitForCondition(10 * 60 * 1000,    // ten minutes
                             () => SkylineWindow.Document.Settings.HasResults && SkylineWindow.Document.Settings.MeasuredResults.IsLoaded);

            PauseForScreenShot <AuditLogForm>("Audit Log form with imported data files.", 9);

            ShowLastExtraInfo("Extra info form for the import.", 9);

            // Peptide Quantitification Settings p. 9
            peptideSettingsUi = ShowDialog <PeptideSettingsUI>(SkylineWindow.ShowPeptideSettingsUI);
            RunUI(() => peptideSettingsUi.SelectedTab = (PeptideSettingsUI.TABS) 5);
            const string quantUnits = "fmol/ul";

            RunUI(() =>
            {
                peptideSettingsUi.QuantRegressionFit       = RegressionFit.LINEAR;
                peptideSettingsUi.QuantNormalizationMethod = new NormalizationMethod.RatioToLabel(IsotopeLabelType.heavy);
                peptideSettingsUi.QuantUnits = quantUnits;
            });
            OkDialog(peptideSettingsUi, peptideSettingsUi.OkDialog);

            PauseForScreenShot <AuditLogForm>("Audit Log form with quantification settings.", 10);

            // Specify analyte concentrations of external standards
            RunUI(() =>
            {
                SkylineWindow.AuditLogForm.Close();
                SkylineWindow.ShowDocumentGrid(true);
            });
            var documentGridForm = FindOpenForm <DocumentGridForm>();

            RunUI(() =>
            {
                documentGridForm.ChooseView(Resources.SkylineViewContext_GetDocumentGridRowSources_Replicates);
            });
            WaitForConditionUI(() => documentGridForm.IsComplete);

            var concentrations = new[] { 40, 12.5, 5, 2.5, 1, .5, .25, .1 };

            string pasteString = TextUtil.LineSeparate(concentrations.Select((f, i) =>
                                                                             QuantificationStrings.SampleType_STANDARD_Standard + "\t" + f));

            ClipboardEx.SetText(pasteString);

            using (new WaitDocumentChange())
            {
                RunUI(() =>
                {
                    var colSampleType = documentGridForm.FindColumn(PropertyPath.Root.Property("SampleType"));
                    documentGridForm.DataGridView.CurrentCell = documentGridForm.DataGridView.Rows[1].Cells[colSampleType.Index];
                    documentGridForm.DataGridView.SendPaste();
                });
            }

            // ReSharper restore AccessToModifiedClosure
            WaitForConditionUI(() => documentGridForm.IsComplete);
            RunUI(() =>
            {
                var gridFloatingWindow  = documentGridForm.Parent.Parent;
                gridFloatingWindow.Size = new Size(370, 315);
                gridFloatingWindow.Top  = SkylineWindow.Bottom + 20;
            });
            PauseForScreenShot <DocumentGridForm>("Document grid with concentrations filled in", 11);
            RunUI(documentGridForm.Close);

            ShowAndPositionAuditLog(true);
            PauseForScreenShot <AuditLogForm>("Audit Log form with grid changes", 12);

            ShowLastExtraInfo("Extra Info for the analyte data import.", 12);
            RunUI(SkylineWindow.AuditLogForm.Close);

            const string unknownReplicate = "FOXN1-GST";

            RestoreViewOnScreen(13);
            ActivateReplicate(unknownReplicate);
            SelectNode(SrmDocument.Level.TransitionGroups, 1);
            RunUI(() => SkylineWindow.Size = new Size(936, 527));
            WaitForGraphs();

            PauseForScreenShot("Heavy precursor chromatogram", 13);

            RunUI(() =>
            {
                var pathHeavy = SkylineWindow.DocumentUI.GetPathTo((int)SrmDocument.Level.TransitionGroups, 1);

                var graphChrom = SkylineWindow.GetGraphChrom(unknownReplicate);
                Assert.IsNotNull(graphChrom);
                Assert.AreEqual(unknownReplicate, graphChrom.NameSet);

                var firstGroupInfo = graphChrom.ChromGroupInfos.FirstOrDefault();
                Assert.IsNotNull(firstGroupInfo, "Missing group info");
                var firstChromItem = graphChrom.GraphItems.FirstOrDefault(gci => gci.TransitionChromInfo != null);
                Assert.IsNotNull(firstChromItem, "Missing graph item");

                var listChanges = new List <ChangedPeakBoundsEventArgs>
                {
                    new ChangedPeakBoundsEventArgs(pathHeavy,
                                                   null,
                                                   graphChrom.NameSet,
                                                   firstGroupInfo.FilePath,
                                                   firstChromItem.GetValidPeakBoundaryTime(20.65),
                                                   firstChromItem.GetValidPeakBoundaryTime(21.15),
                                                   PeakIdentification.FALSE,
                                                   PeakBoundsChangeType.both)
                };
                graphChrom.SimulateChangedPeakBounds(listChanges);
            });

            ShowAndPositionAuditLog(true, 50, 200);
            WaitForConditionUI(500, () => SkylineWindow.AuditLogForm.DataGridView.Rows.Count > 0);

            PauseForScreenShot <AuditLogForm>("Audit Log form with changed integration boundary.", 14);
            int reasonIndex = 2;

            using (new WaitDocumentChange())
            {
                RunUI(() =>
                {
                    var pathReason = PropertyPath.Root.Property("Reason");
                    var colReason  = SkylineWindow.AuditLogForm.FindColumn(pathReason);
                    reasonIndex    = colReason.Index;
                    SetCellValue(SkylineWindow.AuditLogForm.DataGridView, 0, reasonIndex,
                                 "Changed peak integration as instructed by the tutorial");
                });
            }
            RunUI(() => SkylineWindow.AuditLogForm.DataGridView.AutoResizeColumn(reasonIndex));
            SetGridFormToFullWidth(SkylineWindow.AuditLogForm);
            PauseForScreenShot <AuditLogForm>("Audit Log form with updated reason.", 14);

            // View the calibration curve p. 15
            RunUI(() => SkylineWindow.ShowCalibrationForm());
            var calibrationForm = FindOpenForm <CalibrationForm>();
            var priorZoomState  = ZoomCalibrationCurve(calibrationForm, 0.52);

            RunUI(() =>
            {
                Assert.AreEqual(CalibrationCurveFitter.AppendUnits(QuantificationStrings.Analyte_Concentration, quantUnits), calibrationForm.ZedGraphControl.GraphPane.XAxis.Title.Text);
                Assert.AreEqual(string.Format(QuantificationStrings.CalibrationCurveFitter_PeakAreaRatioText__0___1__Peak_Area_Ratio, IsotopeLabelType.light.Title, IsotopeLabelType.heavy.Title),
                                calibrationForm.ZedGraphControl.GraphPane.YAxis.Title.Text);

                VerifyCalibrationCurve(calibrationForm, 5.4065E-1, -2.9539E-1, 0.999);
            });

            PauseForScreenShot <CalibrationForm>("Calibration curve zoomed", 15);
            RunUI(() =>
            {
                priorZoomState?.ApplyState(calibrationForm.ZedGraphControl.GraphPane);

                var chromatograms = SkylineWindow.DocumentUI.Settings.MeasuredResults.Chromatograms;
                new [] { 5, 6, 7, 8 }.ForEach((index) =>
                {
                    int replicateIdx = chromatograms.IndexOf((ch) => ch.Name.Equals("Standard_" + index));
                    Assert.IsTrue(replicateIdx >= 0);
                    using (var excludeStandardMenu = calibrationForm.MakeExcludeStandardMenuItem(replicateIdx))
                    {
                        excludeStandardMenu?.PerformClick();
                    }
                });
            });
            WaitForGraphs();
            RunUI(() => VerifyCalibrationCurve(calibrationForm, 5.52E-1, -6.3678E-1, 1));
            OkDialog(calibrationForm, calibrationForm.Close);

            PauseForScreenShot <AuditLogForm>("Audit Log with excluded standard records", 16);

            PauseForScreenShot <AuditLogForm>("Audit Log Reports menu (manual)", 16);

            // TODO(nicksh): Audit log reason field does not currently support fill down
//            RunUI(() =>
//            {
//                SetCellValue(SkylineWindow.AuditLogForm.DataGridView, 0, reasonIndex, "Excluded standard below LOD");
//                for (int i = 0; i < 4; i++)
//                    SkylineWindow.AuditLogForm.DataGridView.Rows[i].Cells[reasonIndex].Selected = true;
//            });
//            RunUI(() => SkylineWindow.AuditLogForm.DataboundGridControl.FillDown());
            RunUI(() =>
            {
                for (int i = 0; i < 4; i++)
                {
                    SetCellValue(SkylineWindow.AuditLogForm.DataGridView, i, reasonIndex, "Excluded standard below LOD");
                }
            });
            RunUI(() =>
            {
                SkylineWindow.AuditLogForm.ChooseView(AuditLogStrings.AuditLogForm_MakeAuditLogForm_Undo_Redo);
            });
            SetGridFormToFullWidth(SkylineWindow.AuditLogForm);
            RunUI(() =>
            {
                var floatingWindow    = SkylineWindow.AuditLogForm.Parent.Parent;
                floatingWindow.Height = 334;
                floatingWindow.Width -= 15;
            });
            PauseForScreenShot <AuditLogForm>("Audit Log with UndoRedo view.", 17);
            if (IsCoverShotMode)
            {
                RunUI(() =>
                {
                    SkylineWindow.ChangeTextSize(TreeViewMS.LRG_TEXT_FACTOR);
                });

                RestoreCoverViewOnScreen();

                var calibrationCoverForm = WaitForOpenForm <CalibrationForm>();
                ZoomCalibrationCurve(calibrationCoverForm, 0.53);
                var floatingLogWindow = SkylineWindow.AuditLogForm.Parent.Parent;
                var floatingCalWindow = calibrationCoverForm.Parent.Parent;
                RunUI(() =>
                {
                    floatingLogWindow.Top  = SkylineWindow.Bottom - floatingLogWindow.Height - 8;
                    floatingLogWindow.Left =
                        (SkylineWindow.Left + SkylineWindow.Right) / 2 - floatingLogWindow.Width / 2;
                    floatingCalWindow.Top  = SkylineWindow.Top + 8;
                    floatingCalWindow.Left = SkylineWindow.Right - floatingCalWindow.Width - 8;
                    SkylineWindow.AuditLogForm.DataGridView.AutoResizeColumn(reasonIndex);
                    SkylineWindow.AuditLogForm.DataGridView.AutoResizeColumn(reasonIndex - 1);
                });
                TakeCoverShot();
            }

            var customizeDialog = ShowDialog <ViewEditor>(SkylineWindow.AuditLogForm.NavBar.CustomizeView);

            RunUI(() =>
            {
                customizeDialog.ViewName = "Custom Columns";
                var columnsToAdd         = new[]
                {
                    PropertyPath.Parse("SkylineVersion"),
                    PropertyPath.Parse("User"),
                };
                foreach (var id in columnsToAdd)
                {
                    Assert.IsTrue(customizeDialog.ChooseColumnsTab.TrySelect(id), "Unable to select {0}", id);
                    customizeDialog.ChooseColumnsTab.AddSelectedColumn();
                }

                customizeDialog.Height = 370;
            });
            PauseForScreenShot <ViewEditor.ChooseColumnsView>("Custom Columns report template", 17);
            OkDialog(customizeDialog, customizeDialog.OkDialog);
            SetGridFormToFullWidth(SkylineWindow.AuditLogForm);
            RunUI(() => SkylineWindow.AuditLogForm.Parent.Parent.Height += 10); // Extra for 2-line headers
            PauseForScreenShot <AuditLogForm>("Audit Log with custom view.", 18);

            var registrationDialog = ShowDialog <MultiButtonMsgDlg>(() => SkylineWindow.ShowPublishDlg(null));

            PauseForScreenShot <MultiButtonMsgDlg>("Upload confirmation dialog.", 19);

            var loginDialog = ShowDialog <EditServerDlg>(registrationDialog.ClickNo);

            PauseForScreenShot <EditServerDlg>("Login dialog.", 20);

            RunUI(() =>
            {
                loginDialog.URL      = SERVER_URL;
                loginDialog.Username = PANORAMA_USER_NAME;
            });

            if (!IsPauseForScreenShots)
            {
                OkDialog(loginDialog, loginDialog.CancelButton.PerformClick);
            }
            else
            {
                PauseTest("Enter password. (manual) No screen shot.");

                var publishDialog = ShowDialog <PublishDocumentDlg>(loginDialog.OkDialog);
                WaitForCondition(() => publishDialog.IsLoaded);
                RunUI(() =>
                {
                    publishDialog.SelectItem(testFolderName);
                });
                PauseForScreenShot <PublishDocumentDlg>("Folder selection dialog.", 21);
                var browserConfirmationDialog = ShowDialog <MultiButtonMsgDlg>(publishDialog.OkDialog);

                OkDialog(browserConfirmationDialog, browserConfirmationDialog.ClickYes);

                PauseForScreenShot("Uploaded document in Panorama (in browser).");

                Regex reDocId = new Regex(@"\?id=([0-9]+)");
                Assert.IsTrue(reDocId.IsMatch(publishDialog.PanoramaPublishClient.UploadedDocumentUri.ToString()));

                string docId      = reDocId.Match(publishDialog.PanoramaPublishClient.UploadedDocumentUri.ToString()).Groups[1].Captures[0].Value;
                Uri    serverUri  = new Uri(SERVER_URL);
                Uri    requestUri = PanoramaUtil.Call(serverUri, "targetedms", String.Format("{0}/{1}", PANORAMA_FOLDER, testFolderName),
                                                      "showSkylineAuditLog", "id=" + docId);
                Process.Start(requestUri.ToString());
                PauseForScreenShot("Uploaded document audit log in Panorama (in browser).");
            }
        }
Exemplo n.º 9
0
        protected override void DoTest()
        {
            const double peakWidthZoomFactor = 2.0;

            RunUI(() =>
            {
                SkylineWindow.OpenFile(TestFilesDir.GetTestPath("NoQuantitativeTransitionsTest.sky"));
                SkylineWindow.AutoZoomBestPeak();
            });
            WaitForDocumentLoaded();
            RunDlg <ChromChartPropertyDlg>(SkylineWindow.ShowChromatogramProperties, dlg =>
            {
                dlg.TimeRange           = peakWidthZoomFactor;
                dlg.IsPeakWidthRelative = true;
                dlg.OkDialog();
            });

            // Do a rescore so that we can be sure that the way things are in the document and exactly
            // how the current version of Skyline calculates them
            var manageResultsDlg = ShowDialog <ManageResultsDlg>(SkylineWindow.ManageResults);

            RunDlg <RescoreResultsDlg>(manageResultsDlg.Rescore, dlg => dlg.Rescore(false));
            WaitForDocumentLoaded();

            var document = SkylineWindow.Document;

            // Make sure that the TransitionGroupChromInfo's have their values set based on the quantitative peaks, unless there
            // are no quantitative peaks
            foreach (var transitionGroupDocNode in document.MoleculeTransitionGroups)
            {
                for (int iReplicate = 0; iReplicate < transitionGroupDocNode.Results.Count; iReplicate++)
                {
                    var transitionGroupChromInfo = transitionGroupDocNode.Results[iReplicate][0];
                    var quanChromInfos           = new List <TransitionChromInfo>();
                    var nonQuanChromInfos        = new List <TransitionChromInfo>();
                    foreach (var t in transitionGroupDocNode.Transitions)
                    {
                        var chromInfo = t.Results[iReplicate][0];
                        if (chromInfo.IsEmpty)
                        {
                            continue;
                        }

                        if (t.IsQuantitative(document.Settings))
                        {
                            quanChromInfos.Add(chromInfo);
                        }
                        else
                        {
                            nonQuanChromInfos.Add(chromInfo);
                        }
                    }

                    if (quanChromInfos.Any())
                    {
                        AssertEx.AreEqual(transitionGroupChromInfo.StartRetentionTime, quanChromInfos.Min(c => c.StartRetentionTime));
                        AssertEx.AreEqual(transitionGroupChromInfo.EndRetentionTime, quanChromInfos.Max(c => c.EndRetentionTime));
                        AssertEx.AreEqual(transitionGroupChromInfo.Height, quanChromInfos.Max(c => c.Height));
                    }
                    else
                    {
                        AssertEx.AreEqual(transitionGroupChromInfo.StartRetentionTime, nonQuanChromInfos.Min(c => c.StartRetentionTime));
                        AssertEx.AreEqual(transitionGroupChromInfo.EndRetentionTime, nonQuanChromInfos.Max(c => c.EndRetentionTime));
                        AssertEx.IsNull(transitionGroupChromInfo.Height);
                    }
                }
            }

            // Verify that the chromatogram graph correctly zooms to the best quantitative peak, or,
            // if there are no quantitative peaks, falls back to the best non-quantitative peak,
            // or is zoomed out entirely
            foreach (var displayTypeChrom in new[]
                     { DisplayTypeChrom.all, DisplayTypeChrom.single, DisplayTypeChrom.total })
            {
                RunUI(() => SkylineWindow.SetDisplayTypeChrom(displayTypeChrom));
                for (int iReplicate = 0; iReplicate < document.Settings.MeasuredResults.Chromatograms.Count; iReplicate++)
                {
                    var chromatogramSet = document.Settings.MeasuredResults.Chromatograms[iReplicate];
                    var graphChrom      = SkylineWindow.GetGraphChrom(chromatogramSet.Name);
                    RunUI(() =>
                    {
                        graphChrom.Activate();
                        graphChrom.Focus();
                    });
                    foreach (var protein in SkylineWindow.Document.MoleculeGroups)
                    {
                        foreach (var peptide in protein.Molecules)
                        {
                            foreach (var precursor in peptide.TransitionGroups)
                            {
                                foreach (var transition in precursor.Transitions)
                                {
                                    RunUI(() =>
                                    {
                                        SkylineWindow.SelectedPath = new IdentityPath(protein.Id, peptide.Id,
                                                                                      precursor.Id, transition.Id);
                                        SkylineWindow.AutoZoomNone();
                                        SkylineWindow.AutoZoomBestPeak();
                                    });
                                    var transitionChromInfos = new List <TransitionChromInfo>();
                                    if (displayTypeChrom == DisplayTypeChrom.single)
                                    {
                                        var transitionChromInfo = transition.Results[iReplicate][0];
                                        if (!transitionChromInfo.IsEmpty)
                                        {
                                            transitionChromInfos.Add(transitionChromInfo);
                                        }
                                    }
                                    else
                                    {
                                        transitionChromInfos.AddRange(precursor.Transitions.Where(t => t.ExplicitQuantitative)
                                                                      .Select(t => t.Results[iReplicate][0]).Where(t => !t.IsEmpty));
                                        if (!transitionChromInfos.Any())
                                        {
                                            if (displayTypeChrom != DisplayTypeChrom.total ||
                                                precursor.Transitions.All(t => !t.ExplicitQuantitative))
                                            {
                                                transitionChromInfos.AddRange(precursor.Transitions
                                                                              .Select(t => t.Results[iReplicate][0]).Where(t => !t.IsEmpty));
                                            }
                                        }
                                    }

                                    var zoomState = graphChrom.ZoomState;
                                    if (transitionChromInfos.Any())
                                    {
                                        var          peakStartTime     = transitionChromInfos.Min(t => t.StartRetentionTime);
                                        var          peakEndTime       = transitionChromInfos.Max(t => t.EndRetentionTime);
                                        var          midPeak           = (peakStartTime + peakEndTime) / 2;
                                        var          halfPeakWidth     = (peakEndTime - peakStartTime) / 2;
                                        double       expectedZoomStart = midPeak - halfPeakWidth * peakWidthZoomFactor;
                                        double       expectedZoomEnd   = midPeak + halfPeakWidth * peakWidthZoomFactor;
                                        const double tolerance         = .001;
                                        AssertEx.AreEqual(expectedZoomStart, zoomState.XAxis.Min, tolerance);
                                        AssertEx.AreEqual(expectedZoomEnd, zoomState.XAxis.Max, tolerance);
                                    }
                                    else
                                    {
                                        var expectedStart = graphChrom.ChromGroupInfos[0].TimeIntensitiesGroup.MinTime;
                                        var expectedEnd   = graphChrom.ChromGroupInfos[0].TimeIntensitiesGroup.MaxTime;
                                        AssertEx.IsTrue(zoomState.XAxis.Min <= expectedStart);
                                        AssertEx.IsTrue(zoomState.XAxis.Max >= expectedEnd);
                                    }
                                }
                            }
                        }
                    }
                }
            }
        }
Exemplo n.º 10
0
        private void TofTest()
        {
            // Working wih High-Resolution Mass Spectra.

            // Import a new Document. High-Resolution Mass Spectra, working with TOF p22.
            string newDocumentFile = GetTestPath(@"TOF\BSA_Agilent.sky");

            WaitForCondition(() => File.Exists(newDocumentFile));
            RunUI(() => SkylineWindow.OpenFile(newDocumentFile));

            bool asSmallMolecules = AsSmallMoleculesTestMode != RefinementSettings.ConvertToSmallMoleculesMode.none;

            if (asSmallMolecules)
            {
                ConvertDocumentToSmallMolecules(AsSmallMoleculesTestMode);
            }
            var       docCalibrate1 = WaitForDocumentLoaded();
            const int pepCount1 = 5, preCount1 = 5, tranCount1 = 30;

            AssertEx.IsDocumentState(docCalibrate1, null, 1, pepCount1, preCount1, tranCount1);


            // Try to import a file to show it fails.
            ImportResultsDlg importResultsDlg3 = ShowDialog <ImportResultsDlg>(SkylineWindow.ImportResults);

            RunUI(() => importResultsDlg3.NamedPathSets = importResultsDlg3.GetDataSourcePathsFileReplicates(
                      new[] { MsDataFileUri.Parse(GetTestPath(@"TOF\6-BSA-500fmol" + ExtAgilentRaw)) }));
            var importProgress = ShowDialog <AllChromatogramsGraph>(importResultsDlg3.OkDialog);

            WaitForDocumentChangeLoaded(docCalibrate1);
            WaitForConditionUI(() => importProgress.Finished);
            string expectedErrorFormat = Resources.NoFullScanFilteringException_NoFullScanFilteringException_To_extract_chromatograms_from__0__full_scan_settings_must_be_enabled_;

            WaitForConditionUI(() => !string.IsNullOrEmpty(importProgress.Error), "Missing expected error text: " + expectedErrorFormat);
            RunUI(() => AssertEx.AreComparableStrings(expectedErrorFormat, importProgress.Error, 1));
            RunUI(() =>
            {
                importProgress.ClickClose();
                SkylineWindow.Undo();
            });

            var document = SkylineWindow.Document;

            // Fill out Transition Settings Menu
            int tranCount2 = (AsSmallMoleculesTestMode != RefinementSettings.ConvertToSmallMoleculesMode.masses_only) ? (tranCount1 + preCount1 * 3) : (tranCount1 + preCount1); // No iostopes for mass-only document

            using (new CheckDocumentState(1, pepCount1, preCount1, tranCount2))
            {
                var transitionSettingsUI = ShowDialog <TransitionSettingsUI>(SkylineWindow.ShowTransitionSettingsUI);
                RunUI(() =>
                {
                    transitionSettingsUI.SelectedTab = TransitionSettingsUI.TABS.FullScan;
                    transitionSettingsUI.PrecursorIsotopesCurrent = FullScanPrecursorIsotopes.Count;
                    transitionSettingsUI.PrecursorMassAnalyzer    = FullScanMassAnalyzerType.tof;
                    transitionSettingsUI.Peaks               = 3;
                    transitionSettingsUI.AcquisitionMethod   = FullScanAcquisitionMethod.Targeted;
                    transitionSettingsUI.ProductMassAnalyzer = FullScanMassAnalyzerType.tof;
                });
                PauseForScreenShot <TransitionSettingsUI.FullScanTab>("Transition Settings - Full-Scan tab for TOF", 28);

                RunUI(() =>
                {
                    transitionSettingsUI.RetentionTimeFilterType = RetentionTimeFilterType.none;

                    transitionSettingsUI.SelectedTab    = TransitionSettingsUI.TABS.Filter;
                    transitionSettingsUI.FragmentTypes += ", p";
                });
                PauseForScreenShot <TransitionSettingsUI.FilterTab>("Transition Settings - Filter tab", 29);

                OkDialog(transitionSettingsUI, transitionSettingsUI.OkDialog);
            }

            var docHighRes          = WaitForDocumentChange(document);
            var tranSettingsHighRes = docHighRes.Settings.TransitionSettings;

            Assert.AreEqual(FullScanPrecursorIsotopes.Count, tranSettingsHighRes.FullScan.PrecursorIsotopes);
            Assert.AreEqual(FullScanMassAnalyzerType.tof, tranSettingsHighRes.FullScan.PrecursorMassAnalyzer);
            Assert.AreEqual(FullScanAcquisitionMethod.Targeted, tranSettingsHighRes.FullScan.AcquisitionMethod);
            Assert.IsTrue(ArrayUtil.EqualsDeep(new[] { IonType.y, IonType.b, IonType.precursor },
                                               tranSettingsHighRes.Filter.IonTypes));
            RunUI(() => SkylineWindow.ExpandPrecursors());

            // Assert each peptide contains 3 precursors transitions (unless this is a masses-only small molecule doc).
            foreach (var nodeGroup in SkylineWindow.Document.MoleculeTransitionGroups)
            {
                for (int i = 0; i < nodeGroup.Children.Count; i++)
                {
                    var nodeTran = (TransitionDocNode)nodeGroup.Children[i];
                    if (i < ((AsSmallMoleculesTestMode == RefinementSettings.ConvertToSmallMoleculesMode.masses_only) ? 1 : 3))
                    {
                        Assert.AreEqual(IonType.precursor, nodeTran.Transition.IonType);
                    }
                    else
                    {
                        Assert.AreNotEqual(IonType.precursor, nodeTran.Transition.IonType);
                    }
                }
            }
            RestoreViewOnScreen(30);
            PauseForScreenShot("Targets View tree clipped from main window", 30);

            RunDlg <ImportResultsDlg>(SkylineWindow.ImportResults, importResultsDlg2 =>
            {
                string[] filePaths =
                {
                    GetTestPath(@"TOF\6-BSA-500fmol" + ExtAgilentRaw)
                };
                importResultsDlg2.NamedPathSets = importResultsDlg2.GetDataSourcePathsFileReplicates(filePaths.Select(MsDataFileUri.Parse));
                importResultsDlg2.OkDialog();
            });
            WaitForDocumentChangeLoaded(docHighRes);
            if (AsSmallMoleculesTestMode != RefinementSettings.ConvertToSmallMoleculesMode.masses_only)
            {
                FindNode(asSmallMolecules ? "LVNELTEFAK" : "K.LVNELTEFAK.T [65, 74]");
            }
            else
            {
                FindNode(document.MoleculeTransitionGroups.First().CustomIon.DisplayName);
            }
            RunUI(() =>
            {
                SkylineWindow.CollapsePrecursors();
                SkylineWindow.AutoZoomNone();
                SkylineWindow.ShowGraphPeakArea(false);
                SkylineWindow.ShowProductTransitions();
            });

            RestoreViewOnScreen(31);
            RunUI(() => SkylineWindow.Width = 1013);
            PauseForScreenShot("Main window full gradient import of high concentration and Targets tree clipped", 31);

            {
                var peptideSettingsUI = ShowDialog <PeptideSettingsUI>(SkylineWindow.ShowPeptideSettingsUI);
                RunUI(() =>
                {
                    peptideSettingsUI.SelectedTab = PeptideSettingsUI.TABS.Prediction;
                    Assert.IsTrue(peptideSettingsUI.IsUseMeasuredRT);
                    Assert.AreEqual(2.0, peptideSettingsUI.TimeWindow);
                });

                PauseForScreenShot <PeptideSettingsUI.PredictionTab>("Peptide Settings - Prediction tab", 32);

                OkDialog(peptideSettingsUI, peptideSettingsUI.CancelDialog);
            }

            using (new CheckDocumentState(1, pepCount1, preCount1, tranCount2))
            {
                var transitionSettingsUI = ShowDialog <TransitionSettingsUI>(SkylineWindow.ShowTransitionSettingsUI);
                RunUI(() =>
                {
                    transitionSettingsUI.SelectedTab = TransitionSettingsUI.TABS.FullScan;
                    transitionSettingsUI.SetRetentionTimeFilter(RetentionTimeFilterType.scheduling_windows, 1);
                });

                PauseForScreenShot <TransitionSettingsUI.FullScanTab>("Transition Settings - Full-Scan tab wtih scheduled extraction", 33);

                OkDialog(transitionSettingsUI, transitionSettingsUI.OkDialog);
            }

            var chooseSchedulingReplicateDlg = ShowDialog <ChooseSchedulingReplicatesDlg>(SkylineWindow.ImportResults);

            RunUI(() =>
            {
                // Make sure UI is up to date to avoid race condition
                chooseSchedulingReplicateDlg.UpdateUi();
                chooseSchedulingReplicateDlg.SelectOrDeselectAll(true);
            });
            RunDlg <ImportResultsDlg>(chooseSchedulingReplicateDlg.OkDialog, importResultsDlg2 =>
            {
                string[] filePaths =
                {
                    GetTestPath(@"TOF\1-BSA-50amol" + ExtAgilentRaw),
                    GetTestPath(@"TOF\2-BSA-100amol" + ExtAgilentRaw),
                    GetTestPath(@"TOF\3-BSA-1fmol" + ExtAgilentRaw),
                    GetTestPath(@"TOF\4-BSA-10fmol" + ExtAgilentRaw),
                    GetTestPath(@"TOF\5-BSA-100fmol" + ExtAgilentRaw),
                };
                importResultsDlg2.NamedPathSets = importResultsDlg2.GetDataSourcePathsFileReplicates(filePaths.Select(MsDataFileUri.Parse));
                importResultsDlg2.OkDialog();
            });
            //Give the Raw files some time to be processed.
            WaitForCondition(15 * 60 * 1000, () => SkylineWindow.Document.Settings.HasResults && SkylineWindow.Document.Settings.MeasuredResults.IsLoaded); // 15 minutes
            WaitForClosedAllChromatogramsGraph();
            RunUI(() => SkylineWindow.ShowGraphSpectrum(false));
            WaitForGraphs();
            TryWaitForConditionUI(() => SkylineWindow.GraphChromatograms.Count(graphChrom => !graphChrom.IsHidden) == 6);
            RunUI(() =>
            {
                Assert.IsFalse(SkylineWindow.IsGraphSpectrumVisible);
                var listGraphs = SkylineWindow.GraphChromatograms.Where(graphChrom => !graphChrom.IsHidden).ToList();
                if (listGraphs.Count != 6)
                {
                    string hiddenGraphs = string.Empty;
                    var listHidden      = SkylineWindow.GraphChromatograms.Where(graphChrom => graphChrom.IsHidden).ToList();
                    if (listHidden.Count != 0)
                    {
                        hiddenGraphs = TextUtil.LineSeparate(string.Empty, "Hidden:", TextUtil.LineSeparate(listHidden.Select(g => g.TabText)));
                    }
                    Assert.Fail(TextUtil.LineSeparate(string.Format("Expecting 6 visible graphs but found {0}", listGraphs.Count),
                                                      TextUtil.LineSeparate(listGraphs.Select(g => g.TabText)), hiddenGraphs));
                }
                var chromGraphs = SkylineWindow.GraphChromatograms.ToArray();
                Assert.AreEqual(6, chromGraphs.Length);
            });

            RunDlg <ManageResultsDlg>(SkylineWindow.ManageResults, dlg =>
            {
                for (int i = 0; i < 5; i++)
                {
                    dlg.MoveDown();
                }
                dlg.OkDialog();
            });
            RunDlg <ArrangeGraphsGroupedDlg>(SkylineWindow.ArrangeGraphsGrouped, dlg =>
            {
                dlg.Groups     = 6;
                dlg.GroupOrder = GroupGraphsOrder.Document;
                dlg.OkDialog();
            });
            WaitForGraphs();

            RunUI(() => SkylineWindow.Height = 768);
            PauseForScreenShot("Chromatogram graphs clipped from main window", 34);

            RunUI(() =>
            {
                var graphChrom6 = SkylineWindow.GetGraphChrom("6-BSA-500fmol");
                var graphChrom5 = SkylineWindow.GetGraphChrom("5-BSA-100fmol");
                var graphChrom4 = SkylineWindow.GetGraphChrom("4-BSA-10fmol");
                var graphChrom3 = SkylineWindow.GetGraphChrom("3-BSA-1fmol");
                var graphChrom2 = SkylineWindow.GetGraphChrom("2-BSA-100amol");
                var graphChrom1 = SkylineWindow.GetGraphChrom("1-BSA-50amol");
                Assert.AreEqual(13.3, graphChrom6.BestPeakTime ?? 0, 0.05);
                Assert.AreEqual(13.5, graphChrom5.BestPeakTime ?? 0, 0.05);
                Assert.AreEqual(13.6, graphChrom4.BestPeakTime ?? 0, 0.05);
                Assert.AreEqual(13.6, graphChrom3.BestPeakTime ?? 0, 0.05);
                Assert.AreEqual(13.6, graphChrom2.BestPeakTime ?? 0, 0.05);
                Assert.AreEqual(13.6, graphChrom1.BestPeakTime ?? 0, 0.05);
            });

            RunUI(SkylineWindow.AutoZoomBestPeak);
            WaitForGraphs();

            PauseForScreenShot("Chromatogram graphs clipped from main window zoomed", 35);

            RunUI(() =>
            {
                SkylineWindow.ShowPeakAreaReplicateComparison();
                SkylineWindow.ShowPeptideLogScale(true);
            });

            // p. 28
            PauseForScreenShot <GraphSummary.AreaGraphView>("Peak Areas Replicate Comparison graph metafile", 36);
            WaitForDotProducts();
            RunUI(() =>
            {
                Assert.AreEqual((AsSmallMoleculesTestMode == RefinementSettings.ConvertToSmallMoleculesMode.none) ? 7 : 6, SkylineWindow.GraphPeakArea.Categories.Count());
                Assert.AreEqual(6, SkylineWindow.GraphPeakArea.CurveCount);
            });
            VerifyDotProducts(0.87, 0.67, 0.91, 0.90, 0.90, 0.90);

            RunUI(() =>
            {
                SkylineWindow.ShowAllTransitions();
                SkylineWindow.ShowSplitChromatogramGraph(false);
                SkylineWindow.ArrangeGraphsTabbed();
                SkylineWindow.ActivateReplicate("6-BSA-500fmol");
                SkylineWindow.Size = new Size(745, 545);
                SkylineWindow.ShowGraphPeakArea(false);
            });
            PauseForScreenShot("Chromatogram graph metafile for 500 fmol", 37);

            RunUI(() =>
            {
                SkylineWindow.ShowGraphPeakArea(true);
                SkylineWindow.ShowPrecursorTransitions();
                SkylineWindow.ArrangeGraphsTiled();
                SkylineWindow.ActivateReplicate("4-BSA-10fmol");
            });

            WaitForDotProducts();
            RunUI(() =>
            {
                Assert.AreEqual(7, SkylineWindow.GraphPeakArea.Categories.Count());
                Assert.AreEqual((AsSmallMoleculesTestMode != RefinementSettings.ConvertToSmallMoleculesMode.masses_only) ? 3 : 1, SkylineWindow.GraphPeakArea.CurveCount);
            });
            VerifyDotProducts(0.99, 0.52, 0.98, 1.00, 1.00, 1.00);
            RunUI(() =>
            {
                SkylineWindow.ShowGraphPeakArea(false);
                SkylineWindow.Size = new Size(1013, 768);
            });
            PauseForScreenShot("Main window", 38);
            RunUI(SkylineWindow.ShowPeakAreaReplicateComparison);
            PauseForScreenShot <GraphSummary.AreaGraphView>("Peak Areas Replicate Comparison graph metafile", 39);

            RunUI(() => SkylineWindow.SaveDocument());
            WaitForConditionUI(() => !SkylineWindow.Dirty);
        }