Example 1 with SpectraIdentificationResultsWindow
use of net.sf.mzmine.modules.visualization.spectra.spectralmatchresults.SpectraIdentificationResultsWindow in project mzmine2 by mzmine.
the class SpectraIdentificationSpectralDatabaseTask method run.
/**
* @see java.lang.Runnable#run()
*/
@Override
public void run() {
setStatus(TaskStatus.PROCESSING);
int count = 0;
// add result frame
resultWindow = new SpectraIdentificationResultsWindow();
resultWindow.setVisible(true);
try {
tasks = parseFile(dataBaseFile);
totalTasks = tasks.size();
if (!tasks.isEmpty()) {
// wait for the tasks to finish
while (!isCanceled() && !tasks.isEmpty()) {
for (int i = 0; i < tasks.size(); i++) {
if (tasks.get(i).isFinished() || tasks.get(i).isCanceled()) {
count += tasks.get(i).getCount();
tasks.remove(i);
i--;
}
}
// wait for all sub tasks to finish
try {
Thread.sleep(100);
} catch (Exception e) {
cancel();
}
}
// cancelled
if (isCanceled()) {
tasks.stream().forEach(AbstractTask::cancel);
}
} else {
setStatus(TaskStatus.ERROR);
setErrorMessage("DB file was empty - or error while parsing " + dataBaseFile);
return;
}
} catch (Exception e) {
logger.log(Level.SEVERE, "Could not read file " + dataBaseFile, e);
setStatus(TaskStatus.ERROR);
setErrorMessage(e.toString());
}
logger.info("Added " + count + " spectral library matches");
resultWindow.setTitle("Matched " + count + " compounds for scan#" + currentScan.getScanNumber());
resultWindow.setMatchingFinished();
resultWindow.revalidate();
resultWindow.repaint();
// Repaint the window
Desktop desktop = MZmineCore.getDesktop();
if (!(desktop instanceof HeadLessDesktop))
desktop.getMainWindow().repaint();
setStatus(TaskStatus.FINISHED);
}
Also used :
AbstractTask(net.sf.mzmine.taskcontrol.AbstractTask)
HeadLessDesktop(net.sf.mzmine.desktop.impl.HeadLessDesktop)
Desktop(net.sf.mzmine.desktop.Desktop)
SpectraIdentificationResultsWindow(net.sf.mzmine.modules.visualization.spectra.spectralmatchresults.SpectraIdentificationResultsWindow)
IOException(java.io.IOException)
UnsupportedFormatException(net.sf.mzmine.util.spectraldb.parser.UnsupportedFormatException)
HeadLessDesktop(net.sf.mzmine.desktop.impl.HeadLessDesktop)
Example 2 with SpectraIdentificationResultsWindow
use of net.sf.mzmine.modules.visualization.spectra.spectralmatchresults.SpectraIdentificationResultsWindow in project mzmine2 by mzmine.
the class SelectedRowsLocalSpectralDBSearchTask method run.
/**
* @see java.lang.Runnable#run()
*/
@Override
public void run() {
setStatus(TaskStatus.PROCESSING);
int count = 0;
if (peakListRows.length == 1) {
// add result frame
resultWindow = new SpectraIdentificationResultsWindow();
resultWindow.setVisible(true);
} else {
resultWindow = null;
}
try {
tasks = parseFile(dataBaseFile);
totalTasks = tasks.size();
if (!tasks.isEmpty()) {
// wait for the tasks to finish
while (!isCanceled() && !tasks.isEmpty()) {
for (int i = 0; i < tasks.size(); i++) {
if (tasks.get(i).isFinished() || tasks.get(i).isCanceled()) {
count += tasks.get(i).getCount();
tasks.remove(i);
i--;
}
}
// wait for all sub tasks to finish
try {
Thread.sleep(100);
} catch (Exception e) {
cancel();
}
}
// cancelled
if (isCanceled()) {
tasks.stream().forEach(AbstractTask::cancel);
}
} else {
setStatus(TaskStatus.ERROR);
setErrorMessage("DB file was empty - or error while parsing " + dataBaseFile);
}
} catch (Exception e) {
logger.log(Level.SEVERE, "Could not read file " + dataBaseFile, e);
setStatus(TaskStatus.ERROR);
setErrorMessage(e.toString());
}
logger.info("Added " + count + " spectral library matches");
if (resultWindow != null) {
resultWindow.setTitle("Matched " + count + " compounds for feature list row: " + peakListRows[0]);
resultWindow.setMatchingFinished();
resultWindow.revalidate();
resultWindow.repaint();
}
// Repaint the window to reflect the change in the feature list
Desktop desktop = MZmineCore.getDesktop();
if (!(desktop instanceof HeadLessDesktop))
desktop.getMainWindow().repaint();
// work around to update feature list identities
if (table.getRowCount() > 0)
table.setRowSelectionInterval(0, 0);
setStatus(TaskStatus.FINISHED);
}
Also used :
AbstractTask(net.sf.mzmine.taskcontrol.AbstractTask)
HeadLessDesktop(net.sf.mzmine.desktop.impl.HeadLessDesktop)
Desktop(net.sf.mzmine.desktop.Desktop)
SpectraIdentificationResultsWindow(net.sf.mzmine.modules.visualization.spectra.spectralmatchresults.SpectraIdentificationResultsWindow)
IOException(java.io.IOException)
UnsupportedFormatException(net.sf.mzmine.util.spectraldb.parser.UnsupportedFormatException)
HeadLessDesktop(net.sf.mzmine.desktop.impl.HeadLessDesktop)
Example 3 with SpectraIdentificationResultsWindow
use of net.sf.mzmine.modules.visualization.spectra.spectralmatchresults.SpectraIdentificationResultsWindow in project mzmine2 by mzmine.
the class PeakListTablePopupMenu method actionPerformed.
@Override
public void actionPerformed(final ActionEvent e) {
final Object src = e.getSource();
if (deleteRowsItem.equals(src)) {
final int[] rowsToDelete = table.getSelectedRows();
final int[] unsortedIndexes = new int[rowsToDelete.length];
for (int i = rowsToDelete.length - 1; i >= 0; i--) {
unsortedIndexes[i] = table.convertRowIndexToModel(rowsToDelete[i]);
}
// sort row indexes and start removing from the last
Arrays.sort(unsortedIndexes);
// delete the rows starting from last
for (int i = unsortedIndexes.length - 1; i >= 0; i--) {
peakList.removeRow(unsortedIndexes[i]);
}
// Notify the GUI that peaklist contents have changed
updateTableGUI();
}
if (plotRowsItem.equals(src)) {
final int[] selectedTableRows = table.getSelectedRows();
final PeakListRow[] selectedRows = new PeakListRow[selectedTableRows.length];
for (int i = 0; i < selectedTableRows.length; i++) {
selectedRows[i] = getPeakListRow(table.convertRowIndexToModel(selectedTableRows[i]));
}
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
IntensityPlotModule.showIntensityPlot(MZmineCore.getProjectManager().getCurrentProject(), peakList, selectedRows);
}
});
}
if (showXICItem.equals(src) && allClickedPeakListRows.length != 0) {
// Map peaks to their identity labels.
final Map<Feature, String> labelsMap = new HashMap<Feature, String>(allClickedPeakListRows.length);
final RawDataFile selectedDataFile = clickedDataFile == null ? allClickedPeakListRows[0].getBestPeak().getDataFile() : clickedDataFile;
Range<Double> mzRange = null;
final List<Feature> selectedPeaks = new ArrayList<Feature>(allClickedPeakListRows.length);
for (final PeakListRow row : allClickedPeakListRows) {
for (final Feature peak : row.getPeaks()) {
if (mzRange == null) {
mzRange = peak.getRawDataPointsMZRange();
double upper = mzRange.upperEndpoint();
double lower = mzRange.lowerEndpoint();
if ((upper - lower) < 0.000001) {
// Workaround to make ultra narrow mzRanges (e.g. from imported mzTab peaklist),
// a more reasonable default for a HRAM instrument (~5ppm)
double fiveppm = (upper * 5E-6);
mzRange = Range.closed(lower - fiveppm, upper + fiveppm);
}
} else {
mzRange = mzRange.span(peak.getRawDataPointsMZRange());
}
}
final Feature filePeak = row.getPeak(selectedDataFile);
if (filePeak != null) {
selectedPeaks.add(filePeak);
// Label the peak with the row's preferred identity.
final PeakIdentity identity = row.getPreferredPeakIdentity();
if (identity != null) {
labelsMap.put(filePeak, identity.getName());
}
}
}
ScanSelection scanSelection = new ScanSelection(selectedDataFile.getDataRTRange(1), 1);
TICVisualizerModule.showNewTICVisualizerWindow(new RawDataFile[] { selectedDataFile }, selectedPeaks.toArray(new Feature[selectedPeaks.size()]), labelsMap, scanSelection, TICPlotType.BASEPEAK, mzRange);
}
if (showXICSetupItem.equals(src) && allClickedPeakListRows.length != 0) {
// Map peaks to their identity labels.
final Map<Feature, String> labelsMap = new HashMap<Feature, String>(allClickedPeakListRows.length);
final RawDataFile[] selectedDataFiles = clickedDataFile == null ? peakList.getRawDataFiles() : new RawDataFile[] { clickedDataFile };
Range<Double> mzRange = null;
final ArrayList<Feature> allClickedPeaks = new ArrayList<Feature>(allClickedPeakListRows.length);
final ArrayList<Feature> selectedClickedPeaks = new ArrayList<Feature>(allClickedPeakListRows.length);
for (final PeakListRow row : allClickedPeakListRows) {
// Label the peak with the row's preferred identity.
final PeakIdentity identity = row.getPreferredPeakIdentity();
for (final Feature peak : row.getPeaks()) {
allClickedPeaks.add(peak);
if (peak.getDataFile() == clickedDataFile) {
selectedClickedPeaks.add(peak);
}
if (mzRange == null) {
mzRange = peak.getRawDataPointsMZRange();
} else {
mzRange = mzRange.span(peak.getRawDataPointsMZRange());
}
if (identity != null) {
labelsMap.put(peak, identity.getName());
}
}
}
ScanSelection scanSelection = new ScanSelection(selectedDataFiles[0].getDataRTRange(1), 1);
TICVisualizerModule.setupNewTICVisualizer(MZmineCore.getProjectManager().getCurrentProject().getDataFiles(), selectedDataFiles, allClickedPeaks.toArray(new Feature[allClickedPeaks.size()]), selectedClickedPeaks.toArray(new Feature[selectedClickedPeaks.size()]), labelsMap, scanSelection, mzRange);
}
if (show2DItem.equals(src)) {
final Feature showPeak = getSelectedPeak();
if (showPeak != null) {
TwoDVisualizerModule.show2DVisualizerSetupDialog(showPeak.getDataFile(), getPeakMZRange(showPeak), getPeakRTRange(showPeak));
}
}
if (show3DItem.equals(src)) {
final Feature showPeak = getSelectedPeak();
if (showPeak != null) {
Fx3DVisualizerModule.setupNew3DVisualizer(showPeak.getDataFile(), getPeakMZRange(showPeak), getPeakRTRange(showPeak), showPeak);
}
}
if (manuallyDefineItem.equals(src)) {
// ManualPeakPickerModule.runManualDetection(clickedDataFile, clickedPeakListRow, peakList,
// table);
XICManualPickerModule.runManualDetection(clickedDataFile, clickedPeakListRow, peakList, table);
}
if (showSpectrumItem.equals(src)) {
final Feature showPeak = getSelectedPeak();
if (showPeak != null) {
SpectraVisualizerModule.showNewSpectrumWindow(showPeak.getDataFile(), showPeak.getRepresentativeScanNumber(), showPeak);
}
}
if (openCompoundIdUrl.equals(src)) {
if (clickedPeakListRow != null && clickedPeakListRow.getPreferredPeakIdentity() != null) {
String url = clickedPeakListRow.getPreferredPeakIdentity().getPropertyValue(PeakIdentity.PROPERTY_URL);
if (url != null && !url.isEmpty() && Desktop.isDesktopSupported()) {
try {
Desktop.getDesktop().browse(new URI(url));
} catch (IOException | URISyntaxException e1) {
}
}
}
}
if (showMSMSItem.equals(src)) {
if (allClickedPeakListRows != null && allClickedPeakListRows.length > 1) {
// show multi msms window of multiple rows
MultiMSMSWindow multi = new MultiMSMSWindow();
multi.setData(allClickedPeakListRows, peakList.getRawDataFiles(), clickedDataFile, true, SortingProperty.MZ, SortingDirection.Ascending);
multi.setVisible(true);
} else {
Feature showPeak = getSelectedPeakForMSMS();
if (showPeak != null) {
final int scanNumber = showPeak.getMostIntenseFragmentScanNumber();
if (scanNumber > 0) {
SpectraVisualizerModule.showNewSpectrumWindow(showPeak.getDataFile(), scanNumber);
} else {
MZmineCore.getDesktop().displayMessage(window, "There is no fragment for " + MZmineCore.getConfiguration().getMZFormat().format(showPeak.getMZ()) + " m/z in the current raw data.");
}
}
}
}
// mirror of the two best fragment scans
if (showMSMSMirrorItem.equals(src)) {
if (allClickedPeakListRows != null && allClickedPeakListRows.length == 2) {
PeakListRow a = allClickedPeakListRows[0];
PeakListRow b = allClickedPeakListRows[1];
Scan scan = a.getBestFragmentation();
Scan mirror = b.getBestFragmentation();
if (scan != null && mirror != null) {
// show mirror msms window of two rows
MirrorScanWindow mirrorWindow = new MirrorScanWindow();
mirrorWindow.setScans(scan, mirror);
mirrorWindow.setVisible(true);
}
}
}
// show spectral db matches
if (showSpectralDBResults.equals(src)) {
List<SpectralDBPeakIdentity> spectralID = Arrays.stream(clickedPeakListRow.getPeakIdentities()).filter(pi -> pi instanceof SpectralDBPeakIdentity).map(pi -> ((SpectralDBPeakIdentity) pi)).collect(Collectors.toList());
if (!spectralID.isEmpty()) {
SpectraIdentificationResultsWindow window = new SpectraIdentificationResultsWindow();
window.addMatches(spectralID);
window.setTitle("Matched " + spectralID.size() + " compounds for feature list row" + clickedPeakListRow.getID());
window.setVisible(true);
}
}
if (showAllMSMSItem.equals(src)) {
final Feature showPeak = getSelectedPeakForMSMS();
RawDataFile raw = clickedPeakListRow.getBestFragmentation().getDataFile();
if (showPeak != null && showPeak.getMostIntenseFragmentScanNumber() != 0)
raw = showPeak.getDataFile();
if (clickedPeakListRow.getBestFragmentation() != null) {
MultiSpectraVisualizerWindow multiSpectraWindow = new MultiSpectraVisualizerWindow(clickedPeakListRow, raw);
multiSpectraWindow.setVisible(true);
} else {
MZmineCore.getDesktop().displayMessage(window, "There is no fragment for " + MZmineCore.getConfiguration().getMZFormat().format(showPeak.getMZ()) + " m/z in the current raw data.");
}
}
if (showIsotopePatternItem.equals(src)) {
final Feature showPeak = getSelectedPeak();
if (showPeak != null && showPeak.getIsotopePattern() != null) {
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
SpectraVisualizerModule.showNewSpectrumWindow(showPeak.getDataFile(), showPeak.getRepresentativeScanNumber(), showPeak.getIsotopePattern());
}
});
}
}
if (formulaItem != null && formulaItem.equals(src)) {
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
FormulaPredictionModule.showSingleRowIdentificationDialog(clickedPeakListRow);
}
});
}
// peak.
if (siriusItem != null && siriusItem.equals(src)) {
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
SiriusProcessingModule.showSingleRowIdentificationDialog(clickedPeakListRow);
}
});
}
if (onlineDbSearchItem != null && onlineDbSearchItem.equals(src)) {
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
OnlineDBSearchModule.showSingleRowIdentificationDialog(clickedPeakListRow);
}
});
}
if (spectralDbSearchItem != null && spectralDbSearchItem.equals(src)) {
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
LocalSpectralDBSearchModule.showSelectedRowsIdentificationDialog(allClickedPeakListRows, table);
}
});
}
if (nistSearchItem != null && nistSearchItem.equals(src)) {
NistMsSearchModule.singleRowSearch(peakList, clickedPeakListRow);
}
if (addNewRowItem.equals(src)) {
// find maximum ID and add 1
int newID = 1;
for (final PeakListRow row : peakList.getRows()) {
if (row.getID() >= newID) {
newID = row.getID() + 1;
}
}
// create a new row
final PeakListRow newRow = new SimplePeakListRow(newID);
ManualPeakPickerModule.runManualDetection(peakList.getRawDataFiles(), newRow, peakList, table);
}
if (showPeakRowSummaryItem.equals(src)) {
PeakSummaryVisualizerModule.showNewPeakSummaryWindow(clickedPeakListRow);
}
if (exportIsotopesItem.equals(src)) {
IsotopePatternExportModule.exportIsotopePattern(clickedPeakListRow);
}
if (exportToSirius.equals(src)) {
// export all selected rows
SiriusExportModule.exportSingleRows(allClickedPeakListRows);
}
if (exportMSMSLibrary.equals(src)) {
// open window with all selected rows
MSMSLibrarySubmissionWindow libraryWindow = new MSMSLibrarySubmissionWindow();
libraryWindow.setData(allClickedPeakListRows, SortingProperty.MZ, SortingDirection.Ascending, true);
libraryWindow.setVisible(true);
}
if (exportMS1Library.equals(src)) {
// open window with all selected rows
MSMSLibrarySubmissionWindow libraryWindow = new MSMSLibrarySubmissionWindow();
libraryWindow.setData(allClickedPeakListRows, SortingProperty.MZ, SortingDirection.Ascending, false);
libraryWindow.setVisible(true);
}
if (exportMSMSItem.equals(src)) {
MSMSExportModule.exportMSMS(clickedPeakListRow);
}
if (clearIdsItem.equals(src)) {
// Delete identities of selected rows.
for (final PeakListRow row : allClickedPeakListRows) {
// Selected row index.
for (final PeakIdentity id : row.getPeakIdentities()) {
// Remove id.
row.removePeakIdentity(id);
}
}
// Update table GUI.
updateTableGUI();
}
if (copyIdsItem.equals(src) && allClickedPeakListRows.length > 0) {
final PeakIdentity id = allClickedPeakListRows[0].getPreferredPeakIdentity();
if (id != null) {
copiedId = (PeakIdentity) id.clone();
}
}
if (pasteIdsItem.equals(src) && copiedId != null) {
// Paste identity into selected rows.
for (final PeakListRow row : allClickedPeakListRows) {
row.setPreferredPeakIdentity((PeakIdentity) copiedId.clone());
}
// Update table GUI.
updateTableGUI();
}
}
Also used :
SiriusExportModule(net.sf.mzmine.modules.peaklistmethods.io.siriusexport.SiriusExportModule)
Arrays(java.util.Arrays)
IntensityPlotModule(net.sf.mzmine.modules.visualization.intensityplot.IntensityPlotModule)
URISyntaxException(java.net.URISyntaxException)
Point(java.awt.Point)
SpectraVisualizerModule(net.sf.mzmine.modules.visualization.spectra.simplespectra.SpectraVisualizerModule)
DataFileColumnType(net.sf.mzmine.modules.visualization.peaklisttable.table.DataFileColumnType)
PeakListRow(net.sf.mzmine.datamodel.PeakListRow)
SpectralDBPeakIdentity(net.sf.mzmine.util.spectraldb.entry.SpectralDBPeakIdentity)
SiriusProcessingModule(net.sf.mzmine.modules.peaklistmethods.identification.sirius.SiriusProcessingModule)
Map(java.util.Map)
URI(java.net.URI)
PeakListTable(net.sf.mzmine.modules.visualization.peaklisttable.table.PeakListTable)
ScanSelection(net.sf.mzmine.parameters.parametertypes.selectors.ScanSelection)
Fx3DVisualizerModule(net.sf.mzmine.modules.visualization.fx3d.Fx3DVisualizerModule)
SortingProperty(net.sf.mzmine.util.SortingProperty)
FormulaPredictionModule(net.sf.mzmine.modules.peaklistmethods.identification.formulaprediction.FormulaPredictionModule)
Range(com.google.common.collect.Range)
JMenu(javax.swing.JMenu)
GUIUtils(net.sf.mzmine.util.GUIUtils)
CommonColumnType(net.sf.mzmine.modules.visualization.peaklisttable.table.CommonColumnType)
Component(java.awt.Component)
Collectors(java.util.stream.Collectors)
List(java.util.List)
PeakSummaryVisualizerModule(net.sf.mzmine.modules.visualization.peaksummary.PeakSummaryVisualizerModule)
MirrorScanWindow(net.sf.mzmine.modules.visualization.spectra.simplespectra.mirrorspectra.MirrorScanWindow)
ListSelectionModel(javax.swing.ListSelectionModel)
Scan(net.sf.mzmine.datamodel.Scan)
SimplePeakListRow(net.sf.mzmine.datamodel.impl.SimplePeakListRow)
MZmineCore(net.sf.mzmine.main.MZmineCore)
ActionListener(java.awt.event.ActionListener)
TICVisualizerModule(net.sf.mzmine.modules.visualization.tic.TICVisualizerModule)
RawDataFile(net.sf.mzmine.datamodel.RawDataFile)
HashMap(java.util.HashMap)
PeakList(net.sf.mzmine.datamodel.PeakList)
ArrayList(java.util.ArrayList)
MSMSLibrarySubmissionWindow(net.sf.mzmine.modules.peaklistmethods.io.spectraldbsubmit.view.MSMSLibrarySubmissionWindow)
SwingUtilities(javax.swing.SwingUtilities)
MultiSpectraVisualizerWindow(net.sf.mzmine.modules.visualization.spectra.simplespectra.MultiSpectraVisualizerWindow)
Feature(net.sf.mzmine.datamodel.Feature)
JMenuItem(javax.swing.JMenuItem)
AbstractTableModel(javax.swing.table.AbstractTableModel)
XICManualPickerModule(net.sf.mzmine.modules.rawdatamethods.peakpicking.manual.XICManualPickerModule)
MSMSExportModule(net.sf.mzmine.modules.visualization.peaklisttable.export.MSMSExportModule)
NistMsSearchModule(net.sf.mzmine.modules.peaklistmethods.identification.nist.NistMsSearchModule)
ManualPeakPickerModule(net.sf.mzmine.modules.rawdatamethods.peakpicking.manual.ManualPeakPickerModule)
PeakListTableColumnModel(net.sf.mzmine.modules.visualization.peaklisttable.table.PeakListTableColumnModel)
Desktop(java.awt.Desktop)
MultiMSMSWindow(net.sf.mzmine.modules.visualization.spectra.multimsms.MultiMSMSWindow)
TICPlotType(net.sf.mzmine.modules.visualization.tic.TICPlotType)
JPopupMenu(javax.swing.JPopupMenu)
SpectraIdentificationResultsWindow(net.sf.mzmine.modules.visualization.spectra.spectralmatchresults.SpectraIdentificationResultsWindow)
TwoDVisualizerModule(net.sf.mzmine.modules.visualization.twod.TwoDVisualizerModule)
IOException(java.io.IOException)
ActionEvent(java.awt.event.ActionEvent)
IsotopePatternExportModule(net.sf.mzmine.modules.visualization.peaklisttable.export.IsotopePatternExportModule)
SortingDirection(net.sf.mzmine.util.SortingDirection)
OnlineDBSearchModule(net.sf.mzmine.modules.peaklistmethods.identification.onlinedbsearch.OnlineDBSearchModule)
LocalSpectralDBSearchModule(net.sf.mzmine.modules.peaklistmethods.identification.spectraldbsearch.LocalSpectralDBSearchModule)
PeakIdentity(net.sf.mzmine.datamodel.PeakIdentity)
MSMSLibrarySubmissionWindow(net.sf.mzmine.modules.peaklistmethods.io.spectraldbsubmit.view.MSMSLibrarySubmissionWindow)
HashMap(java.util.HashMap)
ArrayList(java.util.ArrayList)
URISyntaxException(java.net.URISyntaxException)
Feature(net.sf.mzmine.datamodel.Feature)
URI(java.net.URI)
SimplePeakListRow(net.sf.mzmine.datamodel.impl.SimplePeakListRow)
PeakListRow(net.sf.mzmine.datamodel.PeakListRow)
SimplePeakListRow(net.sf.mzmine.datamodel.impl.SimplePeakListRow)
SpectraIdentificationResultsWindow(net.sf.mzmine.modules.visualization.spectra.spectralmatchresults.SpectraIdentificationResultsWindow)
MirrorScanWindow(net.sf.mzmine.modules.visualization.spectra.simplespectra.mirrorspectra.MirrorScanWindow)
ScanSelection(net.sf.mzmine.parameters.parametertypes.selectors.ScanSelection)
SpectralDBPeakIdentity(net.sf.mzmine.util.spectraldb.entry.SpectralDBPeakIdentity)
IOException(java.io.IOException)
Point(java.awt.Point)
SpectralDBPeakIdentity(net.sf.mzmine.util.spectraldb.entry.SpectralDBPeakIdentity)
PeakIdentity(net.sf.mzmine.datamodel.PeakIdentity)
MultiMSMSWindow(net.sf.mzmine.modules.visualization.spectra.multimsms.MultiMSMSWindow)
RawDataFile(net.sf.mzmine.datamodel.RawDataFile)
Scan(net.sf.mzmine.datamodel.Scan)
MultiSpectraVisualizerWindow(net.sf.mzmine.modules.visualization.spectra.simplespectra.MultiSpectraVisualizerWindow)
Aggregations
IOException (java.io.IOException)3
Desktop (net.sf.mzmine.desktop.Desktop)2
HeadLessDesktop (net.sf.mzmine.desktop.impl.HeadLessDesktop)2
SpectraIdentificationResultsWindow (net.sf.mzmine.modules.visualization.spectra.spectralmatchresults.SpectraIdentificationResultsWindow)2
AbstractTask (net.sf.mzmine.taskcontrol.AbstractTask)2
UnsupportedFormatException (net.sf.mzmine.util.spectraldb.parser.UnsupportedFormatException)2
Range (com.google.common.collect.Range)1
Component (java.awt.Component)1
Desktop (java.awt.Desktop)1
Point (java.awt.Point)1
ActionEvent (java.awt.event.ActionEvent)1
ActionListener (java.awt.event.ActionListener)1
URI (java.net.URI)1
URISyntaxException (java.net.URISyntaxException)1
ArrayList (java.util.ArrayList)1
Arrays (java.util.Arrays)1
HashMap (java.util.HashMap)1
List (java.util.List)1
Map (java.util.Map)1
Collectors (java.util.stream.Collectors)1
