com.google.common.collect.Range#singleton

Source File: MsSpectrumPlotWindowController.java From old-mzmine3 with GNU General Public License v2.0

6 votes

public void handleAddScan(Event e) {
  ParameterSet parameters =
      MZmineCore.getConfiguration().getModuleParameters(MsSpectrumPlotModule.class);
  ButtonType exitCode = parameters.showSetupDialog("Add scan");
  if (exitCode != ButtonType.OK)
    return;

  final RawDataFilesSelection fileSelection =
      parameters.getParameter(MsSpectrumPlotParameters.inputFiles).getValue();
  final Integer scanNumber =
      parameters.getParameter(MsSpectrumPlotParameters.scanNumber).getValue();
  final ScanSelection scanSelection =
      new ScanSelection(Range.singleton(scanNumber), null, null, null, null, null);
  final List<RawDataFile> dataFiles = fileSelection.getMatchingRawDataFiles();
  boolean spectrumAdded = false;
  for (RawDataFile dataFile : dataFiles) {
    for (MsScan scan : scanSelection.getMatchingScans(dataFile)) {
      String title = MsScanUtils.createSingleLineMsScanDescription(scan);
      addSpectrum(scan, title);
      spectrumAdded = true;
    }
  }
  if (!spectrumAdded) {
    MZmineGUI.displayMessage("Scan not found");
  }
}

Source File: RexSimplify.java From Quicksql with MIT License

6 votes

private static <C extends Comparable<C>> Range<C> range(SqlKind comparison,
    C c) {
  switch (comparison) {
  case EQUALS:
    return Range.singleton(c);
  case LESS_THAN:
    return Range.lessThan(c);
  case LESS_THAN_OR_EQUAL:
    return Range.atMost(c);
  case GREATER_THAN:
    return Range.greaterThan(c);
  case GREATER_THAN_OR_EQUAL:
    return Range.atLeast(c);
  default:
    throw new AssertionError();
  }
}

Source File: SimplePeakList.java From mzmine3 with GNU General Public License v2.0

6 votes

@Override
public void addRow(PeakListRow row) {
  for (RawDataFile testFile : row.getRawDataFiles()) {
    if (!dataFiles.contains(testFile))
      throw (new IllegalArgumentException(
          "Data file " + testFile + " is not in this feature list"));
  }

  peakListRows.add(row);
  if (row.getDataPointMaxIntensity() > maxDataPointIntensity) {
    maxDataPointIntensity = row.getDataPointMaxIntensity();
  }

  if (mzRange == null) {
    mzRange = Range.singleton(row.getAverageMZ());
    rtRange = Range.singleton(row.getAverageRT());
  } else {
    mzRange = mzRange.span(Range.singleton(row.getAverageMZ()));
    rtRange = rtRange.span(Range.singleton(row.getAverageRT()));
  }

  row.setPeakList(this);
}

Source File: ManualPeak.java From mzmine3 with GNU General Public License v2.0

6 votes

/**
 * Adds a new data point to this peak
 *
 * @param scanNumber
 * @param dataPoints
 * @param rawDataPoints
 */
public void addDatapoint(int scanNumber, DataPoint dataPoint) {

  double rt = dataFile.getScan(scanNumber).getRetentionTime();

  if (dataPointMap.isEmpty()) {
    rtRange = Range.singleton(rt);
    mzRange = Range.singleton(dataPoint.getMZ());
    intensityRange = Range.singleton(dataPoint.getIntensity());
  } else {
    rtRange = rtRange.span(Range.singleton(rt));
    mzRange = mzRange.span(Range.singleton(dataPoint.getMZ()));
    intensityRange = intensityRange.span(Range.singleton(dataPoint.getIntensity()));
  }

  dataPointMap.put(scanNumber, dataPoint);

}

Source File: RexSimplify.java From Bats with Apache License 2.0

6 votes

private static <C extends Comparable<C>> Range<C> range(SqlKind comparison, C c) {
    switch (comparison) {
    case EQUALS:
        return Range.singleton(c);
    case LESS_THAN:
        return Range.lessThan(c);
    case LESS_THAN_OR_EQUAL:
        return Range.atMost(c);
    case GREATER_THAN:
        return Range.greaterThan(c);
    case GREATER_THAN_OR_EQUAL:
        return Range.atLeast(c);
    default:
        throw new AssertionError();
    }
}

Source File: MZmineToMSDKMsScan.java From mzmine2 with GNU General Public License v2.0

5 votes

/**
 * Clone constructor
 */
public MZmineToMSDKMsScan(Scan mzmineScan) {
  this.mzmineScan = mzmineScan;
  if (mzmineScan.getPrecursorMZ() != 0) {
    Range<Double> isolationMzRange = Range.singleton(mzmineScan.getPrecursorMZ());
    double precursorMz = mzmineScan.getPrecursorMZ();
    int precursorCharge = mzmineScan.getPrecursorCharge();
    ActivationInfo activationInfo = null;
    isolations.add(new SimpleIsolationInfo(isolationMzRange, 0f, precursorMz, precursorCharge,
        activationInfo, null));
  }
}

Source File: RawDataFileUtils.java From mzmine3 with GNU General Public License v2.0

5 votes

public static @Nonnull Range<Double> findTotalRTRange(RawDataFile dataFiles[], int msLevel) {
  Range<Double> rtRange = null;
  for (RawDataFile file : dataFiles) {
    Range<Double> dfRange = file.getDataRTRange(msLevel);
    if (dfRange == null)
      continue;
    if (rtRange == null)
      rtRange = dfRange;
    else
      rtRange = rtRange.span(dfRange);
  }
  if (rtRange == null)
    rtRange = Range.singleton(0.0);
  return rtRange;
}

Source File: RawDataFileImpl.java From mzmine2 with GNU General Public License v2.0

5 votes

@Override
public @Nonnull Range<Double> getDataRTRange(int msLevel) {

  // check if we have this value already cached
  Range<Double> rtRange = dataRTRange.get(msLevel);
  if (rtRange != null)
    return rtRange;

  // find the value
  for (Scan scan : scans.values()) {

    // ignore scans of other ms levels
    if ((msLevel != 0) && (scan.getMSLevel() != msLevel))
      continue;

    if (rtRange == null)
      rtRange = Range.singleton(scan.getRetentionTime());
    else
      rtRange = rtRange.span(Range.singleton(scan.getRetentionTime()));

  }

  // cache the value
  if (rtRange != null)
    dataRTRange.put(msLevel, rtRange);
  else
    rtRange = Range.singleton(0.0);

  return rtRange;

}

Source File: PeakSelectionParameter.java From mzmine3 with GNU General Public License v2.0

5 votes

/**
 * Shortcut to set value based on feature list rows
 */
public void setValue(PeakListRow rows[]) {
  List<PeakSelection> newValue = Lists.newArrayList();
  for (PeakListRow row : rows) {
    Range<Integer> idRange = Range.singleton(row.getID());
    Range<Double> mzRange = Range.singleton(row.getAverageMZ());
    Range<Double> rtRange = Range.singleton(row.getAverageRT());
    PeakSelection ps = new PeakSelection(idRange, mzRange, rtRange, null);
    newValue.add(ps);
  }
  setValue(newValue);
}

Source File: ScanAlignment.java From mzmine2 with GNU General Public License v2.0

5 votes

/**
 * Closed mz range of all data points
 * 
 * @param dps
 * @return
 */
public static Range<Double> getMZRange(DataPoint[] dps) {
  if (dps == null || dps.length == 0)
    return Range.singleton(0d);
  double min = dps[0].getMZ();
  double max = dps[0].getMZ();
  for (int i = 1; i < dps.length; i++) {
    DataPoint dp = dps[i];
    min = Math.min(min, dp.getMZ());
    max = Math.max(max, dp.getMZ());
  }
  return Range.closed(min, max);
}

Source File: PeakSelectionParameter.java From mzmine2 with GNU General Public License v2.0

5 votes

/**
 * Shortcut to set value based on feature list rows
 */
public void setValue(PeakListRow rows[]) {
  List<PeakSelection> newValue = Lists.newArrayList();
  for (PeakListRow row : rows) {
    Range<Integer> idRange = Range.singleton(row.getID());
    Range<Double> mzRange = Range.singleton(row.getAverageMZ());
    Range<Double> rtRange = Range.singleton(row.getAverageRT());
    PeakSelection ps = new PeakSelection(idRange, mzRange, rtRange, null);
    newValue.add(ps);
  }
  setValue(newValue);
}

Source File: Chromatogram.java From mzmine3 with GNU General Public License v2.0

4 votes

public void finishChromatogram() {

    int allScanNumbers[] = Ints.toArray(dataPointsMap.keySet());
    Arrays.sort(allScanNumbers);

    // Calculate median m/z
    double allMzValues[] = new double[allScanNumbers.length];
    for (int i = 0; i < allScanNumbers.length; i++) {
      allMzValues[i] = dataPointsMap.get(allScanNumbers[i]).getMZ();
    }
    mz = MathUtils.calcQuantile(allMzValues, 0.5f);

    // Update raw data point ranges, height, rt and representative scan
    height = Double.MIN_VALUE;
    for (int i = 0; i < allScanNumbers.length; i++) {

      DataPoint mzPeak = dataPointsMap.get(allScanNumbers[i]);

      // Replace the MzPeak instance with an instance of SimpleDataPoint,
      // to reduce the memory usage. After we finish this Chromatogram, we
      // don't need the additional data provided by the MzPeak

      dataPointsMap.put(allScanNumbers[i], mzPeak);

      if (i == 0) {
        rawDataPointsIntensityRange = Range.singleton(mzPeak.getIntensity());
        rawDataPointsMZRange = Range.singleton(mzPeak.getMZ());
      } else {
        rawDataPointsIntensityRange =
            rawDataPointsIntensityRange.span(Range.singleton(mzPeak.getIntensity()));
        rawDataPointsMZRange = rawDataPointsMZRange.span(Range.singleton(mzPeak.getMZ()));
      }

      if (height < mzPeak.getIntensity()) {
        height = mzPeak.getIntensity();
        rt = dataFile.getScan(allScanNumbers[i]).getRetentionTime();
        representativeScan = allScanNumbers[i];
      }
    }

    // Update area
    area = 0;
    for (int i = 1; i < allScanNumbers.length; i++) {
      // For area calculation, we use retention time in seconds
      double previousRT = dataFile.getScan(allScanNumbers[i - 1]).getRetentionTime() * 60d;
      double currentRT = dataFile.getScan(allScanNumbers[i]).getRetentionTime() * 60d;
      double previousHeight = dataPointsMap.get(allScanNumbers[i - 1]).getIntensity();
      double currentHeight = dataPointsMap.get(allScanNumbers[i]).getIntensity();
      area += (currentRT - previousRT) * (currentHeight + previousHeight) / 2;
    }

    // Update fragment scan
    fragmentScan =
        ScanUtils.findBestFragmentScan(dataFile, dataFile.getDataRTRange(1), rawDataPointsMZRange);

    if (fragmentScan > 0) {
      Scan fragmentScanObject = dataFile.getScan(fragmentScan);
      int precursorCharge = fragmentScanObject.getPrecursorCharge();
      if (precursorCharge > 0)
        this.charge = precursorCharge;
    }

    rawDataPointsRTRange = null;

    for (int scanNum : allScanNumbers) {
      double scanRt = dataFile.getScan(scanNum).getRetentionTime();
      DataPoint dp = getDataPoint(scanNum);

      if ((dp == null) || (dp.getIntensity() == 0.0))
        continue;

      if (rawDataPointsRTRange == null)
        rawDataPointsRTRange = Range.singleton(scanRt);
      else
        rawDataPointsRTRange = rawDataPointsRTRange.span(Range.singleton(scanRt));
    }

    // Discard the fields we don't need anymore
    buildingSegment = null;
    lastMzPeak = null;

  }

Source File: RangeFactory.java From jackson-datatypes-collections with Apache License 2.0

4 votes

public static <C extends Comparable<?>> Range<C> singleton(final C value)
{
    return Range.singleton(value);
}

Source File: ExtendedPeak.java From mzmine3 with GNU General Public License v2.0

4 votes

public void finishExtendedPeak() {

    int allScanNumbers[] = Ints.toArray(dataPointsMap.keySet());
    Arrays.sort(allScanNumbers);

    scanNumbers = allScanNumbers;

    // Calculate median m/z
    double allMzValues[] = new double[allScanNumbers.length];
    for (int i = 0; i < allScanNumbers.length; i++) {
      allMzValues[i] = dataPointsMap.get(allScanNumbers[i]).getMZ();
    }
    mz = MathUtils.calcQuantile(allMzValues, 0.5f);

    // Update raw data point ranges, height, rt and representative scan
    height = Double.MIN_VALUE;
    for (int i = 0; i < allScanNumbers.length; i++) {

      DataPoint mzPeak = dataPointsMap.get(allScanNumbers[i]);
      Scan aScan = dataFile.getScan(allScanNumbers[i]);

      // Replace the MzPeak instance with an instance of SimpleDataPoint,
      // to reduce the memory usage. After we finish this extended peak,
      // we don't need the additional data provided by the MzPeak
      SimpleDataPoint newDataPoint = new SimpleDataPoint(mzPeak);
      dataPointsMap.put(allScanNumbers[i], newDataPoint);

      if (i == 0) {
        rawDataPointsIntensityRange = Range.singleton(mzPeak.getIntensity());
        rawDataPointsMZRange = Range.singleton(mzPeak.getMZ());
        rawDataPointsRTRange = Range.singleton(aScan.getRetentionTime());
      } else {
        rawDataPointsIntensityRange =
            rawDataPointsIntensityRange.span(Range.singleton(mzPeak.getIntensity()));
        rawDataPointsMZRange = rawDataPointsMZRange.span(Range.singleton(mzPeak.getMZ()));
        rawDataPointsRTRange = rawDataPointsRTRange.span(Range.singleton(aScan.getRetentionTime()));
      }

      if (height < mzPeak.getIntensity()) {
        height = mzPeak.getIntensity();
        rt = aScan.getRetentionTime();
        representativeScan = allScanNumbers[i];
      }
    }

    // Update area
    area = 0;

    for (int i = 1; i < allScanNumbers.length; i++) {
      // For area calculation, we use retention time in seconds
      double previousRT = dataFile.getScan(allScanNumbers[i - 1]).getRetentionTime() * 60d;
      double currentRT = dataFile.getScan(allScanNumbers[i]).getRetentionTime() * 60d;

      double previousHeight = dataPointsMap.get(allScanNumbers[i - 1]).getIntensity();
      double currentHeight = dataPointsMap.get(allScanNumbers[i]).getIntensity();
      area += (currentRT - previousRT) * (currentHeight + previousHeight) / 2;
    }

    // Update fragment scan
    fragmentScan =
        ScanUtils.findBestFragmentScan(dataFile, dataFile.getDataRTRange(1), rawDataPointsMZRange);

    allMS2FragmentScanNumbers = ScanUtils.findAllMS2FragmentScans(dataFile,
        dataFile.getDataRTRange(1), rawDataPointsMZRange);

    if (fragmentScan > 0) {
      Scan fragmentScanObject = dataFile.getScan(fragmentScan);
      int precursorCharge = fragmentScanObject.getPrecursorCharge();
      if ((precursorCharge > 0) && (this.charge == 0))
        this.charge = precursorCharge;
    }

  }

Source File: ADAPChromatogram.java From mzmine3 with GNU General Public License v2.0

4 votes

public void finishChromatogram() {

    int allScanNumbers[] = Ints.toArray(dataPointsMap.keySet());
    Arrays.sort(allScanNumbers);

    mz = highPointMZ;

    // Update raw data point ranges, height, rt and representative scan
    height = Double.MIN_VALUE;
    for (int i = 0; i < allScanNumbers.length; i++) {

      DataPoint mzPeak = dataPointsMap.get(allScanNumbers[i]);

      // Replace the MzPeak instance with an instance of SimpleDataPoint,
      // to reduce the memory usage. After we finish this Chromatogram, we
      // don't need the additional data provided by the MzPeak

      dataPointsMap.put(allScanNumbers[i], mzPeak);

      if (i == 0) {
        rawDataPointsIntensityRange = Range.singleton(mzPeak.getIntensity());
        rawDataPointsMZRange = Range.singleton(mzPeak.getMZ());
      } else {
        rawDataPointsIntensityRange =
            rawDataPointsIntensityRange.span(Range.singleton(mzPeak.getIntensity()));
        rawDataPointsMZRange = rawDataPointsMZRange.span(Range.singleton(mzPeak.getMZ()));
      }

      if (height < mzPeak.getIntensity()) {
        height = mzPeak.getIntensity();
        rt = dataFile.getScan(allScanNumbers[i]).getRetentionTime();
        representativeScan = allScanNumbers[i];
      }
    }

    // Update area
    area = 0;
    for (int i = 1; i < allScanNumbers.length; i++) {
      // For area calculation, we use retention time in seconds
      double previousRT = dataFile.getScan(allScanNumbers[i - 1]).getRetentionTime() * 60d;
      double currentRT = dataFile.getScan(allScanNumbers[i]).getRetentionTime() * 60d;
      double previousHeight = dataPointsMap.get(allScanNumbers[i - 1]).getIntensity();
      double currentHeight = dataPointsMap.get(allScanNumbers[i]).getIntensity();
      area += (currentRT - previousRT) * (currentHeight + previousHeight) / 2;
    }

    // Update fragment scan
    fragmentScan =
        ScanUtils.findBestFragmentScan(dataFile, dataFile.getDataRTRange(1), rawDataPointsMZRange);

    allMS2FragmentScanNumbers = ScanUtils.findAllMS2FragmentScans(dataFile,
        dataFile.getDataRTRange(1), rawDataPointsMZRange);

    if (fragmentScan > 0) {
      Scan fragmentScanObject = dataFile.getScan(fragmentScan);
      int precursorCharge = fragmentScanObject.getPrecursorCharge();
      if (precursorCharge > 0)
        this.charge = precursorCharge;
    }

    rawDataPointsRTRange = null;

    for (int scanNum : allScanNumbers) {
      double scanRt = dataFile.getScan(scanNum).getRetentionTime();
      DataPoint dp = getDataPoint(scanNum);

      if ((dp == null) || (dp.getIntensity() == 0.0))
        continue;

      if (rawDataPointsRTRange == null)
        rawDataPointsRTRange = Range.singleton(scanRt);
      else
        rawDataPointsRTRange = rawDataPointsRTRange.span(Range.singleton(scanRt));
    }

    // Discard the fields we don't need anymore
    buildingSegment = null;
    lastMzPeak = null;

  }

Source File: ExtendedPeak.java From mzmine2 with GNU General Public License v2.0

4 votes

public void finishExtendedPeak() {

    int allScanNumbers[] = Ints.toArray(dataPointsMap.keySet());
    Arrays.sort(allScanNumbers);

    scanNumbers = allScanNumbers;

    // Calculate median m/z
    double allMzValues[] = new double[allScanNumbers.length];
    for (int i = 0; i < allScanNumbers.length; i++) {
      allMzValues[i] = dataPointsMap.get(allScanNumbers[i]).getMZ();
    }
    mz = MathUtils.calcQuantile(allMzValues, 0.5f);

    // Update raw data point ranges, height, rt and representative scan
    height = Double.MIN_VALUE;
    for (int i = 0; i < allScanNumbers.length; i++) {

      DataPoint mzPeak = dataPointsMap.get(allScanNumbers[i]);
      Scan aScan = dataFile.getScan(allScanNumbers[i]);

      // Replace the MzPeak instance with an instance of SimpleDataPoint,
      // to reduce the memory usage. After we finish this extended peak,
      // we don't need the additional data provided by the MzPeak
      SimpleDataPoint newDataPoint = new SimpleDataPoint(mzPeak);
      dataPointsMap.put(allScanNumbers[i], newDataPoint);

      if (i == 0) {
        rawDataPointsIntensityRange = Range.singleton(mzPeak.getIntensity());
        rawDataPointsMZRange = Range.singleton(mzPeak.getMZ());
        rawDataPointsRTRange = Range.singleton(aScan.getRetentionTime());
      } else {
        rawDataPointsIntensityRange =
            rawDataPointsIntensityRange.span(Range.singleton(mzPeak.getIntensity()));
        rawDataPointsMZRange = rawDataPointsMZRange.span(Range.singleton(mzPeak.getMZ()));
        rawDataPointsRTRange = rawDataPointsRTRange.span(Range.singleton(aScan.getRetentionTime()));
      }

      if (height < mzPeak.getIntensity()) {
        height = mzPeak.getIntensity();
        rt = aScan.getRetentionTime();
        representativeScan = allScanNumbers[i];
      }
    }

    // Update area
    area = 0;

    for (int i = 1; i < allScanNumbers.length; i++) {
      // For area calculation, we use retention time in seconds
      double previousRT = dataFile.getScan(allScanNumbers[i - 1]).getRetentionTime() * 60d;
      double currentRT = dataFile.getScan(allScanNumbers[i]).getRetentionTime() * 60d;

      double previousHeight = dataPointsMap.get(allScanNumbers[i - 1]).getIntensity();
      double currentHeight = dataPointsMap.get(allScanNumbers[i]).getIntensity();
      area += (currentRT - previousRT) * (currentHeight + previousHeight) / 2;
    }

    // Update fragment scan
    fragmentScan =
        ScanUtils.findBestFragmentScan(dataFile, dataFile.getDataRTRange(1), rawDataPointsMZRange);

    allMS2FragmentScanNumbers = ScanUtils.findAllMS2FragmentScans(dataFile,
        dataFile.getDataRTRange(1), rawDataPointsMZRange);

    if (fragmentScan > 0) {
      Scan fragmentScanObject = dataFile.getScan(fragmentScan);
      int precursorCharge = fragmentScanObject.getPrecursorCharge();
      if ((precursorCharge > 0) && (this.charge == 0))
        this.charge = precursorCharge;
    }

  }

Source File: ADAPChromatogram.java From mzmine2 with GNU General Public License v2.0

4 votes

public void finishChromatogram() {

    int allScanNumbers[] = Ints.toArray(dataPointsMap.keySet());
    Arrays.sort(allScanNumbers);

    mz = highPointMZ;

    // Update raw data point ranges, height, rt and representative scan
    height = Double.MIN_VALUE;
    for (int i = 0; i < allScanNumbers.length; i++) {

      DataPoint mzPeak = dataPointsMap.get(allScanNumbers[i]);

      // Replace the MzPeak instance with an instance of SimpleDataPoint,
      // to reduce the memory usage. After we finish this Chromatogram, we
      // don't need the additional data provided by the MzPeak

      dataPointsMap.put(allScanNumbers[i], mzPeak);

      if (i == 0) {
        rawDataPointsIntensityRange = Range.singleton(mzPeak.getIntensity());
        rawDataPointsMZRange = Range.singleton(mzPeak.getMZ());
      } else {
        rawDataPointsIntensityRange =
            rawDataPointsIntensityRange.span(Range.singleton(mzPeak.getIntensity()));
        rawDataPointsMZRange = rawDataPointsMZRange.span(Range.singleton(mzPeak.getMZ()));
      }

      if (height < mzPeak.getIntensity()) {
        height = mzPeak.getIntensity();
        rt = dataFile.getScan(allScanNumbers[i]).getRetentionTime();
        representativeScan = allScanNumbers[i];
      }
    }

    // Update area
    area = 0;
    for (int i = 1; i < allScanNumbers.length; i++) {
      // For area calculation, we use retention time in seconds
      double previousRT = dataFile.getScan(allScanNumbers[i - 1]).getRetentionTime() * 60d;
      double currentRT = dataFile.getScan(allScanNumbers[i]).getRetentionTime() * 60d;
      double previousHeight = dataPointsMap.get(allScanNumbers[i - 1]).getIntensity();
      double currentHeight = dataPointsMap.get(allScanNumbers[i]).getIntensity();
      area += (currentRT - previousRT) * (currentHeight + previousHeight) / 2;
    }

    // Update fragment scan
    fragmentScan =
        ScanUtils.findBestFragmentScan(dataFile, dataFile.getDataRTRange(1), rawDataPointsMZRange);

    allMS2FragmentScanNumbers = ScanUtils.findAllMS2FragmentScans(dataFile,
        dataFile.getDataRTRange(1), rawDataPointsMZRange);

    if (fragmentScan > 0) {
      Scan fragmentScanObject = dataFile.getScan(fragmentScan);
      int precursorCharge = fragmentScanObject.getPrecursorCharge();
      if (precursorCharge > 0)
        this.charge = precursorCharge;
    }

    rawDataPointsRTRange = null;

    for (int scanNum : allScanNumbers) {
      double scanRt = dataFile.getScan(scanNum).getRetentionTime();
      DataPoint dp = getDataPoint(scanNum);

      if ((dp == null) || (dp.getIntensity() == 0.0))
        continue;

      if (rawDataPointsRTRange == null)
        rawDataPointsRTRange = Range.singleton(scanRt);
      else
        rawDataPointsRTRange = rawDataPointsRTRange.span(Range.singleton(scanRt));
    }

    // Discard the fields we don't need anymore
    buildingSegment = null;
    lastMzPeak = null;

  }

Source File: PeptideScan.java From mzmine3 with GNU General Public License v2.0

3 votes

/**
 * @param mzValues m/z values to set
 * @param intensityValues Intensity values to set
 */
public void setDataPoints(DataPoint[] dataPoints) {

  this.dataPoints = dataPoints;
  mzRange = Range.singleton(0.0);
  basePeak = null;
  totalIonCurrent = 0;

  // find m/z range and base peak
  if (dataPoints.length > 0) {

    basePeak = dataPoints[0];
    mzRange = Range.singleton(dataPoints[0].getMZ());

    for (DataPoint dp : dataPoints) {

      if (dp.getIntensity() > basePeak.getIntensity())
        basePeak = dp;

      mzRange = mzRange.span(Range.singleton(dp.getMZ()));
      totalIonCurrent += dp.getIntensity();

    }

  }

}

Source File: SimpleScan.java From mzmine2 with GNU General Public License v2.0

3 votes

/**
 * @param mzValues m/z values to set
 * @param intensityValues Intensity values to set
 */
public void setDataPoints(DataPoint[] dataPoints) {

  this.dataPoints = dataPoints;
  mzRange = Range.singleton(0.0);
  basePeak = null;
  totalIonCurrent = 0;

  // find m/z range and base peak
  if (dataPoints.length > 0) {

    basePeak = dataPoints[0];
    mzRange = Range.singleton(dataPoints[0].getMZ());

    for (DataPoint dp : dataPoints) {

      if (dp.getIntensity() > basePeak.getIntensity())
        basePeak = dp;

      mzRange = mzRange.span(Range.singleton(dp.getMZ()));
      totalIonCurrent += dp.getIntensity();

    }

  }

}

Source File: SimpleScan.java From mzmine3 with GNU General Public License v2.0

3 votes

/**
 * @param mzValues m/z values to set
 * @param intensityValues Intensity values to set
 */

public void setDataPoints(DataPoint[] dataPoints) {

  this.dataPoints = dataPoints;
  mzRange = Range.singleton(0.0);
  basePeak = null;
  totalIonCurrent = 0;

  // find m/z range and base peak
  if (dataPoints.length > 0) {

    basePeak = dataPoints[0];
    mzRange = Range.singleton(dataPoints[0].getMZ());

    for (DataPoint dp : dataPoints) {

      if (dp.getIntensity() > basePeak.getIntensity())
        basePeak = dp;

      mzRange = mzRange.span(Range.singleton(dp.getMZ()));
      totalIonCurrent += dp.getIntensity();

    }

  }

}

Java Code Examples for com.google.common.collect.Range#singleton()