/** * Returns true if the given value is contained in the given array. * * @param array an array of ints to search * @param value the int for which to search * @return true if <code>array</code> contains at least one occurence of * <code>value</code> * @see #indexOf(int[], int) */ public static boolean containsValue(int[] array, int value) { return indexOf(array, value) != -1; }
/** Returns true if the given value is contained in the given array. */ public static boolean containsValue(int[] array, int value) { return indexOf(array, value) != -1; }
/** * Retrieve all of the tabular data for the named table. * * @see #getColumnTypes(String) */ public Object[][] getTableData(String tableName) { int index = DataTools.indexOf(tableNames, tableName); if (index < 0) { return null; } return getTableData(index); }
/** * Retrieve the number of rows in the named table. */ public int getRowCount(String tableName) { return getRowCount(DataTools.indexOf(tableNames, tableName)); }
/** * Retrieve the name of every column in the named table. */ public String[] getColumnNames(String tableName) { int index = DataTools.indexOf(tableNames, tableName); if (index < 0) { return null; } return getColumnNames(index); }
/** * Retrieve the given row of data from the named table. * * @see #getColumnTypes(String) */ public Object[] getRowData(int rowIndex, String tableName) { int index = DataTools.indexOf(tableNames, tableName); if (index < 0) { return null; } return getRowData(rowIndex, index); }
/** * Retrieve the type for every column in the named table. * * Every Object in the arrays returned by {@link #getTableData(int)} and * {@link #getTableData(String)} will be an instance of the corresponding * Class in the Class[] returned by this method. */ public Class[] getColumnTypes(String tableName) { int index = DataTools.indexOf(tableNames, tableName); if (index < 0) { return null; } return getColumnTypes(index); }
public static void runUpgradeCheck(String[] args) { if (DataTools.indexOf(args, NO_UPGRADE_CHECK) != -1) { LOGGER.debug("Skipping upgrade check"); return; } UpgradeChecker checker = new UpgradeChecker(); boolean canUpgrade = checker.newVersionAvailable(UpgradeChecker.DEFAULT_CALLER); if (canUpgrade) { LOGGER.info("*** A new stable version is available. ***"); LOGGER.info("*** Install the new version using: ***"); LOGGER.info("*** 'upgradechecker -install' ***"); } } }
private void initCoreMetadata() throws FormatException { if (DataTools.indexOf(KNOWN_VERSIONS, version) < 0) { LOGGER.warn("Unknown LI-FLIM version: {}", version);
private void initCoreMetadata() throws FormatException { if (DataTools.indexOf(KNOWN_VERSIONS, version) < 0) { LOGGER.warn("Unknown LI-FLIM version: {}", version);
DataTools.indexOf(checkFiles, absoluteBase) >= 0)
DataTools.indexOf(checkFiles, absoluteBase) >= 0)
if (DataTools.indexOf( reader.getDomains(), FormatTools.HCS_DOMAIN) >= 0 || file.toLowerCase().endsWith(".czi"))
(absPath.equals( new Location(reader.getCurrentFile()).getAbsolutePath()) || DataTools.indexOf(reader.getUsedFiles(), absPath) >= 0))
int calibrationUnit = DataTools.indexOf(columnNames, "Calibration Unit"); int colorChannels = DataTools.indexOf(columnNames, "Color Channels"); int frames = DataTools.indexOf(columnNames, "Frames"); int calibratedHeight = DataTools.indexOf(columnNames, "Height"); int calibratedWidth = DataTools.indexOf(columnNames, "Width"); int path = DataTools.indexOf(columnNames, "Image Path"); if (path == -1) { path = DataTools.indexOf(columnNames, "Path"); int filename = DataTools.indexOf(columnNames, "File Name"); int magnification = DataTools.indexOf(columnNames, "Magnification"); int width = DataTools.indexOf(columnNames, "X-Resolution"); int height = DataTools.indexOf(columnNames, "Y-Resolution"); int imageType = DataTools.indexOf(columnNames, "Image Type"); int imageName = DataTools.indexOf(columnNames, "Image Name"); int zLayers = DataTools.indexOf(columnNames, "Z-Layers");
int calibrationUnit = DataTools.indexOf(columnNames, "Calibration Unit"); int colorChannels = DataTools.indexOf(columnNames, "Color Channels"); int frames = DataTools.indexOf(columnNames, "Frames"); int calibratedHeight = DataTools.indexOf(columnNames, "Height"); int calibratedWidth = DataTools.indexOf(columnNames, "Width"); int path = DataTools.indexOf(columnNames, "Image Path"); if (path == -1) { path = DataTools.indexOf(columnNames, "Path"); int filename = DataTools.indexOf(columnNames, "File Name"); int magnification = DataTools.indexOf(columnNames, "Magnification"); int width = DataTools.indexOf(columnNames, "X-Resolution"); int height = DataTools.indexOf(columnNames, "Y-Resolution"); int imageType = DataTools.indexOf(columnNames, "Image Type"); int imageName = DataTools.indexOf(columnNames, "Image Name"); int zLayers = DataTools.indexOf(columnNames, "Z-Layers");
if (DataTools.indexOf(reader.getDomains(), FormatTools.HISTOLOGY_DOMAIN) >= 0)
try { int seriesCount = reader.getSeriesCount(); if (DataTools.indexOf(reader.getDomains(), FormatTools.HCS_DOMAIN) >= 0) { seriesCount = 1;
Arrays.sort(keys); int nextInstrumentBlock = 1; sequential = DataTools.indexOf(keys, SEQ_SCANNERSET) != -1; for (Integer key : keys) { if (key.equals(FILTERSET) || key.equals(SCANNERSET) ||
Arrays.sort(keys); int nextInstrumentBlock = 1; sequential = DataTools.indexOf(keys, SEQ_SCANNERSET) != -1; for (Integer key : keys) { if (key.equals(FILTERSET) || key.equals(SCANNERSET) ||