@Override protected void read() throws IOException { super.read(); description = getStringValue(RECORDING_DESCRIPTION); name = getStringValue(RECORDING_NAME);
block.addToHashtable(); if (!block.acquire) { nonAcquiredBlocks.add(block);
block.addToHashtable(); if (!block.acquire) { nonAcquiredBlocks.add(block);
@Override protected void read() throws IOException { super.read(); description = getStringValue(RECORDING_DESCRIPTION); name = getStringValue(RECORDING_NAME);
@Override protected void read() throws IOException { super.read(); model = getStringValue(LASER_NAME); type = getStringValue(LASER_NAME);
@Override protected void read() throws IOException { super.read(); model = getStringValue(LASER_NAME); type = getStringValue(LASER_NAME);
@Override protected void read() throws IOException { super.read(); pinhole = getDoubleValue(CHANNEL_PINHOLE_DIAMETER); gain = getDoubleValue(CHANNEL_DETECTOR_GAIN); amplificationGain = getDoubleValue(CHANNEL_AMPLIFIER_GAIN); filter = getStringValue(CHANNEL_FILTER); if (filter != null) { filter = filter.trim(); if (filter.length() == 0 || filter.equals("None")) { filter = null; } } filterSet = getStringValue(CHANNEL_FILTER_SET); channelName = getStringValue(CHANNEL_NAME); acquire = getIntValue(CHANNEL_ACQUIRE) != 0; } }
@Override protected void read() throws IOException { super.read(); pinhole = getDoubleValue(CHANNEL_PINHOLE_DIAMETER); gain = getDoubleValue(CHANNEL_DETECTOR_GAIN); amplificationGain = getDoubleValue(CHANNEL_AMPLIFIER_GAIN); filter = getStringValue(CHANNEL_FILTER); if (filter != null) { filter = filter.trim(); if (filter.length() == 0 || filter.equals("None")) { filter = null; } } filterSet = getStringValue(CHANNEL_FILTER_SET); channelName = getStringValue(CHANNEL_NAME); acquire = getIntValue(CHANNEL_ACQUIRE) != 0; } }
@Override protected void read() throws IOException { super.read(); filter = getStringValue(BEAM_SPLITTER_FILTER); if (filter != null) { filter = filter.trim(); if (filter.length() == 0 || filter.equals("None")) { filter = null; } } filterSet = getStringValue(BEAM_SPLITTER_FILTER_SET); } }
@Override protected void read() throws IOException { super.read(); wavelength = getDoubleValue(ILLUM_CHANNEL_WAVELENGTH); attenuation = getDoubleValue(ILLUM_CHANNEL_ATTENUATION); acquire = getIntValue(ILLUM_CHANNEL_ACQUIRE) != 0; name = getStringValue(ILLUM_CHANNEL_NAME); try { wavelength = new Double(name); } catch (NumberFormatException e) { } } }
@Override protected void read() throws IOException { super.read(); name = getStringValue(DATA_CHANNEL_NAME); for (int i=0; i<name.length(); i++) { if (name.charAt(i) < 10) { name = name.substring(0, i); break; } } acquire = getIntValue(DATA_CHANNEL_ACQUIRE) != 0; } }
@Override protected void read() throws IOException { super.read(); name = getStringValue(DATA_CHANNEL_NAME); for (int i=0; i<name.length(); i++) { if (name.charAt(i) < 10) { name = name.substring(0, i); break; } } acquire = getIntValue(DATA_CHANNEL_ACQUIRE) != 0; } }
@Override protected void read() throws IOException { super.read(); filter = getStringValue(BEAM_SPLITTER_FILTER); if (filter != null) { filter = filter.trim(); if (filter.length() == 0 || filter.equals("None")) { filter = null; } } filterSet = getStringValue(BEAM_SPLITTER_FILTER_SET); } }
public SubBlock() { try { read(); } catch (IOException e) { LOGGER.debug("Failed to read sub-block data", e); } }
@Override protected void read() throws IOException { super.read(); wavelength = getDoubleValue(ILLUM_CHANNEL_WAVELENGTH); attenuation = getDoubleValue(ILLUM_CHANNEL_ATTENUATION); acquire = getIntValue(ILLUM_CHANNEL_ACQUIRE) != 0; name = getStringValue(ILLUM_CHANNEL_NAME); try { wavelength = new Double(name); } catch (NumberFormatException e) { } } }
@Override protected void read() throws IOException { super.read(); timeIncrement = getDoubleValue(TRACK_TIME_BETWEEN_STACKS); acquire = getIntValue(TRACK_ACQUIRE) != 0; } }
public SubBlock() { try { read(); } catch (IOException e) { LOGGER.debug("Failed to read sub-block data", e); } }
@Override protected void read() throws IOException { super.read(); timeIncrement = getDoubleValue(TRACK_TIME_BETWEEN_STACKS); acquire = getIntValue(TRACK_ACQUIRE) != 0; } }