org.rcsb.cif.schema.core.CellMeasurement Maven / Gradle / Ivy
package org.rcsb.cif.schema.core;
import org.rcsb.cif.model.*;
import org.rcsb.cif.schema.*;
import javax.annotation.Generated;
/**
* The CATEGORY of data items used to describe the angles between
* the axes in the crystal unit cell.
*/
@Generated("org.rcsb.cif.schema.generator.SchemaGenerator")
public class CellMeasurement extends DelegatingCategory.DelegatingCifCoreCategory {
private static final String NAME = "cell_measurement";
public CellMeasurement(CifCoreBlock parentBlock) {
super(NAME, parentBlock);
}
/**
* The pressure at which the unit-cell parameters were measured
* (not the pressure used to synthesize the sample).
* @return FloatColumn
*/
public FloatColumn getPressure() {
return new DelegatingFloatColumn(parentBlock.getColumn("cell_measurement_pressure"));
}
/**
* Description of the radiation used to measure the unit-cell data.
* @return StrColumn
*/
public StrColumn getRadiation() {
return new DelegatingStrColumn(parentBlock.getColumn("cell_measurement_radiation"));
}
/**
* Total number of reflections used to determine the unit cell.
* The reflections may be specified as cell_measurement_refln items.
* @return IntColumn
*/
public IntColumn getReflnsUsed() {
return new DelegatingIntColumn(parentBlock.getColumn("cell_measurement_reflns_used"));
}
/**
* Maximum theta scattering angle of reflections used to measure
* the crystal unit cell.
* @return FloatColumn
*/
public FloatColumn getThetaMax() {
return new DelegatingFloatColumn(parentBlock.getColumn("cell_measurement_theta_max"));
}
/**
* Minimum theta scattering angle of reflections used to measure
* the crystal unit cell.
* @return FloatColumn
*/
public FloatColumn getThetaMin() {
return new DelegatingFloatColumn(parentBlock.getColumn("cell_measurement_theta_min"));
}
/**
* Wavelength of the radiation used to measure the unit cell.
* If this is not specified, the wavelength is assumed to be the
* same as that given in _diffrn_radiation_wavelength.value
* @return FloatColumn
*/
public FloatColumn getWavelength() {
return new DelegatingFloatColumn(parentBlock.getColumn("cell_measurement_wavelength"));
}
/**
* Standard uncertainty of the pressure at which
* the unit-cell parameters were measured.
* @return FloatColumn
*/
public FloatColumn getPressureEsd() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("cell_measurement_pressure_esd", "cell_measurement_pressure_su"));
}
/**
* Standard uncertainty of the pressure at which
* the unit-cell parameters were measured.
* @return FloatColumn
*/
public FloatColumn getPressureSu() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("cell_measurement_pressure_esd", "cell_measurement_pressure_su"));
}
/**
* The temperature at which the unit-cell parameters were measured
* (not the temperature of synthesis).
* @return FloatColumn
*/
public FloatColumn getTemp() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("cell_measurement_temp", "cell_measurement_temperature"));
}
/**
* The temperature at which the unit-cell parameters were measured
* (not the temperature of synthesis).
* @return FloatColumn
*/
public FloatColumn getTemperature() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("cell_measurement_temp", "cell_measurement_temperature"));
}
/**
* Standard uncertainty of the temperature of at which
* the unit-cell parameters were measured.
* @return FloatColumn
*/
public FloatColumn getTempEsd() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("cell_measurement_temp_esd", "cell_measurement_temperature_su"));
}
/**
* Standard uncertainty of the temperature of at which
* the unit-cell parameters were measured.
* @return FloatColumn
*/
public FloatColumn getTemperatureSu() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("cell_measurement_temp_esd", "cell_measurement_temperature_su"));
}
}