org.rcsb.cif.schema.mm.Diffrn Maven / Gradle / Ivy
package org.rcsb.cif.schema.mm;
import org.rcsb.cif.model.*;
import org.rcsb.cif.schema.*;
import javax.annotation.Generated;
/**
* Data items in the DIFFRN category record details about the
* diffraction data and their measurement.
*/
@Generated("org.rcsb.cif.schema.generator.SchemaGenerator")
public class Diffrn extends DelegatingCategory {
public Diffrn(Category delegate) {
super(delegate);
}
@Override
protected Column createDelegate(String columnName, Column column) {
switch (columnName) {
case "ambient_environment":
return getAmbientEnvironment();
case "ambient_temp":
return getAmbientTemp();
case "ambient_temp_details":
return getAmbientTempDetails();
case "ambient_temp_esd":
return getAmbientTempEsd();
case "crystal_id":
return getCrystalId();
case "crystal_support":
return getCrystalSupport();
case "crystal_treatment":
return getCrystalTreatment();
case "details":
return getDetails();
case "id":
return getId();
case "ambient_pressure":
return getAmbientPressure();
case "ambient_pressure_esd":
return getAmbientPressureEsd();
case "ambient_pressure_gt":
return getAmbientPressureGt();
case "ambient_pressure_lt":
return getAmbientPressureLt();
case "ambient_temp_gt":
return getAmbientTempGt();
case "ambient_temp_lt":
return getAmbientTempLt();
case "pdbx_serial_crystal_experiment":
return getPdbxSerialCrystalExperiment();
default:
return new DelegatingColumn(column);
}
}
/**
* The gas or liquid surrounding the sample, if not air.
* @return StrColumn
*/
public StrColumn getAmbientEnvironment() {
return delegate.getColumn("ambient_environment", DelegatingStrColumn::new);
}
/**
* The mean temperature in kelvins at which the intensities were
* measured.
* @return FloatColumn
*/
public FloatColumn getAmbientTemp() {
return delegate.getColumn("ambient_temp", DelegatingFloatColumn::new);
}
/**
* A description of special aspects of temperature control during
* data collection.
* @return StrColumn
*/
public StrColumn getAmbientTempDetails() {
return delegate.getColumn("ambient_temp_details", DelegatingStrColumn::new);
}
/**
* The standard uncertainty (estimated standard deviation)
* of _diffrn.ambient_temp.
* @return FloatColumn
*/
public FloatColumn getAmbientTempEsd() {
return delegate.getColumn("ambient_temp_esd", DelegatingFloatColumn::new);
}
/**
* This data item is a pointer to _exptl_crystal.id in the
* EXPTL_CRYSTAL category.
* @return StrColumn
*/
public StrColumn getCrystalId() {
return delegate.getColumn("crystal_id", DelegatingStrColumn::new);
}
/**
* The physical device used to support the crystal during data
* collection.
* @return StrColumn
*/
public StrColumn getCrystalSupport() {
return delegate.getColumn("crystal_support", DelegatingStrColumn::new);
}
/**
* Remarks about how the crystal was treated prior to intensity
* measurement. Particularly relevant when intensities were
* measured at low temperature.
* @return StrColumn
*/
public StrColumn getCrystalTreatment() {
return delegate.getColumn("crystal_treatment", DelegatingStrColumn::new);
}
/**
* Special details of the diffraction measurement process. Should
* include information about source instability, crystal motion,
* degradation and so on.
* @return StrColumn
*/
public StrColumn getDetails() {
return delegate.getColumn("details", DelegatingStrColumn::new);
}
/**
* This data item uniquely identifies a set of diffraction
* data.
* @return StrColumn
*/
public StrColumn getId() {
return delegate.getColumn("id", DelegatingStrColumn::new);
}
/**
* The mean hydrostatic pressure in kilopascals at which the
* intensities were measured.
* @return FloatColumn
*/
public FloatColumn getAmbientPressure() {
return delegate.getColumn("ambient_pressure", DelegatingFloatColumn::new);
}
/**
* The estimated standard deviation of _diffrn.ambient_pressure.
* @return FloatColumn
*/
public FloatColumn getAmbientPressureEsd() {
return delegate.getColumn("ambient_pressure_esd", DelegatingFloatColumn::new);
}
/**
* The mean hydrostatic pressure in kilopascals above which
* the intensities were measured. _diffrn.ambient_pressure_gt and
* _diffrn.ambient_pressure_lt allow a pressure range to be given.
*
* _diffrn.ambient_pressure should always be used in
* preference to these two items whenever possible.
* @return FloatColumn
*/
public FloatColumn getAmbientPressureGt() {
return delegate.getColumn("ambient_pressure_gt", DelegatingFloatColumn::new);
}
/**
* The mean hydrostatic pressure in kilopascals below which
* the intensities were measured. _diffrn.ambient_pressure_gt and
* _diffrn.ambient_pressure_lt allow a pressure range to be given.
*
* _diffrn.ambient_pressure should always be used in
* preference to these two items whenever possible.
* @return FloatColumn
*/
public FloatColumn getAmbientPressureLt() {
return delegate.getColumn("ambient_pressure_lt", DelegatingFloatColumn::new);
}
/**
* The mean temperature in kelvins above which the intensities were
* measured. _diffrn.ambient_temp_gt and _diffrn.ambient_temp_lt
* allow a range of temperatures to be given.
*
* _diffrn.ambient_temp should always be used in preference
* to these two items whenever possible.
* @return FloatColumn
*/
public FloatColumn getAmbientTempGt() {
return delegate.getColumn("ambient_temp_gt", DelegatingFloatColumn::new);
}
/**
* The mean temperature in kelvins below which the intensities were
* measured. _diffrn.ambient_temp_gt and _diffrn.ambient_temp_lt
* allow a range of temperatures to be given.
*
* _diffrn.ambient_temp should always be used in preference
* to these two items whenever possible.
* @return FloatColumn
*/
public FloatColumn getAmbientTempLt() {
return delegate.getColumn("ambient_temp_lt", DelegatingFloatColumn::new);
}
/**
* Y/N if using serial crystallography experiment in which multiple crystals contribute to each diffraction frame in the experiment.
* @return StrColumn
*/
public StrColumn getPdbxSerialCrystalExperiment() {
return delegate.getColumn("pdbx_serial_crystal_experiment", DelegatingStrColumn::new);
}
}