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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 diffraction experiment.
*/
@Generated("org.rcsb.cif.schema.generator.SchemaGenerator")
public class Diffrn extends DelegatingCategory.DelegatingCifCoreCategory {
private static final String NAME = "diffrn";
public Diffrn(CifCoreBlock parentBlock) {
super(NAME, parentBlock);
}
/**
* The gas or liquid environment of the crystal sample, if not air.
* @return StrColumn
*/
public StrColumn getAmbientEnvironment() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_ambient_environment"));
}
/**
* Mean hydrostatic pressure at which intensities were measured.
* @return FloatColumn
*/
public FloatColumn getAmbientPressure() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_ambient_pressure"));
}
/**
* Mean hydrostatic pressure above which intensities were measured.
* These items allow for a pressure range to be given.
* _diffrn.ambient_pressure should be used in preference to this
* item when possible.
* @return FloatColumn
*/
public FloatColumn getAmbientPressureGt() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_ambient_pressure_gt"));
}
/**
* Mean hydrostatic pressure below which intensities were measured.
* These items allow for a pressure range to be given.
* _diffrn.ambient_pressure should be used in preference to this
* item when possible.
* @return FloatColumn
*/
public FloatColumn getAmbientPressureLt() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_ambient_pressure_lt"));
}
/**
* Identifier for the crystal from which diffraction data were
* collected. This is a pointer to _exptl_crystal.id.
* @return StrColumn
*/
public StrColumn getCrystalId() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_crystal_id"));
}
/**
* The physical device used to support the crystal during data
* collection.
* @return StrColumn
*/
public StrColumn getCrystalSupport() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_crystal_support"));
}
/**
* 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 new DelegatingStrColumn(parentBlock.getColumn("diffrn_crystal_treatment"));
}
/**
* Unique identifier for a diffraction data set collected under
* particular diffraction conditions.
* @return StrColumn
*/
public StrColumn getId() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_id"));
}
/**
* Fraction of unique (symmetry-independent) reflections measured
* out to _diffrn_reflns.theta_full.
* @return FloatColumn
*/
public FloatColumn getMeasuredFractionThetaFull() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_measured_fraction_theta_full"));
}
/**
* Fraction of unique (symmetry-independent) reflections measured
* out to _diffrn_reflns.theta_max.
* @return FloatColumn
*/
public FloatColumn getMeasuredFractionThetaMax() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_measured_fraction_theta_max"));
}
/**
* Recorded diffraction point symmetry, systematic absences and possible
* space group(s) or superspace group(s) compatible with these.
* @return StrColumn
*/
public StrColumn getSymmetryDescription() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_symmetry_description"));
}
/**
* Standard uncertainty of the mean hydrostatic pressure
* at which intensities were measured.
* @return FloatColumn
*/
public FloatColumn getAmbientPressureEsd() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_pressure_esd", "diffrn_ambient_pressure_su"));
}
/**
* Standard uncertainty of the mean hydrostatic pressure
* at which intensities were measured.
* @return FloatColumn
*/
public FloatColumn getAmbientPressureSu() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_pressure_esd", "diffrn_ambient_pressure_su"));
}
/**
* Mean temperature at which intensities were measured.
* @return FloatColumn
*/
public FloatColumn getAmbientTemp() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp", "diffrn_ambient_temperature"));
}
/**
* Mean temperature at which intensities were measured.
* @return FloatColumn
*/
public FloatColumn getAmbientTemperature() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp", "diffrn_ambient_temperature"));
}
/**
* Standard uncertainty of the mean temperature
* at which intensities were measured.
* @return FloatColumn
*/
public FloatColumn getAmbientTempEsd() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp_esd", "diffrn_ambient_temperature_su"));
}
/**
* Standard uncertainty of the mean temperature
* at which intensities were measured.
* @return FloatColumn
*/
public FloatColumn getAmbientTemperatureSu() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp_esd", "diffrn_ambient_temperature_su"));
}
/**
* A description of special aspects of temperature control during
* data collection.
* @return StrColumn
*/
public StrColumn getAmbientTempDetails() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp_details", "diffrn_ambient_temperature_details"));
}
/**
* A description of special aspects of temperature control during
* data collection.
* @return StrColumn
*/
public StrColumn getAmbientTemperatureDetails() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp_details", "diffrn_ambient_temperature_details"));
}
/**
* Mean temperature above which intensities were measured.
* These items allow for a temperature range to be given.
* _diffrn.ambient_temperature should be used in preference to
* this item when possible.
* @return FloatColumn
*/
public FloatColumn getAmbientTempGt() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp_gt", "diffrn_ambient_temperature_gt"));
}
/**
* Mean temperature above which intensities were measured.
* These items allow for a temperature range to be given.
* _diffrn.ambient_temperature should be used in preference to
* this item when possible.
* @return FloatColumn
*/
public FloatColumn getAmbientTemperatureGt() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp_gt", "diffrn_ambient_temperature_gt"));
}
/**
* Mean temperature below which intensities were measured.
* These items allow for a temperature range to be given.
* _diffrn.ambient_temperature should be used in preference to
* this item when possible.
* @return FloatColumn
*/
public FloatColumn getAmbientTempLt() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp_lt", "diffrn_ambient_temperature_lt"));
}
/**
* Mean temperature below which intensities were measured.
* These items allow for a temperature range to be given.
* _diffrn.ambient_temperature should be used in preference to
* this item when possible.
* @return FloatColumn
*/
public FloatColumn getAmbientTemperatureLt() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_ambient_temp_lt", "diffrn_ambient_temperature_lt"));
}
/**
* Special details of the diffraction measurement process. Should include
* information about source instability, crystal motion, degradation, etc.
* @return StrColumn
*/
public StrColumn getDetails() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_details", "diffrn_special_details"));
}
/**
* Special details of the diffraction measurement process. Should include
* information about source instability, crystal motion, degradation, etc.
* @return StrColumn
*/
public StrColumn getSpecialDetails() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_details", "diffrn_special_details"));
}
/**
* Description of special aspects of the diffraction measurement.
* @return StrColumn
*/
public StrColumn getMeasurementDetails() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_measurement_details"));
}
/**
* Type of goniometer device used to mount and orient the specimen.
* @return StrColumn
*/
public StrColumn getMeasurementDeviceClass() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_measurement_device_class", "diffrn_measurement_device"));
}
/**
* Type of goniometer device used to mount and orient the specimen.
* @return StrColumn
*/
public StrColumn getDevice() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_measurement_device_class", "diffrn_measurement_device"));
}
/**
* Type of goniometer device used to mount and orient the specimen.
* @return StrColumn
*/
public StrColumn getDeviceClass() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_measurement_device_class", "diffrn_measurement_device"));
}
/**
* Details of the goniometer device used in the diffraction experiment.
* @return StrColumn
*/
public StrColumn getMeasurementDeviceDetails() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_measurement_device_details"));
}
/**
* Details of the goniometer device used in the diffraction experiment.
* @return StrColumn
*/
public StrColumn getDeviceDetails() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_measurement_device_details"));
}
/**
* The make, model or name of the goniometer device used.
* @return StrColumn
*/
public StrColumn getMeasurementDeviceMake() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_measurement_device_make", "diffrn_measurement_device_type"));
}
/**
* The make, model or name of the goniometer device used.
* @return StrColumn
*/
public StrColumn getDeviceType() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_measurement_device_make", "diffrn_measurement_device_type"));
}
/**
* The make, model or name of the goniometer device used.
* @return StrColumn
*/
public StrColumn getDeviceMake() {
return new DelegatingStrColumn(parentBlock.getAliasedColumn("diffrn_measurement_device_make", "diffrn_measurement_device_type"));
}
/**
* Description of scan method used to measure diffraction intensities.
* @return StrColumn
*/
public StrColumn getMeasurementMethod() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_measurement_method"));
}
/**
* Description of scan method used to measure diffraction intensities.
* @return StrColumn
*/
public StrColumn getMethod() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_measurement_method"));
}
/**
* Mounting method for the crystal specimen during data collection.
* @return StrColumn
*/
public StrColumn getMeasurementSpecimenSupport() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_measurement_specimen_support"));
}
/**
* Mounting method for the crystal specimen during data collection.
* @return StrColumn
*/
public StrColumn getSpecimenSupport() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_measurement_specimen_support"));
}
}
