org.rcsb.cif.schema.mm.PhasingSet 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 PHASING_SET category record details about
* the data sets used in a phasing experiment. A given data set
* may be used in a number of different ways; for instance, a
* single data set could be used both as an isomorphous derivative
* and as a component of a multiple-wavelength calculation. This
* category establishes identifiers for each data set and permits
* the archiving of a subset of experimental information for each
* data set (cell constants, wavelength, temperature etc.).
*
* This and related categories of data items are provided so that
* derivative intensity and phase information can be stored in
* the same data block as the information for the refined
* structure.
*
* If all the possible experimental information for each data
* set (raw data sets, crystal growth conditions etc.) is to be
* archived, these data items should be recorded in a separate
* data block.
*/
@Generated("org.rcsb.cif.schema.generator.SchemaGenerator")
public class PhasingSet extends DelegatingCategory {
public PhasingSet(Category delegate) {
super(delegate);
}
@Override
protected Column createDelegate(String columnName, Column column) {
switch (columnName) {
case "cell_angle_alpha":
return getCellAngleAlpha();
case "cell_angle_beta":
return getCellAngleBeta();
case "cell_angle_gamma":
return getCellAngleGamma();
case "cell_length_a":
return getCellLengthA();
case "cell_length_b":
return getCellLengthB();
case "cell_length_c":
return getCellLengthC();
case "detector_specific":
return getDetectorSpecific();
case "detector_type":
return getDetectorType();
case "id":
return getId();
case "radiation_source_specific":
return getRadiationSourceSpecific();
case "radiation_wavelength":
return getRadiationWavelength();
case "temp":
return getTemp();
case "pdbx_temp_details":
return getPdbxTempDetails();
case "pdbx_d_res_high":
return getPdbxDResHigh();
case "pdbx_d_res_low":
return getPdbxDResLow();
default:
return new DelegatingColumn(column);
}
}
/**
* Unit-cell angle alpha for this data set in degrees.
* @return FloatColumn
*/
public FloatColumn getCellAngleAlpha() {
return delegate.getColumn("cell_angle_alpha", DelegatingFloatColumn::new);
}
/**
* Unit-cell angle beta for this data set in degrees.
* @return FloatColumn
*/
public FloatColumn getCellAngleBeta() {
return delegate.getColumn("cell_angle_beta", DelegatingFloatColumn::new);
}
/**
* Unit-cell angle gamma for this data set in degrees.
* @return FloatColumn
*/
public FloatColumn getCellAngleGamma() {
return delegate.getColumn("cell_angle_gamma", DelegatingFloatColumn::new);
}
/**
* Unit-cell length a for this data set in angstroms.
* @return FloatColumn
*/
public FloatColumn getCellLengthA() {
return delegate.getColumn("cell_length_a", DelegatingFloatColumn::new);
}
/**
* Unit-cell length b for this data set in angstroms.
* @return FloatColumn
*/
public FloatColumn getCellLengthB() {
return delegate.getColumn("cell_length_b", DelegatingFloatColumn::new);
}
/**
* Unit-cell length c for this data set in angstroms.
* @return FloatColumn
*/
public FloatColumn getCellLengthC() {
return delegate.getColumn("cell_length_c", DelegatingFloatColumn::new);
}
/**
* The particular radiation detector. In general, this will be a
* manufacturer, description, model number or some combination of
* these.
* @return StrColumn
*/
public StrColumn getDetectorSpecific() {
return delegate.getColumn("detector_specific", DelegatingStrColumn::new);
}
/**
* The general class of the radiation detector.
* @return StrColumn
*/
public StrColumn getDetectorType() {
return delegate.getColumn("detector_type", DelegatingStrColumn::new);
}
/**
* The value of _phasing_set.id must uniquely identify
* a record in the PHASING_SET list.
*
* Note that this item need not be a number; it can be any unique
* identifier.
* @return StrColumn
*/
public StrColumn getId() {
return delegate.getColumn("id", DelegatingStrColumn::new);
}
/**
* The particular source of radiation. In general, this will be a
* manufacturer, description, or model number (or some combination
* of these) for laboratory sources and an institution name and
* beamline name for synchrotron sources.
* @return StrColumn
*/
public StrColumn getRadiationSourceSpecific() {
return delegate.getColumn("radiation_source_specific", DelegatingStrColumn::new);
}
/**
* The mean wavelength of the radiation used to measure this
* data set.
* @return FloatColumn
*/
public FloatColumn getRadiationWavelength() {
return delegate.getColumn("radiation_wavelength", DelegatingFloatColumn::new);
}
/**
* The temperature in kelvins at which the data set was
* measured.
* @return FloatColumn
*/
public FloatColumn getTemp() {
return delegate.getColumn("temp", DelegatingFloatColumn::new);
}
/**
* The value of _phasing_set.pdbx_temp_details describes any
* special details about the data collection temperature
* for this phasing data set.
* @return StrColumn
*/
public StrColumn getPdbxTempDetails() {
return delegate.getColumn("pdbx_temp_details", DelegatingStrColumn::new);
}
/**
* The smallest value in angstroms for the interplanar spacings
* for the reflections in this shell. This is called the highest
* resolution.
* @return FloatColumn
*/
public FloatColumn getPdbxDResHigh() {
return delegate.getColumn("pdbx_d_res_high", DelegatingFloatColumn::new);
}
/**
* The highest value in angstroms for the interplanar spacings
* for the reflections in this shell. This is called the lowest
* resolution.
* @return FloatColumn
*/
public FloatColumn getPdbxDResLow() {
return delegate.getColumn("pdbx_d_res_low", DelegatingFloatColumn::new);
}
}