org.rcsb.cif.schema.mm.PhasingMADRatio 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_MAD_RATIO category record
* the ratios of phasing statistics between pairs of data sets
* in a MAD phasing experiment, in given shells of resolution.
*/
@Generated("org.rcsb.cif.schema.generator.SchemaGenerator")
public class PhasingMADRatio extends DelegatingCategory {
public PhasingMADRatio(Category delegate) {
super(delegate);
}
@Override
protected Column createDelegate(String columnName, Column column) {
switch (columnName) {
case "d_res_high":
return getDResHigh();
case "d_res_low":
return getDResLow();
case "expt_id":
return getExptId();
case "clust_id":
return getClustId();
case "ratio_one_wl":
return getRatioOneWl();
case "ratio_one_wl_centric":
return getRatioOneWlCentric();
case "ratio_two_wl":
return getRatioTwoWl();
case "wavelength_1":
return getWavelength1();
case "wavelength_2":
return getWavelength2();
default:
return new DelegatingColumn(column);
}
}
/**
* The lowest value for the interplanar spacings for the
* reflection data used for the comparison of Bijvoet differences.
* This is called the highest resolution.
* @return FloatColumn
*/
public FloatColumn getDResHigh() {
return delegate.getColumn("d_res_high", DelegatingFloatColumn::new);
}
/**
* The highest value for the interplanar spacings for the
* reflection data used for the comparison of Bijvoet differences.
* This is called the lowest resolution.
* @return FloatColumn
*/
public FloatColumn getDResLow() {
return delegate.getColumn("d_res_low", DelegatingFloatColumn::new);
}
/**
* This data item is a pointer to _phasing_MAD_expt.id in the
* PHASING_MAD_EXPT category.
* @return StrColumn
*/
public StrColumn getExptId() {
return delegate.getColumn("expt_id", DelegatingStrColumn::new);
}
/**
* This data item is a pointer to _phasing_MAD_clust.id in
* the PHASING_MAD_CLUST category.
* @return StrColumn
*/
public StrColumn getClustId() {
return delegate.getColumn("clust_id", DelegatingStrColumn::new);
}
/**
* The root-mean-square Bijvoet difference at one wavelength for
* all reflections.
* @return FloatColumn
*/
public FloatColumn getRatioOneWl() {
return delegate.getColumn("ratio_one_wl", DelegatingFloatColumn::new);
}
/**
* The root-mean-square Bijvoet difference at one wavelength for
* centric reflections. This would be equal to zero for perfect
* data and thus serves as an estimate of the noise in the
* anomalous signals.
* @return FloatColumn
*/
public FloatColumn getRatioOneWlCentric() {
return delegate.getColumn("ratio_one_wl_centric", DelegatingFloatColumn::new);
}
/**
* The root-mean-square dispersive Bijvoet difference between
* two wavelengths for all reflections.
* @return FloatColumn
*/
public FloatColumn getRatioTwoWl() {
return delegate.getColumn("ratio_two_wl", DelegatingFloatColumn::new);
}
/**
* This data item is a pointer to _phasing_MAD_set.wavelength in
* the PHASING_MAD_SET category.
* @return FloatColumn
*/
public FloatColumn getWavelength1() {
return delegate.getColumn("wavelength_1", DelegatingFloatColumn::new);
}
/**
* This data item is a pointer to _phasing_MAD_set.wavelength in
* the PHASING_MAD_SET category.
* @return FloatColumn
*/
public FloatColumn getWavelength2() {
return delegate.getColumn("wavelength_2", DelegatingFloatColumn::new);
}
}