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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 which specify the reflection measurements,
* prior to data reduction and merging.
*/
@Generated("org.rcsb.cif.schema.generator.SchemaGenerator")
public class DiffrnRefln extends DelegatingCategory.DelegatingCifCoreCategory {
private static final String NAME = "diffrn_refln";
public DiffrnRefln(CifCoreBlock parentBlock) {
super(NAME, parentBlock);
}
/**
* Diffractometer angle at which the intensity is measured. This was
* calculated from the specified orientation matrix and the original
* measured cell dimensions before any subsequent transformations.
* @return FloatColumn
*/
public FloatColumn getAngleChi() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_angle_chi"));
}
/**
* Diffractometer angle at which the intensity is measured. This was
* calculated from the specified orientation matrix and the original
* measured cell dimensions before any subsequent transformations.
* @return FloatColumn
*/
public FloatColumn getAngleKappa() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_angle_kappa"));
}
/**
* Diffractometer angle at which the intensity is measured. This was
* calculated from the specified orientation matrix and the original
* measured cell dimensions before any subsequent transformations.
* @return FloatColumn
*/
public FloatColumn getAngleOmega() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_angle_omega"));
}
/**
* Diffractometer angle at which the intensity is measured. This was
* calculated from the specified orientation matrix and the original
* measured cell dimensions before any subsequent transformations.
* @return FloatColumn
*/
public FloatColumn getAnglePhi() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_angle_phi"));
}
/**
* Diffractometer angle at which the intensity is measured. This was
* calculated from the specified orientation matrix and the original
* measured cell dimensions before any subsequent transformations.
* @return FloatColumn
*/
public FloatColumn getAnglePsi() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_angle_psi"));
}
/**
* Diffractometer angle at which the intensity is measured. This was
* calculated from the specified orientation matrix and the original
* measured cell dimensions before any subsequent transformations.
* @return FloatColumn
*/
public FloatColumn getAngleTheta() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_angle_theta"));
}
/**
* Code identifying any attenuator setting for this reflection.
* @return StrColumn
*/
public StrColumn getAttenuatorCode() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_refln_attenuator_code"));
}
/**
* Code for reflection class, if assigned. e.g. modulated structures
* @return StrColumn
*/
public StrColumn getClassCode() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_refln_class_code"));
}
/**
* The set of data items which specify the diffractometer counts.
* Background counts before the peak, background after the peak,
* net counts after background removed, counts for peak scan or position,
* and the total counts (background plus peak).
* @return IntColumn
*/
public IntColumn getCountsBg1() {
return new DelegatingIntColumn(parentBlock.getColumn("diffrn_refln_counts_bg_1"));
}
/**
* Standard uncertainty of _diffrn_refln.counts_bg_1.
* @return FloatColumn
*/
public FloatColumn getCountsBg1Su() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_counts_bg_1_su"));
}
/**
* The set of data items which specify the diffractometer counts.
* Background counts before the peak, background after the peak,
* net counts after background removed, counts for peak scan or position,
* and the total counts (background plus peak).
* @return IntColumn
*/
public IntColumn getCountsBg2() {
return new DelegatingIntColumn(parentBlock.getColumn("diffrn_refln_counts_bg_2"));
}
/**
* Standard uncertainty of _diffrn_refln.counts_bg_2.
* @return FloatColumn
*/
public FloatColumn getCountsBg2Su() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_counts_bg_2_su"));
}
/**
* The set of data items which specify the diffractometer counts.
* Background counts before the peak, background after the peak,
* net counts after background removed, counts for peak scan or position,
* and the total counts (background plus peak).
* @return IntColumn
*/
public IntColumn getCountsNet() {
return new DelegatingIntColumn(parentBlock.getColumn("diffrn_refln_counts_net"));
}
/**
* Standard uncertainty of _diffrn_refln.counts_net.
* @return FloatColumn
*/
public FloatColumn getCountsNetSu() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_counts_net_su"));
}
/**
* The set of data items which specify the diffractometer counts.
* Background counts before the peak, background after the peak,
* net counts after background removed, counts for peak scan or position,
* and the total counts (background plus peak).
* @return IntColumn
*/
public IntColumn getCountsPeak() {
return new DelegatingIntColumn(parentBlock.getColumn("diffrn_refln_counts_peak"));
}
/**
* Standard uncertainty of _diffrn_refln.counts_peak.
* @return FloatColumn
*/
public FloatColumn getCountsPeakSu() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_counts_peak_su"));
}
/**
* The set of data items which specify the diffractometer counts.
* Background counts before the peak, background after the peak,
* net counts after background removed, counts for peak scan or position,
* and the total counts (background plus peak).
* @return IntColumn
*/
public IntColumn getCountsTotal() {
return new DelegatingIntColumn(parentBlock.getColumn("diffrn_refln_counts_total"));
}
/**
* Standard uncertainty of _diffrn_refln.counts_total.
* @return FloatColumn
*/
public FloatColumn getCountsTotalSu() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_counts_total_su"));
}
/**
* Total slit aperture angle in the diffraction plane.
* @return FloatColumn
*/
public FloatColumn getDetectSlitHoriz() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_detect_slit_horiz"));
}
/**
* Total slit aperture angle perpendicular to the diffraction plane.
* @return FloatColumn
*/
public FloatColumn getDetectSlitVert() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_detect_slit_vert"));
}
/**
* Elapsed time from the start to the end of the intensity measurement.
* @return FloatColumn
*/
public FloatColumn getElapsedTime() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_elapsed_time"));
}
/**
* Miller indices of a measured reflection. These need not match the
* _refln.hkl values if a transformation of the original measured
* cell has taken place.
* @return IntColumn
*/
public IntColumn getHkl() {
return new DelegatingIntColumn(parentBlock.getColumn("diffrn_refln_hkl"));
}
/**
* The index of a reciprocal space vector.
* @return IntColumn
*/
public IntColumn getIndexH() {
return new DelegatingIntColumn(parentBlock.getColumn("diffrn_refln_index_h"));
}
/**
* The index of a reciprocal space vector.
* @return IntColumn
*/
public IntColumn getIndexK() {
return new DelegatingIntColumn(parentBlock.getColumn("diffrn_refln_index_k"));
}
/**
* The index of a reciprocal space vector.
* @return IntColumn
*/
public IntColumn getIndexL() {
return new DelegatingIntColumn(parentBlock.getColumn("diffrn_refln_index_l"));
}
/**
* Net intensity calculated from the diffraction counts after the
* attenuator and standard scales have been applied.
* @return FloatColumn
*/
public FloatColumn getIntensityNet() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_intensity_net"));
}
/**
* Code identifying the scale applying to this reflection.
* @return StrColumn
*/
public StrColumn getScaleGroupCode() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_refln_scale_group_code"));
}
/**
* Code identifying the mode of scanning with a diffractometer.
* See also _diffrn_refln.scan_width and _diffrn_refln.scan_mode_backgd.
* @return StrColumn
*/
public StrColumn getScanMode() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_refln_scan_mode"));
}
/**
* Code identifying mode of scanning to measure the background intensity.
* @return StrColumn
*/
public StrColumn getScanModeBackgd() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_refln_scan_mode_backgd"));
}
/**
* Angular rate of scanning a reflection to measure the intensity.
* @return FloatColumn
*/
public FloatColumn getScanRate() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_scan_rate"));
}
/**
* Time spent measuring background counts.
* @return FloatColumn
*/
public FloatColumn getScanTimeBackgd() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_scan_time_backgd"));
}
/**
* Angular scan width when measuring the peak intensity.
* @return FloatColumn
*/
public FloatColumn getScanWidth() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_scan_width"));
}
/**
* Code identifying reflections measured repeated as standard intensity.
* Must match a _diffrn_standard_refln.code values OR set to '.' if
* it was not used as a intensity standard.
* @return StrColumn
*/
public StrColumn getStandardCode() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_refln_standard_code"));
}
/**
* Mean wavelength of radiation used to measure this intensity.
* @return FloatColumn
*/
public FloatColumn getWavelength() {
return new DelegatingFloatColumn(parentBlock.getColumn("diffrn_refln_wavelength"));
}
/**
* Code identifying the wavelength in the diffrn_radiation_wavelength list.
* @return StrColumn
*/
public StrColumn getWavelengthId() {
return new DelegatingStrColumn(parentBlock.getColumn("diffrn_refln_wavelength_id"));
}
/**
* Standard uncertainty of the net intensity calculated from the
* diffraction counts after the attenuator and standard scales
* have been applied.
* @return FloatColumn
*/
public FloatColumn getIntensitySigma() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_refln_intensity_sigma", "diffrn_refln_intensity_u", "diffrn_refln_intensity_net_su"));
}
/**
* Standard uncertainty of the net intensity calculated from the
* diffraction counts after the attenuator and standard scales
* have been applied.
* @return FloatColumn
*/
public FloatColumn getIntensityU() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_refln_intensity_sigma", "diffrn_refln_intensity_u", "diffrn_refln_intensity_net_su"));
}
/**
* Standard uncertainty of the net intensity calculated from the
* diffraction counts after the attenuator and standard scales
* have been applied.
* @return FloatColumn
*/
public FloatColumn getIntensityNetSu() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_refln_intensity_sigma", "diffrn_refln_intensity_u", "diffrn_refln_intensity_net_su"));
}
/**
* (sin theta)/lambda value for this reflection.
* @return FloatColumn
*/
public FloatColumn getSintOverLambda() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_refln_sint_over_lambda", "diffrn_refln_sin_theta_over_lambda"));
}
/**
* (sin theta)/lambda value for this reflection.
* @return FloatColumn
*/
public FloatColumn getSinThetaOverLambda() {
return new DelegatingFloatColumn(parentBlock.getAliasedColumn("diffrn_refln_sint_over_lambda", "diffrn_refln_sin_theta_over_lambda"));
}
}
