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org.eclipse.dawnsci.nexus.impl.NXsample_componentImpl Maven / Gradle / Ivy
/*-
*******************************************************************************
* Copyright (c) 2015 Diamond Light Source Ltd.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* This file was auto-generated from the NXDL XML definition.
*******************************************************************************/
package org.eclipse.dawnsci.nexus.impl;
import java.util.EnumSet;
import java.util.Set;
import org.eclipse.dawnsci.analysis.api.tree.DataNode;
import org.eclipse.dawnsci.nexus.NXdata;
import org.eclipse.dawnsci.nexus.NXobject;
import org.eclipse.dawnsci.nexus.NXsample_component;
import org.eclipse.dawnsci.nexus.NexusBaseClass;
import org.eclipse.january.dataset.IDataset;
/**
* One group like this per component can be recorded For a sample consisting of multiple components.
*
*/
public class NXsample_componentImpl extends NXobjectImpl implements NXsample_component {
private static final long serialVersionUID = 1L; // no state in this class, so always compatible
public static final Set PERMITTED_CHILD_GROUP_CLASSES = EnumSet.of(
NexusBaseClass.NX_DATA);
public NXsample_componentImpl() {
super();
}
public NXsample_componentImpl(final long oid) {
super(oid);
}
@Override
public Class getNXclass() {
return NXsample_component.class;
}
@Override
public NexusBaseClass getNexusBaseClass() {
return NexusBaseClass.NX_SAMPLE_COMPONENT;
}
@Override
public Set getPermittedChildGroupClasses() {
return PERMITTED_CHILD_GROUP_CLASSES;
}
@Override
public IDataset getName() {
return getDataset(NX_NAME);
}
@Override
public String getNameScalar() {
return getString(NX_NAME);
}
@Override
public DataNode setName(IDataset name) {
return setDataset(NX_NAME, name);
}
@Override
public DataNode setNameScalar(String name) {
return setString(NX_NAME, name);
}
@Override
public IDataset getChemical_formula() {
return getDataset(NX_CHEMICAL_FORMULA);
}
@Override
public String getChemical_formulaScalar() {
return getString(NX_CHEMICAL_FORMULA);
}
@Override
public DataNode setChemical_formula(IDataset chemical_formula) {
return setDataset(NX_CHEMICAL_FORMULA, chemical_formula);
}
@Override
public DataNode setChemical_formulaScalar(String chemical_formula) {
return setString(NX_CHEMICAL_FORMULA, chemical_formula);
}
@Override
public IDataset getUnit_cell_abc() {
return getDataset(NX_UNIT_CELL_ABC);
}
@Override
public Double getUnit_cell_abcScalar() {
return getDouble(NX_UNIT_CELL_ABC);
}
@Override
public DataNode setUnit_cell_abc(IDataset unit_cell_abc) {
return setDataset(NX_UNIT_CELL_ABC, unit_cell_abc);
}
@Override
public DataNode setUnit_cell_abcScalar(Double unit_cell_abc) {
return setField(NX_UNIT_CELL_ABC, unit_cell_abc);
}
@Override
public IDataset getUnit_cell_alphabetagamma() {
return getDataset(NX_UNIT_CELL_ALPHABETAGAMMA);
}
@Override
public Double getUnit_cell_alphabetagammaScalar() {
return getDouble(NX_UNIT_CELL_ALPHABETAGAMMA);
}
@Override
public DataNode setUnit_cell_alphabetagamma(IDataset unit_cell_alphabetagamma) {
return setDataset(NX_UNIT_CELL_ALPHABETAGAMMA, unit_cell_alphabetagamma);
}
@Override
public DataNode setUnit_cell_alphabetagammaScalar(Double unit_cell_alphabetagamma) {
return setField(NX_UNIT_CELL_ALPHABETAGAMMA, unit_cell_alphabetagamma);
}
@Override
public IDataset getUnit_cell_volume() {
return getDataset(NX_UNIT_CELL_VOLUME);
}
@Override
public Double getUnit_cell_volumeScalar() {
return getDouble(NX_UNIT_CELL_VOLUME);
}
@Override
public DataNode setUnit_cell_volume(IDataset unit_cell_volume) {
return setDataset(NX_UNIT_CELL_VOLUME, unit_cell_volume);
}
@Override
public DataNode setUnit_cell_volumeScalar(Double unit_cell_volume) {
return setField(NX_UNIT_CELL_VOLUME, unit_cell_volume);
}
@Override
public IDataset getSample_orientation() {
return getDataset(NX_SAMPLE_ORIENTATION);
}
@Override
public Double getSample_orientationScalar() {
return getDouble(NX_SAMPLE_ORIENTATION);
}
@Override
public DataNode setSample_orientation(IDataset sample_orientation) {
return setDataset(NX_SAMPLE_ORIENTATION, sample_orientation);
}
@Override
public DataNode setSample_orientationScalar(Double sample_orientation) {
return setField(NX_SAMPLE_ORIENTATION, sample_orientation);
}
@Override
public IDataset getOrientation_matrix() {
return getDataset(NX_ORIENTATION_MATRIX);
}
@Override
public Double getOrientation_matrixScalar() {
return getDouble(NX_ORIENTATION_MATRIX);
}
@Override
public DataNode setOrientation_matrix(IDataset orientation_matrix) {
return setDataset(NX_ORIENTATION_MATRIX, orientation_matrix);
}
@Override
public DataNode setOrientation_matrixScalar(Double orientation_matrix) {
return setField(NX_ORIENTATION_MATRIX, orientation_matrix);
}
@Override
public IDataset getMass() {
return getDataset(NX_MASS);
}
@Override
public Double getMassScalar() {
return getDouble(NX_MASS);
}
@Override
public DataNode setMass(IDataset mass) {
return setDataset(NX_MASS, mass);
}
@Override
public DataNode setMassScalar(Double mass) {
return setField(NX_MASS, mass);
}
@Override
public IDataset getDensity() {
return getDataset(NX_DENSITY);
}
@Override
public Double getDensityScalar() {
return getDouble(NX_DENSITY);
}
@Override
public DataNode setDensity(IDataset density) {
return setDataset(NX_DENSITY, density);
}
@Override
public DataNode setDensityScalar(Double density) {
return setField(NX_DENSITY, density);
}
@Override
public IDataset getRelative_molecular_mass() {
return getDataset(NX_RELATIVE_MOLECULAR_MASS);
}
@Override
public Double getRelative_molecular_massScalar() {
return getDouble(NX_RELATIVE_MOLECULAR_MASS);
}
@Override
public DataNode setRelative_molecular_mass(IDataset relative_molecular_mass) {
return setDataset(NX_RELATIVE_MOLECULAR_MASS, relative_molecular_mass);
}
@Override
public DataNode setRelative_molecular_massScalar(Double relative_molecular_mass) {
return setField(NX_RELATIVE_MOLECULAR_MASS, relative_molecular_mass);
}
@Override
public IDataset getDescription() {
return getDataset(NX_DESCRIPTION);
}
@Override
public String getDescriptionScalar() {
return getString(NX_DESCRIPTION);
}
@Override
public DataNode setDescription(IDataset description) {
return setDataset(NX_DESCRIPTION, description);
}
@Override
public DataNode setDescriptionScalar(String description) {
return setString(NX_DESCRIPTION, description);
}
@Override
public IDataset getVolume_fraction() {
return getDataset(NX_VOLUME_FRACTION);
}
@Override
public Double getVolume_fractionScalar() {
return getDouble(NX_VOLUME_FRACTION);
}
@Override
public DataNode setVolume_fraction(IDataset volume_fraction) {
return setDataset(NX_VOLUME_FRACTION, volume_fraction);
}
@Override
public DataNode setVolume_fractionScalar(Double volume_fraction) {
return setField(NX_VOLUME_FRACTION, volume_fraction);
}
@Override
public IDataset getScattering_length_density() {
return getDataset(NX_SCATTERING_LENGTH_DENSITY);
}
@Override
public Double getScattering_length_densityScalar() {
return getDouble(NX_SCATTERING_LENGTH_DENSITY);
}
@Override
public DataNode setScattering_length_density(IDataset scattering_length_density) {
return setDataset(NX_SCATTERING_LENGTH_DENSITY, scattering_length_density);
}
@Override
public DataNode setScattering_length_densityScalar(Double scattering_length_density) {
return setField(NX_SCATTERING_LENGTH_DENSITY, scattering_length_density);
}
@Override
public IDataset getUnit_cell_class() {
return getDataset(NX_UNIT_CELL_CLASS);
}
@Override
public String getUnit_cell_classScalar() {
return getString(NX_UNIT_CELL_CLASS);
}
@Override
public DataNode setUnit_cell_class(IDataset unit_cell_class) {
return setDataset(NX_UNIT_CELL_CLASS, unit_cell_class);
}
@Override
public DataNode setUnit_cell_classScalar(String unit_cell_class) {
return setString(NX_UNIT_CELL_CLASS, unit_cell_class);
}
@Override
public IDataset getSpace_group() {
return getDataset(NX_SPACE_GROUP);
}
@Override
public String getSpace_groupScalar() {
return getString(NX_SPACE_GROUP);
}
@Override
public DataNode setSpace_group(IDataset space_group) {
return setDataset(NX_SPACE_GROUP, space_group);
}
@Override
public DataNode setSpace_groupScalar(String space_group) {
return setString(NX_SPACE_GROUP, space_group);
}
@Override
public IDataset getPoint_group() {
return getDataset(NX_POINT_GROUP);
}
@Override
public String getPoint_groupScalar() {
return getString(NX_POINT_GROUP);
}
@Override
public DataNode setPoint_group(IDataset point_group) {
return setDataset(NX_POINT_GROUP, point_group);
}
@Override
public DataNode setPoint_groupScalar(String point_group) {
return setString(NX_POINT_GROUP, point_group);
}
@Override
public NXdata getTransmission() {
return getChild("transmission", NXdata.class);
}
@Override
public void setTransmission(NXdata transmission) {
putChild("transmission", transmission);
}
}