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org.eclipse.dawnsci.nexus.impl.NXbending_magnetImpl 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.Map;
import java.util.Set;
import org.eclipse.dawnsci.analysis.api.tree.DataNode;
import org.eclipse.dawnsci.nexus.NXbending_magnet;
import org.eclipse.dawnsci.nexus.NXdata;
import org.eclipse.dawnsci.nexus.NXgeometry;
import org.eclipse.dawnsci.nexus.NXobject;
import org.eclipse.dawnsci.nexus.NexusBaseClass;
import org.eclipse.january.dataset.IDataset;
/**
* A bending magnet
*
*/
public class NXbending_magnetImpl extends NXobjectImpl implements NXbending_magnet {
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,
NexusBaseClass.NX_GEOMETRY);
public NXbending_magnetImpl() {
super();
}
public NXbending_magnetImpl(final long oid) {
super(oid);
}
@Override
public Class getNXclass() {
return NXbending_magnet.class;
}
@Override
public NexusBaseClass getNexusBaseClass() {
return NexusBaseClass.NX_BENDING_MAGNET;
}
@Override
public Set getPermittedChildGroupClasses() {
return PERMITTED_CHILD_GROUP_CLASSES;
}
@Override
public IDataset getCritical_energy() {
return getDataset(NX_CRITICAL_ENERGY);
}
@Override
public Double getCritical_energyScalar() {
return getDouble(NX_CRITICAL_ENERGY);
}
@Override
public DataNode setCritical_energy(IDataset critical_energy) {
return setDataset(NX_CRITICAL_ENERGY, critical_energy);
}
@Override
public DataNode setCritical_energyScalar(Double critical_energy) {
return setField(NX_CRITICAL_ENERGY, critical_energy);
}
@Override
public IDataset getBending_radius() {
return getDataset(NX_BENDING_RADIUS);
}
@Override
public Double getBending_radiusScalar() {
return getDouble(NX_BENDING_RADIUS);
}
@Override
public DataNode setBending_radius(IDataset bending_radius) {
return setDataset(NX_BENDING_RADIUS, bending_radius);
}
@Override
public DataNode setBending_radiusScalar(Double bending_radius) {
return setField(NX_BENDING_RADIUS, bending_radius);
}
@Override
public IDataset getMagnetic_field() {
return getDataset(NX_MAGNETIC_FIELD);
}
@Override
public Double getMagnetic_fieldScalar() {
return getDouble(NX_MAGNETIC_FIELD);
}
@Override
public DataNode setMagnetic_field(IDataset magnetic_field) {
return setDataset(NX_MAGNETIC_FIELD, magnetic_field);
}
@Override
public DataNode setMagnetic_fieldScalar(Double magnetic_field) {
return setField(NX_MAGNETIC_FIELD, magnetic_field);
}
@Override
public IDataset getAccepted_photon_beam_divergence() {
return getDataset(NX_ACCEPTED_PHOTON_BEAM_DIVERGENCE);
}
@Override
public Double getAccepted_photon_beam_divergenceScalar() {
return getDouble(NX_ACCEPTED_PHOTON_BEAM_DIVERGENCE);
}
@Override
public DataNode setAccepted_photon_beam_divergence(IDataset accepted_photon_beam_divergence) {
return setDataset(NX_ACCEPTED_PHOTON_BEAM_DIVERGENCE, accepted_photon_beam_divergence);
}
@Override
public DataNode setAccepted_photon_beam_divergenceScalar(Double accepted_photon_beam_divergence) {
return setField(NX_ACCEPTED_PHOTON_BEAM_DIVERGENCE, accepted_photon_beam_divergence);
}
@Override
public IDataset getSource_distance_x() {
return getDataset(NX_SOURCE_DISTANCE_X);
}
@Override
public Double getSource_distance_xScalar() {
return getDouble(NX_SOURCE_DISTANCE_X);
}
@Override
public DataNode setSource_distance_x(IDataset source_distance_x) {
return setDataset(NX_SOURCE_DISTANCE_X, source_distance_x);
}
@Override
public DataNode setSource_distance_xScalar(Double source_distance_x) {
return setField(NX_SOURCE_DISTANCE_X, source_distance_x);
}
@Override
public IDataset getSource_distance_y() {
return getDataset(NX_SOURCE_DISTANCE_Y);
}
@Override
public Double getSource_distance_yScalar() {
return getDouble(NX_SOURCE_DISTANCE_Y);
}
@Override
public DataNode setSource_distance_y(IDataset source_distance_y) {
return setDataset(NX_SOURCE_DISTANCE_Y, source_distance_y);
}
@Override
public DataNode setSource_distance_yScalar(Double source_distance_y) {
return setField(NX_SOURCE_DISTANCE_Y, source_distance_y);
}
@Override
public IDataset getDivergence_x_plus() {
return getDataset(NX_DIVERGENCE_X_PLUS);
}
@Override
public Double getDivergence_x_plusScalar() {
return getDouble(NX_DIVERGENCE_X_PLUS);
}
@Override
public DataNode setDivergence_x_plus(IDataset divergence_x_plus) {
return setDataset(NX_DIVERGENCE_X_PLUS, divergence_x_plus);
}
@Override
public DataNode setDivergence_x_plusScalar(Double divergence_x_plus) {
return setField(NX_DIVERGENCE_X_PLUS, divergence_x_plus);
}
@Override
public IDataset getDivergence_x_minus() {
return getDataset(NX_DIVERGENCE_X_MINUS);
}
@Override
public Double getDivergence_x_minusScalar() {
return getDouble(NX_DIVERGENCE_X_MINUS);
}
@Override
public DataNode setDivergence_x_minus(IDataset divergence_x_minus) {
return setDataset(NX_DIVERGENCE_X_MINUS, divergence_x_minus);
}
@Override
public DataNode setDivergence_x_minusScalar(Double divergence_x_minus) {
return setField(NX_DIVERGENCE_X_MINUS, divergence_x_minus);
}
@Override
public IDataset getDivergence_y_plus() {
return getDataset(NX_DIVERGENCE_Y_PLUS);
}
@Override
public Double getDivergence_y_plusScalar() {
return getDouble(NX_DIVERGENCE_Y_PLUS);
}
@Override
public DataNode setDivergence_y_plus(IDataset divergence_y_plus) {
return setDataset(NX_DIVERGENCE_Y_PLUS, divergence_y_plus);
}
@Override
public DataNode setDivergence_y_plusScalar(Double divergence_y_plus) {
return setField(NX_DIVERGENCE_Y_PLUS, divergence_y_plus);
}
@Override
public IDataset getDivergence_y_minus() {
return getDataset(NX_DIVERGENCE_Y_MINUS);
}
@Override
public Double getDivergence_y_minusScalar() {
return getDouble(NX_DIVERGENCE_Y_MINUS);
}
@Override
public DataNode setDivergence_y_minus(IDataset divergence_y_minus) {
return setDataset(NX_DIVERGENCE_Y_MINUS, divergence_y_minus);
}
@Override
public DataNode setDivergence_y_minusScalar(Double divergence_y_minus) {
return setField(NX_DIVERGENCE_Y_MINUS, divergence_y_minus);
}
@Override
public NXdata getSpectrum() {
return getChild("spectrum", NXdata.class);
}
@Override
public void setSpectrum(NXdata spectrum) {
putChild("spectrum", spectrum);
}
@Override
public NXgeometry getGeometry() {
return getChild("geometry", NXgeometry.class);
}
@Override
public void setGeometry(NXgeometry geometry) {
putChild("geometry", geometry);
}
@Override
public NXgeometry getGeometry(String name) {
return getChild(name, NXgeometry.class);
}
@Override
public void setGeometry(String name, NXgeometry geometry) {
putChild(name, geometry);
}
@Override
public Map getAllGeometry() {
return getChildren(NXgeometry.class);
}
@Override
public void setAllGeometry(Map geometry) {
setChildren(geometry);
}
}
