org.eclipse.dawnsci.nexus.impl.NXpositionerImpl 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.NXobject;
import org.eclipse.dawnsci.nexus.NXpositioner;
import org.eclipse.dawnsci.nexus.NexusBaseClass;
import org.eclipse.january.dataset.IDataset;
/**
* A generic positioner such as a motor or piezo-electric transducer.
*
*/
public class NXpositionerImpl extends NXobjectImpl implements NXpositioner {
private static final long serialVersionUID = 1L; // no state in this class, so always compatible
public static final Set PERMITTED_CHILD_GROUP_CLASSES = EnumSet.noneOf(NexusBaseClass.class);
public NXpositionerImpl() {
super();
}
public NXpositionerImpl(final long oid) {
super(oid);
}
@Override
public Class getNXclass() {
return NXpositioner.class;
}
@Override
public NexusBaseClass getNexusBaseClass() {
return NexusBaseClass.NX_POSITIONER;
}
@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 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 getValue() {
return getDataset(NX_VALUE);
}
@Override
public Number getValueScalar() {
return getNumber(NX_VALUE);
}
@Override
public DataNode setValue(IDataset value) {
return setDataset(NX_VALUE, value);
}
@Override
public DataNode setValueScalar(Number value) {
return setField(NX_VALUE, value);
}
@Override
public IDataset getRaw_value() {
return getDataset(NX_RAW_VALUE);
}
@Override
public Number getRaw_valueScalar() {
return getNumber(NX_RAW_VALUE);
}
@Override
public DataNode setRaw_value(IDataset raw_value) {
return setDataset(NX_RAW_VALUE, raw_value);
}
@Override
public DataNode setRaw_valueScalar(Number raw_value) {
return setField(NX_RAW_VALUE, raw_value);
}
@Override
public IDataset getTarget_value() {
return getDataset(NX_TARGET_VALUE);
}
@Override
public Number getTarget_valueScalar() {
return getNumber(NX_TARGET_VALUE);
}
@Override
public DataNode setTarget_value(IDataset target_value) {
return setDataset(NX_TARGET_VALUE, target_value);
}
@Override
public DataNode setTarget_valueScalar(Number target_value) {
return setField(NX_TARGET_VALUE, target_value);
}
@Override
public IDataset getTolerance() {
return getDataset(NX_TOLERANCE);
}
@Override
public Number getToleranceScalar() {
return getNumber(NX_TOLERANCE);
}
@Override
public DataNode setTolerance(IDataset tolerance) {
return setDataset(NX_TOLERANCE, tolerance);
}
@Override
public DataNode setToleranceScalar(Number tolerance) {
return setField(NX_TOLERANCE, tolerance);
}
@Override
public IDataset getSoft_limit_min() {
return getDataset(NX_SOFT_LIMIT_MIN);
}
@Override
public Number getSoft_limit_minScalar() {
return getNumber(NX_SOFT_LIMIT_MIN);
}
@Override
public DataNode setSoft_limit_min(IDataset soft_limit_min) {
return setDataset(NX_SOFT_LIMIT_MIN, soft_limit_min);
}
@Override
public DataNode setSoft_limit_minScalar(Number soft_limit_min) {
return setField(NX_SOFT_LIMIT_MIN, soft_limit_min);
}
@Override
public IDataset getSoft_limit_max() {
return getDataset(NX_SOFT_LIMIT_MAX);
}
@Override
public Number getSoft_limit_maxScalar() {
return getNumber(NX_SOFT_LIMIT_MAX);
}
@Override
public DataNode setSoft_limit_max(IDataset soft_limit_max) {
return setDataset(NX_SOFT_LIMIT_MAX, soft_limit_max);
}
@Override
public DataNode setSoft_limit_maxScalar(Number soft_limit_max) {
return setField(NX_SOFT_LIMIT_MAX, soft_limit_max);
}
@Override
public IDataset getVelocity() {
return getDataset(NX_VELOCITY);
}
@Override
public Number getVelocityScalar() {
return getNumber(NX_VELOCITY);
}
@Override
public DataNode setVelocity(IDataset velocity) {
return setDataset(NX_VELOCITY, velocity);
}
@Override
public DataNode setVelocityScalar(Number velocity) {
return setField(NX_VELOCITY, velocity);
}
@Override
public IDataset getAcceleration_time() {
return getDataset(NX_ACCELERATION_TIME);
}
@Override
public Number getAcceleration_timeScalar() {
return getNumber(NX_ACCELERATION_TIME);
}
@Override
public DataNode setAcceleration_time(IDataset acceleration_time) {
return setDataset(NX_ACCELERATION_TIME, acceleration_time);
}
@Override
public DataNode setAcceleration_timeScalar(Number acceleration_time) {
return setField(NX_ACCELERATION_TIME, acceleration_time);
}
@Override
public IDataset getController_record() {
return getDataset(NX_CONTROLLER_RECORD);
}
@Override
public String getController_recordScalar() {
return getString(NX_CONTROLLER_RECORD);
}
@Override
public DataNode setController_record(IDataset controller_record) {
return setDataset(NX_CONTROLLER_RECORD, controller_record);
}
@Override
public DataNode setController_recordScalar(String controller_record) {
return setString(NX_CONTROLLER_RECORD, controller_record);
}
}