/** * Handles linking a specific reference object to a target object in our * object graph. * @param target Target model object. * @param reference Reference model object. */ private void handleReference(OTF target, FilterSet reference) { target.setFilterSet(reference); }
public OTF( java.lang.Integer _sizeX,java.lang.Integer _sizeY,java.lang.Boolean _opticalAxisAveraged,ome.model.enums.PixelsType _pixelsType,java.lang.String _path,ome.model.acquisition.Objective _objective,ome.model.acquisition.Instrument _instrument ) { this(null, true); setSizeX(_sizeX); setSizeY(_sizeY); setOpticalAxisAveraged(_opticalAxisAveraged); setPixelsType(_pixelsType); setPath(_path); setObjective(_objective); setInstrument(_instrument); }
public ome.model.acquisition.OTF newInstance() { return new ome.model.acquisition.OTF(); }
return; } else if (field.equals(ID)) { setId((Long) value); } else if (field.equals(VERSION)) { setVersion((Integer) value); } else if (field.equals(SIZEX)) { setSizeX((java.lang.Integer)value); } else if (field.equals(SIZEY)) { setSizeY((java.lang.Integer)value); } else if (field.equals(OPTICALAXISAVERAGED)) { setOpticalAxisAveraged((java.lang.Boolean)value); } else if (field.equals(PIXELSTYPE)) { setPixelsType((ome.model.enums.PixelsType)value); } else if (field.equals(PATH)) { setPath((java.lang.String)value); } else if (field.equals(FILTERSET)) { setFilterSet((ome.model.acquisition.FilterSet)value); } else if (field.equals(OBJECTIVE)) { setObjective((ome.model.acquisition.Objective)value); } else if (field.equals(INSTRUMENT)) { setInstrument((ome.model.acquisition.Instrument)value); } else if (field.equals(DETAILS)) { setDetails((ome.model.internal.Details)value); } else { if (_dynamicFields == null) {
return null; } else if (field.equals(ID)) { return getId(); } else if (field.equals(VERSION)) { return getVersion(); } else if (field.equals(SIZEX)) { return getSizeX(); } else if (field.equals(SIZEY)) { return getSizeY(); } else if (field.equals(OPTICALAXISAVERAGED)) { return getOpticalAxisAveraged(); } else if (field.equals(PIXELSTYPE)) { return getPixelsType(); } else if (field.equals(PATH)) { return getPath(); } else if (field.equals(FILTERSET)) { return getFilterSet(); } else if (field.equals(OBJECTIVE)) { return getObjective(); } else if (field.equals(INSTRUMENT)) { return getInstrument(); } else if (field.equals(DETAILS)) { return getDetails(); } else { if (_dynamicFields != null) {
public void setFilterSet(ome.model.acquisition.FilterSet filterSet) { if (! _loaded ) errorIfUnloaded(); this.filterSet = filterSet; } protected ome.model.acquisition.Objective objective = null;
/** * Main constructor. */ public OTF (Long id, boolean loaded) { setId(id); if (loaded) { getDetails().setContext(this); } else { if (this.id == null) { throw new ApiUsageException("Id cannot be null for a proxy"); } unload(); } }
/** * Handles linking a specific reference object to a target object in our * object graph. * @param target Target model object. * @param reference Reference model object. */ private void handleReference(OTF target, Objective reference) { target.setObjective(reference); }
public void setInstrument(ome.model.acquisition.Instrument instrument) { if (! _loaded ) errorIfUnloaded(); this.instrument = instrument; } protected ome.model.internal.Details details = new Details();
/** * Handles inserting a specific type of model object into our object graph. * @param LSID LSID of the model object. * @param sourceObject Model object itself. * @param indexes Any indexes that should be used to reference the model * object. */ private void handle(String LSID, ObjectiveSettings sourceObject, Map<String, Integer> indexes) { Integer instrumentIndex = indexes.get("instrumentIndex"); Integer otfIndex = indexes.get("otfIndex"); Integer imageIndex = indexes.get("imageIndex"); if (instrumentIndex != null && otfIndex != null) { OTF o = getOTF(instrumentIndex, otfIndex); o.setObjective(sourceObject.getObjective()); } else { Image i = getImage(imageIndex); i.setObjectiveSettings(sourceObject); } }
/** * Use the {@link ome.model.internal.Details#copy(ome.model.internal.Details)} * or {@link ome.model.internal.Details#shallowCopy(ome.model.internal.Details)} * methods to set the {@link Details} instance instead. */ protected void setDetails(ome.model.internal.Details details) { if (! _loaded ) errorIfUnloaded(); this.details = (Details) details; }
public ome.model.acquisition.OTF proxy() { return new ome.model.acquisition.OTF(this.id, false); }
public void setOpticalAxisAveraged(java.lang.Boolean opticalAxisAveraged) { if (! _loaded ) errorIfUnloaded(); this.opticalAxisAveraged = (java.lang.Boolean) opticalAxisAveraged; } protected ome.model.enums.PixelsType pixelsType = null;
public void setPixelsType(ome.model.enums.PixelsType pixelsType) { if (! _loaded ) errorIfUnloaded(); this.pixelsType = pixelsType; } protected java.lang.String path = null;
public void setObjective(ome.model.acquisition.Objective objective) { if (! _loaded ) errorIfUnloaded(); this.objective = objective; } protected ome.model.acquisition.Instrument instrument = null;
@Override public void setVersion(Integer version) { if (! _loaded ) errorIfUnloaded(); this.version = version; }
public void setPath(java.lang.String path) { if (! _loaded ) errorIfUnloaded(); this.path = (java.lang.String) path; } protected ome.model.acquisition.FilterSet filterSet = null;
/** * Simple field ome.model.acquisition.OTF.opticalAxisAveraged (java.lang.Boolean) */ // No @Type annotation // Not indexed @javax.persistence.Column(columnDefinition="", nullable=false, unique=false, name="opticalAxisAveraged", updatable=true) public java.lang.Boolean getOpticalAxisAveraged() { if (! _loaded ) errorIfUnloaded(); return this.opticalAxisAveraged; }
public void setSizeX(java.lang.Integer sizeX) { if (! _loaded ) errorIfUnloaded(); if (sizeX != null && sizeX <= 0) { throw new IllegalArgumentException("values of OTF.sizeX must be strictly positive"); } this.sizeX = (java.lang.Integer) sizeX; } protected java.lang.Integer sizeY = null;
public void setSizeY(java.lang.Integer sizeY) { if (! _loaded ) errorIfUnloaded(); if (sizeY != null && sizeY <= 0) { throw new IllegalArgumentException("values of OTF.sizeY must be strictly positive"); } this.sizeY = (java.lang.Integer) sizeY; } protected java.lang.Boolean opticalAxisAveraged = null;