//
// DummyMetadata.java
//
/*
* loci.formats.meta.DummyMetadata
*
*-----------------------------------------------------------------------------
*
* Copyright (C) 2005-@year@ Open Microscopy Environment
* Massachusetts Institute of Technology,
* National Institutes of Health,
* University of Dundee,
* University of Wisconsin-Madison
*
*
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*-----------------------------------------------------------------------------
*/
/*-----------------------------------------------------------------------------
*
* THIS IS AUTOMATICALLY GENERATED CODE. DO NOT MODIFY.
* Created by melissa via xsd-fu on 2011-06-09 09:59:07.548547
*
*-----------------------------------------------------------------------------
*/
package loci.formats.meta;
import ome.xml.model.enums.*;
import ome.xml.model.primitives.*;
/**
* A dummy implementation for {@link MetadataStore} and
* {@link MetadataRetrieve} that is used when no other
* metadata implementations are available.
*
* <dl><dt><b>Source code:</b></dt>
* <dd><a href="http://trac.openmicroscopy.org.uk/ome/browser/bioformats.git/components/bio-formats/src/loci/formats/meta/DummyMetadata.java">Trac</a>,
* <a href="http://git.openmicroscopy.org/?p=bioformats.git;a=blob;f=components/bio-formats/src/loci/formats/meta/DummyMetadata.java;hb=HEAD">Gitweb</a></dd></dl>
*
* @author Chris Allan callan at blackcat.ca
* @author Curtis Rueden ctrueden at wisc.edu
*/
public class DummyMetadata implements IMetadata
{
// -- MetadataStore API methods --
public void createRoot()
{
}
public Object getRoot()
{
return null;
}
public void setRoot(Object root)
{
}
// -- Entity counting (manual definitions) --
public int getPixelsBinDataCount(int imageIndex)
{
return -1;
}
public String getLightSourceType(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// -- Entity counting (code generated definitions) --
// AnnotationRef entity counting
public int getROIAnnotationRefCount(int ROIIndex)
{
return -1;
}
public int getPlateAcquisitionAnnotationRefCount(int plateIndex, int plateAcquisitionIndex)
{
return -1;
}
public int getPlateAnnotationRefCount(int plateIndex)
{
return -1;
}
public int getImageAnnotationRefCount(int imageIndex)
{
return -1;
}
public int getScreenAnnotationRefCount(int screenIndex)
{
return -1;
}
public int getWellAnnotationRefCount(int plateIndex, int wellIndex)
{
return -1;
}
public int getDatasetAnnotationRefCount(int datasetIndex)
{
return -1;
}
public int getProjectAnnotationRefCount(int projectIndex)
{
return -1;
}
public int getReagentAnnotationRefCount(int screenIndex, int reagentIndex)
{
return -1;
}
public int getPlaneAnnotationRefCount(int imageIndex, int planeIndex)
{
return -1;
}
public int getExperimenterAnnotationRefCount(int experimenterIndex)
{
return -1;
}
public int getWellSampleAnnotationRefCount(int plateIndex, int wellIndex, int wellSampleIndex)
{
return -1;
}
public int getPixelsAnnotationRefCount(int imageIndex)
{
return -1;
}
public int getChannelAnnotationRefCount(int imageIndex, int channelIndex)
{
return -1;
}
// Arc entity counting
// BinaryFile entity counting
// BinaryOnly entity counting
// BooleanAnnotation entity counting
public int getBooleanAnnotationCount()
{
return -1;
}
// Channel entity counting
public int getChannelCount(int imageIndex)
{
return -1;
}
// CommentAnnotation entity counting
public int getCommentAnnotationCount()
{
return -1;
}
// Contact entity counting
// Dataset entity counting
public int getDatasetCount()
{
return -1;
}
// DatasetRef entity counting
public int getDatasetRefCount(int imageIndex)
{
return -1;
}
// Detector entity counting
public int getDetectorCount(int instrumentIndex)
{
return -1;
}
// DetectorSettings entity counting
// Dichroic entity counting
public int getDichroicCount(int instrumentIndex)
{
return -1;
}
// DichroicRef entity counting
// DoubleAnnotation entity counting
public int getDoubleAnnotationCount()
{
return -1;
}
// Ellipse entity counting
// EmissionFilterRef entity counting
public int getLightPathEmissionFilterRefCount(int imageIndex, int channelIndex)
{
return -1;
}
public int getFilterSetEmissionFilterRefCount(int instrumentIndex, int filterSetIndex)
{
return -1;
}
// ExcitationFilterRef entity counting
public int getLightPathExcitationFilterRefCount(int imageIndex, int channelIndex)
{
return -1;
}
public int getFilterSetExcitationFilterRefCount(int instrumentIndex, int filterSetIndex)
{
return -1;
}
// Experiment entity counting
public int getExperimentCount()
{
return -1;
}
// ExperimentRef entity counting
// Experimenter entity counting
public int getExperimenterCount()
{
return -1;
}
// ExperimenterRef entity counting
// Filament entity counting
// FileAnnotation entity counting
public int getFileAnnotationCount()
{
return -1;
}
// Filter entity counting
public int getFilterCount(int instrumentIndex)
{
return -1;
}
// FilterSet entity counting
public int getFilterSetCount(int instrumentIndex)
{
return -1;
}
// FilterSetRef entity counting
// Group entity counting
public int getGroupCount()
{
return -1;
}
// GroupRef entity counting
public int getExperimenterGroupRefCount(int experimenterIndex)
{
return -1;
}
// Image entity counting
public int getImageCount()
{
return -1;
}
// ImageRef entity counting
// ImagingEnvironment entity counting
// Instrument entity counting
public int getInstrumentCount()
{
return -1;
}
// InstrumentRef entity counting
// Laser entity counting
// Leader entity counting
// LightEmittingDiode entity counting
// LightPath entity counting
// LightSource entity counting
public int getLightSourceCount(int instrumentIndex)
{
return -1;
}
// LightSourceSettings entity counting
public int getMicrobeamManipulationLightSourceSettingsCount(int experimentIndex, int microbeamManipulationIndex)
{
return -1;
}
// Line entity counting
// ListAnnotation entity counting
public int getListAnnotationCount()
{
return -1;
}
// LongAnnotation entity counting
public int getLongAnnotationCount()
{
return -1;
}
// Mask entity counting
// MetadataOnly entity counting
// MicrobeamManipulation entity counting
public int getMicrobeamManipulationCount(int experimentIndex)
{
return -1;
}
// MicrobeamManipulationRef entity counting
public int getMicrobeamManipulationRefCount(int imageIndex)
{
return -1;
}
// Microscope entity counting
// OTF entity counting
public int getOTFCount(int instrumentIndex)
{
return -1;
}
// OTFRef entity counting
// Objective entity counting
public int getObjectiveCount(int instrumentIndex)
{
return -1;
}
// ObjectiveSettings entity counting
// Path entity counting
// Pixels entity counting
// Plane entity counting
public int getPlaneCount(int imageIndex)
{
return -1;
}
// Plate entity counting
public int getPlateCount()
{
return -1;
}
// PlateAcquisition entity counting
public int getPlateAcquisitionCount(int plateIndex)
{
return -1;
}
// PlateRef entity counting
public int getPlateRefCount(int screenIndex)
{
return -1;
}
// Point entity counting
// Polyline entity counting
// Project entity counting
public int getProjectCount()
{
return -1;
}
// ProjectRef entity counting
public int getProjectRefCount(int datasetIndex)
{
return -1;
}
// Pump entity counting
// ROI entity counting
public int getROICount()
{
return -1;
}
// ROIRef entity counting
public int getImageROIRefCount(int imageIndex)
{
return -1;
}
public int getMicrobeamManipulationROIRefCount(int experimentIndex, int microbeamManipulationIndex)
{
return -1;
}
// Reagent entity counting
public int getReagentCount(int screenIndex)
{
return -1;
}
// ReagentRef entity counting
// Rectangle entity counting
// Screen entity counting
public int getScreenCount()
{
return -1;
}
// ScreenRef entity counting
public int getScreenRefCount(int plateIndex)
{
return -1;
}
// Shape entity counting
public int getShapeCount(int ROIIndex)
{
return -1;
}
// StageLabel entity counting
// StructuredAnnotations entity counting
// TagAnnotation entity counting
public int getTagAnnotationCount()
{
return -1;
}
// TermAnnotation entity counting
public int getTermAnnotationCount()
{
return -1;
}
// Text entity counting
// TiffData entity counting
public int getTiffDataCount(int imageIndex)
{
return -1;
}
// TimestampAnnotation entity counting
public int getTimestampAnnotationCount()
{
return -1;
}
// TransmittanceRange entity counting
// Element's text data
// {u'TiffData': [u'int imageIndex', u'int tiffDataIndex']}
public void setUUIDValue(String value, int imageIndex, int tiffDataIndex)
{
}
public String getUUIDValue(int imageIndex, int tiffDataIndex)
{
return null;
}
// UUID entity counting
// Union entity counting
// Well entity counting
public int getWellCount(int plateIndex)
{
return -1;
}
// WellSample entity counting
public int getWellSampleCount(int plateIndex, int wellIndex)
{
return -1;
}
// WellSampleRef entity counting
public int getWellSampleRefCount(int plateIndex, int plateAcquisitionIndex)
{
return -1;
}
// XMLAnnotation entity counting
public int getXMLAnnotationCount()
{
return -1;
}
// -- Entity retrieval (manual definitions) --
public Boolean getPixelsBinDataBigEndian(int imageIndex, int binDataIndex)
{
return null;
}
// -- Entity retrieval (code generated definitions) --
/** Gets the UUID associated with this collection of metadata. */
public String getUUID()
{
return null;
}
//
// AnnotationRef property storage
//
// Indexes: {u'ROI': [u'int ROIIndex', u'int annotationRefIndex'], u'Reagent': [u'int screenIndex', u'int reagentIndex', u'int annotationRefIndex'], u'Plate': [u'int plateIndex', u'int annotationRefIndex'], u'Image': [u'int imageIndex', u'int annotationRefIndex'], u'Well': [u'int plateIndex', u'int wellIndex', u'int annotationRefIndex'], u'Pixels': [u'int imageIndex', u'int annotationRefIndex'], u'Dataset': [u'int datasetIndex', u'int annotationRefIndex'], u'Project': [u'int projectIndex', u'int annotationRefIndex'], u'PlateAcquisition': [u'int plateIndex', u'int plateAcquisitionIndex', u'int annotationRefIndex'], u'Plane': [u'int imageIndex', u'int planeIndex', u'int annotationRefIndex'], u'Experimenter': [u'int experimenterIndex', u'int annotationRefIndex'], u'Annotation': [u'int annotationRefIndex'], u'WellSample': [u'int plateIndex', u'int wellIndex', u'int wellSampleIndex', u'int annotationRefIndex'], u'Screen': [u'int screenIndex', u'int annotationRefIndex'], u'Channel': [u'int imageIndex', u'int channelIndex', u'int annotationRefIndex']}
// {u'ROI': {u'OME': None}, u'PlateAcquisition': {u'Plate': {u'OME': None}}, u'Plate': {u'OME': None}, u'Image': {u'OME': None}, u'Screen': {u'OME': None}, u'Well': {u'Plate': {u'OME': None}}, u'Dataset': {u'OME': None}, u'Project': {u'OME': None}, u'Reagent': {u'Screen': {u'OME': None}}, u'Plane': {u'Pixels': {u'Image': {u'OME': None}}}, u'Experimenter': {u'OME': None}, u'Annotation': None, u'WellSample': {u'Well': {u'Plate': {u'OME': None}}}, u'Pixels': {u'Image': {u'OME': None}}, u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference AnnotationRef
//
// Arc property storage
//
// Indexes: {u'LightSource': [u'int instrumentIndex', u'int lightSourceIndex']}
// {u'LightSource': {u'Instrument': {u'OME': None}}}
// Is multi path? False
// Ignoring Arc of parent abstract type
// Ignoring Filament of parent abstract type
// ID accessor from parent LightSource
public String getArcID(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Ignoring Laser of parent abstract type
// Ignoring LightEmittingDiode of parent abstract type
// LotNumber accessor from parent LightSource
public String getArcLotNumber(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Manufacturer accessor from parent LightSource
public String getArcManufacturer(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Model accessor from parent LightSource
public String getArcModel(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Power accessor from parent LightSource
public Double getArcPower(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// SerialNumber accessor from parent LightSource
public String getArcSerialNumber(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public ArcType getArcType(int instrumentIndex, int lightSourceIndex)
{
return null;
}
//
// BinaryFile property storage
//
// Indexes: {u'FileAnnotation': [u'int fileAnnotationIndex'], u'OTF': [u'int instrumentIndex', u'int OTFIndex']}
// {u'FileAnnotation': {u'StructuredAnnotations': {u'OME': None}}, u'OTF': {u'Instrument': {u'OME': None}}}
// Is multi path? True
// Ignoring BinData element, complex property
// Ignoring External element, complex property
public String getFileAnnotationBinaryFileFileName(int fileAnnotationIndex)
{
return null;
}
public String getOTFBinaryFileFileName(int instrumentIndex, int OTFIndex)
{
return null;
}
public String getFileAnnotationBinaryFileMIMEType(int fileAnnotationIndex)
{
return null;
}
public String getOTFBinaryFileMIMEType(int instrumentIndex, int OTFIndex)
{
return null;
}
public NonNegativeLong getFileAnnotationBinaryFileSize(int fileAnnotationIndex)
{
return null;
}
public NonNegativeLong getOTFBinaryFileSize(int instrumentIndex, int OTFIndex)
{
return null;
}
//
// BinaryOnly property storage
//
// Indexes: {u'OME': []}
// {u'OME': None}
// Is multi path? False
public String getBinaryOnlyMetadataFile(int metadataFileIndex)
{
return null;
}
public String getBinaryOnlyUUID(int UUIDIndex)
{
return null;
}
//
// BooleanAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int booleanAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getBooleanAnnotationAnnotationRef(int booleanAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getBooleanAnnotationDescription(int booleanAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getBooleanAnnotationID(int booleanAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getBooleanAnnotationNamespace(int booleanAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public Boolean getBooleanAnnotationValue(int booleanAnnotationIndex)
{
return null;
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Channel property storage
//
// Indexes: {u'Pixels': [u'int imageIndex', u'int channelIndex']}
// {u'Pixels': {u'Image': {u'OME': None}}}
// Is multi path? False
public AcquisitionMode getChannelAcquisitionMode(int imageIndex, int channelIndex)
{
return null;
}
public String getChannelAnnotationRef(int imageIndex, int channelIndex, int annotationRefIndex)
{
return null;
}
public Integer getChannelColor(int imageIndex, int channelIndex)
{
return null;
}
public ContrastMethod getChannelContrastMethod(int imageIndex, int channelIndex)
{
return null;
}
// Ignoring DetectorSettings element, complex property
public PositiveInteger getChannelEmissionWavelength(int imageIndex, int channelIndex)
{
return null;
}
public PositiveInteger getChannelExcitationWavelength(int imageIndex, int channelIndex)
{
return null;
}
public String getChannelFilterSetRef(int imageIndex, int channelIndex)
{
return null;
}
public String getChannelFluor(int imageIndex, int channelIndex)
{
return null;
}
public String getChannelID(int imageIndex, int channelIndex)
{
return null;
}
public IlluminationType getChannelIlluminationType(int imageIndex, int channelIndex)
{
return null;
}
// Ignoring LightPath element, complex property
// Ignoring LightSourceSettings element, complex property
public Double getChannelNDFilter(int imageIndex, int channelIndex)
{
return null;
}
public String getChannelName(int imageIndex, int channelIndex)
{
return null;
}
public String getChannelOTFRef(int imageIndex, int channelIndex)
{
return null;
}
public Double getChannelPinholeSize(int imageIndex, int channelIndex)
{
return null;
}
public Integer getChannelPockelCellSetting(int imageIndex, int channelIndex)
{
return null;
}
public PositiveInteger getChannelSamplesPerPixel(int imageIndex, int channelIndex)
{
return null;
}
//
// CommentAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int commentAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getCommentAnnotationAnnotationRef(int commentAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getCommentAnnotationDescription(int commentAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getCommentAnnotationID(int commentAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getCommentAnnotationNamespace(int commentAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public String getCommentAnnotationValue(int commentAnnotationIndex)
{
return null;
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Contact property storage
//
// Indexes: {u'Group': [u'int groupIndex']}
// {u'Group': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference Contact
//
// Dataset property storage
//
// Indexes: {u'OME': [u'int datasetIndex']}
// {u'OME': None}
// Is multi path? False
public String getDatasetAnnotationRef(int datasetIndex, int annotationRefIndex)
{
return null;
}
public String getDatasetDescription(int datasetIndex)
{
return null;
}
public String getDatasetExperimenterRef(int datasetIndex)
{
return null;
}
public String getDatasetGroupRef(int datasetIndex)
{
return null;
}
public String getDatasetID(int datasetIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getDatasetName(int datasetIndex)
{
return null;
}
public String getDatasetProjectRef(int datasetIndex, int projectRefIndex)
{
return null;
}
//
// DatasetRef property storage
//
// Indexes: {u'Image': [u'int imageIndex', u'int datasetRefIndex']}
// {u'Image': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference DatasetRef
//
// Detector property storage
//
// Indexes: {u'Instrument': [u'int instrumentIndex', u'int detectorIndex']}
// {u'Instrument': {u'OME': None}}
// Is multi path? False
public Double getDetectorAmplificationGain(int instrumentIndex, int detectorIndex)
{
return null;
}
public Double getDetectorGain(int instrumentIndex, int detectorIndex)
{
return null;
}
public String getDetectorID(int instrumentIndex, int detectorIndex)
{
return null;
}
public String getDetectorLotNumber(int instrumentIndex, int detectorIndex)
{
return null;
}
public String getDetectorManufacturer(int instrumentIndex, int detectorIndex)
{
return null;
}
public String getDetectorModel(int instrumentIndex, int detectorIndex)
{
return null;
}
public Double getDetectorOffset(int instrumentIndex, int detectorIndex)
{
return null;
}
public String getDetectorSerialNumber(int instrumentIndex, int detectorIndex)
{
return null;
}
public DetectorType getDetectorType(int instrumentIndex, int detectorIndex)
{
return null;
}
public Double getDetectorVoltage(int instrumentIndex, int detectorIndex)
{
return null;
}
public Double getDetectorZoom(int instrumentIndex, int detectorIndex)
{
return null;
}
//
// DetectorSettings property storage
//
// Indexes: {u'Channel': [u'int imageIndex', u'int channelIndex']}
// {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? False
public Binning getDetectorSettingsBinning(int imageIndex, int channelIndex)
{
return null;
}
public Double getDetectorSettingsGain(int imageIndex, int channelIndex)
{
return null;
}
public String getDetectorSettingsID(int imageIndex, int channelIndex)
{
return null;
}
public Double getDetectorSettingsOffset(int imageIndex, int channelIndex)
{
return null;
}
public Double getDetectorSettingsReadOutRate(int imageIndex, int channelIndex)
{
return null;
}
public Double getDetectorSettingsVoltage(int imageIndex, int channelIndex)
{
return null;
}
//
// Dichroic property storage
//
// Indexes: {u'Instrument': [u'int instrumentIndex', u'int dichroicIndex']}
// {u'Instrument': {u'OME': None}}
// Is multi path? False
// Ignoring FilterSet_BackReference back reference
public String getDichroicID(int instrumentIndex, int dichroicIndex)
{
return null;
}
// Ignoring LightPath_BackReference back reference
public String getDichroicLotNumber(int instrumentIndex, int dichroicIndex)
{
return null;
}
public String getDichroicManufacturer(int instrumentIndex, int dichroicIndex)
{
return null;
}
public String getDichroicModel(int instrumentIndex, int dichroicIndex)
{
return null;
}
public String getDichroicSerialNumber(int instrumentIndex, int dichroicIndex)
{
return null;
}
//
// DichroicRef property storage
//
// Indexes: {u'LightPath': [u'int imageIndex', u'int channelIndex'], u'FilterSet': [u'int instrumentIndex', u'int filterSetIndex']}
// {u'LightPath': {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}, u'FilterSet': {u'Instrument': {u'OME': None}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference DichroicRef
//
// DoubleAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int doubleAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getDoubleAnnotationAnnotationRef(int doubleAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getDoubleAnnotationDescription(int doubleAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getDoubleAnnotationID(int doubleAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getDoubleAnnotationNamespace(int doubleAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public Double getDoubleAnnotationValue(int doubleAnnotationIndex)
{
return null;
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Ellipse property storage
//
// Indexes: {u'Shape': [u'int ROIIndex', u'int shapeIndex']}
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public String getEllipseDescription(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public Integer getEllipseFill(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public NonNegativeInteger getEllipseFontSize(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public String getEllipseID(int ROIIndex, int shapeIndex)
{
return null;
}
// Label accessor from parent Shape
public String getEllipseLabel(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public String getEllipseName(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public Integer getEllipseStroke(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeDashArray accessor from parent Shape
public String getEllipseStrokeDashArray(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeWidth accessor from parent Shape
public Double getEllipseStrokeWidth(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public NonNegativeInteger getEllipseTheC(int ROIIndex, int shapeIndex)
{
return null;
}
// TheT accessor from parent Shape
public NonNegativeInteger getEllipseTheT(int ROIIndex, int shapeIndex)
{
return null;
}
// TheZ accessor from parent Shape
public NonNegativeInteger getEllipseTheZ(int ROIIndex, int shapeIndex)
{
return null;
}
// Transform accessor from parent Shape
public String getEllipseTransform(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getEllipseRadiusX(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getEllipseRadiusY(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getEllipseX(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getEllipseY(int ROIIndex, int shapeIndex)
{
return null;
}
//
// EmissionFilterRef property storage
//
// Indexes: {u'LightPath': [u'int imageIndex', u'int channelIndex', u'int emissionFilterRefIndex'], u'FilterSet': [u'int instrumentIndex', u'int filterSetIndex', u'int emissionFilterRefIndex']}
// {u'LightPath': {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}, u'FilterSet': {u'Instrument': {u'OME': None}}}
// Is multi path? True
//
// ExcitationFilterRef property storage
//
// Indexes: {u'LightPath': [u'int imageIndex', u'int channelIndex', u'int excitationFilterRefIndex'], u'FilterSet': [u'int instrumentIndex', u'int filterSetIndex', u'int excitationFilterRefIndex']}
// {u'LightPath': {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}, u'FilterSet': {u'Instrument': {u'OME': None}}}
// Is multi path? True
//
// Experiment property storage
//
// Indexes: {u'OME': [u'int experimentIndex']}
// {u'OME': None}
// Is multi path? False
public String getExperimentDescription(int experimentIndex)
{
return null;
}
public String getExperimentExperimenterRef(int experimentIndex)
{
return null;
}
public String getExperimentID(int experimentIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
// Ignoring MicrobeamManipulation element, complex property
public ExperimentType getExperimentType(int experimentIndex)
{
return null;
}
//
// ExperimentRef property storage
//
// Indexes: {u'Image': [u'int imageIndex']}
// {u'Image': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ExperimentRef
//
// Experimenter property storage
//
// Indexes: {u'OME': [u'int experimenterIndex']}
// {u'OME': None}
// Is multi path? False
public String getExperimenterAnnotationRef(int experimenterIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Dataset_BackReference back reference
public String getExperimenterDisplayName(int experimenterIndex)
{
return null;
}
public String getExperimenterEmail(int experimenterIndex)
{
return null;
}
// Ignoring Experiment_BackReference back reference
public String getExperimenterFirstName(int experimenterIndex)
{
return null;
}
public String getExperimenterGroupRef(int experimenterIndex, int groupRefIndex)
{
return null;
}
public String getExperimenterID(int experimenterIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getExperimenterInstitution(int experimenterIndex)
{
return null;
}
public String getExperimenterLastName(int experimenterIndex)
{
return null;
}
// Ignoring MicrobeamManipulation_BackReference back reference
public String getExperimenterMiddleName(int experimenterIndex)
{
return null;
}
// Ignoring Project_BackReference back reference
public String getExperimenterUserName(int experimenterIndex)
{
return null;
}
//
// ExperimenterRef property storage
//
// Indexes: {u'Project': [u'int projectIndex'], u'MicrobeamManipulation': [u'int experimentIndex', u'int microbeamManipulationIndex'], u'Image': [u'int imageIndex'], u'Experiment': [u'int experimentIndex'], u'Dataset': [u'int datasetIndex']}
// {u'Project': {u'OME': None}, u'Image': {u'OME': None}, u'Dataset': {u'OME': None}, u'Experiment': {u'OME': None}, u'MicrobeamManipulation': {u'Experiment': {u'OME': None}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference ExperimenterRef
//
// Filament property storage
//
// Indexes: {u'LightSource': [u'int instrumentIndex', u'int lightSourceIndex']}
// {u'LightSource': {u'Instrument': {u'OME': None}}}
// Is multi path? False
// Ignoring Arc of parent abstract type
// Ignoring Filament of parent abstract type
// ID accessor from parent LightSource
public String getFilamentID(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Ignoring Laser of parent abstract type
// Ignoring LightEmittingDiode of parent abstract type
// LotNumber accessor from parent LightSource
public String getFilamentLotNumber(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Manufacturer accessor from parent LightSource
public String getFilamentManufacturer(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Model accessor from parent LightSource
public String getFilamentModel(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Power accessor from parent LightSource
public Double getFilamentPower(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// SerialNumber accessor from parent LightSource
public String getFilamentSerialNumber(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public FilamentType getFilamentType(int instrumentIndex, int lightSourceIndex)
{
return null;
}
//
// FileAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int fileAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getFileAnnotationAnnotationRef(int fileAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring BinaryFile element, complex property
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getFileAnnotationDescription(int fileAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getFileAnnotationID(int fileAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getFileAnnotationNamespace(int fileAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Filter property storage
//
// Indexes: {u'Instrument': [u'int instrumentIndex', u'int filterIndex']}
// {u'Instrument': {u'OME': None}}
// Is multi path? False
// Ignoring FilterSet_BackReference back reference
public String getFilterFilterWheel(int instrumentIndex, int filterIndex)
{
return null;
}
public String getFilterID(int instrumentIndex, int filterIndex)
{
return null;
}
// Ignoring LightPath_BackReference back reference
public String getFilterLotNumber(int instrumentIndex, int filterIndex)
{
return null;
}
public String getFilterManufacturer(int instrumentIndex, int filterIndex)
{
return null;
}
public String getFilterModel(int instrumentIndex, int filterIndex)
{
return null;
}
public String getFilterSerialNumber(int instrumentIndex, int filterIndex)
{
return null;
}
// Ignoring TransmittanceRange element, complex property
public FilterType getFilterType(int instrumentIndex, int filterIndex)
{
return null;
}
//
// FilterSet property storage
//
// Indexes: {u'Instrument': [u'int instrumentIndex', u'int filterSetIndex']}
// {u'Instrument': {u'OME': None}}
// Is multi path? False
// Ignoring Channel_BackReference back reference
public String getFilterSetDichroicRef(int instrumentIndex, int filterSetIndex)
{
return null;
}
public String getFilterSetEmissionFilterRef(int instrumentIndex, int filterSetIndex, int emissionFilterRefIndex)
{
return null;
}
public String getFilterSetExcitationFilterRef(int instrumentIndex, int filterSetIndex, int excitationFilterRefIndex)
{
return null;
}
public String getFilterSetID(int instrumentIndex, int filterSetIndex)
{
return null;
}
public String getFilterSetLotNumber(int instrumentIndex, int filterSetIndex)
{
return null;
}
public String getFilterSetManufacturer(int instrumentIndex, int filterSetIndex)
{
return null;
}
public String getFilterSetModel(int instrumentIndex, int filterSetIndex)
{
return null;
}
// Ignoring OTF_BackReference back reference
public String getFilterSetSerialNumber(int instrumentIndex, int filterSetIndex)
{
return null;
}
//
// FilterSetRef property storage
//
// Indexes: {u'Channel': [u'int imageIndex', u'int channelIndex'], u'OTF': [u'int instrumentIndex', u'int OTFIndex']}
// {u'OTF': {u'Instrument': {u'OME': None}}, u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference FilterSetRef
//
// Group property storage
//
// Indexes: {u'OME': [u'int groupIndex']}
// {u'OME': None}
// Is multi path? False
public String getGroupContact(int groupIndex)
{
return null;
}
// Ignoring Dataset_BackReference back reference
public String getGroupDescription(int groupIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getGroupID(int groupIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getGroupLeader(int groupIndex)
{
return null;
}
public String getGroupName(int groupIndex)
{
return null;
}
// Ignoring Project_BackReference back reference
//
// GroupRef property storage
//
// Indexes: {u'Project': [u'int projectIndex'], u'Image': [u'int imageIndex'], u'Experimenter': [u'int experimenterIndex', u'int groupRefIndex'], u'Dataset': [u'int datasetIndex']}
// {u'Project': {u'OME': None}, u'Image': {u'OME': None}, u'Experimenter': {u'OME': None}, u'Dataset': {u'OME': None}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference GroupRef
//
// Image property storage
//
// Indexes: {u'OME': [u'int imageIndex']}
// {u'OME': None}
// Is multi path? False
public String getImageAcquiredDate(int imageIndex)
{
return null;
}
public String getImageAnnotationRef(int imageIndex, int annotationRefIndex)
{
return null;
}
public String getImageDatasetRef(int imageIndex, int datasetRefIndex)
{
return null;
}
public String getImageDescription(int imageIndex)
{
return null;
}
public String getImageExperimentRef(int imageIndex)
{
return null;
}
public String getImageExperimenterRef(int imageIndex)
{
return null;
}
public String getImageGroupRef(int imageIndex)
{
return null;
}
public String getImageID(int imageIndex)
{
return null;
}
// Ignoring ImagingEnvironment element, complex property
public String getImageInstrumentRef(int imageIndex)
{
return null;
}
public String getImageMicrobeamManipulationRef(int imageIndex, int microbeamManipulationRefIndex)
{
return null;
}
public String getImageName(int imageIndex)
{
return null;
}
// Ignoring ObjectiveSettings element, complex property
// Ignoring Pixels element, complex property
public String getImageROIRef(int imageIndex, int ROIRefIndex)
{
return null;
}
// Ignoring StageLabel element, complex property
// Ignoring WellSample_BackReference back reference
//
// ImageRef property storage
//
// Indexes: {u'WellSample': [u'int plateIndex', u'int wellIndex', u'int wellSampleIndex']}
// {u'WellSample': {u'Well': {u'Plate': {u'OME': None}}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ImageRef
//
// ImagingEnvironment property storage
//
// Indexes: {u'Image': [u'int imageIndex']}
// {u'Image': {u'OME': None}}
// Is multi path? False
public Double getImagingEnvironmentAirPressure(int imageIndex)
{
return null;
}
public PercentFraction getImagingEnvironmentCO2Percent(int imageIndex)
{
return null;
}
public PercentFraction getImagingEnvironmentHumidity(int imageIndex)
{
return null;
}
public Double getImagingEnvironmentTemperature(int imageIndex)
{
return null;
}
//
// Instrument property storage
//
// Indexes: {u'OME': [u'int instrumentIndex']}
// {u'OME': None}
// Is multi path? False
// Ignoring Detector element, complex property
// Ignoring Dichroic element, complex property
// Ignoring Filter element, complex property
// Ignoring FilterSet element, complex property
public String getInstrumentID(int instrumentIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
// Ignoring LightSource element, complex property
// Ignoring Microscope element, complex property
// Ignoring OTF element, complex property
// Ignoring Objective element, complex property
//
// InstrumentRef property storage
//
// Indexes: {u'Image': [u'int imageIndex']}
// {u'Image': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference InstrumentRef
//
// Laser property storage
//
// Indexes: {u'LightSource': [u'int instrumentIndex', u'int lightSourceIndex']}
// {u'LightSource': {u'Instrument': {u'OME': None}}}
// Is multi path? False
// Ignoring Arc of parent abstract type
// Ignoring Filament of parent abstract type
// ID accessor from parent LightSource
public String getLaserID(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Ignoring Laser of parent abstract type
// Ignoring LightEmittingDiode of parent abstract type
// LotNumber accessor from parent LightSource
public String getLaserLotNumber(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Manufacturer accessor from parent LightSource
public String getLaserManufacturer(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Model accessor from parent LightSource
public String getLaserModel(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Power accessor from parent LightSource
public Double getLaserPower(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// SerialNumber accessor from parent LightSource
public String getLaserSerialNumber(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public PositiveInteger getLaserFrequencyMultiplication(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public LaserMedium getLaserLaserMedium(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public Boolean getLaserPockelCell(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public Pulse getLaserPulse(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public String getLaserPump(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public Double getLaserRepetitionRate(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public Boolean getLaserTuneable(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public LaserType getLaserType(int instrumentIndex, int lightSourceIndex)
{
return null;
}
public PositiveInteger getLaserWavelength(int instrumentIndex, int lightSourceIndex)
{
return null;
}
//
// Leader property storage
//
// Indexes: {u'Group': [u'int groupIndex']}
// {u'Group': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference Leader
//
// LightEmittingDiode property storage
//
// Indexes: {u'LightSource': [u'int instrumentIndex', u'int lightSourceIndex']}
// {u'LightSource': {u'Instrument': {u'OME': None}}}
// Is multi path? False
// Ignoring Arc of parent abstract type
// Ignoring Filament of parent abstract type
// ID accessor from parent LightSource
public String getLightEmittingDiodeID(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Ignoring Laser of parent abstract type
// Ignoring LightEmittingDiode of parent abstract type
// LotNumber accessor from parent LightSource
public String getLightEmittingDiodeLotNumber(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Manufacturer accessor from parent LightSource
public String getLightEmittingDiodeManufacturer(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Model accessor from parent LightSource
public String getLightEmittingDiodeModel(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// Power accessor from parent LightSource
public Double getLightEmittingDiodePower(int instrumentIndex, int lightSourceIndex)
{
return null;
}
// SerialNumber accessor from parent LightSource
public String getLightEmittingDiodeSerialNumber(int instrumentIndex, int lightSourceIndex)
{
return null;
}
//
// LightPath property storage
//
// Indexes: {u'Channel': [u'int imageIndex', u'int channelIndex']}
// {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? False
public String getLightPathDichroicRef(int imageIndex, int channelIndex)
{
return null;
}
public String getLightPathEmissionFilterRef(int imageIndex, int channelIndex, int emissionFilterRefIndex)
{
return null;
}
public String getLightPathExcitationFilterRef(int imageIndex, int channelIndex, int excitationFilterRefIndex)
{
return null;
}
//
// LightSourceSettings property storage
//
// Indexes: {u'Channel': [u'int imageIndex', u'int channelIndex'], u'MicrobeamManipulation': [u'int experimentIndex', u'int microbeamManipulationIndex', u'int lightSourceSettingsIndex']}
// {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}, u'MicrobeamManipulation': {u'Experiment': {u'OME': None}}}
// Is multi path? True
public PercentFraction getChannelLightSourceSettingsAttenuation(int imageIndex, int channelIndex)
{
return null;
}
public PercentFraction getMicrobeamManipulationLightSourceSettingsAttenuation(int experimentIndex, int microbeamManipulationIndex, int lightSourceSettingsIndex)
{
return null;
}
public String getChannelLightSourceSettingsID(int imageIndex, int channelIndex)
{
return null;
}
public String getMicrobeamManipulationLightSourceSettingsID(int experimentIndex, int microbeamManipulationIndex, int lightSourceSettingsIndex)
{
return null;
}
public PositiveInteger getChannelLightSourceSettingsWavelength(int imageIndex, int channelIndex)
{
return null;
}
public PositiveInteger getMicrobeamManipulationLightSourceSettingsWavelength(int experimentIndex, int microbeamManipulationIndex, int lightSourceSettingsIndex)
{
return null;
}
//
// Line property storage
//
// Indexes: {u'Shape': [u'int ROIIndex', u'int shapeIndex']}
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public String getLineDescription(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public Integer getLineFill(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public NonNegativeInteger getLineFontSize(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public String getLineID(int ROIIndex, int shapeIndex)
{
return null;
}
// Label accessor from parent Shape
public String getLineLabel(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public String getLineName(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public Integer getLineStroke(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeDashArray accessor from parent Shape
public String getLineStrokeDashArray(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeWidth accessor from parent Shape
public Double getLineStrokeWidth(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public NonNegativeInteger getLineTheC(int ROIIndex, int shapeIndex)
{
return null;
}
// TheT accessor from parent Shape
public NonNegativeInteger getLineTheT(int ROIIndex, int shapeIndex)
{
return null;
}
// TheZ accessor from parent Shape
public NonNegativeInteger getLineTheZ(int ROIIndex, int shapeIndex)
{
return null;
}
// Transform accessor from parent Shape
public String getLineTransform(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getLineX1(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getLineX2(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getLineY1(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getLineY2(int ROIIndex, int shapeIndex)
{
return null;
}
//
// ListAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int listAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getListAnnotationAnnotationRef(int listAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getListAnnotationDescription(int listAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getListAnnotationID(int listAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getListAnnotationNamespace(int listAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// LongAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int longAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getLongAnnotationAnnotationRef(int longAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getLongAnnotationDescription(int longAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getLongAnnotationID(int longAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getLongAnnotationNamespace(int longAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public Long getLongAnnotationValue(int longAnnotationIndex)
{
return null;
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Mask property storage
//
// Indexes: {u'Shape': [u'int ROIIndex', u'int shapeIndex']}
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public String getMaskDescription(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public Integer getMaskFill(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public NonNegativeInteger getMaskFontSize(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public String getMaskID(int ROIIndex, int shapeIndex)
{
return null;
}
// Label accessor from parent Shape
public String getMaskLabel(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public String getMaskName(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public Integer getMaskStroke(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeDashArray accessor from parent Shape
public String getMaskStrokeDashArray(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeWidth accessor from parent Shape
public Double getMaskStrokeWidth(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public NonNegativeInteger getMaskTheC(int ROIIndex, int shapeIndex)
{
return null;
}
// TheT accessor from parent Shape
public NonNegativeInteger getMaskTheT(int ROIIndex, int shapeIndex)
{
return null;
}
// TheZ accessor from parent Shape
public NonNegativeInteger getMaskTheZ(int ROIIndex, int shapeIndex)
{
return null;
}
// Transform accessor from parent Shape
public String getMaskTransform(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring BinData element, complex property
public Double getMaskHeight(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getMaskWidth(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getMaskX(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getMaskY(int ROIIndex, int shapeIndex)
{
return null;
}
//
// MetadataOnly property storage
//
// Indexes: {u'Pixels': [u'int imageIndex']}
// {u'Pixels': {u'Image': {u'OME': None}}}
// Is multi path? False
//
// MicrobeamManipulation property storage
//
// Indexes: {u'Experiment': [u'int experimentIndex', u'int microbeamManipulationIndex']}
// {u'Experiment': {u'OME': None}}
// Is multi path? False
public String getMicrobeamManipulationDescription(int experimentIndex, int microbeamManipulationIndex)
{
return null;
}
public String getMicrobeamManipulationExperimenterRef(int experimentIndex, int microbeamManipulationIndex)
{
return null;
}
public String getMicrobeamManipulationID(int experimentIndex, int microbeamManipulationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
// Ignoring LightSourceSettings element, complex property
public String getMicrobeamManipulationROIRef(int experimentIndex, int microbeamManipulationIndex, int ROIRefIndex)
{
return null;
}
public MicrobeamManipulationType getMicrobeamManipulationType(int experimentIndex, int microbeamManipulationIndex)
{
return null;
}
//
// MicrobeamManipulationRef property storage
//
// Indexes: {u'Image': [u'int imageIndex', u'int microbeamManipulationRefIndex']}
// {u'Image': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference MicrobeamManipulationRef
//
// Microscope property storage
//
// Indexes: {u'Instrument': [u'int instrumentIndex']}
// {u'Instrument': {u'OME': None}}
// Is multi path? False
public String getMicroscopeLotNumber(int instrumentIndex)
{
return null;
}
public String getMicroscopeManufacturer(int instrumentIndex)
{
return null;
}
public String getMicroscopeModel(int instrumentIndex)
{
return null;
}
public String getMicroscopeSerialNumber(int instrumentIndex)
{
return null;
}
public MicroscopeType getMicroscopeType(int instrumentIndex)
{
return null;
}
//
// OTF property storage
//
// Indexes: {u'Instrument': [u'int instrumentIndex', u'int OTFIndex']}
// {u'Instrument': {u'OME': None}}
// Is multi path? False
// Ignoring BinaryFile element, complex property
// Ignoring Channel_BackReference back reference
public String getOTFFilterSetRef(int instrumentIndex, int OTFIndex)
{
return null;
}
public String getOTFID(int instrumentIndex, int OTFIndex)
{
return null;
}
// Ignoring ObjectiveSettings element, complex property
public Boolean getOTFOpticalAxisAveraged(int instrumentIndex, int OTFIndex)
{
return null;
}
public PositiveInteger getOTFSizeX(int instrumentIndex, int OTFIndex)
{
return null;
}
public PositiveInteger getOTFSizeY(int instrumentIndex, int OTFIndex)
{
return null;
}
public PixelType getOTFType(int instrumentIndex, int OTFIndex)
{
return null;
}
//
// OTFRef property storage
//
// Indexes: {u'Channel': [u'int imageIndex', u'int channelIndex']}
// {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference OTFRef
//
// Objective property storage
//
// Indexes: {u'Instrument': [u'int instrumentIndex', u'int objectiveIndex']}
// {u'Instrument': {u'OME': None}}
// Is multi path? False
public Double getObjectiveCalibratedMagnification(int instrumentIndex, int objectiveIndex)
{
return null;
}
public Correction getObjectiveCorrection(int instrumentIndex, int objectiveIndex)
{
return null;
}
public String getObjectiveID(int instrumentIndex, int objectiveIndex)
{
return null;
}
public Immersion getObjectiveImmersion(int instrumentIndex, int objectiveIndex)
{
return null;
}
public Boolean getObjectiveIris(int instrumentIndex, int objectiveIndex)
{
return null;
}
public Double getObjectiveLensNA(int instrumentIndex, int objectiveIndex)
{
return null;
}
public String getObjectiveLotNumber(int instrumentIndex, int objectiveIndex)
{
return null;
}
public String getObjectiveManufacturer(int instrumentIndex, int objectiveIndex)
{
return null;
}
public String getObjectiveModel(int instrumentIndex, int objectiveIndex)
{
return null;
}
public PositiveInteger getObjectiveNominalMagnification(int instrumentIndex, int objectiveIndex)
{
return null;
}
public String getObjectiveSerialNumber(int instrumentIndex, int objectiveIndex)
{
return null;
}
public Double getObjectiveWorkingDistance(int instrumentIndex, int objectiveIndex)
{
return null;
}
//
// ObjectiveSettings property storage
//
// Indexes: {u'Image': [u'int imageIndex'], u'OTF': [u'int instrumentIndex', u'int OTFIndex']}
// {u'Image': {u'OME': None}, u'OTF': {u'Instrument': {u'OME': None}}}
// Is multi path? True
public Double getImageObjectiveSettingsCorrectionCollar(int imageIndex)
{
return null;
}
public Double getOTFObjectiveSettingsCorrectionCollar(int instrumentIndex, int OTFIndex)
{
return null;
}
public String getImageObjectiveSettingsID(int imageIndex)
{
return null;
}
public String getOTFObjectiveSettingsID(int instrumentIndex, int OTFIndex)
{
return null;
}
public Medium getImageObjectiveSettingsMedium(int imageIndex)
{
return null;
}
public Medium getOTFObjectiveSettingsMedium(int instrumentIndex, int OTFIndex)
{
return null;
}
public Double getImageObjectiveSettingsRefractiveIndex(int imageIndex)
{
return null;
}
public Double getOTFObjectiveSettingsRefractiveIndex(int instrumentIndex, int OTFIndex)
{
return null;
}
//
// Path property storage
//
// Indexes: {u'Shape': [u'int ROIIndex', u'int shapeIndex']}
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public String getPathDescription(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public Integer getPathFill(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public NonNegativeInteger getPathFontSize(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public String getPathID(int ROIIndex, int shapeIndex)
{
return null;
}
// Label accessor from parent Shape
public String getPathLabel(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public String getPathName(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public Integer getPathStroke(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeDashArray accessor from parent Shape
public String getPathStrokeDashArray(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeWidth accessor from parent Shape
public Double getPathStrokeWidth(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public NonNegativeInteger getPathTheC(int ROIIndex, int shapeIndex)
{
return null;
}
// TheT accessor from parent Shape
public NonNegativeInteger getPathTheT(int ROIIndex, int shapeIndex)
{
return null;
}
// TheZ accessor from parent Shape
public NonNegativeInteger getPathTheZ(int ROIIndex, int shapeIndex)
{
return null;
}
// Transform accessor from parent Shape
public String getPathTransform(int ROIIndex, int shapeIndex)
{
return null;
}
public String getPathDefinition(int ROIIndex, int shapeIndex)
{
return null;
}
//
// Pixels property storage
//
// Indexes: {u'Image': [u'int imageIndex']}
// {u'Image': {u'OME': None}}
// Is multi path? False
public String getPixelsAnnotationRef(int imageIndex, int annotationRefIndex)
{
return null;
}
// Ignoring BinData element, complex property
// Ignoring Channel element, complex property
public DimensionOrder getPixelsDimensionOrder(int imageIndex)
{
return null;
}
public String getPixelsID(int imageIndex)
{
return null;
}
// Ignoring MetadataOnly element, complex property
public PositiveFloat getPixelsPhysicalSizeX(int imageIndex)
{
return null;
}
public PositiveFloat getPixelsPhysicalSizeY(int imageIndex)
{
return null;
}
public PositiveFloat getPixelsPhysicalSizeZ(int imageIndex)
{
return null;
}
// Ignoring Plane element, complex property
public PositiveInteger getPixelsSizeC(int imageIndex)
{
return null;
}
public PositiveInteger getPixelsSizeT(int imageIndex)
{
return null;
}
public PositiveInteger getPixelsSizeX(int imageIndex)
{
return null;
}
public PositiveInteger getPixelsSizeY(int imageIndex)
{
return null;
}
public PositiveInteger getPixelsSizeZ(int imageIndex)
{
return null;
}
// Ignoring TiffData element, complex property
public Double getPixelsTimeIncrement(int imageIndex)
{
return null;
}
public PixelType getPixelsType(int imageIndex)
{
return null;
}
//
// Plane property storage
//
// Indexes: {u'Pixels': [u'int imageIndex', u'int planeIndex']}
// {u'Pixels': {u'Image': {u'OME': None}}}
// Is multi path? False
public String getPlaneAnnotationRef(int imageIndex, int planeIndex, int annotationRefIndex)
{
return null;
}
public Double getPlaneDeltaT(int imageIndex, int planeIndex)
{
return null;
}
public Double getPlaneExposureTime(int imageIndex, int planeIndex)
{
return null;
}
public String getPlaneHashSHA1(int imageIndex, int planeIndex)
{
return null;
}
public Double getPlanePositionX(int imageIndex, int planeIndex)
{
return null;
}
public Double getPlanePositionY(int imageIndex, int planeIndex)
{
return null;
}
public Double getPlanePositionZ(int imageIndex, int planeIndex)
{
return null;
}
public NonNegativeInteger getPlaneTheC(int imageIndex, int planeIndex)
{
return null;
}
public NonNegativeInteger getPlaneTheT(int imageIndex, int planeIndex)
{
return null;
}
public NonNegativeInteger getPlaneTheZ(int imageIndex, int planeIndex)
{
return null;
}
//
// Plate property storage
//
// Indexes: {u'OME': [u'int plateIndex']}
// {u'OME': None}
// Is multi path? False
public String getPlateAnnotationRef(int plateIndex, int annotationRefIndex)
{
return null;
}
public NamingConvention getPlateColumnNamingConvention(int plateIndex)
{
return null;
}
public PositiveInteger getPlateColumns(int plateIndex)
{
return null;
}
public String getPlateDescription(int plateIndex)
{
return null;
}
public String getPlateExternalIdentifier(int plateIndex)
{
return null;
}
public String getPlateID(int plateIndex)
{
return null;
}
public String getPlateName(int plateIndex)
{
return null;
}
// Ignoring PlateAcquisition element, complex property
public NamingConvention getPlateRowNamingConvention(int plateIndex)
{
return null;
}
public PositiveInteger getPlateRows(int plateIndex)
{
return null;
}
public String getPlateScreenRef(int plateIndex, int screenRefIndex)
{
return null;
}
public String getPlateStatus(int plateIndex)
{
return null;
}
// Ignoring Well element, complex property
public Double getPlateWellOriginX(int plateIndex)
{
return null;
}
public Double getPlateWellOriginY(int plateIndex)
{
return null;
}
//
// PlateAcquisition property storage
//
// Indexes: {u'Plate': [u'int plateIndex', u'int plateAcquisitionIndex']}
// {u'Plate': {u'OME': None}}
// Is multi path? False
public String getPlateAcquisitionAnnotationRef(int plateIndex, int plateAcquisitionIndex, int annotationRefIndex)
{
return null;
}
public String getPlateAcquisitionDescription(int plateIndex, int plateAcquisitionIndex)
{
return null;
}
public String getPlateAcquisitionEndTime(int plateIndex, int plateAcquisitionIndex)
{
return null;
}
public String getPlateAcquisitionID(int plateIndex, int plateAcquisitionIndex)
{
return null;
}
public PositiveInteger getPlateAcquisitionMaximumFieldCount(int plateIndex, int plateAcquisitionIndex)
{
return null;
}
public String getPlateAcquisitionName(int plateIndex, int plateAcquisitionIndex)
{
return null;
}
public String getPlateAcquisitionStartTime(int plateIndex, int plateAcquisitionIndex)
{
return null;
}
public String getPlateAcquisitionWellSampleRef(int plateIndex, int plateAcquisitionIndex, int wellSampleRefIndex)
{
return null;
}
//
// PlateRef property storage
//
// Indexes: {u'Screen': [u'int screenIndex', u'int plateRefIndex']}
// {u'Screen': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference PlateRef
//
// Point property storage
//
// Indexes: {u'Shape': [u'int ROIIndex', u'int shapeIndex']}
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public String getPointDescription(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public Integer getPointFill(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public NonNegativeInteger getPointFontSize(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public String getPointID(int ROIIndex, int shapeIndex)
{
return null;
}
// Label accessor from parent Shape
public String getPointLabel(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public String getPointName(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public Integer getPointStroke(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeDashArray accessor from parent Shape
public String getPointStrokeDashArray(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeWidth accessor from parent Shape
public Double getPointStrokeWidth(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public NonNegativeInteger getPointTheC(int ROIIndex, int shapeIndex)
{
return null;
}
// TheT accessor from parent Shape
public NonNegativeInteger getPointTheT(int ROIIndex, int shapeIndex)
{
return null;
}
// TheZ accessor from parent Shape
public NonNegativeInteger getPointTheZ(int ROIIndex, int shapeIndex)
{
return null;
}
// Transform accessor from parent Shape
public String getPointTransform(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getPointX(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getPointY(int ROIIndex, int shapeIndex)
{
return null;
}
//
// Polyline property storage
//
// Indexes: {u'Shape': [u'int ROIIndex', u'int shapeIndex']}
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public String getPolylineDescription(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public Integer getPolylineFill(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public NonNegativeInteger getPolylineFontSize(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public String getPolylineID(int ROIIndex, int shapeIndex)
{
return null;
}
// Label accessor from parent Shape
public String getPolylineLabel(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public String getPolylineName(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public Integer getPolylineStroke(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeDashArray accessor from parent Shape
public String getPolylineStrokeDashArray(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeWidth accessor from parent Shape
public Double getPolylineStrokeWidth(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public NonNegativeInteger getPolylineTheC(int ROIIndex, int shapeIndex)
{
return null;
}
// TheT accessor from parent Shape
public NonNegativeInteger getPolylineTheT(int ROIIndex, int shapeIndex)
{
return null;
}
// TheZ accessor from parent Shape
public NonNegativeInteger getPolylineTheZ(int ROIIndex, int shapeIndex)
{
return null;
}
// Transform accessor from parent Shape
public String getPolylineTransform(int ROIIndex, int shapeIndex)
{
return null;
}
public Boolean getPolylineClosed(int ROIIndex, int shapeIndex)
{
return null;
}
public String getPolylinePoints(int ROIIndex, int shapeIndex)
{
return null;
}
//
// Project property storage
//
// Indexes: {u'OME': [u'int projectIndex']}
// {u'OME': None}
// Is multi path? False
public String getProjectAnnotationRef(int projectIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Dataset_BackReference back reference
public String getProjectDescription(int projectIndex)
{
return null;
}
public String getProjectExperimenterRef(int projectIndex)
{
return null;
}
public String getProjectGroupRef(int projectIndex)
{
return null;
}
public String getProjectID(int projectIndex)
{
return null;
}
public String getProjectName(int projectIndex)
{
return null;
}
//
// ProjectRef property storage
//
// Indexes: {u'Dataset': [u'int datasetIndex', u'int projectRefIndex']}
// {u'Dataset': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ProjectRef
//
// Pump property storage
//
// Indexes: {u'Laser': [u'int instrumentIndex', u'int lightSourceIndex']}
// {u'Laser': {u'LightSource': {u'Instrument': {u'OME': None}}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference Pump
//
// ROI property storage
//
// Indexes: {u'OME': [u'int ROIIndex']}
// {u'OME': None}
// Is multi path? False
public String getROIAnnotationRef(int ROIIndex, int annotationRefIndex)
{
return null;
}
public String getROIDescription(int ROIIndex)
{
return null;
}
public String getROIID(int ROIIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
// Ignoring MicrobeamManipulation_BackReference back reference
public String getROIName(int ROIIndex)
{
return null;
}
public String getROINamespace(int ROIIndex)
{
return null;
}
// Ignoring Union element, complex property
//
// ROIRef property storage
//
// Indexes: {u'Image': [u'int imageIndex', u'int ROIRefIndex'], u'MicrobeamManipulation': [u'int experimentIndex', u'int microbeamManipulationIndex', u'int ROIRefIndex']}
// {u'Image': {u'OME': None}, u'MicrobeamManipulation': {u'Experiment': {u'OME': None}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference ROIRef
//
// Reagent property storage
//
// Indexes: {u'Screen': [u'int screenIndex', u'int reagentIndex']}
// {u'Screen': {u'OME': None}}
// Is multi path? False
public String getReagentAnnotationRef(int screenIndex, int reagentIndex, int annotationRefIndex)
{
return null;
}
public String getReagentDescription(int screenIndex, int reagentIndex)
{
return null;
}
public String getReagentID(int screenIndex, int reagentIndex)
{
return null;
}
public String getReagentName(int screenIndex, int reagentIndex)
{
return null;
}
public String getReagentReagentIdentifier(int screenIndex, int reagentIndex)
{
return null;
}
// Ignoring Well_BackReference back reference
//
// ReagentRef property storage
//
// Indexes: {u'Well': [u'int plateIndex', u'int wellIndex']}
// {u'Well': {u'Plate': {u'OME': None}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ReagentRef
//
// Rectangle property storage
//
// Indexes: {u'Shape': [u'int ROIIndex', u'int shapeIndex']}
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public String getRectangleDescription(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public Integer getRectangleFill(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public NonNegativeInteger getRectangleFontSize(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public String getRectangleID(int ROIIndex, int shapeIndex)
{
return null;
}
// Label accessor from parent Shape
public String getRectangleLabel(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public String getRectangleName(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public Integer getRectangleStroke(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeDashArray accessor from parent Shape
public String getRectangleStrokeDashArray(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeWidth accessor from parent Shape
public Double getRectangleStrokeWidth(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public NonNegativeInteger getRectangleTheC(int ROIIndex, int shapeIndex)
{
return null;
}
// TheT accessor from parent Shape
public NonNegativeInteger getRectangleTheT(int ROIIndex, int shapeIndex)
{
return null;
}
// TheZ accessor from parent Shape
public NonNegativeInteger getRectangleTheZ(int ROIIndex, int shapeIndex)
{
return null;
}
// Transform accessor from parent Shape
public String getRectangleTransform(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getRectangleHeight(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getRectangleWidth(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getRectangleX(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getRectangleY(int ROIIndex, int shapeIndex)
{
return null;
}
//
// Screen property storage
//
// Indexes: {u'OME': [u'int screenIndex']}
// {u'OME': None}
// Is multi path? False
public String getScreenAnnotationRef(int screenIndex, int annotationRefIndex)
{
return null;
}
public String getScreenDescription(int screenIndex)
{
return null;
}
public String getScreenID(int screenIndex)
{
return null;
}
public String getScreenName(int screenIndex)
{
return null;
}
public String getScreenPlateRef(int screenIndex, int plateRefIndex)
{
return null;
}
public String getScreenProtocolDescription(int screenIndex)
{
return null;
}
public String getScreenProtocolIdentifier(int screenIndex)
{
return null;
}
// Ignoring Reagent element, complex property
public String getScreenReagentSetDescription(int screenIndex)
{
return null;
}
public String getScreenReagentSetIdentifier(int screenIndex)
{
return null;
}
public String getScreenType(int screenIndex)
{
return null;
}
//
// ScreenRef property storage
//
// Indexes: {u'Plate': [u'int plateIndex', u'int screenRefIndex']}
// {u'Plate': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ScreenRef
//
// StageLabel property storage
//
// Indexes: {u'Image': [u'int imageIndex']}
// {u'Image': {u'OME': None}}
// Is multi path? False
public String getStageLabelName(int imageIndex)
{
return null;
}
public Double getStageLabelX(int imageIndex)
{
return null;
}
public Double getStageLabelY(int imageIndex)
{
return null;
}
public Double getStageLabelZ(int imageIndex)
{
return null;
}
//
// StructuredAnnotations property storage
//
// Indexes: {u'OME': []}
// {u'OME': None}
// Is multi path? False
// Ignoring BooleanAnnotation element, complex property
// Ignoring CommentAnnotation element, complex property
// Ignoring DoubleAnnotation element, complex property
// Ignoring FileAnnotation element, complex property
// Ignoring ListAnnotation element, complex property
// Ignoring LongAnnotation element, complex property
// Ignoring TagAnnotation element, complex property
// Ignoring TermAnnotation element, complex property
// Ignoring TimestampAnnotation element, complex property
// Ignoring XMLAnnotation element, complex property
//
// TagAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int tagAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getTagAnnotationAnnotationRef(int tagAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getTagAnnotationDescription(int tagAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getTagAnnotationID(int tagAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getTagAnnotationNamespace(int tagAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public String getTagAnnotationValue(int tagAnnotationIndex)
{
return null;
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// TermAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int termAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getTermAnnotationAnnotationRef(int termAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getTermAnnotationDescription(int termAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getTermAnnotationID(int termAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getTermAnnotationNamespace(int termAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public String getTermAnnotationValue(int termAnnotationIndex)
{
return null;
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Text property storage
//
// Indexes: {u'Shape': [u'int ROIIndex', u'int shapeIndex']}
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public String getTextDescription(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public Integer getTextFill(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public NonNegativeInteger getTextFontSize(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public String getTextID(int ROIIndex, int shapeIndex)
{
return null;
}
// Label accessor from parent Shape
public String getTextLabel(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public String getTextName(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public Integer getTextStroke(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeDashArray accessor from parent Shape
public String getTextStrokeDashArray(int ROIIndex, int shapeIndex)
{
return null;
}
// StrokeWidth accessor from parent Shape
public Double getTextStrokeWidth(int ROIIndex, int shapeIndex)
{
return null;
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public NonNegativeInteger getTextTheC(int ROIIndex, int shapeIndex)
{
return null;
}
// TheT accessor from parent Shape
public NonNegativeInteger getTextTheT(int ROIIndex, int shapeIndex)
{
return null;
}
// TheZ accessor from parent Shape
public NonNegativeInteger getTextTheZ(int ROIIndex, int shapeIndex)
{
return null;
}
// Transform accessor from parent Shape
public String getTextTransform(int ROIIndex, int shapeIndex)
{
return null;
}
public String getTextValue(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getTextX(int ROIIndex, int shapeIndex)
{
return null;
}
public Double getTextY(int ROIIndex, int shapeIndex)
{
return null;
}
//
// TiffData property storage
//
// Indexes: {u'Pixels': [u'int imageIndex', u'int tiffDataIndex']}
// {u'Pixels': {u'Image': {u'OME': None}}}
// Is multi path? False
public NonNegativeInteger getTiffDataFirstC(int imageIndex, int tiffDataIndex)
{
return null;
}
public NonNegativeInteger getTiffDataFirstT(int imageIndex, int tiffDataIndex)
{
return null;
}
public NonNegativeInteger getTiffDataFirstZ(int imageIndex, int tiffDataIndex)
{
return null;
}
public NonNegativeInteger getTiffDataIFD(int imageIndex, int tiffDataIndex)
{
return null;
}
public NonNegativeInteger getTiffDataPlaneCount(int imageIndex, int tiffDataIndex)
{
return null;
}
// Ignoring UUID element, complex property
//
// TimestampAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int timestampAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getTimestampAnnotationAnnotationRef(int timestampAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getTimestampAnnotationDescription(int timestampAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getTimestampAnnotationID(int timestampAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getTimestampAnnotationNamespace(int timestampAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public String getTimestampAnnotationValue(int timestampAnnotationIndex)
{
return null;
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// TransmittanceRange property storage
//
// Indexes: {u'Filter': [u'int instrumentIndex', u'int filterIndex']}
// {u'Filter': {u'Instrument': {u'OME': None}}}
// Is multi path? False
public PositiveInteger getTransmittanceRangeCutIn(int instrumentIndex, int filterIndex)
{
return null;
}
public NonNegativeInteger getTransmittanceRangeCutInTolerance(int instrumentIndex, int filterIndex)
{
return null;
}
public PositiveInteger getTransmittanceRangeCutOut(int instrumentIndex, int filterIndex)
{
return null;
}
public NonNegativeInteger getTransmittanceRangeCutOutTolerance(int instrumentIndex, int filterIndex)
{
return null;
}
public PercentFraction getTransmittanceRangeTransmittance(int instrumentIndex, int filterIndex)
{
return null;
}
//
// UUID property storage
//
// Indexes: {u'TiffData': [u'int imageIndex', u'int tiffDataIndex']}
// {u'TiffData': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? False
public String getUUIDFileName(int imageIndex, int tiffDataIndex)
{
return null;
}
//
// Union property storage
//
// Indexes: {u'ROI': [u'int ROIIndex']}
// {u'ROI': {u'OME': None}}
// Is multi path? False
// Ignoring Shape element, complex property
//
// Well property storage
//
// Indexes: {u'Plate': [u'int plateIndex', u'int wellIndex']}
// {u'Plate': {u'OME': None}}
// Is multi path? False
public String getWellAnnotationRef(int plateIndex, int wellIndex, int annotationRefIndex)
{
return null;
}
public Integer getWellColor(int plateIndex, int wellIndex)
{
return null;
}
public NonNegativeInteger getWellColumn(int plateIndex, int wellIndex)
{
return null;
}
public String getWellExternalDescription(int plateIndex, int wellIndex)
{
return null;
}
public String getWellExternalIdentifier(int plateIndex, int wellIndex)
{
return null;
}
public String getWellID(int plateIndex, int wellIndex)
{
return null;
}
public String getWellReagentRef(int plateIndex, int wellIndex)
{
return null;
}
public NonNegativeInteger getWellRow(int plateIndex, int wellIndex)
{
return null;
}
public String getWellStatus(int plateIndex, int wellIndex)
{
return null;
}
// Ignoring WellSample element, complex property
//
// WellSample property storage
//
// Indexes: {u'Well': [u'int plateIndex', u'int wellIndex', u'int wellSampleIndex']}
// {u'Well': {u'Plate': {u'OME': None}}}
// Is multi path? False
public String getWellSampleAnnotationRef(int plateIndex, int wellIndex, int wellSampleIndex, int annotationRefIndex)
{
return null;
}
public String getWellSampleID(int plateIndex, int wellIndex, int wellSampleIndex)
{
return null;
}
public String getWellSampleImageRef(int plateIndex, int wellIndex, int wellSampleIndex)
{
return null;
}
public NonNegativeInteger getWellSampleIndex(int plateIndex, int wellIndex, int wellSampleIndex)
{
return null;
}
// Ignoring PlateAcquisition_BackReference back reference
public Double getWellSamplePositionX(int plateIndex, int wellIndex, int wellSampleIndex)
{
return null;
}
public Double getWellSamplePositionY(int plateIndex, int wellIndex, int wellSampleIndex)
{
return null;
}
public String getWellSampleTimepoint(int plateIndex, int wellIndex, int wellSampleIndex)
{
return null;
}
//
// WellSampleRef property storage
//
// Indexes: {u'PlateAcquisition': [u'int plateIndex', u'int plateAcquisitionIndex', u'int wellSampleRefIndex']}
// {u'PlateAcquisition': {u'Plate': {u'OME': None}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference WellSampleRef
//
// XMLAnnotation property storage
//
// Indexes: {u'StructuredAnnotations': [u'int XMLAnnotationIndex']}
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public String getXMLAnnotationAnnotationRef(int XMLAnnotationIndex, int annotationRefIndex)
{
return null;
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public String getXMLAnnotationDescription(int XMLAnnotationIndex)
{
return null;
}
// Ignoring Experimenter_BackReference back reference
public String getXMLAnnotationID(int XMLAnnotationIndex)
{
return null;
}
// Ignoring Image_BackReference back reference
public String getXMLAnnotationNamespace(int XMLAnnotationIndex)
{
return null;
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public String getXMLAnnotationValue(int XMLAnnotationIndex)
{
return null;
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
// -- Entity storage (manual definitions) --
public void setPixelsBinDataBigEndian(Boolean bigEndian, int imageIndex, int binDataIndex)
{
}
public void setMaskBinData(byte[] binData, int ROIIndex, int shapeIndex)
{
}
// -- Entity storage (code generated definitions) --
/** Sets the UUID associated with this collection of metadata. */
public void setUUID(String uuid)
{
}
//
// AnnotationRef property storage
//
// {u'ROI': {u'OME': None}, u'PlateAcquisition': {u'Plate': {u'OME': None}}, u'Plate': {u'OME': None}, u'Image': {u'OME': None}, u'Screen': {u'OME': None}, u'Well': {u'Plate': {u'OME': None}}, u'Dataset': {u'OME': None}, u'Project': {u'OME': None}, u'Reagent': {u'Screen': {u'OME': None}}, u'Plane': {u'Pixels': {u'Image': {u'OME': None}}}, u'Experimenter': {u'OME': None}, u'Annotation': None, u'WellSample': {u'Well': {u'Plate': {u'OME': None}}}, u'Pixels': {u'Image': {u'OME': None}}, u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference AnnotationRef
//
// Arc property storage
//
// {u'LightSource': {u'Instrument': {u'OME': None}}}
// Is multi path? False
// Ignoring Arc of parent abstract type
// Ignoring Filament of parent abstract type
// ID accessor from parent LightSource
public void setArcID(String id, int instrumentIndex, int lightSourceIndex)
{
}
// Ignoring Laser of parent abstract type
// Ignoring LightEmittingDiode of parent abstract type
// LotNumber accessor from parent LightSource
public void setArcLotNumber(String lotNumber, int instrumentIndex, int lightSourceIndex)
{
}
// Manufacturer accessor from parent LightSource
public void setArcManufacturer(String manufacturer, int instrumentIndex, int lightSourceIndex)
{
}
// Model accessor from parent LightSource
public void setArcModel(String model, int instrumentIndex, int lightSourceIndex)
{
}
// Power accessor from parent LightSource
public void setArcPower(Double power, int instrumentIndex, int lightSourceIndex)
{
}
// SerialNumber accessor from parent LightSource
public void setArcSerialNumber(String serialNumber, int instrumentIndex, int lightSourceIndex)
{
}
public void setArcType(ArcType type, int instrumentIndex, int lightSourceIndex)
{
}
//
// BinaryFile property storage
//
// {u'FileAnnotation': {u'StructuredAnnotations': {u'OME': None}}, u'OTF': {u'Instrument': {u'OME': None}}}
// Is multi path? True
// Ignoring BinData element, complex property
// Ignoring External element, complex property
public void setFileAnnotationBinaryFileFileName(String fileName, int fileAnnotationIndex)
{
}
public void setOTFBinaryFileFileName(String fileName, int instrumentIndex, int OTFIndex)
{
}
public void setFileAnnotationBinaryFileMIMEType(String mimetype, int fileAnnotationIndex)
{
}
public void setOTFBinaryFileMIMEType(String mimetype, int instrumentIndex, int OTFIndex)
{
}
public void setFileAnnotationBinaryFileSize(NonNegativeLong size, int fileAnnotationIndex)
{
}
public void setOTFBinaryFileSize(NonNegativeLong size, int instrumentIndex, int OTFIndex)
{
}
//
// BinaryOnly property storage
//
// {u'OME': None}
// Is multi path? False
public void setBinaryOnlyMetadataFile(String metadataFile)
{
}
public void setBinaryOnlyUUID(String uuid)
{
}
//
// BooleanAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setBooleanAnnotationAnnotationRef(String annotation, int booleanAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setBooleanAnnotationDescription(String description, int booleanAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setBooleanAnnotationID(String id, int booleanAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setBooleanAnnotationNamespace(String namespace, int booleanAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public void setBooleanAnnotationValue(Boolean value, int booleanAnnotationIndex)
{
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Channel property storage
//
// {u'Pixels': {u'Image': {u'OME': None}}}
// Is multi path? False
public void setChannelAcquisitionMode(AcquisitionMode acquisitionMode, int imageIndex, int channelIndex)
{
}
public void setChannelAnnotationRef(String annotation, int imageIndex, int channelIndex, int annotationRefIndex)
{
}
public void setChannelColor(Integer color, int imageIndex, int channelIndex)
{
}
public void setChannelContrastMethod(ContrastMethod contrastMethod, int imageIndex, int channelIndex)
{
}
// Ignoring DetectorSettings element, complex property
public void setChannelEmissionWavelength(PositiveInteger emissionWavelength, int imageIndex, int channelIndex)
{
}
public void setChannelExcitationWavelength(PositiveInteger excitationWavelength, int imageIndex, int channelIndex)
{
}
public void setChannelFilterSetRef(String filterSet, int imageIndex, int channelIndex)
{
}
public void setChannelFluor(String fluor, int imageIndex, int channelIndex)
{
}
public void setChannelID(String id, int imageIndex, int channelIndex)
{
}
public void setChannelIlluminationType(IlluminationType illuminationType, int imageIndex, int channelIndex)
{
}
// Ignoring LightPath element, complex property
// Ignoring LightSourceSettings element, complex property
public void setChannelNDFilter(Double ndfilter, int imageIndex, int channelIndex)
{
}
public void setChannelName(String name, int imageIndex, int channelIndex)
{
}
public void setChannelOTFRef(String otf, int imageIndex, int channelIndex)
{
}
public void setChannelPinholeSize(Double pinholeSize, int imageIndex, int channelIndex)
{
}
public void setChannelPockelCellSetting(Integer pockelCellSetting, int imageIndex, int channelIndex)
{
}
public void setChannelSamplesPerPixel(PositiveInteger samplesPerPixel, int imageIndex, int channelIndex)
{
}
//
// CommentAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setCommentAnnotationAnnotationRef(String annotation, int commentAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setCommentAnnotationDescription(String description, int commentAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setCommentAnnotationID(String id, int commentAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setCommentAnnotationNamespace(String namespace, int commentAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public void setCommentAnnotationValue(String value, int commentAnnotationIndex)
{
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Contact property storage
//
// {u'Group': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference Contact
//
// Dataset property storage
//
// {u'OME': None}
// Is multi path? False
public void setDatasetAnnotationRef(String annotation, int datasetIndex, int annotationRefIndex)
{
}
public void setDatasetDescription(String description, int datasetIndex)
{
}
public void setDatasetExperimenterRef(String experimenter, int datasetIndex)
{
}
public void setDatasetGroupRef(String group, int datasetIndex)
{
}
public void setDatasetID(String id, int datasetIndex)
{
}
// Ignoring Image_BackReference back reference
public void setDatasetName(String name, int datasetIndex)
{
}
public void setDatasetProjectRef(String project, int datasetIndex, int projectRefIndex)
{
}
//
// DatasetRef property storage
//
// {u'Image': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference DatasetRef
//
// Detector property storage
//
// {u'Instrument': {u'OME': None}}
// Is multi path? False
public void setDetectorAmplificationGain(Double amplificationGain, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorGain(Double gain, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorID(String id, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorLotNumber(String lotNumber, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorManufacturer(String manufacturer, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorModel(String model, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorOffset(Double offset, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorSerialNumber(String serialNumber, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorType(DetectorType type, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorVoltage(Double voltage, int instrumentIndex, int detectorIndex)
{
}
public void setDetectorZoom(Double zoom, int instrumentIndex, int detectorIndex)
{
}
//
// DetectorSettings property storage
//
// {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? False
public void setDetectorSettingsBinning(Binning binning, int imageIndex, int channelIndex)
{
}
public void setDetectorSettingsGain(Double gain, int imageIndex, int channelIndex)
{
}
public void setDetectorSettingsID(String id, int imageIndex, int channelIndex)
{
}
public void setDetectorSettingsOffset(Double offset, int imageIndex, int channelIndex)
{
}
public void setDetectorSettingsReadOutRate(Double readOutRate, int imageIndex, int channelIndex)
{
}
public void setDetectorSettingsVoltage(Double voltage, int imageIndex, int channelIndex)
{
}
//
// Dichroic property storage
//
// {u'Instrument': {u'OME': None}}
// Is multi path? False
// Ignoring FilterSet_BackReference back reference
public void setDichroicID(String id, int instrumentIndex, int dichroicIndex)
{
}
// Ignoring LightPath_BackReference back reference
public void setDichroicLotNumber(String lotNumber, int instrumentIndex, int dichroicIndex)
{
}
public void setDichroicManufacturer(String manufacturer, int instrumentIndex, int dichroicIndex)
{
}
public void setDichroicModel(String model, int instrumentIndex, int dichroicIndex)
{
}
public void setDichroicSerialNumber(String serialNumber, int instrumentIndex, int dichroicIndex)
{
}
//
// DichroicRef property storage
//
// {u'LightPath': {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}, u'FilterSet': {u'Instrument': {u'OME': None}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference DichroicRef
//
// DoubleAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setDoubleAnnotationAnnotationRef(String annotation, int doubleAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setDoubleAnnotationDescription(String description, int doubleAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setDoubleAnnotationID(String id, int doubleAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setDoubleAnnotationNamespace(String namespace, int doubleAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public void setDoubleAnnotationValue(Double value, int doubleAnnotationIndex)
{
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Ellipse property storage
//
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public void setEllipseDescription(String description, int ROIIndex, int shapeIndex)
{
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public void setEllipseFill(Integer fill, int ROIIndex, int shapeIndex)
{
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public void setEllipseFontSize(NonNegativeInteger fontSize, int ROIIndex, int shapeIndex)
{
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public void setEllipseID(String id, int ROIIndex, int shapeIndex)
{
}
// Label accessor from parent Shape
public void setEllipseLabel(String label, int ROIIndex, int shapeIndex)
{
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public void setEllipseName(String name, int ROIIndex, int shapeIndex)
{
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public void setEllipseStroke(Integer stroke, int ROIIndex, int shapeIndex)
{
}
// StrokeDashArray accessor from parent Shape
public void setEllipseStrokeDashArray(String strokeDashArray, int ROIIndex, int shapeIndex)
{
}
// StrokeWidth accessor from parent Shape
public void setEllipseStrokeWidth(Double strokeWidth, int ROIIndex, int shapeIndex)
{
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public void setEllipseTheC(NonNegativeInteger theC, int ROIIndex, int shapeIndex)
{
}
// TheT accessor from parent Shape
public void setEllipseTheT(NonNegativeInteger theT, int ROIIndex, int shapeIndex)
{
}
// TheZ accessor from parent Shape
public void setEllipseTheZ(NonNegativeInteger theZ, int ROIIndex, int shapeIndex)
{
}
// Transform accessor from parent Shape
public void setEllipseTransform(String transform, int ROIIndex, int shapeIndex)
{
}
public void setEllipseRadiusX(Double radiusX, int ROIIndex, int shapeIndex)
{
}
public void setEllipseRadiusY(Double radiusY, int ROIIndex, int shapeIndex)
{
}
public void setEllipseX(Double x, int ROIIndex, int shapeIndex)
{
}
public void setEllipseY(Double y, int ROIIndex, int shapeIndex)
{
}
//
// EmissionFilterRef property storage
//
// {u'LightPath': {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}, u'FilterSet': {u'Instrument': {u'OME': None}}}
// Is multi path? True
//
// ExcitationFilterRef property storage
//
// {u'LightPath': {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}, u'FilterSet': {u'Instrument': {u'OME': None}}}
// Is multi path? True
//
// Experiment property storage
//
// {u'OME': None}
// Is multi path? False
public void setExperimentDescription(String description, int experimentIndex)
{
}
public void setExperimentExperimenterRef(String experimenter, int experimentIndex)
{
}
public void setExperimentID(String id, int experimentIndex)
{
}
// Ignoring Image_BackReference back reference
// Ignoring MicrobeamManipulation element, complex property
public void setExperimentType(ExperimentType type, int experimentIndex)
{
}
//
// ExperimentRef property storage
//
// {u'Image': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ExperimentRef
//
// Experimenter property storage
//
// {u'OME': None}
// Is multi path? False
public void setExperimenterAnnotationRef(String annotation, int experimenterIndex, int annotationRefIndex)
{
}
// Ignoring Dataset_BackReference back reference
public void setExperimenterDisplayName(String displayName, int experimenterIndex)
{
}
public void setExperimenterEmail(String email, int experimenterIndex)
{
}
// Ignoring Experiment_BackReference back reference
public void setExperimenterFirstName(String firstName, int experimenterIndex)
{
}
public void setExperimenterGroupRef(String group, int experimenterIndex, int groupRefIndex)
{
}
public void setExperimenterID(String id, int experimenterIndex)
{
}
// Ignoring Image_BackReference back reference
public void setExperimenterInstitution(String institution, int experimenterIndex)
{
}
public void setExperimenterLastName(String lastName, int experimenterIndex)
{
}
// Ignoring MicrobeamManipulation_BackReference back reference
public void setExperimenterMiddleName(String middleName, int experimenterIndex)
{
}
// Ignoring Project_BackReference back reference
public void setExperimenterUserName(String userName, int experimenterIndex)
{
}
//
// ExperimenterRef property storage
//
// {u'Project': {u'OME': None}, u'Image': {u'OME': None}, u'Dataset': {u'OME': None}, u'Experiment': {u'OME': None}, u'MicrobeamManipulation': {u'Experiment': {u'OME': None}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference ExperimenterRef
//
// Filament property storage
//
// {u'LightSource': {u'Instrument': {u'OME': None}}}
// Is multi path? False
// Ignoring Arc of parent abstract type
// Ignoring Filament of parent abstract type
// ID accessor from parent LightSource
public void setFilamentID(String id, int instrumentIndex, int lightSourceIndex)
{
}
// Ignoring Laser of parent abstract type
// Ignoring LightEmittingDiode of parent abstract type
// LotNumber accessor from parent LightSource
public void setFilamentLotNumber(String lotNumber, int instrumentIndex, int lightSourceIndex)
{
}
// Manufacturer accessor from parent LightSource
public void setFilamentManufacturer(String manufacturer, int instrumentIndex, int lightSourceIndex)
{
}
// Model accessor from parent LightSource
public void setFilamentModel(String model, int instrumentIndex, int lightSourceIndex)
{
}
// Power accessor from parent LightSource
public void setFilamentPower(Double power, int instrumentIndex, int lightSourceIndex)
{
}
// SerialNumber accessor from parent LightSource
public void setFilamentSerialNumber(String serialNumber, int instrumentIndex, int lightSourceIndex)
{
}
public void setFilamentType(FilamentType type, int instrumentIndex, int lightSourceIndex)
{
}
//
// FileAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setFileAnnotationAnnotationRef(String annotation, int fileAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring BinaryFile element, complex property
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setFileAnnotationDescription(String description, int fileAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setFileAnnotationID(String id, int fileAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setFileAnnotationNamespace(String namespace, int fileAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Filter property storage
//
// {u'Instrument': {u'OME': None}}
// Is multi path? False
// Ignoring FilterSet_BackReference back reference
public void setFilterFilterWheel(String filterWheel, int instrumentIndex, int filterIndex)
{
}
public void setFilterID(String id, int instrumentIndex, int filterIndex)
{
}
// Ignoring LightPath_BackReference back reference
public void setFilterLotNumber(String lotNumber, int instrumentIndex, int filterIndex)
{
}
public void setFilterManufacturer(String manufacturer, int instrumentIndex, int filterIndex)
{
}
public void setFilterModel(String model, int instrumentIndex, int filterIndex)
{
}
public void setFilterSerialNumber(String serialNumber, int instrumentIndex, int filterIndex)
{
}
// Ignoring TransmittanceRange element, complex property
public void setFilterType(FilterType type, int instrumentIndex, int filterIndex)
{
}
//
// FilterSet property storage
//
// {u'Instrument': {u'OME': None}}
// Is multi path? False
// Ignoring Channel_BackReference back reference
public void setFilterSetDichroicRef(String dichroic, int instrumentIndex, int filterSetIndex)
{
}
public void setFilterSetEmissionFilterRef(String emissionFilter, int instrumentIndex, int filterSetIndex, int emissionFilterRefIndex)
{
}
public void setFilterSetExcitationFilterRef(String excitationFilter, int instrumentIndex, int filterSetIndex, int excitationFilterRefIndex)
{
}
public void setFilterSetID(String id, int instrumentIndex, int filterSetIndex)
{
}
public void setFilterSetLotNumber(String lotNumber, int instrumentIndex, int filterSetIndex)
{
}
public void setFilterSetManufacturer(String manufacturer, int instrumentIndex, int filterSetIndex)
{
}
public void setFilterSetModel(String model, int instrumentIndex, int filterSetIndex)
{
}
// Ignoring OTF_BackReference back reference
public void setFilterSetSerialNumber(String serialNumber, int instrumentIndex, int filterSetIndex)
{
}
//
// FilterSetRef property storage
//
// {u'OTF': {u'Instrument': {u'OME': None}}, u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference FilterSetRef
//
// Group property storage
//
// {u'OME': None}
// Is multi path? False
public void setGroupContact(String contact, int groupIndex)
{
}
// Ignoring Dataset_BackReference back reference
public void setGroupDescription(String description, int groupIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setGroupID(String id, int groupIndex)
{
}
// Ignoring Image_BackReference back reference
public void setGroupLeader(String leader, int groupIndex)
{
}
public void setGroupName(String name, int groupIndex)
{
}
// Ignoring Project_BackReference back reference
//
// GroupRef property storage
//
// {u'Project': {u'OME': None}, u'Image': {u'OME': None}, u'Experimenter': {u'OME': None}, u'Dataset': {u'OME': None}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference GroupRef
//
// Image property storage
//
// {u'OME': None}
// Is multi path? False
public void setImageAcquiredDate(String acquiredDate, int imageIndex)
{
}
public void setImageAnnotationRef(String annotation, int imageIndex, int annotationRefIndex)
{
}
public void setImageDatasetRef(String dataset, int imageIndex, int datasetRefIndex)
{
}
public void setImageDescription(String description, int imageIndex)
{
}
public void setImageExperimentRef(String experiment, int imageIndex)
{
}
public void setImageExperimenterRef(String experimenter, int imageIndex)
{
}
public void setImageGroupRef(String group, int imageIndex)
{
}
public void setImageID(String id, int imageIndex)
{
}
// Ignoring ImagingEnvironment element, complex property
public void setImageInstrumentRef(String instrument, int imageIndex)
{
}
public void setImageMicrobeamManipulationRef(String microbeamManipulation, int imageIndex, int microbeamManipulationRefIndex)
{
}
public void setImageName(String name, int imageIndex)
{
}
// Ignoring ObjectiveSettings element, complex property
// Ignoring Pixels element, complex property
public void setImageROIRef(String roi, int imageIndex, int ROIRefIndex)
{
}
// Ignoring StageLabel element, complex property
// Ignoring WellSample_BackReference back reference
//
// ImageRef property storage
//
// {u'WellSample': {u'Well': {u'Plate': {u'OME': None}}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ImageRef
//
// ImagingEnvironment property storage
//
// {u'Image': {u'OME': None}}
// Is multi path? False
public void setImagingEnvironmentAirPressure(Double airPressure, int imageIndex)
{
}
public void setImagingEnvironmentCO2Percent(PercentFraction co2percent, int imageIndex)
{
}
public void setImagingEnvironmentHumidity(PercentFraction humidity, int imageIndex)
{
}
public void setImagingEnvironmentTemperature(Double temperature, int imageIndex)
{
}
//
// Instrument property storage
//
// {u'OME': None}
// Is multi path? False
// Ignoring Detector element, complex property
// Ignoring Dichroic element, complex property
// Ignoring Filter element, complex property
// Ignoring FilterSet element, complex property
public void setInstrumentID(String id, int instrumentIndex)
{
}
// Ignoring Image_BackReference back reference
// Ignoring LightSource element, complex property
// Ignoring Microscope element, complex property
// Ignoring OTF element, complex property
// Ignoring Objective element, complex property
//
// InstrumentRef property storage
//
// {u'Image': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference InstrumentRef
//
// Laser property storage
//
// {u'LightSource': {u'Instrument': {u'OME': None}}}
// Is multi path? False
// Ignoring Arc of parent abstract type
// Ignoring Filament of parent abstract type
// ID accessor from parent LightSource
public void setLaserID(String id, int instrumentIndex, int lightSourceIndex)
{
}
// Ignoring Laser of parent abstract type
// Ignoring LightEmittingDiode of parent abstract type
// LotNumber accessor from parent LightSource
public void setLaserLotNumber(String lotNumber, int instrumentIndex, int lightSourceIndex)
{
}
// Manufacturer accessor from parent LightSource
public void setLaserManufacturer(String manufacturer, int instrumentIndex, int lightSourceIndex)
{
}
// Model accessor from parent LightSource
public void setLaserModel(String model, int instrumentIndex, int lightSourceIndex)
{
}
// Power accessor from parent LightSource
public void setLaserPower(Double power, int instrumentIndex, int lightSourceIndex)
{
}
// SerialNumber accessor from parent LightSource
public void setLaserSerialNumber(String serialNumber, int instrumentIndex, int lightSourceIndex)
{
}
public void setLaserFrequencyMultiplication(PositiveInteger frequencyMultiplication, int instrumentIndex, int lightSourceIndex)
{
}
public void setLaserLaserMedium(LaserMedium laserMedium, int instrumentIndex, int lightSourceIndex)
{
}
public void setLaserPockelCell(Boolean pockelCell, int instrumentIndex, int lightSourceIndex)
{
}
public void setLaserPulse(Pulse pulse, int instrumentIndex, int lightSourceIndex)
{
}
public void setLaserPump(String pump, int instrumentIndex, int lightSourceIndex)
{
}
public void setLaserRepetitionRate(Double repetitionRate, int instrumentIndex, int lightSourceIndex)
{
}
public void setLaserTuneable(Boolean tuneable, int instrumentIndex, int lightSourceIndex)
{
}
public void setLaserType(LaserType type, int instrumentIndex, int lightSourceIndex)
{
}
public void setLaserWavelength(PositiveInteger wavelength, int instrumentIndex, int lightSourceIndex)
{
}
//
// Leader property storage
//
// {u'Group': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference Leader
//
// LightEmittingDiode property storage
//
// {u'LightSource': {u'Instrument': {u'OME': None}}}
// Is multi path? False
// Ignoring Arc of parent abstract type
// Ignoring Filament of parent abstract type
// ID accessor from parent LightSource
public void setLightEmittingDiodeID(String id, int instrumentIndex, int lightSourceIndex)
{
}
// Ignoring Laser of parent abstract type
// Ignoring LightEmittingDiode of parent abstract type
// LotNumber accessor from parent LightSource
public void setLightEmittingDiodeLotNumber(String lotNumber, int instrumentIndex, int lightSourceIndex)
{
}
// Manufacturer accessor from parent LightSource
public void setLightEmittingDiodeManufacturer(String manufacturer, int instrumentIndex, int lightSourceIndex)
{
}
// Model accessor from parent LightSource
public void setLightEmittingDiodeModel(String model, int instrumentIndex, int lightSourceIndex)
{
}
// Power accessor from parent LightSource
public void setLightEmittingDiodePower(Double power, int instrumentIndex, int lightSourceIndex)
{
}
// SerialNumber accessor from parent LightSource
public void setLightEmittingDiodeSerialNumber(String serialNumber, int instrumentIndex, int lightSourceIndex)
{
}
//
// LightPath property storage
//
// {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? False
public void setLightPathDichroicRef(String dichroic, int imageIndex, int channelIndex)
{
}
public void setLightPathEmissionFilterRef(String emissionFilter, int imageIndex, int channelIndex, int emissionFilterRefIndex)
{
}
public void setLightPathExcitationFilterRef(String excitationFilter, int imageIndex, int channelIndex, int excitationFilterRefIndex)
{
}
//
// LightSourceSettings property storage
//
// {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}, u'MicrobeamManipulation': {u'Experiment': {u'OME': None}}}
// Is multi path? True
public void setChannelLightSourceSettingsAttenuation(PercentFraction attenuation, int imageIndex, int channelIndex)
{
}
public void setMicrobeamManipulationLightSourceSettingsAttenuation(PercentFraction attenuation, int experimentIndex, int microbeamManipulationIndex, int lightSourceSettingsIndex)
{
}
public void setChannelLightSourceSettingsID(String id, int imageIndex, int channelIndex)
{
}
public void setMicrobeamManipulationLightSourceSettingsID(String id, int experimentIndex, int microbeamManipulationIndex, int lightSourceSettingsIndex)
{
}
public void setChannelLightSourceSettingsWavelength(PositiveInteger wavelength, int imageIndex, int channelIndex)
{
}
public void setMicrobeamManipulationLightSourceSettingsWavelength(PositiveInteger wavelength, int experimentIndex, int microbeamManipulationIndex, int lightSourceSettingsIndex)
{
}
//
// Line property storage
//
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public void setLineDescription(String description, int ROIIndex, int shapeIndex)
{
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public void setLineFill(Integer fill, int ROIIndex, int shapeIndex)
{
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public void setLineFontSize(NonNegativeInteger fontSize, int ROIIndex, int shapeIndex)
{
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public void setLineID(String id, int ROIIndex, int shapeIndex)
{
}
// Label accessor from parent Shape
public void setLineLabel(String label, int ROIIndex, int shapeIndex)
{
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public void setLineName(String name, int ROIIndex, int shapeIndex)
{
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public void setLineStroke(Integer stroke, int ROIIndex, int shapeIndex)
{
}
// StrokeDashArray accessor from parent Shape
public void setLineStrokeDashArray(String strokeDashArray, int ROIIndex, int shapeIndex)
{
}
// StrokeWidth accessor from parent Shape
public void setLineStrokeWidth(Double strokeWidth, int ROIIndex, int shapeIndex)
{
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public void setLineTheC(NonNegativeInteger theC, int ROIIndex, int shapeIndex)
{
}
// TheT accessor from parent Shape
public void setLineTheT(NonNegativeInteger theT, int ROIIndex, int shapeIndex)
{
}
// TheZ accessor from parent Shape
public void setLineTheZ(NonNegativeInteger theZ, int ROIIndex, int shapeIndex)
{
}
// Transform accessor from parent Shape
public void setLineTransform(String transform, int ROIIndex, int shapeIndex)
{
}
public void setLineX1(Double x1, int ROIIndex, int shapeIndex)
{
}
public void setLineX2(Double x2, int ROIIndex, int shapeIndex)
{
}
public void setLineY1(Double y1, int ROIIndex, int shapeIndex)
{
}
public void setLineY2(Double y2, int ROIIndex, int shapeIndex)
{
}
//
// ListAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setListAnnotationAnnotationRef(String annotation, int listAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setListAnnotationDescription(String description, int listAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setListAnnotationID(String id, int listAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setListAnnotationNamespace(String namespace, int listAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// LongAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setLongAnnotationAnnotationRef(String annotation, int longAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setLongAnnotationDescription(String description, int longAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setLongAnnotationID(String id, int longAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setLongAnnotationNamespace(String namespace, int longAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public void setLongAnnotationValue(Long value, int longAnnotationIndex)
{
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Mask property storage
//
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public void setMaskDescription(String description, int ROIIndex, int shapeIndex)
{
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public void setMaskFill(Integer fill, int ROIIndex, int shapeIndex)
{
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public void setMaskFontSize(NonNegativeInteger fontSize, int ROIIndex, int shapeIndex)
{
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public void setMaskID(String id, int ROIIndex, int shapeIndex)
{
}
// Label accessor from parent Shape
public void setMaskLabel(String label, int ROIIndex, int shapeIndex)
{
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public void setMaskName(String name, int ROIIndex, int shapeIndex)
{
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public void setMaskStroke(Integer stroke, int ROIIndex, int shapeIndex)
{
}
// StrokeDashArray accessor from parent Shape
public void setMaskStrokeDashArray(String strokeDashArray, int ROIIndex, int shapeIndex)
{
}
// StrokeWidth accessor from parent Shape
public void setMaskStrokeWidth(Double strokeWidth, int ROIIndex, int shapeIndex)
{
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public void setMaskTheC(NonNegativeInteger theC, int ROIIndex, int shapeIndex)
{
}
// TheT accessor from parent Shape
public void setMaskTheT(NonNegativeInteger theT, int ROIIndex, int shapeIndex)
{
}
// TheZ accessor from parent Shape
public void setMaskTheZ(NonNegativeInteger theZ, int ROIIndex, int shapeIndex)
{
}
// Transform accessor from parent Shape
public void setMaskTransform(String transform, int ROIIndex, int shapeIndex)
{
}
// Ignoring BinData element, complex property
public void setMaskHeight(Double height, int ROIIndex, int shapeIndex)
{
}
public void setMaskWidth(Double width, int ROIIndex, int shapeIndex)
{
}
public void setMaskX(Double x, int ROIIndex, int shapeIndex)
{
}
public void setMaskY(Double y, int ROIIndex, int shapeIndex)
{
}
//
// MetadataOnly property storage
//
// {u'Pixels': {u'Image': {u'OME': None}}}
// Is multi path? False
//
// MicrobeamManipulation property storage
//
// {u'Experiment': {u'OME': None}}
// Is multi path? False
public void setMicrobeamManipulationDescription(String description, int experimentIndex, int microbeamManipulationIndex)
{
}
public void setMicrobeamManipulationExperimenterRef(String experimenter, int experimentIndex, int microbeamManipulationIndex)
{
}
public void setMicrobeamManipulationID(String id, int experimentIndex, int microbeamManipulationIndex)
{
}
// Ignoring Image_BackReference back reference
// Ignoring LightSourceSettings element, complex property
public void setMicrobeamManipulationROIRef(String roi, int experimentIndex, int microbeamManipulationIndex, int ROIRefIndex)
{
}
public void setMicrobeamManipulationType(MicrobeamManipulationType type, int experimentIndex, int microbeamManipulationIndex)
{
}
//
// MicrobeamManipulationRef property storage
//
// {u'Image': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference MicrobeamManipulationRef
//
// Microscope property storage
//
// {u'Instrument': {u'OME': None}}
// Is multi path? False
public void setMicroscopeLotNumber(String lotNumber, int instrumentIndex)
{
}
public void setMicroscopeManufacturer(String manufacturer, int instrumentIndex)
{
}
public void setMicroscopeModel(String model, int instrumentIndex)
{
}
public void setMicroscopeSerialNumber(String serialNumber, int instrumentIndex)
{
}
public void setMicroscopeType(MicroscopeType type, int instrumentIndex)
{
}
//
// OTF property storage
//
// {u'Instrument': {u'OME': None}}
// Is multi path? False
// Ignoring BinaryFile element, complex property
// Ignoring Channel_BackReference back reference
public void setOTFFilterSetRef(String filterSet, int instrumentIndex, int OTFIndex)
{
}
public void setOTFID(String id, int instrumentIndex, int OTFIndex)
{
}
// Ignoring ObjectiveSettings element, complex property
public void setOTFOpticalAxisAveraged(Boolean opticalAxisAveraged, int instrumentIndex, int OTFIndex)
{
}
public void setOTFSizeX(PositiveInteger sizeX, int instrumentIndex, int OTFIndex)
{
}
public void setOTFSizeY(PositiveInteger sizeY, int instrumentIndex, int OTFIndex)
{
}
public void setOTFType(PixelType type, int instrumentIndex, int OTFIndex)
{
}
//
// OTFRef property storage
//
// {u'Channel': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference OTFRef
//
// Objective property storage
//
// {u'Instrument': {u'OME': None}}
// Is multi path? False
public void setObjectiveCalibratedMagnification(Double calibratedMagnification, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveCorrection(Correction correction, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveID(String id, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveImmersion(Immersion immersion, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveIris(Boolean iris, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveLensNA(Double lensNA, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveLotNumber(String lotNumber, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveManufacturer(String manufacturer, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveModel(String model, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveNominalMagnification(PositiveInteger nominalMagnification, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveSerialNumber(String serialNumber, int instrumentIndex, int objectiveIndex)
{
}
public void setObjectiveWorkingDistance(Double workingDistance, int instrumentIndex, int objectiveIndex)
{
}
//
// ObjectiveSettings property storage
//
// {u'Image': {u'OME': None}, u'OTF': {u'Instrument': {u'OME': None}}}
// Is multi path? True
public void setImageObjectiveSettingsCorrectionCollar(Double correctionCollar, int imageIndex)
{
}
public void setOTFObjectiveSettingsCorrectionCollar(Double correctionCollar, int instrumentIndex, int OTFIndex)
{
}
public void setImageObjectiveSettingsID(String id, int imageIndex)
{
}
public void setOTFObjectiveSettingsID(String id, int instrumentIndex, int OTFIndex)
{
}
public void setImageObjectiveSettingsMedium(Medium medium, int imageIndex)
{
}
public void setOTFObjectiveSettingsMedium(Medium medium, int instrumentIndex, int OTFIndex)
{
}
public void setImageObjectiveSettingsRefractiveIndex(Double refractiveIndex, int imageIndex)
{
}
public void setOTFObjectiveSettingsRefractiveIndex(Double refractiveIndex, int instrumentIndex, int OTFIndex)
{
}
//
// Path property storage
//
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public void setPathDescription(String description, int ROIIndex, int shapeIndex)
{
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public void setPathFill(Integer fill, int ROIIndex, int shapeIndex)
{
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public void setPathFontSize(NonNegativeInteger fontSize, int ROIIndex, int shapeIndex)
{
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public void setPathID(String id, int ROIIndex, int shapeIndex)
{
}
// Label accessor from parent Shape
public void setPathLabel(String label, int ROIIndex, int shapeIndex)
{
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public void setPathName(String name, int ROIIndex, int shapeIndex)
{
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public void setPathStroke(Integer stroke, int ROIIndex, int shapeIndex)
{
}
// StrokeDashArray accessor from parent Shape
public void setPathStrokeDashArray(String strokeDashArray, int ROIIndex, int shapeIndex)
{
}
// StrokeWidth accessor from parent Shape
public void setPathStrokeWidth(Double strokeWidth, int ROIIndex, int shapeIndex)
{
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public void setPathTheC(NonNegativeInteger theC, int ROIIndex, int shapeIndex)
{
}
// TheT accessor from parent Shape
public void setPathTheT(NonNegativeInteger theT, int ROIIndex, int shapeIndex)
{
}
// TheZ accessor from parent Shape
public void setPathTheZ(NonNegativeInteger theZ, int ROIIndex, int shapeIndex)
{
}
// Transform accessor from parent Shape
public void setPathTransform(String transform, int ROIIndex, int shapeIndex)
{
}
public void setPathDefinition(String definition, int ROIIndex, int shapeIndex)
{
}
//
// Pixels property storage
//
// {u'Image': {u'OME': None}}
// Is multi path? False
public void setPixelsAnnotationRef(String annotation, int imageIndex, int annotationRefIndex)
{
}
// Ignoring BinData element, complex property
// Ignoring Channel element, complex property
public void setPixelsDimensionOrder(DimensionOrder dimensionOrder, int imageIndex)
{
}
public void setPixelsID(String id, int imageIndex)
{
}
// Ignoring MetadataOnly element, complex property
public void setPixelsPhysicalSizeX(PositiveFloat physicalSizeX, int imageIndex)
{
}
public void setPixelsPhysicalSizeY(PositiveFloat physicalSizeY, int imageIndex)
{
}
public void setPixelsPhysicalSizeZ(PositiveFloat physicalSizeZ, int imageIndex)
{
}
// Ignoring Plane element, complex property
public void setPixelsSizeC(PositiveInteger sizeC, int imageIndex)
{
}
public void setPixelsSizeT(PositiveInteger sizeT, int imageIndex)
{
}
public void setPixelsSizeX(PositiveInteger sizeX, int imageIndex)
{
}
public void setPixelsSizeY(PositiveInteger sizeY, int imageIndex)
{
}
public void setPixelsSizeZ(PositiveInteger sizeZ, int imageIndex)
{
}
// Ignoring TiffData element, complex property
public void setPixelsTimeIncrement(Double timeIncrement, int imageIndex)
{
}
public void setPixelsType(PixelType type, int imageIndex)
{
}
//
// Plane property storage
//
// {u'Pixels': {u'Image': {u'OME': None}}}
// Is multi path? False
public void setPlaneAnnotationRef(String annotation, int imageIndex, int planeIndex, int annotationRefIndex)
{
}
public void setPlaneDeltaT(Double deltaT, int imageIndex, int planeIndex)
{
}
public void setPlaneExposureTime(Double exposureTime, int imageIndex, int planeIndex)
{
}
public void setPlaneHashSHA1(String hashSHA1, int imageIndex, int planeIndex)
{
}
public void setPlanePositionX(Double positionX, int imageIndex, int planeIndex)
{
}
public void setPlanePositionY(Double positionY, int imageIndex, int planeIndex)
{
}
public void setPlanePositionZ(Double positionZ, int imageIndex, int planeIndex)
{
}
public void setPlaneTheC(NonNegativeInteger theC, int imageIndex, int planeIndex)
{
}
public void setPlaneTheT(NonNegativeInteger theT, int imageIndex, int planeIndex)
{
}
public void setPlaneTheZ(NonNegativeInteger theZ, int imageIndex, int planeIndex)
{
}
//
// Plate property storage
//
// {u'OME': None}
// Is multi path? False
public void setPlateAnnotationRef(String annotation, int plateIndex, int annotationRefIndex)
{
}
public void setPlateColumnNamingConvention(NamingConvention columnNamingConvention, int plateIndex)
{
}
public void setPlateColumns(PositiveInteger columns, int plateIndex)
{
}
public void setPlateDescription(String description, int plateIndex)
{
}
public void setPlateExternalIdentifier(String externalIdentifier, int plateIndex)
{
}
public void setPlateID(String id, int plateIndex)
{
}
public void setPlateName(String name, int plateIndex)
{
}
// Ignoring PlateAcquisition element, complex property
public void setPlateRowNamingConvention(NamingConvention rowNamingConvention, int plateIndex)
{
}
public void setPlateRows(PositiveInteger rows, int plateIndex)
{
}
public void setPlateScreenRef(String screen, int plateIndex, int screenRefIndex)
{
}
public void setPlateStatus(String status, int plateIndex)
{
}
// Ignoring Well element, complex property
public void setPlateWellOriginX(Double wellOriginX, int plateIndex)
{
}
public void setPlateWellOriginY(Double wellOriginY, int plateIndex)
{
}
//
// PlateAcquisition property storage
//
// {u'Plate': {u'OME': None}}
// Is multi path? False
public void setPlateAcquisitionAnnotationRef(String annotation, int plateIndex, int plateAcquisitionIndex, int annotationRefIndex)
{
}
public void setPlateAcquisitionDescription(String description, int plateIndex, int plateAcquisitionIndex)
{
}
public void setPlateAcquisitionEndTime(String endTime, int plateIndex, int plateAcquisitionIndex)
{
}
public void setPlateAcquisitionID(String id, int plateIndex, int plateAcquisitionIndex)
{
}
public void setPlateAcquisitionMaximumFieldCount(PositiveInteger maximumFieldCount, int plateIndex, int plateAcquisitionIndex)
{
}
public void setPlateAcquisitionName(String name, int plateIndex, int plateAcquisitionIndex)
{
}
public void setPlateAcquisitionStartTime(String startTime, int plateIndex, int plateAcquisitionIndex)
{
}
public void setPlateAcquisitionWellSampleRef(String wellSample, int plateIndex, int plateAcquisitionIndex, int wellSampleRefIndex)
{
}
//
// PlateRef property storage
//
// {u'Screen': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference PlateRef
//
// Point property storage
//
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public void setPointDescription(String description, int ROIIndex, int shapeIndex)
{
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public void setPointFill(Integer fill, int ROIIndex, int shapeIndex)
{
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public void setPointFontSize(NonNegativeInteger fontSize, int ROIIndex, int shapeIndex)
{
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public void setPointID(String id, int ROIIndex, int shapeIndex)
{
}
// Label accessor from parent Shape
public void setPointLabel(String label, int ROIIndex, int shapeIndex)
{
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public void setPointName(String name, int ROIIndex, int shapeIndex)
{
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public void setPointStroke(Integer stroke, int ROIIndex, int shapeIndex)
{
}
// StrokeDashArray accessor from parent Shape
public void setPointStrokeDashArray(String strokeDashArray, int ROIIndex, int shapeIndex)
{
}
// StrokeWidth accessor from parent Shape
public void setPointStrokeWidth(Double strokeWidth, int ROIIndex, int shapeIndex)
{
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public void setPointTheC(NonNegativeInteger theC, int ROIIndex, int shapeIndex)
{
}
// TheT accessor from parent Shape
public void setPointTheT(NonNegativeInteger theT, int ROIIndex, int shapeIndex)
{
}
// TheZ accessor from parent Shape
public void setPointTheZ(NonNegativeInteger theZ, int ROIIndex, int shapeIndex)
{
}
// Transform accessor from parent Shape
public void setPointTransform(String transform, int ROIIndex, int shapeIndex)
{
}
public void setPointX(Double x, int ROIIndex, int shapeIndex)
{
}
public void setPointY(Double y, int ROIIndex, int shapeIndex)
{
}
//
// Polyline property storage
//
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public void setPolylineDescription(String description, int ROIIndex, int shapeIndex)
{
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public void setPolylineFill(Integer fill, int ROIIndex, int shapeIndex)
{
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public void setPolylineFontSize(NonNegativeInteger fontSize, int ROIIndex, int shapeIndex)
{
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public void setPolylineID(String id, int ROIIndex, int shapeIndex)
{
}
// Label accessor from parent Shape
public void setPolylineLabel(String label, int ROIIndex, int shapeIndex)
{
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public void setPolylineName(String name, int ROIIndex, int shapeIndex)
{
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public void setPolylineStroke(Integer stroke, int ROIIndex, int shapeIndex)
{
}
// StrokeDashArray accessor from parent Shape
public void setPolylineStrokeDashArray(String strokeDashArray, int ROIIndex, int shapeIndex)
{
}
// StrokeWidth accessor from parent Shape
public void setPolylineStrokeWidth(Double strokeWidth, int ROIIndex, int shapeIndex)
{
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public void setPolylineTheC(NonNegativeInteger theC, int ROIIndex, int shapeIndex)
{
}
// TheT accessor from parent Shape
public void setPolylineTheT(NonNegativeInteger theT, int ROIIndex, int shapeIndex)
{
}
// TheZ accessor from parent Shape
public void setPolylineTheZ(NonNegativeInteger theZ, int ROIIndex, int shapeIndex)
{
}
// Transform accessor from parent Shape
public void setPolylineTransform(String transform, int ROIIndex, int shapeIndex)
{
}
public void setPolylineClosed(Boolean closed, int ROIIndex, int shapeIndex)
{
}
public void setPolylinePoints(String points, int ROIIndex, int shapeIndex)
{
}
//
// Project property storage
//
// {u'OME': None}
// Is multi path? False
public void setProjectAnnotationRef(String annotation, int projectIndex, int annotationRefIndex)
{
}
// Ignoring Dataset_BackReference back reference
public void setProjectDescription(String description, int projectIndex)
{
}
public void setProjectExperimenterRef(String experimenter, int projectIndex)
{
}
public void setProjectGroupRef(String group, int projectIndex)
{
}
public void setProjectID(String id, int projectIndex)
{
}
public void setProjectName(String name, int projectIndex)
{
}
//
// ProjectRef property storage
//
// {u'Dataset': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ProjectRef
//
// Pump property storage
//
// {u'Laser': {u'LightSource': {u'Instrument': {u'OME': None}}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference Pump
//
// ROI property storage
//
// {u'OME': None}
// Is multi path? False
public void setROIAnnotationRef(String annotation, int ROIIndex, int annotationRefIndex)
{
}
public void setROIDescription(String description, int ROIIndex)
{
}
public void setROIID(String id, int ROIIndex)
{
}
// Ignoring Image_BackReference back reference
// Ignoring MicrobeamManipulation_BackReference back reference
public void setROIName(String name, int ROIIndex)
{
}
public void setROINamespace(String namespace, int ROIIndex)
{
}
// Ignoring Union element, complex property
//
// ROIRef property storage
//
// {u'Image': {u'OME': None}, u'MicrobeamManipulation': {u'Experiment': {u'OME': None}}}
// Is multi path? True
// 1:1
// Is multi path? True
// Ignoring ID property of reference ROIRef
//
// Reagent property storage
//
// {u'Screen': {u'OME': None}}
// Is multi path? False
public void setReagentAnnotationRef(String annotation, int screenIndex, int reagentIndex, int annotationRefIndex)
{
}
public void setReagentDescription(String description, int screenIndex, int reagentIndex)
{
}
public void setReagentID(String id, int screenIndex, int reagentIndex)
{
}
public void setReagentName(String name, int screenIndex, int reagentIndex)
{
}
public void setReagentReagentIdentifier(String reagentIdentifier, int screenIndex, int reagentIndex)
{
}
// Ignoring Well_BackReference back reference
//
// ReagentRef property storage
//
// {u'Well': {u'Plate': {u'OME': None}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ReagentRef
//
// Rectangle property storage
//
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public void setRectangleDescription(String description, int ROIIndex, int shapeIndex)
{
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public void setRectangleFill(Integer fill, int ROIIndex, int shapeIndex)
{
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public void setRectangleFontSize(NonNegativeInteger fontSize, int ROIIndex, int shapeIndex)
{
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public void setRectangleID(String id, int ROIIndex, int shapeIndex)
{
}
// Label accessor from parent Shape
public void setRectangleLabel(String label, int ROIIndex, int shapeIndex)
{
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public void setRectangleName(String name, int ROIIndex, int shapeIndex)
{
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public void setRectangleStroke(Integer stroke, int ROIIndex, int shapeIndex)
{
}
// StrokeDashArray accessor from parent Shape
public void setRectangleStrokeDashArray(String strokeDashArray, int ROIIndex, int shapeIndex)
{
}
// StrokeWidth accessor from parent Shape
public void setRectangleStrokeWidth(Double strokeWidth, int ROIIndex, int shapeIndex)
{
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public void setRectangleTheC(NonNegativeInteger theC, int ROIIndex, int shapeIndex)
{
}
// TheT accessor from parent Shape
public void setRectangleTheT(NonNegativeInteger theT, int ROIIndex, int shapeIndex)
{
}
// TheZ accessor from parent Shape
public void setRectangleTheZ(NonNegativeInteger theZ, int ROIIndex, int shapeIndex)
{
}
// Transform accessor from parent Shape
public void setRectangleTransform(String transform, int ROIIndex, int shapeIndex)
{
}
public void setRectangleHeight(Double height, int ROIIndex, int shapeIndex)
{
}
public void setRectangleWidth(Double width, int ROIIndex, int shapeIndex)
{
}
public void setRectangleX(Double x, int ROIIndex, int shapeIndex)
{
}
public void setRectangleY(Double y, int ROIIndex, int shapeIndex)
{
}
//
// Screen property storage
//
// {u'OME': None}
// Is multi path? False
public void setScreenAnnotationRef(String annotation, int screenIndex, int annotationRefIndex)
{
}
public void setScreenDescription(String description, int screenIndex)
{
}
public void setScreenID(String id, int screenIndex)
{
}
public void setScreenName(String name, int screenIndex)
{
}
public void setScreenPlateRef(String plate, int screenIndex, int plateRefIndex)
{
}
public void setScreenProtocolDescription(String protocolDescription, int screenIndex)
{
}
public void setScreenProtocolIdentifier(String protocolIdentifier, int screenIndex)
{
}
// Ignoring Reagent element, complex property
public void setScreenReagentSetDescription(String reagentSetDescription, int screenIndex)
{
}
public void setScreenReagentSetIdentifier(String reagentSetIdentifier, int screenIndex)
{
}
public void setScreenType(String type, int screenIndex)
{
}
//
// ScreenRef property storage
//
// {u'Plate': {u'OME': None}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference ScreenRef
//
// StageLabel property storage
//
// {u'Image': {u'OME': None}}
// Is multi path? False
public void setStageLabelName(String name, int imageIndex)
{
}
public void setStageLabelX(Double x, int imageIndex)
{
}
public void setStageLabelY(Double y, int imageIndex)
{
}
public void setStageLabelZ(Double z, int imageIndex)
{
}
//
// StructuredAnnotations property storage
//
// {u'OME': None}
// Is multi path? False
// Ignoring BooleanAnnotation element, complex property
// Ignoring CommentAnnotation element, complex property
// Ignoring DoubleAnnotation element, complex property
// Ignoring FileAnnotation element, complex property
// Ignoring ListAnnotation element, complex property
// Ignoring LongAnnotation element, complex property
// Ignoring TagAnnotation element, complex property
// Ignoring TermAnnotation element, complex property
// Ignoring TimestampAnnotation element, complex property
// Ignoring XMLAnnotation element, complex property
//
// TagAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setTagAnnotationAnnotationRef(String annotation, int tagAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setTagAnnotationDescription(String description, int tagAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setTagAnnotationID(String id, int tagAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setTagAnnotationNamespace(String namespace, int tagAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public void setTagAnnotationValue(String value, int tagAnnotationIndex)
{
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// TermAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setTermAnnotationAnnotationRef(String annotation, int termAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setTermAnnotationDescription(String description, int termAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setTermAnnotationID(String id, int termAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setTermAnnotationNamespace(String namespace, int termAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public void setTermAnnotationValue(String value, int termAnnotationIndex)
{
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// Text property storage
//
// {u'Shape': {u'Union': {u'ROI': {u'OME': None}}}}
// Is multi path? False
// Description accessor from parent Shape
public void setTextDescription(String description, int ROIIndex, int shapeIndex)
{
}
// Ignoring Ellipse of parent abstract type
// Fill accessor from parent Shape
public void setTextFill(Integer fill, int ROIIndex, int shapeIndex)
{
}
// Ignoring FillRule of parent abstract type
// Ignoring FontFamily of parent abstract type
// FontSize accessor from parent Shape
public void setTextFontSize(NonNegativeInteger fontSize, int ROIIndex, int shapeIndex)
{
}
// Ignoring FontStyle of parent abstract type
// ID accessor from parent Shape
public void setTextID(String id, int ROIIndex, int shapeIndex)
{
}
// Label accessor from parent Shape
public void setTextLabel(String label, int ROIIndex, int shapeIndex)
{
}
// Ignoring Line of parent abstract type
// Ignoring LineCap of parent abstract type
// Ignoring MarkerEnd of parent abstract type
// Ignoring MarkerStart of parent abstract type
// Ignoring Mask of parent abstract type
// Name accessor from parent Shape
public void setTextName(String name, int ROIIndex, int shapeIndex)
{
}
// Ignoring Path of parent abstract type
// Ignoring Point of parent abstract type
// Ignoring Polyline of parent abstract type
// Ignoring Rectangle of parent abstract type
// Stroke accessor from parent Shape
public void setTextStroke(Integer stroke, int ROIIndex, int shapeIndex)
{
}
// StrokeDashArray accessor from parent Shape
public void setTextStrokeDashArray(String strokeDashArray, int ROIIndex, int shapeIndex)
{
}
// StrokeWidth accessor from parent Shape
public void setTextStrokeWidth(Double strokeWidth, int ROIIndex, int shapeIndex)
{
}
// Ignoring Text of parent abstract type
// TheC accessor from parent Shape
public void setTextTheC(NonNegativeInteger theC, int ROIIndex, int shapeIndex)
{
}
// TheT accessor from parent Shape
public void setTextTheT(NonNegativeInteger theT, int ROIIndex, int shapeIndex)
{
}
// TheZ accessor from parent Shape
public void setTextTheZ(NonNegativeInteger theZ, int ROIIndex, int shapeIndex)
{
}
// Transform accessor from parent Shape
public void setTextTransform(String transform, int ROIIndex, int shapeIndex)
{
}
public void setTextValue(String value, int ROIIndex, int shapeIndex)
{
}
public void setTextX(Double x, int ROIIndex, int shapeIndex)
{
}
public void setTextY(Double y, int ROIIndex, int shapeIndex)
{
}
//
// TiffData property storage
//
// {u'Pixels': {u'Image': {u'OME': None}}}
// Is multi path? False
public void setTiffDataFirstC(NonNegativeInteger firstC, int imageIndex, int tiffDataIndex)
{
}
public void setTiffDataFirstT(NonNegativeInteger firstT, int imageIndex, int tiffDataIndex)
{
}
public void setTiffDataFirstZ(NonNegativeInteger firstZ, int imageIndex, int tiffDataIndex)
{
}
public void setTiffDataIFD(NonNegativeInteger ifd, int imageIndex, int tiffDataIndex)
{
}
public void setTiffDataPlaneCount(NonNegativeInteger planeCount, int imageIndex, int tiffDataIndex)
{
}
// Ignoring UUID element, complex property
//
// TimestampAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setTimestampAnnotationAnnotationRef(String annotation, int timestampAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setTimestampAnnotationDescription(String description, int timestampAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setTimestampAnnotationID(String id, int timestampAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setTimestampAnnotationNamespace(String namespace, int timestampAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public void setTimestampAnnotationValue(String value, int timestampAnnotationIndex)
{
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
//
// TransmittanceRange property storage
//
// {u'Filter': {u'Instrument': {u'OME': None}}}
// Is multi path? False
public void setTransmittanceRangeCutIn(PositiveInteger cutIn, int instrumentIndex, int filterIndex)
{
}
public void setTransmittanceRangeCutInTolerance(NonNegativeInteger cutInTolerance, int instrumentIndex, int filterIndex)
{
}
public void setTransmittanceRangeCutOut(PositiveInteger cutOut, int instrumentIndex, int filterIndex)
{
}
public void setTransmittanceRangeCutOutTolerance(NonNegativeInteger cutOutTolerance, int instrumentIndex, int filterIndex)
{
}
public void setTransmittanceRangeTransmittance(PercentFraction transmittance, int instrumentIndex, int filterIndex)
{
}
//
// UUID property storage
//
// {u'TiffData': {u'Pixels': {u'Image': {u'OME': None}}}}
// Is multi path? False
public void setUUIDFileName(String fileName, int imageIndex, int tiffDataIndex)
{
}
//
// Union property storage
//
// {u'ROI': {u'OME': None}}
// Is multi path? False
// Ignoring Shape element, complex property
//
// Well property storage
//
// {u'Plate': {u'OME': None}}
// Is multi path? False
public void setWellAnnotationRef(String annotation, int plateIndex, int wellIndex, int annotationRefIndex)
{
}
public void setWellColor(Integer color, int plateIndex, int wellIndex)
{
}
public void setWellColumn(NonNegativeInteger column, int plateIndex, int wellIndex)
{
}
public void setWellExternalDescription(String externalDescription, int plateIndex, int wellIndex)
{
}
public void setWellExternalIdentifier(String externalIdentifier, int plateIndex, int wellIndex)
{
}
public void setWellID(String id, int plateIndex, int wellIndex)
{
}
public void setWellReagentRef(String reagent, int plateIndex, int wellIndex)
{
}
public void setWellRow(NonNegativeInteger row, int plateIndex, int wellIndex)
{
}
public void setWellStatus(String status, int plateIndex, int wellIndex)
{
}
// Ignoring WellSample element, complex property
//
// WellSample property storage
//
// {u'Well': {u'Plate': {u'OME': None}}}
// Is multi path? False
public void setWellSampleAnnotationRef(String annotation, int plateIndex, int wellIndex, int wellSampleIndex, int annotationRefIndex)
{
}
public void setWellSampleID(String id, int plateIndex, int wellIndex, int wellSampleIndex)
{
}
public void setWellSampleImageRef(String image, int plateIndex, int wellIndex, int wellSampleIndex)
{
}
public void setWellSampleIndex(NonNegativeInteger index, int plateIndex, int wellIndex, int wellSampleIndex)
{
}
// Ignoring PlateAcquisition_BackReference back reference
public void setWellSamplePositionX(Double positionX, int plateIndex, int wellIndex, int wellSampleIndex)
{
}
public void setWellSamplePositionY(Double positionY, int plateIndex, int wellIndex, int wellSampleIndex)
{
}
public void setWellSampleTimepoint(String timepoint, int plateIndex, int wellIndex, int wellSampleIndex)
{
}
//
// WellSampleRef property storage
//
// {u'PlateAcquisition': {u'Plate': {u'OME': None}}}
// Is multi path? False
// 1:1
// Is multi path? False
// Ignoring ID property of reference WellSampleRef
//
// XMLAnnotation property storage
//
// {u'StructuredAnnotations': {u'OME': None}}
// Is multi path? False
public void setXMLAnnotationAnnotationRef(String annotation, int XMLAnnotationIndex, int annotationRefIndex)
{
}
// Ignoring Channel_BackReference back reference
// Ignoring Dataset_BackReference back reference
public void setXMLAnnotationDescription(String description, int XMLAnnotationIndex)
{
}
// Ignoring Experimenter_BackReference back reference
public void setXMLAnnotationID(String id, int XMLAnnotationIndex)
{
}
// Ignoring Image_BackReference back reference
public void setXMLAnnotationNamespace(String namespace, int XMLAnnotationIndex)
{
}
// Ignoring Pixels_BackReference back reference
// Ignoring Plane_BackReference back reference
// Ignoring PlateAcquisition_BackReference back reference
// Ignoring Plate_BackReference back reference
// Ignoring Project_BackReference back reference
// Ignoring ROI_BackReference back reference
// Ignoring Reagent_BackReference back reference
// Ignoring Screen_BackReference back reference
public void setXMLAnnotationValue(String value, int XMLAnnotationIndex)
{
}
// Ignoring WellSample_BackReference back reference
// Ignoring Well_BackReference back reference
}