com.inscoper.nbo.ExcitationCalibration¶
Represents the XML element ExcitationCalibration. More...
Inherits from com.inscoper.nbo.IntensityCalibration_Type, com.inscoper.nbo.NBOBaseClass
Public Functions¶
| Name | |
|---|---|
| synchronized void | delete() |
| ExcitationCalibration() | |
| String | getTypeName() Returns the class type name. |
| String | getXMLName() Returns the XML element name corresponding to this class. |
| ENBOType | getNBOType() Returns the NBO Type corresponding to this class. |
| NBOBaseClassVector | getChildren() Returns a list of all classes derived from this class. |
| NBOBaseClassVector | getSubElements() Returns a list of all child elements contained in this class. |
| void | fromJsonFile(String path, boolean validate) Populates this object from a JSON file. |
| void | fromJsonFile(String path) Populates this object from a JSON file. |
| void | fromJsonString(String json_string, boolean validate) Populates this object from a JSON string. |
| void | fromJsonString(String json_string) Populates this object from a JSON string. |
| void | fromXmlFile(String path, boolean validate) Populates this object from a XML file. |
| void | fromXmlFile(String path) Populates this object from a XML file. |
| void | fromXmlString(String xml_string, boolean validate) Populates this object from a XML string. |
| void | fromXmlString(String xml_string) Populates this object from a XML string. |
| void | toXmlFile(String filename, boolean validate) Serializes this object to an XML file. |
| void | toXmlFile(String filename) Serializes this object to an XML file. |
| String | toXmlString(boolean validate) Serializes this object to an XML string. |
| String | toXmlString() Serializes this object to an XML string. |
| void | setSpinningDiskInLightPath(boolean value, boolean validate) Sets the value of the SpinningDiskInLightPath attribute. |
| void | setSpinningDiskInLightPath(boolean value) Sets the value of the SpinningDiskInLightPath attribute. |
| boolean | getSpinningDiskInLightPath() Returns the value of the SpinningDiskInLightPath attribute. |
| void | resetSpinningDiskInLightPath() Resets the SpinningDiskInLightPath attribute to an unset state. |
| boolean | hasSpinningDiskInLightPath() Checks whether the SpinningDiskInLightPath attribute is present. |
| void | setNominalEx_Wavelength(float value, boolean validate) Sets the value of the NominalEx_Wavelength attribute. |
| void | setNominalEx_Wavelength(float value) Sets the value of the NominalEx_Wavelength attribute. |
| float | getNominalEx_Wavelength() Returns the value of the NominalEx_Wavelength attribute. |
| void | resetNominalEx_Wavelength() Resets the NominalEx_Wavelength attribute to an unset state. |
| boolean | hasNominalEx_Wavelength() Checks whether the NominalEx_Wavelength attribute is present. |
| void | setNominalEx_WavelengthUnit(UnitsLength_Type value, boolean validate) Sets the value of the NominalEx_WavelengthUnit attribute. |
| void | setNominalEx_WavelengthUnit(UnitsLength_Type value) Sets the value of the NominalEx_WavelengthUnit attribute. |
| UnitsLength_Type | getNominalEx_WavelengthUnit() Returns the value of the NominalEx_WavelengthUnit attribute. |
| void | resetNominalEx_WavelengthUnit() Resets the NominalEx_WavelengthUnit attribute to an unset state. |
| boolean | hasNominalEx_WavelengthUnit() Checks whether the optional NominalEx_WavelengthUnit attribute is present. |
| void | setObservedEx_Wavelength(float value, boolean validate) Sets the value of the ObservedEx_Wavelength attribute. |
| void | setObservedEx_Wavelength(float value) Sets the value of the ObservedEx_Wavelength attribute. |
| float | getObservedEx_Wavelength() Returns the value of the ObservedEx_Wavelength attribute. |
| void | resetObservedEx_Wavelength() Resets the ObservedEx_Wavelength attribute to an unset state. |
| boolean | hasObservedEx_Wavelength() Checks whether the ObservedEx_Wavelength attribute is present. |
| void | setObservedEx_WavelengthUnit(UnitsLength_Type value, boolean validate) Sets the value of the ObservedEx_WavelengthUnit attribute. |
| void | setObservedEx_WavelengthUnit(UnitsLength_Type value) Sets the value of the ObservedEx_WavelengthUnit attribute. |
| UnitsLength_Type | getObservedEx_WavelengthUnit() Returns the value of the ObservedEx_WavelengthUnit attribute. |
| void | resetObservedEx_WavelengthUnit() Resets the ObservedEx_WavelengthUnit attribute to an unset state. |
| boolean | hasObservedEx_WavelengthUnit() Checks whether the optional ObservedEx_WavelengthUnit attribute is present. |
| void | setPercentageNominalPowerSettings(float value, boolean validate) Sets the value of the PercentageNominalPowerSettings attribute. |
| void | setPercentageNominalPowerSettings(float value) Sets the value of the PercentageNominalPowerSettings attribute. |
| float | getPercentageNominalPowerSettings() Returns the value of the PercentageNominalPowerSettings attribute. |
| void | resetPercentageNominalPowerSettings() Resets the PercentageNominalPowerSettings attribute to an unset state. |
| boolean | hasPercentageNominalPowerSettings() Checks whether the PercentageNominalPowerSettings attribute is present. |
| void | setObservedIlluminationPowerAtBackOfObjective(float value, boolean validate) Sets the value of the ObservedIlluminationPowerAtBackOfObjective attribute. |
| void | setObservedIlluminationPowerAtBackOfObjective(float value) Sets the value of the ObservedIlluminationPowerAtBackOfObjective attribute. |
| float | getObservedIlluminationPowerAtBackOfObjective() Returns the value of the ObservedIlluminationPowerAtBackOfObjective attribute. |
| void | resetObservedIlluminationPowerAtBackOfObjective() Resets the ObservedIlluminationPowerAtBackOfObjective attribute to an unset state. |
| boolean | hasObservedIlluminationPowerAtBackOfObjective() Checks whether the ObservedIlluminationPowerAtBackOfObjective attribute is present. |
| void | setObservedIlluminationPowerAtBackObjectiveUnit(UnitsPower_Type value, boolean validate) Sets the value of the ObservedIlluminationPowerAtBackObjectiveUnit attribute. |
| void | setObservedIlluminationPowerAtBackObjectiveUnit(UnitsPower_Type value) Sets the value of the ObservedIlluminationPowerAtBackObjectiveUnit attribute. |
| UnitsPower_Type | getObservedIlluminationPowerAtBackObjectiveUnit() Returns the value of the ObservedIlluminationPowerAtBackObjectiveUnit attribute. |
| void | resetObservedIlluminationPowerAtBackObjectiveUnit() Resets the ObservedIlluminationPowerAtBackObjectiveUnit attribute to an unset state. |
| boolean | hasObservedIlluminationPowerAtBackObjectiveUnit() Checks whether the optional ObservedIlluminationPowerAtBackObjectiveUnit attribute is present. |
| void | setObseredIlluminationPowerAtSample(float value, boolean validate) Sets the value of the ObseredIlluminationPowerAtSample attribute. |
| void | setObseredIlluminationPowerAtSample(float value) Sets the value of the ObseredIlluminationPowerAtSample attribute. |
| float | getObseredIlluminationPowerAtSample() Returns the value of the ObseredIlluminationPowerAtSample attribute. |
| void | resetObseredIlluminationPowerAtSample() Resets the ObseredIlluminationPowerAtSample attribute to an unset state. |
| boolean | hasObseredIlluminationPowerAtSample() Checks whether the ObseredIlluminationPowerAtSample attribute is present. |
| void | setObseredIlluminationPowerAtSampleUnit(UnitsPower_Type value, boolean validate) Sets the value of the ObseredIlluminationPowerAtSampleUnit attribute. |
| void | setObseredIlluminationPowerAtSampleUnit(UnitsPower_Type value) Sets the value of the ObseredIlluminationPowerAtSampleUnit attribute. |
| UnitsPower_Type | getObseredIlluminationPowerAtSampleUnit() Returns the value of the ObseredIlluminationPowerAtSampleUnit attribute. |
| void | resetObseredIlluminationPowerAtSampleUnit() Resets the ObseredIlluminationPowerAtSampleUnit attribute to an unset state. |
| boolean | hasObseredIlluminationPowerAtSampleUnit() Checks whether the optional ObseredIlluminationPowerAtSampleUnit attribute is present. |
| void | setShortTermIlluminationStability(float value, boolean validate) Sets the value of the ShortTermIlluminationStability attribute. |
| void | setShortTermIlluminationStability(float value) Sets the value of the ShortTermIlluminationStability attribute. |
| float | getShortTermIlluminationStability() Returns the value of the ShortTermIlluminationStability attribute. |
| void | resetShortTermIlluminationStability() Resets the ShortTermIlluminationStability attribute to an unset state. |
| boolean | hasShortTermIlluminationStability() Checks whether the ShortTermIlluminationStability attribute is present. |
| void | setLongTermIlluminationStability(float value, boolean validate) Sets the value of the LongTermIlluminationStability attribute. |
| void | setLongTermIlluminationStability(float value) Sets the value of the LongTermIlluminationStability attribute. |
| float | getLongTermIlluminationStability() Returns the value of the LongTermIlluminationStability attribute. |
| void | resetLongTermIlluminationStability() Resets the LongTermIlluminationStability attribute to an unset state. |
| boolean | hasLongTermIlluminationStability() Checks whether the LongTermIlluminationStability attribute is present. |
| void | setIlluminationLinearity(float value, boolean validate) Sets the value of the IlluminationLinearity attribute. |
| void | setIlluminationLinearity(float value) Sets the value of the IlluminationLinearity attribute. |
| float | getIlluminationLinearity() Returns the value of the IlluminationLinearity attribute. |
| void | resetIlluminationLinearity() Resets the IlluminationLinearity attribute to an unset state. |
| boolean | hasIlluminationLinearity() Checks whether the IlluminationLinearity attribute is present. |
| void | setObservedIrradianceAtSample(float value, boolean validate) Sets the value of the ObservedIrradianceAtSample attribute. |
| void | setObservedIrradianceAtSample(float value) Sets the value of the ObservedIrradianceAtSample attribute. |
| float | getObservedIrradianceAtSample() Returns the value of the ObservedIrradianceAtSample attribute. |
| void | resetObservedIrradianceAtSample() Resets the ObservedIrradianceAtSample attribute to an unset state. |
| boolean | hasObservedIrradianceAtSample() Checks whether the ObservedIrradianceAtSample attribute is present. |
| void | setObservedIrradianceAtSampleUnit(UnitsIrradiance_Type value, boolean validate) Sets the value of the ObservedIrradianceAtSampleUnit attribute. |
| void | setObservedIrradianceAtSampleUnit(UnitsIrradiance_Type value) Sets the value of the ObservedIrradianceAtSampleUnit attribute. |
| UnitsIrradiance_Type | getObservedIrradianceAtSampleUnit() Returns the value of the ObservedIrradianceAtSampleUnit attribute. |
| void | resetObservedIrradianceAtSampleUnit() Resets the ObservedIrradianceAtSampleUnit attribute to an unset state. |
| boolean | hasObservedIrradianceAtSampleUnit() Checks whether the optional ObservedIrradianceAtSampleUnit attribute is present. |
| void | setObservedIrradianceVariance(float value, boolean validate) Sets the value of the ObservedIrradianceVariance attribute. |
| void | setObservedIrradianceVariance(float value) Sets the value of the ObservedIrradianceVariance attribute. |
| float | getObservedIrradianceVariance() Returns the value of the ObservedIrradianceVariance attribute. |
| void | resetObservedIrradianceVariance() Resets the ObservedIrradianceVariance attribute to an unset state. |
| boolean | hasObservedIrradianceVariance() Checks whether the ObservedIrradianceVariance attribute is present. |
| ExcitationCalibration | __internal_create(long cPtr, boolean own) |
| ExcitationCalibration | fromBase(NBOBaseClass base) Cast a NBOBaseClass to a CMOS. |
Protected Functions¶
| Name | |
|---|---|
| ExcitationCalibration(long cPtr, boolean cMemoryOwn) | |
| void | swigSetCMemOwn(boolean own) |
| void | finalize() |
| long | getCPtr(ExcitationCalibration obj) |
Additional inherited members¶
Public Functions inherited from com.inscoper.nbo.IntensityCalibration_Type
| Name | |
|---|---|
| IntensityCalibration_Type() | |
| void | setID(LSID_Type value, boolean validate) Sets the value of the ID attribute. |
| void | setID(LSID_Type value) Sets the value of the ID attribute. |
| LSID_Type | getID() Returns the value of the ID attribute. |
| void | resetID() Resets the ID attribute to an unset state. |
| boolean | hasID() Checks whether the optional ID attribute is present. |
| void | setDate(String value, boolean validate) Sets the value of the Date attribute. |
| void | setDate(String value) Sets the value of the Date attribute. |
| String | getDate() Returns the value of the Date attribute. |
| void | resetDate() Resets the Date attribute to an unset state. |
| boolean | hasDate() Checks whether the Date attribute is present. |
| void | setSampleSize(PositiveInt_Type value, boolean validate) Sets the value of the SampleSize attribute. |
| void | setSampleSize(PositiveInt_Type value) Sets the value of the SampleSize attribute. |
| PositiveInt_Type | getSampleSize() Returns the value of the SampleSize attribute. |
| void | resetSampleSize() Resets the SampleSize attribute to an unset state. |
| boolean | hasSampleSize() Checks whether the optional SampleSize attribute is present. |
| void | setMethod(String value, boolean validate) Sets the value of the Method attribute. |
| void | setMethod(String value) Sets the value of the Method attribute. |
| String | getMethod() Returns the value of the Method attribute. |
| void | resetMethod() Resets the Method attribute to an unset state. |
| boolean | hasMethod() Checks whether the Method attribute is present. |
| void | setIntensityCalibrationToolRef_List(IntensityCalibration_Type_InlineIntensityCalibrationToolRefVector value, boolean validate) Sets the list of IntensityCalibrationToolRef elements. |
| void | setIntensityCalibrationToolRef_List(IntensityCalibration_Type_InlineIntensityCalibrationToolRefVector value) Sets the list of IntensityCalibrationToolRef elements. |
| IntensityCalibration_Type_InlineIntensityCalibrationToolRefVector | getIntensityCalibrationToolRef_List() Returns the list of IntensityCalibrationToolRef elements. |
| void | addToIntensityCalibrationToolRef_List(IntensityCalibration_Type_InlineIntensityCalibrationToolRef value, boolean validate) Adds a new IntensityCalibrationToolRef element to this object. |
| void | addToIntensityCalibrationToolRef_List(IntensityCalibration_Type_InlineIntensityCalibrationToolRef value) Adds a new IntensityCalibrationToolRef element to this object. |
| void | clearIntensityCalibrationToolRef_List() Clear the list of IntensityCalibrationToolRef. |
| void | setIntensityCalibrationReport_List(FileAnnotation_TypeVector value, boolean validate) Sets the list of IntensityCalibrationReport elements. |
| void | setIntensityCalibrationReport_List(FileAnnotation_TypeVector value) Sets the list of IntensityCalibrationReport elements. |
| FileAnnotation_TypeVector | getIntensityCalibrationReport_List() Returns the list of IntensityCalibrationReport elements. |
| void | addToIntensityCalibrationReport_List(FileAnnotation_Type value, boolean validate) Adds a new IntensityCalibrationReport element to this object. |
| void | addToIntensityCalibrationReport_List(FileAnnotation_Type value) Adds a new IntensityCalibrationReport element to this object. |
| void | clearIntensityCalibrationReport_List() Clear the list of IntensityCalibrationReport. |
| void | setCalibrationSoftware_List(CalibrationSoftwareVector value, boolean validate) Sets the list of CalibrationSoftware elements. |
| void | setCalibrationSoftware_List(CalibrationSoftwareVector value) Sets the list of CalibrationSoftware elements. |
| CalibrationSoftwareVector | getCalibrationSoftware_List() Returns the list of CalibrationSoftware elements. |
| void | addToCalibrationSoftware_List(CalibrationSoftware value, boolean validate) Adds a new CalibrationSoftware element to this object. |
| void | addToCalibrationSoftware_List(CalibrationSoftware value) Adds a new CalibrationSoftware element to this object. |
| void | clearCalibrationSoftware_List() Clear the list of CalibrationSoftware. |
| void | setAnnotationRef(IntensityCalibration_Type_InlineAnnotationRef value, boolean validate) Sets the value of the AnnotationRef element. |
| void | setAnnotationRef(IntensityCalibration_Type_InlineAnnotationRef value) Sets the value of the AnnotationRef element. |
| IntensityCalibration_Type_InlineAnnotationRef | getAnnotationRef() Returns the value of the AnnotationRef element. |
| void | resetAnnotationRef() Resets the AnnotationRef element to an unset state. |
| boolean | hasAnnotationRef() Checks whether the optional AnnotationRef element is present. |
| StringSet | getDateAllowedValues() Returns the allowed values for this attribut. |
| StringSet | getMethodAllowedValues() Returns the allowed values for this attribut. |
Protected Functions inherited from com.inscoper.nbo.IntensityCalibration_Type
| Name | |
|---|---|
| IntensityCalibration_Type(long cPtr, boolean cMemoryOwn) |
Protected Functions inherited from com.inscoper.nbo.NBOBaseClass
| Name | |
|---|---|
| NBOBaseClass(long cPtr, boolean cMemoryOwn) |
Detailed Description¶
Represents the XML element ExcitationCalibration.
This element describes the procedure used to measure and calibrate the Wavelength and Irradiance of the Excitation Light Source used to Acquire this experimental Image and the resulting calibration measurements.
Public Functions Documentation¶
function delete¶
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.delete
function ExcitationCalibration¶
function getTypeName¶
Returns the class type name.
Return: The class type name
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.getTypeName
function getXMLName¶
Returns the XML element name corresponding to this class.
Return: The XML element name
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.getXMLName
function getNBOType¶
Returns the NBO Type corresponding to this class.
Return: The NBO Type value
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.getNBOType
function getChildren¶
Returns a list of all classes derived from this class.
Return: The list of derived classes
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.getChildren
function getSubElements¶
Returns a list of all child elements contained in this class.
Return: The list of child classes
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.getSubElements
function fromJsonFile¶
Populates this object from a JSON file.
Parameters:
- path The path to the JSON file
- validate If true, validates constraints on value. Default is true.
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.fromJsonFile
function fromJsonFile¶
Populates this object from a JSON file.
Parameters:
- path The path to the JSON file
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.fromJsonFile
function fromJsonString¶
Populates this object from a JSON string.
Parameters:
- json_string The JSON content as a string
- validate If true, validates constraints on value. Default is true.
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.fromJsonString
function fromJsonString¶
Populates this object from a JSON string.
Parameters:
- json_string The JSON content as a string
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.fromJsonString
function fromXmlFile¶
Populates this object from a XML file.
Parameters:
- path The path to the XML file
- validate If true, validates constraints on value. Default is true.
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.fromXmlFile
function fromXmlFile¶
Populates this object from a XML file.
Parameters:
- path The path to the XML file
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.fromXmlFile
function fromXmlString¶
Populates this object from a XML string.
Parameters:
- xml_string The XML content as a string
- validate If true, validates constraints on value. Default is true.
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.fromXmlString
function fromXmlString¶
Populates this object from a XML string.
Parameters:
- xml_string The XML content as a string
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.fromXmlString
function toXmlFile¶
Serializes this object to an XML file.
Parameters:
- filename The path to the output XML file
- validate If true, validates constraints on value. Default is true.
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.toXmlFile
function toXmlFile¶
Serializes this object to an XML file.
Parameters:
- filename The path to the output XML file
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.toXmlFile
function toXmlString¶
Serializes this object to an XML string.
Parameters:
- validate If true, validates constraints on value. Default is true.
Return: A string containing the XML representation of this object
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.toXmlString
function toXmlString¶
Serializes this object to an XML string.
Return: A string containing the XML representation of this object
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.toXmlString
function setSpinningDiskInLightPath¶
Sets the value of the SpinningDiskInLightPath attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
In case of a Spinning Disk Confocal Microscope, this field records whether (True) or not (False) the Spinning Disk was placed in the Light Path during this Calibration Procedure.
function setSpinningDiskInLightPath¶
Sets the value of the SpinningDiskInLightPath attribute.
Parameters:
- value The value to set
In case of a Spinning Disk Confocal Microscope, this field records whether (True) or not (False) the Spinning Disk was placed in the Light Path during this Calibration Procedure.
function getSpinningDiskInLightPath¶
Returns the value of the SpinningDiskInLightPath attribute.
Return: The value of the attribute
In case of a Spinning Disk Confocal Microscope, this field records whether (True) or not (False) the Spinning Disk was placed in the Light Path during this Calibration Procedure.
function resetSpinningDiskInLightPath¶
Resets the SpinningDiskInLightPath attribute to an unset state.
In case of a Spinning Disk Confocal Microscope, this field records whether (True) or not (False) the Spinning Disk was placed in the Light Path during this Calibration Procedure.
function hasSpinningDiskInLightPath¶
Checks whether the SpinningDiskInLightPath attribute is present.
Return: true if the attribute has been set, false otherwise
In case of a Spinning Disk Confocal Microscope, this field records whether (True) or not (False) the Spinning Disk was placed in the Light Path during this Calibration Procedure.
function setNominalEx_Wavelength¶
Sets the value of the NominalEx_Wavelength attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
In case this is different from the Excitation Wavelength of the Channel this Calibration Procedure is associated with, this field records the Nominal Peak Excitation Wavelength that is employed during this Procedure.
function setNominalEx_Wavelength¶
Sets the value of the NominalEx_Wavelength attribute.
Parameters:
- value The value to set
In case this is different from the Excitation Wavelength of the Channel this Calibration Procedure is associated with, this field records the Nominal Peak Excitation Wavelength that is employed during this Procedure.
function getNominalEx_Wavelength¶
Returns the value of the NominalEx_Wavelength attribute.
Return: The value of the attribute
In case this is different from the Excitation Wavelength of the Channel this Calibration Procedure is associated with, this field records the Nominal Peak Excitation Wavelength that is employed during this Procedure.
function resetNominalEx_Wavelength¶
Resets the NominalEx_Wavelength attribute to an unset state.
In case this is different from the Excitation Wavelength of the Channel this Calibration Procedure is associated with, this field records the Nominal Peak Excitation Wavelength that is employed during this Procedure.
function hasNominalEx_Wavelength¶
Checks whether the NominalEx_Wavelength attribute is present.
Return: true if the attribute has been set, false otherwise
In case this is different from the Excitation Wavelength of the Channel this Calibration Procedure is associated with, this field records the Nominal Peak Excitation Wavelength that is employed during this Procedure.
function setNominalEx_WavelengthUnit¶
Sets the value of the NominalEx_WavelengthUnit attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
No description available in the XSD standard.
function setNominalEx_WavelengthUnit¶
Sets the value of the NominalEx_WavelengthUnit attribute.
Parameters:
- value The value to set
No description available in the XSD standard.
function getNominalEx_WavelengthUnit¶
Returns the value of the NominalEx_WavelengthUnit attribute.
Return: The value of the attribute
No description available in the XSD standard.
function resetNominalEx_WavelengthUnit¶
Resets the NominalEx_WavelengthUnit attribute to an unset state.
No description available in the XSD standard.
function hasNominalEx_WavelengthUnit¶
Checks whether the optional NominalEx_WavelengthUnit attribute is present.
Return: true if the optional attribute has been set, false otherwise
No description available in the XSD standard.
function setObservedEx_Wavelength¶
Sets the value of the ObservedEx_Wavelength attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
This field records the observed Peak Excitation Wavelength at the Back Objective as measured by using this Calibration Procedure.
function setObservedEx_Wavelength¶
Sets the value of the ObservedEx_Wavelength attribute.
Parameters:
- value The value to set
This field records the observed Peak Excitation Wavelength at the Back Objective as measured by using this Calibration Procedure.
function getObservedEx_Wavelength¶
Returns the value of the ObservedEx_Wavelength attribute.
Return: The value of the attribute
This field records the observed Peak Excitation Wavelength at the Back Objective as measured by using this Calibration Procedure.
function resetObservedEx_Wavelength¶
Resets the ObservedEx_Wavelength attribute to an unset state.
This field records the observed Peak Excitation Wavelength at the Back Objective as measured by using this Calibration Procedure.
function hasObservedEx_Wavelength¶
Checks whether the ObservedEx_Wavelength attribute is present.
Return: true if the attribute has been set, false otherwise
This field records the observed Peak Excitation Wavelength at the Back Objective as measured by using this Calibration Procedure.
function setObservedEx_WavelengthUnit¶
Sets the value of the ObservedEx_WavelengthUnit attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
No description available in the XSD standard.
function setObservedEx_WavelengthUnit¶
Sets the value of the ObservedEx_WavelengthUnit attribute.
Parameters:
- value The value to set
No description available in the XSD standard.
function getObservedEx_WavelengthUnit¶
Returns the value of the ObservedEx_WavelengthUnit attribute.
Return: The value of the attribute
No description available in the XSD standard.
function resetObservedEx_WavelengthUnit¶
Resets the ObservedEx_WavelengthUnit attribute to an unset state.
No description available in the XSD standard.
function hasObservedEx_WavelengthUnit¶
Checks whether the optional ObservedEx_WavelengthUnit attribute is present.
Return: true if the optional attribute has been set, false otherwise
No description available in the XSD standard.
function setPercentageNominalPowerSettings¶
Sets the value of the PercentageNominalPowerSettings attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
This field records the input % Nominal Illumination Power that was set during this Calibration Procedure as by the Manufacturer.
function setPercentageNominalPowerSettings¶
Sets the value of the PercentageNominalPowerSettings attribute.
Parameters:
- value The value to set
This field records the input % Nominal Illumination Power that was set during this Calibration Procedure as by the Manufacturer.
function getPercentageNominalPowerSettings¶
Returns the value of the PercentageNominalPowerSettings attribute.
Return: The value of the attribute
This field records the input % Nominal Illumination Power that was set during this Calibration Procedure as by the Manufacturer.
function resetPercentageNominalPowerSettings¶
Resets the PercentageNominalPowerSettings attribute to an unset state.
This field records the input % Nominal Illumination Power that was set during this Calibration Procedure as by the Manufacturer.
function hasPercentageNominalPowerSettings¶
Checks whether the PercentageNominalPowerSettings attribute is present.
Return: true if the attribute has been set, false otherwise
This field records the input % Nominal Illumination Power that was set during this Calibration Procedure as by the Manufacturer.
function setObservedIlluminationPowerAtBackOfObjective¶
Sets the value of the ObservedIlluminationPowerAtBackOfObjective attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the back focal plane of the Objective by using this Calibration Procedure. In order to collect this metric it is necessary to remove the Objective.
function setObservedIlluminationPowerAtBackOfObjective¶
Sets the value of the ObservedIlluminationPowerAtBackOfObjective attribute.
Parameters:
- value The value to set
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the back focal plane of the Objective by using this Calibration Procedure. In order to collect this metric it is necessary to remove the Objective.
function getObservedIlluminationPowerAtBackOfObjective¶
Returns the value of the ObservedIlluminationPowerAtBackOfObjective attribute.
Return: The value of the attribute
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the back focal plane of the Objective by using this Calibration Procedure. In order to collect this metric it is necessary to remove the Objective.
function resetObservedIlluminationPowerAtBackOfObjective¶
Resets the ObservedIlluminationPowerAtBackOfObjective attribute to an unset state.
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the back focal plane of the Objective by using this Calibration Procedure. In order to collect this metric it is necessary to remove the Objective.
function hasObservedIlluminationPowerAtBackOfObjective¶
Checks whether the ObservedIlluminationPowerAtBackOfObjective attribute is present.
Return: true if the attribute has been set, false otherwise
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the back focal plane of the Objective by using this Calibration Procedure. In order to collect this metric it is necessary to remove the Objective.
function setObservedIlluminationPowerAtBackObjectiveUnit¶
public void setObservedIlluminationPowerAtBackObjectiveUnit(
UnitsPower_Type value,
boolean validate
)
Sets the value of the ObservedIlluminationPowerAtBackObjectiveUnit attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
No description available in the XSD standard.
function setObservedIlluminationPowerAtBackObjectiveUnit¶
Sets the value of the ObservedIlluminationPowerAtBackObjectiveUnit attribute.
Parameters:
- value The value to set
No description available in the XSD standard.
function getObservedIlluminationPowerAtBackObjectiveUnit¶
Returns the value of the ObservedIlluminationPowerAtBackObjectiveUnit attribute.
Return: The value of the attribute
No description available in the XSD standard.
function resetObservedIlluminationPowerAtBackObjectiveUnit¶
Resets the ObservedIlluminationPowerAtBackObjectiveUnit attribute to an unset state.
No description available in the XSD standard.
function hasObservedIlluminationPowerAtBackObjectiveUnit¶
Checks whether the optional ObservedIlluminationPowerAtBackObjectiveUnit attribute is present.
Return: true if the optional attribute has been set, false otherwise
No description available in the XSD standard.
function setObseredIlluminationPowerAtSample¶
Sets the value of the ObseredIlluminationPowerAtSample attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the Sample (also referred to as the Front of the Objective) by using this Calibration Procedure. This metric is typically recorded with the Objective in place.
function setObseredIlluminationPowerAtSample¶
Sets the value of the ObseredIlluminationPowerAtSample attribute.
Parameters:
- value The value to set
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the Sample (also referred to as the Front of the Objective) by using this Calibration Procedure. This metric is typically recorded with the Objective in place.
function getObseredIlluminationPowerAtSample¶
Returns the value of the ObseredIlluminationPowerAtSample attribute.
Return: The value of the attribute
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the Sample (also referred to as the Front of the Objective) by using this Calibration Procedure. This metric is typically recorded with the Objective in place.
function resetObseredIlluminationPowerAtSample¶
Resets the ObseredIlluminationPowerAtSample attribute to an unset state.
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the Sample (also referred to as the Front of the Objective) by using this Calibration Procedure. This metric is typically recorded with the Objective in place.
function hasObseredIlluminationPowerAtSample¶
Checks whether the ObseredIlluminationPowerAtSample attribute is present.
Return: true if the attribute has been set, false otherwise
This field records the observed excitation Illumination Power (also known as Power Output or Illumination Intensity) as recorded at the Sample (also referred to as the Front of the Objective) by using this Calibration Procedure. This metric is typically recorded with the Objective in place.
function setObseredIlluminationPowerAtSampleUnit¶
Sets the value of the ObseredIlluminationPowerAtSampleUnit attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
No description available in the XSD standard.
function setObseredIlluminationPowerAtSampleUnit¶
Sets the value of the ObseredIlluminationPowerAtSampleUnit attribute.
Parameters:
- value The value to set
No description available in the XSD standard.
function getObseredIlluminationPowerAtSampleUnit¶
Returns the value of the ObseredIlluminationPowerAtSampleUnit attribute.
Return: The value of the attribute
No description available in the XSD standard.
function resetObseredIlluminationPowerAtSampleUnit¶
Resets the ObseredIlluminationPowerAtSampleUnit attribute to an unset state.
No description available in the XSD standard.
function hasObseredIlluminationPowerAtSampleUnit¶
Checks whether the optional ObseredIlluminationPowerAtSampleUnit attribute is present.
Return: true if the optional attribute has been set, false otherwise
No description available in the XSD standard.
function setShortTermIlluminationStability¶
Sets the value of the ShortTermIlluminationStability attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function setShortTermIlluminationStability¶
Sets the value of the ShortTermIlluminationStability attribute.
Parameters:
- value The value to set
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function getShortTermIlluminationStability¶
Returns the value of the ShortTermIlluminationStability attribute.
Return: The value of the attribute
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function resetShortTermIlluminationStability¶
Resets the ShortTermIlluminationStability attribute to an unset state.
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function hasShortTermIlluminationStability¶
Checks whether the ShortTermIlluminationStability attribute is present.
Return: true if the attribute has been set, false otherwise
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function setLongTermIlluminationStability¶
Sets the value of the LongTermIlluminationStability attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function setLongTermIlluminationStability¶
Sets the value of the LongTermIlluminationStability attribute.
Parameters:
- value The value to set
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function getLongTermIlluminationStability¶
Returns the value of the LongTermIlluminationStability attribute.
Return: The value of the attribute
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function resetLongTermIlluminationStability¶
Resets the LongTermIlluminationStability attribute to an unset state.
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function hasLongTermIlluminationStability¶
Checks whether the LongTermIlluminationStability attribute is present.
Return: true if the attribute has been set, false otherwise
According to ISO 21073:2019, Illumination Stability is defined as the percentage deviation of Minimum and Maximum Illumination Power from the Average Power during the time interval considered. Specifically, SATB [%]
function setIlluminationLinearity¶
Sets the value of the IlluminationLinearity attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
This field captures the Linear Correlation Coefficient of observed Output Illumination Power response to different input Power settings, as measured at the back of the Objective.
function setIlluminationLinearity¶
Sets the value of the IlluminationLinearity attribute.
Parameters:
- value The value to set
This field captures the Linear Correlation Coefficient of observed Output Illumination Power response to different input Power settings, as measured at the back of the Objective.
function getIlluminationLinearity¶
Returns the value of the IlluminationLinearity attribute.
Return: The value of the attribute
This field captures the Linear Correlation Coefficient of observed Output Illumination Power response to different input Power settings, as measured at the back of the Objective.
function resetIlluminationLinearity¶
Resets the IlluminationLinearity attribute to an unset state.
This field captures the Linear Correlation Coefficient of observed Output Illumination Power response to different input Power settings, as measured at the back of the Objective.
function hasIlluminationLinearity¶
Checks whether the IlluminationLinearity attribute is present.
Return: true if the attribute has been set, false otherwise
This field captures the Linear Correlation Coefficient of observed Output Illumination Power response to different input Power settings, as measured at the back of the Objective.
function setObservedIrradianceAtSample¶
Sets the value of the ObservedIrradianceAtSample attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
Observed mean excitation light irradiance (radiant power per unit area) as measured at the sample plane over the Field of View (FOV).
function setObservedIrradianceAtSample¶
Sets the value of the ObservedIrradianceAtSample attribute.
Parameters:
- value The value to set
Observed mean excitation light irradiance (radiant power per unit area) as measured at the sample plane over the Field of View (FOV).
function getObservedIrradianceAtSample¶
Returns the value of the ObservedIrradianceAtSample attribute.
Return: The value of the attribute
Observed mean excitation light irradiance (radiant power per unit area) as measured at the sample plane over the Field of View (FOV).
function resetObservedIrradianceAtSample¶
Resets the ObservedIrradianceAtSample attribute to an unset state.
Observed mean excitation light irradiance (radiant power per unit area) as measured at the sample plane over the Field of View (FOV).
function hasObservedIrradianceAtSample¶
Checks whether the ObservedIrradianceAtSample attribute is present.
Return: true if the attribute has been set, false otherwise
Observed mean excitation light irradiance (radiant power per unit area) as measured at the sample plane over the Field of View (FOV).
function setObservedIrradianceAtSampleUnit¶
Sets the value of the ObservedIrradianceAtSampleUnit attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
No description available in the XSD standard.
function setObservedIrradianceAtSampleUnit¶
Sets the value of the ObservedIrradianceAtSampleUnit attribute.
Parameters:
- value The value to set
No description available in the XSD standard.
function getObservedIrradianceAtSampleUnit¶
Returns the value of the ObservedIrradianceAtSampleUnit attribute.
Return: The value of the attribute
No description available in the XSD standard.
function resetObservedIrradianceAtSampleUnit¶
Resets the ObservedIrradianceAtSampleUnit attribute to an unset state.
No description available in the XSD standard.
function hasObservedIrradianceAtSampleUnit¶
Checks whether the optional ObservedIrradianceAtSampleUnit attribute is present.
Return: true if the optional attribute has been set, false otherwise
No description available in the XSD standard.
function setObservedIrradianceVariance¶
Sets the value of the ObservedIrradianceVariance attribute.
Parameters:
- value The value to set
- validate If true, validates constraints on value. Default is true.
Observed excitation light irradiance (radiant power per unit area) variation over the Field of View (FOV).
function setObservedIrradianceVariance¶
Sets the value of the ObservedIrradianceVariance attribute.
Parameters:
- value The value to set
Observed excitation light irradiance (radiant power per unit area) variation over the Field of View (FOV).
function getObservedIrradianceVariance¶
Returns the value of the ObservedIrradianceVariance attribute.
Return: The value of the attribute
Observed excitation light irradiance (radiant power per unit area) variation over the Field of View (FOV).
function resetObservedIrradianceVariance¶
Resets the ObservedIrradianceVariance attribute to an unset state.
Observed excitation light irradiance (radiant power per unit area) variation over the Field of View (FOV).
function hasObservedIrradianceVariance¶
Checks whether the ObservedIrradianceVariance attribute is present.
Return: true if the attribute has been set, false otherwise
Observed excitation light irradiance (radiant power per unit area) variation over the Field of View (FOV).
function __internal_create¶
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.__internal_create
function fromBase¶
Cast a NBOBaseClass to a CMOS.
Parameters:
- base The base class to cast
Return: The casted element, or nullptr if the cast fails
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.fromBase
Protected Functions Documentation¶
function ExcitationCalibration¶
function swigSetCMemOwn¶
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.swigSetCMemOwn
function finalize¶
Reimplements: com.inscoper.nbo.IntensityCalibration_Type.finalize
function getCPtr¶
Updated on 2026-06-22 at 17:06:25 +0200