com.inscoper.nbo.Condenser

Represents the XML element Condenser. More...

Inherits from com.inscoper.nbo.OpticalAssembly_Type, com.inscoper.nbo.ManufacturerSpec_Type, com.inscoper.nbo.NBOBaseClass

Public Functions

	Name
synchronized void	delete()
	Condenser()
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) Populates this object from a JSON file.
void	fromJsonString(String json_string) Populates this object from a JSON string.
void	fromXmlFile(String path) Populates this object from a XML file.
void	fromXmlString(String xml_string) Populates this object from a XML string.
void	toXmlFile(String filename) Serializes this object to an XML file.
String	toXmlString() Serializes this object to an XML string.
void	setCorrection(CondenserCorrection_Type value) Sets the value of the Correction attribute.
CondenserCorrection_Type	getCorrection() Returns the value of the Correction attribute.
void	resetCorrection() Resets the Correction attribute to an unset state.
boolean	hasCorrection() Checks whether the optional Correction attribute is present.
void	setType(CondenserCategory_Type value) Sets the value of the Type attribute.
CondenserCategory_Type	getType() Returns the value of the Type attribute.
void	resetType() Resets the Type attribute to an unset state.
boolean	hasType() Checks whether the optional Type attribute is present.
Condenser	__internal_create(long cPtr, boolean own)

Protected Functions

	Name
	Condenser(long cPtr, boolean cMemoryOwn)
void	swigSetCMemOwn(boolean own)
void	finalize()
long	getCPtr(Condenser obj)

Additional inherited members

Public Functions inherited from com.inscoper.nbo.OpticalAssembly_Type

	Name
	OpticalAssembly_Type()
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	setName(Denomination_Type value) Sets the value of the Name attribute.
Denomination_Type	getName() Returns the value of the Name attribute.
void	resetName() Resets the Name attribute to an unset state.
boolean	hasName() Checks whether the optional Name attribute is present.
void	setFilterRef_List(FilterRef_TypeVector value) Sets the list of FilterRef elements.
FilterRef_TypeVector	getFilterRef_List() Returns the list of FilterRef elements.
void	addToFilterRef_List(FilterRef_Type value) Adds a new FilterRef element to this object.
void	clearFilterRef_List() Clear the list of FilterRef.
void	setLensRef_List(LensRefVector value) Sets the list of LensRef elements.
LensRefVector	getLensRef_List() Returns the list of LensRef elements.
void	addToLensRef_List(LensRef value) Adds a new LensRef element to this object.
void	clearLensRef_List() Clear the list of LensRef.
void	setMirroringDeviceRef_List(MirroringDeviceRefVector value) Sets the list of MirroringDeviceRef elements.
MirroringDeviceRefVector	getMirroringDeviceRef_List() Returns the list of MirroringDeviceRef elements.
void	addToMirroringDeviceRef_List(MirroringDeviceRef value) Adds a new MirroringDeviceRef element to this object.
void	clearMirroringDeviceRef_List() Clear the list of MirroringDeviceRef.
void	setApertureRef_List(ApertureRefVector value) Sets the list of ApertureRef elements.
ApertureRefVector	getApertureRef_List() Returns the list of ApertureRef elements.
void	addToApertureRef_List(ApertureRef value) Adds a new ApertureRef element to this object.
void	clearApertureRef_List() Clear the list of ApertureRef.
void	setPolarizationOpticsRef_List(PolarizationOpticsRefVector value) Sets the list of PolarizationOpticsRef elements.
PolarizationOpticsRefVector	getPolarizationOpticsRef_List() Returns the list of PolarizationOpticsRef elements.
void	addToPolarizationOpticsRef_List(PolarizationOpticsRef value) Adds a new PolarizationOpticsRef element to this object.
void	clearPolarizationOpticsRef_List() Clear the list of PolarizationOpticsRef.
void	setPrismRef_List(PrismRefVector value) Sets the list of PrismRef elements.
PrismRefVector	getPrismRef_List() Returns the list of PrismRef elements.
void	addToPrismRef_List(PrismRef value) Adds a new PrismRef element to this object.
void	clearPrismRef_List() Clear the list of PrismRef.
void	setAnnotationRef(AnnotationRef value) Sets the value of the AnnotationRef element.
AnnotationRef	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.

Protected Functions inherited from com.inscoper.nbo.OpticalAssembly_Type

	Name
	OpticalAssembly_Type(long cPtr, boolean cMemoryOwn)

Public Functions inherited from com.inscoper.nbo.ManufacturerSpec_Type

	Name
	ManufacturerSpec_Type()
void	setManufacturer(String value) Sets the value of the Manufacturer attribute.
String	getManufacturer() Returns the value of the Manufacturer attribute.
void	setModel(String value) Sets the value of the Model attribute.
String	getModel() Returns the value of the Model attribute.
void	setCatalogNumber(String value) Sets the value of the CatalogNumber attribute.
String	getCatalogNumber() Returns the value of the CatalogNumber attribute.
void	setLotNumber(String value) Sets the value of the LotNumber attribute.
String	getLotNumber() Returns the value of the LotNumber attribute.
void	resetLotNumber() Resets the LotNumber attribute to an unset state.
boolean	hasLotNumber() Checks whether the optional LotNumber attribute is present.
void	setMapAnnotation_List(MapAnnotationVector value) Sets the list of MapAnnotation elements.
MapAnnotationVector	getMapAnnotation_List() Returns the list of MapAnnotation elements.
void	addToMapAnnotation_List(MapAnnotation value) Adds a new MapAnnotation element to this object.
void	clearMapAnnotation_List() Clear the list of MapAnnotation.
void	setSpecsFile(FileAnnotation_Type value) Sets the value of the SpecsFile element.
FileAnnotation_Type	getSpecsFile() Returns the value of the SpecsFile element.
void	resetSpecsFile() Resets the SpecsFile element to an unset state.
boolean	hasSpecsFile() Checks whether the optional SpecsFile element is present.
void	setAdditionalVendorInformation_List(AdditionalVendorInformationVector value) Sets the list of AdditionalVendorInformation elements.
AdditionalVendorInformationVector	getAdditionalVendorInformation_List() Returns the list of AdditionalVendorInformation elements.
void	addToAdditionalVendorInformation_List(AdditionalVendorInformation value) Adds a new AdditionalVendorInformation element to this object.
void	clearAdditionalVendorInformation_List() Clear the list of AdditionalVendorInformation.

Protected Functions inherited from com.inscoper.nbo.ManufacturerSpec_Type

	Name
	ManufacturerSpec_Type(long cPtr, boolean cMemoryOwn)

Protected Functions inherited from com.inscoper.nbo.NBOBaseClass

	Name
	NBOBaseClass(long cPtr, boolean cMemoryOwn)

Detailed Description

public class com.inscoper.nbo.Condenser;

Represents the XML element Condenser.

Condensers are Lens Systems located above the Light Source and under the sample in an Upright Microscope, and above the stage and below the Light Source in an Inverted Microscope. They act to gather light from the Light Source and concentrate it into a cone of light that illuminates the specimen. They typically include a Turret system and Diaphragms. The aperture and angle of the light cone must be adjusted (via the size of the Diaphragm) for each different Objective.

Public Functions Documentation

function delete

public synchronized void delete()

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.delete

function Condenser

public Condenser()

function getTypeName

public String getTypeName()

Returns the class type name.

Return: The class type name

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.getTypeName

function getXMLName

public String getXMLName()

Returns the XML element name corresponding to this class.

Return: The XML element name

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.getXMLName

function getNBOType

public ENBOType getNBOType()

Returns the NBO Type corresponding to this class.

Return: The NBO Type value

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.getNBOType

function getChildren

public NBOBaseClassVector getChildren()

Returns a list of all classes derived from this class.

Return: The list of derived classes

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.getChildren

function getSubElements

public NBOBaseClassVector getSubElements()

Returns a list of all child elements contained in this class.

Return: The list of child classes

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.getSubElements

function fromJsonFile

public void fromJsonFile(
    String path
)

Populates this object from a JSON file.

Parameters:

path The path to the JSON file

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.fromJsonFile

function fromJsonString

public void fromJsonString(
    String json_string
)

Populates this object from a JSON string.

Parameters:

json_string The JSON content as a string

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.fromJsonString

function fromXmlFile

public void fromXmlFile(
    String path
)

Populates this object from a XML file.

Parameters:

path The path to the XML file

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.fromXmlFile

function fromXmlString

public void fromXmlString(
    String xml_string
)

Populates this object from a XML string.

Parameters:

xml_string The XML content as a string

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.fromXmlString

function toXmlFile

public void toXmlFile(
    String filename
)

Serializes this object to an XML file.

Parameters:

filename The path to the output XML file

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.toXmlFile

function toXmlString

public String toXmlString()

Serializes this object to an XML string.

Return: A string containing the XML representation of this object

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.toXmlString

function setCorrection

public void setCorrection(
    CondenserCorrection_Type value
)

Sets the value of the Correction attribute.

Parameters:

value The value to set

This field captures any type of Aberration (i.e., failure of an optical system to produce a perfect image) this Condenser is design to correct.

function getCorrection

public CondenserCorrection_Type getCorrection()

Returns the value of the Correction attribute.

Return: The value of the attribute

This field captures any type of Aberration (i.e., failure of an optical system to produce a perfect image) this Condenser is design to correct.

function resetCorrection

public void resetCorrection()

Resets the Correction attribute to an unset state.

This field captures any type of Aberration (i.e., failure of an optical system to produce a perfect image) this Condenser is design to correct.

function hasCorrection

public boolean hasCorrection()

Checks whether the optional Correction attribute is present.

Return: true if the optional attribute has been set, false otherwise

This field captures any type of Aberration (i.e., failure of an optical system to produce a perfect image) this Condenser is design to correct.

function setType

public void setType(
    CondenserCategory_Type value
)

Sets the value of the Type attribute.

Parameters:

value The value to set

This field captures the general category this Condenser belongs to according to ISO 10934-1:2002. Specifically, this category refers to the type of Correction or Contrast Enhancement Method this Condenser is designed to achieve. According to ISO 10934-1:2002, options include: 1) Abbe, this is a condenser of simple design introduced by Abbe, in which there is only limited correction for spherical aberration and none for chromatic aberration. 2) Achromatic-aplanatic, this is a in which chromatic aberrations and spherical aberrations have been reduced. 3) Cardioid, this is a dark field condenser for transmitted light illumination that has spherical aberration and coma (i.e., aberration in which the image of an off-axis point object is deformed so that the image is shaped like a comet) correction. 4) Dark-field, this is a dark-ground condenser designed for dark-field microscopy, which for reflected-light microscopy might be located within the mount of the objective. 5) Pancratic, this is a condenser containing a variable “zoom” (pancratic) lens which allows the size of the illuminated field at the object to be varied while the illuminated field diaphragm remains of constant size. 6) Phase-contrast, this is condenser designed for phasecontrast microscopy. 6) Universal, this is a condenser designed for multiple contrast methods such as bright field, dark field, phase contrast, differential interference contrast, polarized light and modulation contrast.

function getType

public CondenserCategory_Type getType()

Returns the value of the Type attribute.

Return: The value of the attribute

This field captures the general category this Condenser belongs to according to ISO 10934-1:2002. Specifically, this category refers to the type of Correction or Contrast Enhancement Method this Condenser is designed to achieve. According to ISO 10934-1:2002, options include: 1) Abbe, this is a condenser of simple design introduced by Abbe, in which there is only limited correction for spherical aberration and none for chromatic aberration. 2) Achromatic-aplanatic, this is a in which chromatic aberrations and spherical aberrations have been reduced. 3) Cardioid, this is a dark field condenser for transmitted light illumination that has spherical aberration and coma (i.e., aberration in which the image of an off-axis point object is deformed so that the image is shaped like a comet) correction. 4) Dark-field, this is a dark-ground condenser designed for dark-field microscopy, which for reflected-light microscopy might be located within the mount of the objective. 5) Pancratic, this is a condenser containing a variable “zoom” (pancratic) lens which allows the size of the illuminated field at the object to be varied while the illuminated field diaphragm remains of constant size. 6) Phase-contrast, this is condenser designed for phasecontrast microscopy. 6) Universal, this is a condenser designed for multiple contrast methods such as bright field, dark field, phase contrast, differential interference contrast, polarized light and modulation contrast.

function resetType

public void resetType()

Resets the Type attribute to an unset state.

This field captures the general category this Condenser belongs to according to ISO 10934-1:2002. Specifically, this category refers to the type of Correction or Contrast Enhancement Method this Condenser is designed to achieve. According to ISO 10934-1:2002, options include: 1) Abbe, this is a condenser of simple design introduced by Abbe, in which there is only limited correction for spherical aberration and none for chromatic aberration. 2) Achromatic-aplanatic, this is a in which chromatic aberrations and spherical aberrations have been reduced. 3) Cardioid, this is a dark field condenser for transmitted light illumination that has spherical aberration and coma (i.e., aberration in which the image of an off-axis point object is deformed so that the image is shaped like a comet) correction. 4) Dark-field, this is a dark-ground condenser designed for dark-field microscopy, which for reflected-light microscopy might be located within the mount of the objective. 5) Pancratic, this is a condenser containing a variable “zoom” (pancratic) lens which allows the size of the illuminated field at the object to be varied while the illuminated field diaphragm remains of constant size. 6) Phase-contrast, this is condenser designed for phasecontrast microscopy. 6) Universal, this is a condenser designed for multiple contrast methods such as bright field, dark field, phase contrast, differential interference contrast, polarized light and modulation contrast.

function hasType

public boolean hasType()

Checks whether the optional Type attribute is present.

Return: true if the optional attribute has been set, false otherwise

This field captures the general category this Condenser belongs to according to ISO 10934-1:2002. Specifically, this category refers to the type of Correction or Contrast Enhancement Method this Condenser is designed to achieve. According to ISO 10934-1:2002, options include: 1) Abbe, this is a condenser of simple design introduced by Abbe, in which there is only limited correction for spherical aberration and none for chromatic aberration. 2) Achromatic-aplanatic, this is a in which chromatic aberrations and spherical aberrations have been reduced. 3) Cardioid, this is a dark field condenser for transmitted light illumination that has spherical aberration and coma (i.e., aberration in which the image of an off-axis point object is deformed so that the image is shaped like a comet) correction. 4) Dark-field, this is a dark-ground condenser designed for dark-field microscopy, which for reflected-light microscopy might be located within the mount of the objective. 5) Pancratic, this is a condenser containing a variable “zoom” (pancratic) lens which allows the size of the illuminated field at the object to be varied while the illuminated field diaphragm remains of constant size. 6) Phase-contrast, this is condenser designed for phasecontrast microscopy. 6) Universal, this is a condenser designed for multiple contrast methods such as bright field, dark field, phase contrast, differential interference contrast, polarized light and modulation contrast.

function __internal_create

public static Condenser __internal_create(
    long cPtr,
    boolean own
)

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.__internal_create

Protected Functions Documentation

function Condenser

protected Condenser(
    long cPtr,
    boolean cMemoryOwn
)

function swigSetCMemOwn

protected void swigSetCMemOwn(
    boolean own
)

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.swigSetCMemOwn

function finalize

protected void finalize()

Reimplements: com.inscoper.nbo.OpticalAssembly_Type.finalize

function getCPtr

protected static long getCPtr(
    Condenser obj
)

Updated on 2026-02-13 at 16:10:56 +0100