libsbml.ListOfEvents Class Reference

setAnnotation(const XMLNode* annotation)

setAnnotation(const std.string& annotation)

appendAnnotation(const XMLNode* annotation)

Reimplemented in libsbml.Model, and libsbml.SpeciesReference.

Definition at line 2624 of file libsbml.py.

def libsbml.SBase.appendNotes	(	self,
		args
	)		`[inherited]`

Python method signature(s):

appendNotes(self, XMLNode notes)    int
appendNotes(self, string notes)    int

Appends notes content to the 'notes' element attached to this object.

The content in notes is copied.

The optional element named 'notes', present on every major SBML component type, is intended as a place for storing optional information intended to be seen by humans. An example use of the 'notes' element would be to contain formatted user comments about the model element in which the 'notes' element is enclosed. Every object derived directly or indirectly from type SBase can have a separate value for 'notes', allowing users considerable freedom when adding comments to their models. The format of 'notes' elements must be XHTML 1.0. The SBML Level 2 specification has considerable detail about how 'notes' element content must be handled; please refer to the specifications.

Parameters:

notes

an XML string that is to appended to the content of the 'notes' subelement of this object

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS
LIBSBML_INVALID_OBJECT
LIBSBML_OPERATION_FAILED

See also:

setNotes(const XMLNode* notes)

setNotes(const std.string& notes)

appendNotes(const XMLNode* notes)

Definition at line 2726 of file libsbml.py.

def libsbml.ListOf.clear	(	self,
		doDelete = `True`
	)		`[inherited]`

Python method signature(s):

clear(self, bool doDelete = True)
clear(self)

Removes all items in this ListOf object.

If doDelete is true (default), all items in this ListOf object are deleted and cleared, and thus the caller doesn't have to delete those items. Otherwise, all items are just cleared from this ListOf object and the caller is responsible for deleting all items (In this case, pointers to all items should be stored elsewhere before calling this function by the caller).

Parameters:

doDelete

if true (default), all items are deleted and cleared. Otherwise, all items are just cleared and not deleted.

Definition at line 3427 of file libsbml.py.

def libsbml.ListOfEvents.clone ( self )

Python method signature(s):

clone(self)    ListOfEvents

Creates and returns a deep copy of this ListOfEvents.

Returns:: a (deep) copy of this ListOfEvents.

Reimplemented from libsbml.ListOf.

Definition at line 22326 of file libsbml.py.

def libsbml.ListOfEvents.get	(	self,
		args
	)

Python method signature(s):

get(self, unsigned int n)    Event
get(self, unsigned int n)    Event
get(self, string sid)    Event
get(self, string sid)    Event

Get a Event from the ListOfEvents based on its identifier.

Parameters:

sid

a string representing the identifier of the Event to get.

Returns:: Event in this ListOfEvents with the given id or NULL if no such Event exists.

See also:: get(unsigned int n)
size()

Reimplemented from libsbml.ListOf.

Definition at line 22418 of file libsbml.py.

def libsbml.SBase.getAncestorOfType	(	self,
		args
	)		`[inherited]`

Python method signature(s):

getAncestorOfType(self, SBMLTypeCode_t type)    SBase

Returns the ancestor SBML object that corresponds to the given SBMLTypeCode_t.

This function allows any object to determine its exact location/function within a model. For example a StoichiometryMath object has ancestors of type SpeciesReference, ListOfProducts/ListOfReactants/ListOfModifiers, Reaction, ListOfReactions and Model; any of which can be accessed via this function.

Parameters:

type

the SBMLTypeCode_t of the ancestor to be returned.

Returns:: the ancestor SBML object of this SBML object, that corresponds to the given SBMLTypeCode_t, NULL if none exists.

Definition at line 2115 of file libsbml.py.

def libsbml.SBase.getAnnotation ( self ) [inherited]

Python method signature(s):

getAnnotation(self)    XMLNode

Returns the content of the 'annotation' subelement of this object as an XML node tree.

Whereas the SBase 'notes' subelement is a container for content to be shown directly to humans, the 'annotation' element is a container for optional software-generated content not meant to be shown to humans. Every object derived from SBase can have its own value for 'annotation'. The element's content type is XML type any, allowing essentially arbitrary well-formed XML data content.

SBML places a few restrictions on the organization of the content of annotations; these are intended to help software tools read and write the data as well as help reduce conflicts between annotations added by different tools. Please see the SBML specifications for more details.

The annotations returned by this method will be in XML form. LibSBML provides an object model and related interfaces for certain specific kinds of annotations, namely model history information and RDF content. See the ModelHistory, CVTerm and RDFAnnotationParser classes for more information about the facilities available.

Returns:: the annotation of this SBML object as an XMLNode

See also:

setAnnotation(const XMLNode* annotation)

setAnnotation(const std.string& annotation)

appendAnnotation(const XMLNode* annotation)

appendAnnotation(const std.string& annotation)

Definition at line 1971 of file libsbml.py.

def libsbml.SBase.getAnnotationString ( self ) [inherited]

Python method signature(s):

getAnnotationString(self)    string

Returns the content of the 'annotation' subelement of this object as a character string.

Whereas the SBase 'notes' subelement is a container for content to be shown directly to humans, the 'annotation' element is a container for optional software-generated content not meant to be shown to humans. Every object derived from SBase can have its own value for 'annotation'. The element's content type is XML type any, allowing essentially arbitrary well-formed XML data content.

SBML places a few restrictions on the organization of the content of annotations; these are intended to help software tools read and write the data as well as help reduce conflicts between annotations added by different tools. Please see the SBML specifications for more details.

The annotations returned by this method will be in string form.

Returns:: the annotation string of this SBML object.

See also:

getAnnotation()

setAnnotation(const XMLNode* annotation)

setAnnotation(const std.string& annotation)

appendAnnotation(const XMLNode* annotation)

appendAnnotation(const std.string& annotation)

Definition at line 2014 of file libsbml.py.

def libsbml.SBase.getColumn ( self ) [inherited]

Python method signature(s):

getColumn(self)    unsigned int

Returns the column number on which this object first appears in the XML representation of the SBML document.

Returns:: the column number of this SBML object.

See also:: getLine()

Definition at line 2217 of file libsbml.py.

def libsbml.SBase.getCVTerm	(	self,
		args
	)		`[inherited]`

Python method signature(s):

getCVTerm(self, unsigned int n)    CVTerm

Returns the nth CVTerm in the list of CVTerms of this SBML object.

Parameters:

n

unsigned int the index of the CVTerm to retrieve

Returns:: the nth CVTerm in the list of CVTerms for this SBML object.

Definition at line 3042 of file libsbml.py.

def libsbml.SBase.getCVTerms ( self ) [inherited]

Python method signature(s):

getCVTerms(self)    CVTermList

Get the CVTermList of CVTerm objects in this SBase.

Returns:: the CVTermList for this SBase.

Definition at line 3010 of file libsbml.py.

def libsbml.ListOfEvents.getElementName ( self )

Python method signature(s):

getElementName(self)    string

Returns the XML element name of this object.

For ListOfEvents, the XML element name is 'listOfEvents'.

Returns:: the name of this element, i.e., 'listOfEvents'.

Reimplemented from libsbml.ListOf.

Definition at line 22401 of file libsbml.py.

def libsbml.SBase.getId ( self ) [inherited]

Python method signature(s):

getId(self)    string

Returns the value of the 'metaid' attribute of this object.

The optional attribute named 'metaid', present on every major SBML component type, is for supporting metadata annotations using RDF (Resource Description Format). The attribute value has the data type XML ID, the XML identifier type, which means each 'metaid' value must be globally unique within an SBML file. (Importantly, this uniqueness criterion applies across any attribute with type XML ID, not just the 'metaid' attribute used by SBML—something to be aware of if your application-specific XML content inside the 'annotation' subelement happens to use XML ID.) The 'metaid' value serves to identify a model component for purposes such as referencing that component from metadata placed within 'annotation' subelements.

Returns:: the metaid of this SBML object.

See also:: isSetMetaId()
setMetaId(const std.string& metaid)

Deprecated:: libSBML internal

Reimplemented in libsbml.Model, libsbml.FunctionDefinition, libsbml.UnitDefinition, libsbml.CompartmentType, libsbml.SpeciesType, libsbml.Compartment, libsbml.Species, libsbml.Parameter, libsbml.InitialAssignment, libsbml.Rule, libsbml.Reaction, libsbml.SimpleSpeciesReference, libsbml.Event, and libsbml.EventAssignment.

Definition at line 1823 of file libsbml.py.

def libsbml.ListOfEvents.getItemTypeCode ( self )

Python method signature(s):

getItemTypeCode(self)    SBMLTypeCode_t

Returns the libSBML type code for the objects contained in this ListOf (i.e., Event objects, if the list is non-empty).

Returns:: the SBML type code for the objects contained in this ListOf instance, or SBML_UNKNOWN (default).

See also:: getElementName()

Reimplemented from libsbml.ListOf.

Definition at line 22370 of file libsbml.py.

def libsbml.SBase.getLevel ( self ) [inherited]

Python method signature(s):

getLevel(self)    unsigned int

Returns the SBML Level of the overall SBML document.

Returns:: the SBML level of this SBML object.

See also:: getVersion()

Definition at line 3134 of file libsbml.py.

def libsbml.SBase.getLine ( self ) [inherited]

Python method signature(s):

getLine(self)    unsigned int

Returns the line number on which this object first appears in the XML representation of the SBML document.

Returns:: the line number of this SBML object.

See also:: getColumn()

Definition at line 2199 of file libsbml.py.

def libsbml.SBase.getMetaId ( self ) [inherited]

Python method signature(s):

getMetaId(self)    string

Returns the value of the 'metaid' attribute of this object.

The optional attribute named 'metaid', present on every major SBML component type, is for supporting metadata annotations using RDF (Resource Description Format). The attribute value has the data type XML ID, the XML identifier type, which means each 'metaid' value must be globally unique within an SBML file. (Importantly, this uniqueness criterion applies across any attribute with type XML ID, not just the 'metaid' attribute used by SBML—something to be aware of if your application-specific XML content inside the 'annotation' subelement happens to use XML ID.) The 'metaid' value serves to identify a model component for purposes such as referencing that component from metadata placed within 'annotation' subelements.

Returns:: the metaid of this SBML object.

See also:: isSetMetaId()
setMetaId(const std.string& metaid)

Definition at line 1790 of file libsbml.py.

def libsbml.SBase.getModel ( self ) [inherited]

Python method signature(s):

getModel(self)    Model

Returns the Model object in which the current object is located.

Returns:: the parent Model of this SBML object.

Definition at line 3119 of file libsbml.py.

def libsbml.SBase.getName ( self ) [inherited]

Python method signature(s):

getName(self)    string

Returns the value of the 'metaid' attribute of this object.

The optional attribute named 'metaid', present on every major SBML component type, is for supporting metadata annotations using RDF (Resource Description Format). The attribute value has the data type XML ID, the XML identifier type, which means each 'metaid' value must be globally unique within an SBML file. (Importantly, this uniqueness criterion applies across any attribute with type XML ID, not just the 'metaid' attribute used by SBML—something to be aware of if your application-specific XML content inside the 'annotation' subelement happens to use XML ID.) The 'metaid' value serves to identify a model component for purposes such as referencing that component from metadata placed within 'annotation' subelements.

Returns:: the metaid of this SBML object.

See also:: isSetMetaId()
setMetaId(const std.string& metaid)

Deprecated:: libSBML internal

Reimplemented in libsbml.Model, libsbml.FunctionDefinition, libsbml.UnitDefinition, libsbml.CompartmentType, libsbml.SpeciesType, libsbml.Compartment, libsbml.Species, libsbml.Parameter, libsbml.Reaction, libsbml.SimpleSpeciesReference, and libsbml.Event.

Definition at line 1857 of file libsbml.py.

def libsbml.SBase.getNamespaces ( self ) [inherited]

Python method signature(s):

getNamespaces(self)    XMLNamespaces

Returns a list of the XML Namespaces declared on this SBML document.

Returns:: the XML Namespaces associated with this SBML object

Reimplemented in libsbml.SBMLDocument.

Definition at line 2053 of file libsbml.py.

def libsbml.SBase.getNotes ( self ) [inherited]

Python method signature(s):

getNotes(self)    XMLNode

Returns the content of the 'notes' subelement of this object as a tree of XML nodes.

The optional element named 'notes', present on every major SBML component type, is intended as a place for storing optional information intended to be seen by humans. An example use of the 'notes' element would be to contain formatted user comments about the model element in which the 'notes' element is enclosed. Every object derived directly or indirectly from type SBase can have a separate value for 'notes', allowing users considerable freedom when adding comments to their models. The format of 'notes' elements must be XHTML 1.0. The SBML Level 2 specification has considerable detail about how 'notes' element content must be handled; please refer to the specifications.

The 'notes' element content returned by this method will be in XML form, but libSBML does not provide an object model specifically for the content of notes. Callers will need to traverse the XML tree structure using the facilities available on XMLNode and related objects.

Returns:: the content of the 'notes' subelement of this SBML object.

See also:

setNotes(const XMLNode* notes)

setNotes(const std.string& notes)

appendNotes(const XMLNode* notes)

appendNotes(const std.string& notes)

Definition at line 1891 of file libsbml.py.

def libsbml.SBase.getNotesString ( self ) [inherited]

Python method signature(s):

getNotesString(self)    string

Returns the content of the 'notes' subelement of this object as a string.

The optional element named 'notes', present on every major SBML component type, is intended as a place for storing optional information intended to be seen by humans. An example use of the 'notes' element would be to contain formatted user comments about the model element in which the 'notes' element is enclosed. Every object derived directly or indirectly from type SBase can have a separate value for 'notes', allowing users considerable freedom when adding comments to their models. The format of 'notes' elements must be XHTML 1.0. The SBML Level 2 specification has considerable detail about how 'notes' element content must be handled; please refer to the specifications.

Returns:: the content of the 'notes' subelement of this SBML object.

See also:

getNotes()

setNotes(const XMLNode* notes)

setNotes(const std.string& notes)

appendNotes(const XMLNode* notes)

appendNotes(const std.string& notes)

Definition at line 1934 of file libsbml.py.

def libsbml.SBase.getNumCVTerms ( self ) [inherited]

Python method signature(s):

getNumCVTerms(self)    unsigned int

Returns the number of CVTerm objects in the annotations of this SBML object.

Returns:: the number of CVTerms for this SBML object.

Definition at line 3026 of file libsbml.py.

def libsbml.SBase.getParentSBMLObject ( self ) [inherited]

Python method signature(s):

getParentSBMLObject(self)    SBase

Returns the parent SBML object.

This method is convenient when holding an object nested inside other objects in an SBML model. It allows direct access to the <model> element containing it.

Returns:: the parent SBML object of this SBML object.

Definition at line 2096 of file libsbml.py.

def libsbml.SBase.getResourceBiologicalQualifier	(	self,
		args
	)		`[inherited]`

Python method signature(s):

getResourceBiologicalQualifier(self, string resource)    BiolQualifierType_t

Returns the BiologicalQualifier associated with this resource, or BQB_UNKNOWN if the resource does not exist.

Parameters:

resource

string representing the resource; e.g., 'http://www.geneontology.org/GO:0005892'

Returns:: the BiolQualifierType_t value associated with the resource

Definition at line 3081 of file libsbml.py.

def libsbml.SBase.getResourceModelQualifier	(	self,
		args
	)		`[inherited]`

Python method signature(s):

getResourceModelQualifier(self, string resource)    ModelQualifierType_t

Returns the ModelQualifier associated with this resource, or BQM_UNKNOWN if the resource does not exist.

Parameters:

resource

string representing the resource; e.g., 'http://www.geneontology.org/GO:0005892'

Returns:: the ModelQualifierType_t value associated with the resource

Definition at line 3100 of file libsbml.py.

def libsbml.SBase.getSBMLDocument	(	self,
		args
	)		`[inherited]`

Python method signature(s):

getSBMLDocument(self)    SBMLDocument
getSBMLDocument(self)    SBMLDocument

Returns the parent SBMLDocument object.

LibSBML uses the class SBMLDocument as a top-level container for storing SBML content and data associated with it (such as warnings and error messages). An SBML model in libSBML is contained inside an SBMLDocument object. SBMLDocument corresponds roughly to the class Sbml defined in the SBML Level 2 specification, but it does not have a direct correspondence in SBML Level 1. (But, it is created by libSBML no matter whether the model is Level 1 or Level 2.)

This method allows the SBMLDocument for the current object to be retrieved.

Returns:: the parent SBMLDocument object of this SBML object.

Definition at line 2068 of file libsbml.py.

def libsbml.SBase.getSBOTerm ( self ) [inherited]

Python method signature(s):

getSBOTerm(self)    int

Returns the integer portion of the value of the 'sboTerm' attribute of this object.

In SBML Level 2 Versions 2, 3 and 4, the data type of the attribute is a string of the form SBO:NNNNNNN, where NNNNNNN is a seven digit integer number; libSBML simplifies the representation by only storing the NNNNNNN integer portion. Thus, in libSBML, the 'sboTerm' attribute on SBase has data type int, and SBO identifiers are stored simply as integers. SBO terms are a type of optional annotation, and each different class of SBML object derived from SBase imposes its own requirements about the values permitted for 'sboTerm'. Please consult the SBML Level 2 Version 4 specification for more information about the use of SBO and the 'sboTerm' attribute.

Returns:: the value of the 'sboTerm' attribute as an integer, or -1 if the value is not set.

Definition at line 2141 of file libsbml.py.

def libsbml.SBase.getSBOTermID ( self ) [inherited]

Python method signature(s):

getSBOTermID(self)    string

Returns the string representation of the 'sboTerm' attribute of this object.

In SBML Level 2 Versions 2, 3 and 4, the data type of the attribute is a string of the form SBO:NNNNNNN, where NNNNNNN is a seven digit integer number; libSBML simplifies the representation by only storing the NNNNNNN integer portion. Thus, in libSBML, the 'sboTerm' attribute on SBase has data type int, and SBO identifiers are stored simply as integers. This function recreates the string representation from the stored value. SBO terms are a type of optional annotation, and each different class of SBML object derived from SBase imposes its own requirements about the values permitted for 'sboTerm'. Please consult the SBML Level 2 Version 4 specification for more information about the use of SBO and the 'sboTerm' attribute.

Returns:: the value of the 'sboTerm' attribute as a string of the form SBO:NNNNNNN, or an empty string if the value is not set.

Definition at line 2169 of file libsbml.py.

def libsbml.ListOfEvents.getTypeCode ( self )

Python method signature(s):

getTypeCode(self)    SBMLTypeCode_t

Returns the libSBML type code for this SBML object.

Returns:: the SBML type code for this object, or SBML_UNKNOWN (default).

See also:: getElementName()

Reimplemented from libsbml.ListOf.

Definition at line 22341 of file libsbml.py.

def libsbml.SBase.getVersion ( self ) [inherited]

Python method signature(s):

getVersion(self)    unsigned int

Returns the Version within the SBML Level of the overall SBML document.

Returns:: the SBML version of this SBML object.

See also:: getLevel()

Definition at line 3151 of file libsbml.py.

def libsbml.SBase.hasRequiredAttributes ( self ) [inherited]

Python method signature(s):

hasRequiredAttributes(self)    bool

Subclasses should override this method to write out their contained SBML objects as XML elements. Be sure to call your parents implementation of this method as well. For example:

SBase.writeElements(stream); mReactans.write(stream); mProducts.write(stream); ...

Deprecated:: libSBML internal

Reimplemented in libsbml.FunctionDefinition, libsbml.Unit, libsbml.UnitDefinition, libsbml.CompartmentType, libsbml.SpeciesType, libsbml.Compartment, libsbml.Species, libsbml.Parameter, libsbml.InitialAssignment, libsbml.Rule, libsbml.AlgebraicRule, libsbml.AssignmentRule, libsbml.RateRule, libsbml.Reaction, libsbml.KineticLaw, libsbml.SpeciesReference, libsbml.ModifierSpeciesReference, and libsbml.EventAssignment.

Definition at line 3254 of file libsbml.py.

def libsbml.SBase.hasRequiredElements ( self ) [inherited]

Python method signature(s):

hasRequiredElements(self)    bool

Subclasses should override this method to write out their contained SBML objects as XML elements. Be sure to call your parents implementation of this method as well. For example:

SBase.writeElements(stream); mReactans.write(stream); mProducts.write(stream); ...

Deprecated:: libSBML internal

Reimplemented in libsbml.Model, libsbml.FunctionDefinition, libsbml.UnitDefinition, libsbml.InitialAssignment, libsbml.Rule, libsbml.Constraint, libsbml.KineticLaw, libsbml.Event, libsbml.EventAssignment, libsbml.Trigger, libsbml.Delay, and libsbml.StoichiometryMath.

Definition at line 3275 of file libsbml.py.

def libsbml.SBase.hasValidLevelVersionNamespaceCombination ( self ) [inherited]

Python method signature(s):

hasValidLevelVersionNamespaceCombination(self)    bool

Predicate returning true or false depending on whether this object's level/version and namespace values correspond to a valid SBML specification.

The valid combinations of SBML Level, Version and Namespace as of this release of libSBML are the following:

Level 1 Version 2 'http://www.sbml.org/sbml/level1'
Level 2 Version 1 'http://www.sbml.org/sbml/level2'
Level 2 Version 2 'http://www.sbml.org/sbml/level2/version2'
Level 2 Version 3 'http://www.sbml.org/sbml/level2/version3'
Level 2 Version 4 'http://www.sbml.org/sbml/level2/version4'

Returns:: true if the level, version and namespace values of this SBML object correspond to a valid set of values, false otherwise.

Definition at line 3192 of file libsbml.py.

def libsbml.SBase.isSetAnnotation ( self ) [inherited]

Python method signature(s):

isSetAnnotation(self)    bool

Predicate returning true or false depending on whether this object's 'annotation' subelement exists and has content.

Whereas the SBase 'notes' subelement is a container for content to be shown directly to humans, the 'annotation' element is a container for optional software-generated content not meant to be shown to humans. Every object derived from SBase can have its own value for 'annotation'. The element's content type is XML type any, allowing essentially arbitrary well-formed XML data content.

SBML places a few restrictions on the organization of the content of annotations; these are intended to help software tools read and write the data as well as help reduce conflicts between annotations added by different tools. Please see the SBML specifications for more details.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Returns:: true if a 'annotation' subelement exists, false otherwise.

See also:

getAnnotation()

setAnnotation(const XMLNode* annotation)

setAnnotation(const std.string& annotation)

appendAnnotation(const XMLNode* annotation)

appendAnnotation(const std.string& annotation)

Definition at line 2387 of file libsbml.py.

def libsbml.SBase.isSetId ( self ) [inherited]

Python method signature(s):

isSetId(self)    bool

Predicate returning true or false depending on whether this object's 'metaid' attribute has been set.

The optional attribute named 'metaid', present on every major SBML component type, is for supporting metadata annotations using RDF (Resource Description Format). The attribute value has the data type XML ID, the XML identifier type, which means each 'metaid' value must be globally unique within an SBML file. (Importantly, this uniqueness criterion applies across any attribute with type XML ID, not just the 'metaid' attribute used by SBML—something to be aware of if your application-specific XML content inside the 'annotation' subelement happens to use XML ID.) The 'metaid' value serves to identify a model component for purposes such as referencing that component from metadata placed within 'annotation' subelements.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Returns:: true if the 'metaid' attribute of this SBML object has been set, false otherwise.

See also:: getMetaId()
setMetaId(const std.string& metaid)

Deprecated:: libSBML internal

Reimplemented in libsbml.Model, libsbml.FunctionDefinition, libsbml.UnitDefinition, libsbml.CompartmentType, libsbml.SpeciesType, libsbml.Compartment, libsbml.Species, libsbml.Parameter, libsbml.Reaction, libsbml.SimpleSpeciesReference, and libsbml.Event.

Definition at line 2272 of file libsbml.py.

def libsbml.SBase.isSetMetaId ( self ) [inherited]

Python method signature(s):

isSetMetaId(self)    bool

Predicate returning true or false depending on whether this object's 'metaid' attribute has been set.

The optional attribute named 'metaid', present on every major SBML component type, is for supporting metadata annotations using RDF (Resource Description Format). The attribute value has the data type XML ID, the XML identifier type, which means each 'metaid' value must be globally unique within an SBML file. (Importantly, this uniqueness criterion applies across any attribute with type XML ID, not just the 'metaid' attribute used by SBML—something to be aware of if your application-specific XML content inside the 'annotation' subelement happens to use XML ID.) The 'metaid' value serves to identify a model component for purposes such as referencing that component from metadata placed within 'annotation' subelements.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Returns:: true if the 'metaid' attribute of this SBML object has been set, false otherwise.

See also:: getMetaId()
setMetaId(const std.string& metaid)

Definition at line 2235 of file libsbml.py.

def libsbml.SBase.isSetName ( self ) [inherited]

Python method signature(s):

isSetName(self)    bool

Predicate returning true or false depending on whether this object's 'metaid' attribute has been set.

The optional attribute named 'metaid', present on every major SBML component type, is for supporting metadata annotations using RDF (Resource Description Format). The attribute value has the data type XML ID, the XML identifier type, which means each 'metaid' value must be globally unique within an SBML file. (Importantly, this uniqueness criterion applies across any attribute with type XML ID, not just the 'metaid' attribute used by SBML—something to be aware of if your application-specific XML content inside the 'annotation' subelement happens to use XML ID.) The 'metaid' value serves to identify a model component for purposes such as referencing that component from metadata placed within 'annotation' subelements.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Returns:: true if the 'metaid' attribute of this SBML object has been set, false otherwise.

See also:: getMetaId()
setMetaId(const std.string& metaid)

Deprecated:: libSBML internal

Reimplemented in libsbml.Model, libsbml.FunctionDefinition, libsbml.UnitDefinition, libsbml.CompartmentType, libsbml.SpeciesType, libsbml.Compartment, libsbml.Species, libsbml.Parameter, libsbml.Reaction, libsbml.SimpleSpeciesReference, and libsbml.Event.

Definition at line 2310 of file libsbml.py.

def libsbml.SBase.isSetNotes ( self ) [inherited]

Python method signature(s):

isSetNotes(self)    bool

Predicate returning true or false depending on whether this object's 'notes' subelement exists and has content.

The optional element named 'notes', present on every major SBML component type, is intended as a place for storing optional information intended to be seen by humans. An example use of the 'notes' element would be to contain formatted user comments about the model element in which the 'notes' element is enclosed. Every object derived directly or indirectly from type SBase can have a separate value for 'notes', allowing users considerable freedom when adding comments to their models. The format of 'notes' elements must be XHTML 1.0. The SBML Level 2 specification has considerable detail about how 'notes' element content must be handled; please refer to the specifications.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Returns:: true if a 'notes' subelement exists, false otherwise.

See also:

getNotes()

setNotes(const XMLNode* notes)

setNotes(const std.string& notes)

appendNotes(const XMLNode* notes)

appendNotes(const std.string& notes)

Definition at line 2348 of file libsbml.py.

def libsbml.SBase.isSetSBOTerm ( self ) [inherited]

Python method signature(s):

isSetSBOTerm(self)    bool

Predicate returning true or false depending on whether this object's 'sboTerm' attribute has been set.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Returns:: true if the 'sboTerm' attribute of this SBML object has been set, false otherwise.

Definition at line 2427 of file libsbml.py.

def libsbml.ListOfEvents.remove	(	self,
		args
	)

Python method signature(s):

remove(self, unsigned int n)    Event
remove(self, string sid)    Event

Removes item in this ListOfEvents items with the given identifier.

The caller owns the returned item and is responsible for deleting it. If none of the items in this list have the identifier sid, then NULL is returned.

Parameters:

sid

the identifier of the item to remove

Returns:: the item removed. As mentioned above, the caller owns the returned item.

Reimplemented from libsbml.ListOf.

Definition at line 22445 of file libsbml.py.

def libsbml.SBase.setAnnotation	(	self,
		args
	)		`[inherited]`

Python method signature(s):

setAnnotation(self, XMLNode annotation)    int
setAnnotation(self, string annotation)    int

Sets the value of the 'annotation' subelement of this SBML object to a copy of annotation given as a character string.

Whereas the SBase 'notes' subelement is a container for content to be shown directly to humans, the 'annotation' element is a container for optional software-generated content not meant to be shown to humans. Every object derived from SBase can have its own value for 'annotation'. The element's content type is XML type any, allowing essentially arbitrary well-formed XML data content.

SBML places a few restrictions on the organization of the content of annotations; these are intended to help software tools read and write the data as well as help reduce conflicts between annotations added by different tools. Please see the SBML specifications for more details.

Call this method will result in any existing content of the 'annotation' subelement to be discarded. Unless you have taken steps to first copy and reconstitute any existing annotations into the annotation that is about to be assigned, it is likely that performing such wholesale replacement is unfriendly towards other software applications whose annotations are discarded. An alternative may be to use SBase.appendAnnotation(const XMLNode* annotation) or SBase.appendAnnotation(const std.string& annotation).

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Parameters:

annotation

an XML string that is to be used as the content of the 'annotation' subelement of this object

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS
LIBSBML_OPERATION_FAILED

See also:

setAnnotation(const XMLNode* annotation)

appendAnnotation(const XMLNode* annotation)

appendAnnotation(const std.string& annotation)

Reimplemented in libsbml.Model, and libsbml.SpeciesReference.

Definition at line 2568 of file libsbml.py.

def libsbml.SBase.setId	(	self,
		args
	)		`[inherited]`

Python method signature(s):

setId(self, string sid)    int

Sets the value of the 'metaid' attribute of this object.

The string metaid is copied. The value of metaid must be an identifier conforming to the syntax defined by the XML 1.0 data type ID. Among other things, this type requires that a value is unique among all the values of type XML ID in an SBMLDocument. Although SBML only uses XML ID for the 'metaid' attribute, callers should be careful if they use XML ID's in XML portions of a model that are not defined by SBML, such as in the application-specific content of the 'annotation' subelement.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Parameters:

metaid

the identifier string to use as the value of the 'metaid' attribute

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS
LIBSBML_INVALID_ATTRIBUTE_VALUE
LIBSBML_UNEXPECTED_ATTRIBUTE

See also:: getMetaId()
isSetMetaId()

Deprecated:: libSBML internal

Reimplemented in libsbml.Model, libsbml.FunctionDefinition, libsbml.UnitDefinition, libsbml.CompartmentType, libsbml.SpeciesType, libsbml.Compartment, libsbml.Species, libsbml.Parameter, libsbml.Reaction, libsbml.SimpleSpeciesReference, and libsbml.Event.

Definition at line 2486 of file libsbml.py.

def libsbml.SBase.setMetaId	(	self,
		args
	)		`[inherited]`

Python method signature(s):

setMetaId(self, string metaid)    int

Sets the value of the 'metaid' attribute of this object.

The string metaid is copied. The value of metaid must be an identifier conforming to the syntax defined by the XML 1.0 data type ID. Among other things, this type requires that a value is unique among all the values of type XML ID in an SBMLDocument. Although SBML only uses XML ID for the 'metaid' attribute, callers should be careful if they use XML ID's in XML portions of a model that are not defined by SBML, such as in the application-specific content of the 'annotation' subelement.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Parameters:

metaid

the identifier string to use as the value of the 'metaid' attribute

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS
LIBSBML_INVALID_ATTRIBUTE_VALUE
LIBSBML_UNEXPECTED_ATTRIBUTE

See also:: getMetaId()
isSetMetaId()

Definition at line 2446 of file libsbml.py.

def libsbml.SBase.setName	(	self,
		args
	)		`[inherited]`

Python method signature(s):

setName(self, string name)    int

Sets the value of the 'metaid' attribute of this object.

The string metaid is copied. The value of metaid must be an identifier conforming to the syntax defined by the XML 1.0 data type ID. Among other things, this type requires that a value is unique among all the values of type XML ID in an SBMLDocument. Although SBML only uses XML ID for the 'metaid' attribute, callers should be careful if they use XML ID's in XML portions of a model that are not defined by SBML, such as in the application-specific content of the 'annotation' subelement.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Parameters:

metaid

the identifier string to use as the value of the 'metaid' attribute

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS
LIBSBML_INVALID_ATTRIBUTE_VALUE
LIBSBML_UNEXPECTED_ATTRIBUTE

See also:: getMetaId()
isSetMetaId()

Deprecated:: libSBML internal

Reimplemented in libsbml.Model, libsbml.FunctionDefinition, libsbml.UnitDefinition, libsbml.CompartmentType, libsbml.SpeciesType, libsbml.Compartment, libsbml.Species, libsbml.Parameter, libsbml.Reaction, libsbml.SimpleSpeciesReference, and libsbml.Event.

Definition at line 2527 of file libsbml.py.

def libsbml.SBase.setNamespaces	(	self,
		args
	)		`[inherited]`

Python method signature(s):

setNamespaces(self, XMLNamespaces xmlns)    int

Sets the namespaces relevant of this SBML object.

Parameters:

xmlns

the namespaces to set

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS

Definition at line 2811 of file libsbml.py.

def libsbml.SBase.setNotes	(	self,
		args
	)		`[inherited]`

Python method signature(s):

setNotes(self, XMLNode notes)    int
setNotes(self, string notes)    int

Sets the value of the 'notes' subelement of this SBML object to a copy of the string notes.

Any existing content of the 'notes' subelement is discarded.

The optional element named 'notes', present on every major SBML component type, is intended as a place for storing optional information intended to be seen by humans. An example use of the 'notes' element would be to contain formatted user comments about the model element in which the 'notes' element is enclosed. Every object derived directly or indirectly from type SBase can have a separate value for 'notes', allowing users considerable freedom when adding comments to their models. The format of 'notes' elements must be XHTML 1.0. The SBML Level 2 specification has considerable detail about how 'notes' element content must be handled; please refer to the specifications.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Parameters:

notes

an XML string that is to be used as the content of the 'notes' subelement of this object

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS
LIBSBML_INVALID_OBJECT
LIBSBML_OPERATION_FAILED

See also:

setNotes(const XMLNode* notes)

appendNotes(const XMLNode* notes)

appendNotes(const std.string& notes)

Definition at line 2676 of file libsbml.py.

def libsbml.SBase.setSBOTerm	(	self,
		args
	)		`[inherited]`

Python method signature(s):

setSBOTerm(self, int value)    int
setSBOTerm(self, string sboid)    int

Sets the value of the 'sboTerm' attribute.

In SBML Level 2 Versions 2, 3 and 4, the data type of the SBML 'sboTerm' attribute is a string of the form SBO:NNNNNNN, where NNNNNNN is a seven digit integer number; libSBML simplifies the representation by only storing the NNNNNNN integer portion. Thus, in libSBML, the 'sboTerm' attribute on SBase has data type int, and SBO identifiers are stored simply as integers. SBO terms are a type of optional annotation, and each different class of SBML object derived from SBase imposes its own requirements about the values permitted for 'sboTerm'. Please consult the SBML Level 2 Version 4 specification for more information about the use of SBO and the 'sboTerm' attribute.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Parameters:

value

the NNNNNNN integer portion of the SBO identifier

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS
LIBSBML_INVALID_ATTRIBUTE_VALUE
LIBSBML_UNEXPECTED_ATTRIBUTE

Definition at line 2774 of file libsbml.py.

def libsbml.ListOf.size ( self ) [inherited]

Python method signature(s):

size(self)    unsigned int

Get the size of this ListOf.

Returns:: the number of items in this ListOf items.

Definition at line 3472 of file libsbml.py.

def libsbml.SBase.toSBML ( self ) [inherited]

Python method signature(s):

toSBML(self)    char

Returns a string that consists of the partial SBML describing this object. This is primarily provided for testing and debugging purposes. It may be removed in a future version of libSBML.

Returns:: the partial SBML that describes this SBML object.

Definition at line 3237 of file libsbml.py.

def libsbml.SBase.unsetAnnotation ( self ) [inherited]

Python method signature(s):

unsetAnnotation(self)    int

Unsets the value of the 'annotation' subelement of this SBML object.

Whereas the SBase 'notes' subelement is a container for content to be shown directly to humans, the 'annotation' element is a container for optional software-generated content not meant to be shown to humans. Every object derived from SBase can have its own value for 'annotation'. The element's content type is XML type any, allowing essentially arbitrary well-formed XML data content.

SBML places a few restrictions on the organization of the content of annotations; these are intended to help software tools read and write the data as well as help reduce conflicts between annotations added by different tools. Please see the SBML specifications for more details.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS

See also:

getAnnotation()

setAnnotation(const XMLNode* annotation)

setAnnotation(const std.string& annotation)

appendAnnotation(const XMLNode* annotation)

appendAnnotation(const std.string& annotation)

Definition at line 2910 of file libsbml.py.

def libsbml.SBase.unsetCVTerms ( self ) [inherited]

Python method signature(s):

unsetCVTerms(self)    int

Clears the list of CVTerms of this SBML object.

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS
LIBSBML_OPERATION_FAILED

Definition at line 3060 of file libsbml.py.

def libsbml.SBase.unsetMetaId ( self ) [inherited]

Python method signature(s):

unsetMetaId(self)    int

Unsets the value of the 'metaid' attribute of this SBML object.

The optional attribute named 'metaid', present on every major SBML component type, is for supporting metadata annotations using RDF (Resource Description Format). The attribute value has the data type XML ID, the XML identifier type, which means each 'metaid' value must be globally unique within an SBML file. (Importantly, this uniqueness criterion applies across any attribute with type XML ID, not just the 'metaid' attribute used by SBML—something to be aware of if your application-specific XML content inside the 'annotation' subelement happens to use XML ID.) The 'metaid' value serves to identify a model component for purposes such as referencing that component from metadata placed within 'annotation' subelements.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS
LIBSBML_OPERATION_FAILED

Definition at line 2832 of file libsbml.py.

def libsbml.SBase.unsetNotes ( self ) [inherited]

Python method signature(s):

unsetNotes(self)    int

Unsets the value of the 'notes' subelement of this SBML object.

The optional element named 'notes', present on every major SBML component type, is intended as a place for storing optional information intended to be seen by humans. An example use of the 'notes' element would be to contain formatted user comments about the model element in which the 'notes' element is enclosed. Every object derived directly or indirectly from type SBase can have a separate value for 'notes', allowing users considerable freedom when adding comments to their models. The format of 'notes' elements must be XHTML 1.0. The SBML Level 2 specification has considerable detail about how 'notes' element content must be handled; please refer to the specifications.

Some words of explanation about the set/unset/isSet methods: SBML Levels 1 and 2 define certain attributes on some classes of objects as optional. This requires an application to be careful about the distinction between two cases: (1) a given attribute has never been set to a value, and therefore should be assumed to have the SBML-defined default value, and (2) a given attribute has been set to a value, but the value happens to be an empty string. LibSBML supports these distinctions by providing methods to set, unset, and query the status of attributes that are optional. The methods have names of the form setAttribute(...), unsetAttribute(), and isSetAttribute(), where Attribute is the the name of the optional attribute in question.

Returns:

integer value indicating success/failure of the function. The possible values returned by this function are:

LIBSBML_OPERATION_SUCCESS

See also: