libSBML C++ API  5.20.4
Unit Class Reference
Inheritance diagram for Unit:
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Detailed Description

A single unit referenced in an SBML unit definition.

The SBML unit definition facility uses two classes of objects, UnitDefinition and Unit. The approach to defining units in SBML is compositional; for example, meter second –2 is constructed by combining a Unit object representing meter with another Unit object representing second –2. The combination is wrapped inside a UnitDefinition, which provides for assigning an identifier and optional name to the combination. The identifier can then be referenced from elsewhere in a model. Thus, the UnitDefinition class is the container, and Unit instances are placed inside UnitDefinition instances.

A Unit has four attributes named "kind", "exponent", "scale" and "multiplier". It represents a (possibly transformed) reference to a base unit. The attribute "kind" on Unit indicates the chosen base unit. Its value must be one of the text strings listed below; this list corresponds to SBML Level 3:

amperefaradjouleluxradianvolt
avogadrogramkatalmetresecondwatt
becquerelgraykelvinmolesiemensweber
candelahenrykilogramnewtonsievert
coulombhertzlitreohmsteradian
dimensionlessitemlumenpascaltesla

A few small differences exist between the Level 3 list of base units and the list defined in other Level/Version combinations of SBML. Specifically, Levels of SBML before Level 3 do not define avogadro; conversely, Level 2 Version 1 defines Celsius, and Level 1 defines celsius, meter, and liter, none of which are available in Level 3. In libSBML, each of the predefined base unit names is represented by an enumeration value in UnitKind_t, discussed in a separate section below.

The attribute named "exponent" on Unit represents an exponent on the unit. In SBML Level 2, the attribute is optional and has a default value of 1 (one); in SBML Level 3, the attribute is mandatory and there is no default value. A Unit also has an attribute called "scale"; its value must be an integer exponent for a power-of-ten multiplier used to set the scale of the unit. For example, a unit having a "kind" value of gram and a "scale" value of -3 signifies 10 –3 \(\times\) gram, or milligrams. In SBML Level 2, the attribute is optional and has a default value of 0 (zero), because 10 0 = 1; in SBML Level 3, the attribute is mandatory and has no default value. Lastly, the attribute named "multiplier" can be used to multiply the unit by a real-numbered factor; this enables the definition of units that are not power-of-ten multiples of SI units. For instance, a multiplier of 0.3048 could be used to define foot as a measure of length in terms of a metre. The "multiplier" attribute is optional in SBML Level 2, where it has a default value of 1 (one); in SBML Level 3, the attribute is mandatory and has no default value.

UnitKind_t

As discussed above, SBML defines a set of base units which serves as the starting point for new unit definitions. This set of base units consists of the SI units and a small number of additional convenience units.

Until SBML Level 2 Version 3, there existed a data type in the SBML specifications called UnitKind, enumerating the possible SBML base units. Although SBML Level 2 Version 3 removed this type from the language specification, libSBML maintains the corresponding enumeration type UnitKind_t as a convenience and as a way to provide backward compatibility to previous SBML Level/Version specifications. (The removal in SBML Level 2 Version 3 of the enumeration UnitKind was also accompanied by the redefinition of the data type UnitSId to include the previous UnitKind values as reserved symbols in the UnitSId space. This change has no net effect on permissible models, their representation or their syntax. The purpose of the change in the SBML specification was simply to clean up an inconsistency about the contexts in which these values were usable.)

As a consequence of the fact that libSBML supports models in all Levels and Versions of SBML, libSBML's set of UNIT_KIND_ values is a union of all the possible base unit names defined in the different SBML specifications. However, not every base unit is allowed in every Level+Version combination of SBML. Note in particular the following exceptions:

  • The alternate spelling "meter" is included in addition to the official SI spelling "metre". This spelling is only permitted in SBML Level 1 models.

  • The alternate spelling "liter" is included in addition to the official SI spelling "litre". This spelling is only permitted in SBML Level 1 models.

  • The unit "Celsius" is included because of its presence in specifications of SBML prior to SBML Level 2 Version 2.

  • The unit avogadro was introduced in SBML Level 3, and is only permitted for use in SBML Level 3 models.

The table below lists the symbols defined in the UnitKind_t enumeration, and their meanings.

Enumerator Meaning
UNIT_KIND_AMPEREThe ampere unit.
UNIT_KIND_AVOGADROThe unit dimensionless multiplied by the numerical value of Avogadro's constant. (Only usable in SBML Level 3 models.)
UNIT_KIND_BECQUERELThe becquerel unit.
UNIT_KIND_CANDELAThe candela unit.
UNIT_KIND_CELSIUSThe Celsius unit. (Only usable in SBML Level 1 and SBML Level 2 Version 1 models.)
UNIT_KIND_COULOMBThe coulomb unit.
UNIT_KIND_DIMENSIONLESSA pseudo-unit indicating a dimensionless quantity.
UNIT_KIND_FARADThe farad unit.
UNIT_KIND_GRAMThe gram unit.
UNIT_KIND_GRAYThe gray unit.
UNIT_KIND_HENRYThe henry unit.
UNIT_KIND_HERTZThe hertz unit.
UNIT_KIND_ITEMA pseudo-unit representing a single "thing".
UNIT_KIND_JOULEThe joule unit.
UNIT_KIND_KATALThe katal unit.
UNIT_KIND_KELVINThe kelvin unit.
UNIT_KIND_KILOGRAMThe kilogram unit.
UNIT_KIND_LITERAlternate spelling of litre.
UNIT_KIND_LITREThe litre unit.
UNIT_KIND_LUMENThe lumen unit.
UNIT_KIND_LUXThe lux unit.
UNIT_KIND_METERAlternate spelling of metre.
UNIT_KIND_METREThe metre unit.
UNIT_KIND_MOLEThe mole unit.
UNIT_KIND_NEWTONThe newton unit.
UNIT_KIND_OHMThe ohm unit.
UNIT_KIND_PASCALThe pascal unit.
UNIT_KIND_RADIANThe radian unit.
UNIT_KIND_SECONDThe second unit.
UNIT_KIND_SIEMENSThe siemens unit.
UNIT_KIND_SIEVERTThe sievert unit.
UNIT_KIND_STERADIANThe steradian unit.
UNIT_KIND_TESLAThe tesla unit.
UNIT_KIND_VOLTThe volt unit.
UNIT_KIND_WATTThe watt unit.
UNIT_KIND_WEBERThe weber unit.
UNIT_KIND_INVALIDMarker used by libSBML to indicate an invalid or unset unit.
Examples
createExampleSBML.cpp.

Public Member Functions

int addCVTerm (CVTerm *term, bool newBag=false)
 Adds a copy of the given CVTerm object to this SBML object. More...
 
int addModifiedDate (Date *date)
 Adds a modified date to the ModelHistory of this object. More...
 
virtual int appendAnnotation (const std::string &annotation)
 Appends the given annotation to the "annotation" subelement of this object. More...
 
virtual int appendAnnotation (const XMLNode *annotation)
 Appends the given annotation to the "annotation" subelement of this object. More...
 
int appendNotes (const std::string &notes)
 Appends the given notes to the "notes" subelement of this object. More...
 
int appendNotes (const XMLNode *notes)
 Appends the given notes to the "notes" subelement of this object. More...
 
virtual Unitclone () const
 Creates and returns a deep copy of this Unit object. More...
 
void deleteDisabledPlugins (bool recursive=true)
 Deletes all information stored in disabled plugins. More...
 
int disablePackage (const std::string &pkgURI, const std::string &pkgPrefix)
 Disables the given SBML Level 3 package on this object. More...
 
int enablePackage (const std::string &pkgURI, const std::string &pkgPrefix, bool flag)
 Enables or disables the given SBML Level 3 package on this object. More...
 
virtual ListgetAllElements (ElementFilter *filter=NULL)
 Returns a List of all child SBase objects, including those nested to an arbitrary depth. More...
 
virtual ListgetAllElementsFromPlugins (ElementFilter *filter=NULL)
 Returns a List of all child SBase objects contained in SBML package plug-ins. More...
 
SBasegetAncestorOfType (int type, const std::string &pkgName="core")
 Returns the first ancestor object that has the given SBML type code from the given package. More...
 
const SBasegetAncestorOfType (int type, const std::string pkgName="core") const
 Returns the first ancestor object that has the given SBML type code from the given package. More...
 
XMLNodegetAnnotation ()
 Returns the content of the "annotation" subelement of this object as a tree of XMLNode objects. More...
 
XMLNodegetAnnotation () const
 Returns the content of the "annotation" subelement of this object as a tree of XMLNode objects. More...
 
std::string getAnnotationString ()
 Returns the content of the "annotation" subelement of this object as a character string. More...
 
std::string getAnnotationString () const
 Returns the content of the "annotation" subelement of this object as a character string. More...
 
unsigned int getColumn () const
 Returns the column number where this object first appears in the XML representation of the SBML document. More...
 
DategetCreatedDate ()
 Returns the "creation date" portion of the ModelHistory of this object. More...
 
DategetCreatedDate () const
 Returns the "creation date" portion of the ModelHistory of this object. More...
 
CVTermgetCVTerm (unsigned int n)
 Returns the nth CVTerm in the list of CVTerms of this SBML object. More...
 
ListgetCVTerms ()
 Returns a list of CVTerm objects in the annotations of this SBML object. More...
 
ListgetCVTerms () const
 Returns a list of CVTerm objects in the annotations of this SBML object. More...
 
SBasePlugingetDisabledPlugin (unsigned int n)
 Returns the nth disabled plug-in object (extension interface) for an SBML Level 3 package extension. More...
 
const SBasePlugingetDisabledPlugin (unsigned int n) const
 Returns the nth disabled plug-in object (extension interface) for an SBML Level 3 package extension. More...
 
virtual SBasegetElementByMetaId (const std::string &metaid)
 Returns the first child element it can find with a specific "metaid" attribute value, or NULL if no such object is found. More...
 
const SBasegetElementByMetaId (const std::string &metaid) const
 Returns the first child element it can find with a specific "metaid" attribute value, or NULL if no such object is found. More...
 
virtual SBasegetElementBySId (const std::string &id)
 Returns the first child element found that has the given id in the model-wide SId namespace, or NULL if no such object is found. More...
 
virtual const SBasegetElementBySId (const std::string &id) const
 Returns the first child element found that has the given id in the model-wide SId namespace, or NULL if no such object is found. More...
 
virtual const std::string & getElementName () const
 Returns the XML element name of this object, which for Unit, is always "unit". More...
 
int getExponent () const
 Returns the value of the "exponent" attribute of this unit. More...
 
double getExponentAsDouble () const
 Returns the value of the "exponent" attribute of this unit. More...
 
virtual const std::string & getId () const
 Returns the value of the "id" attribute of this SBML object, if it has one, or the "variable" attribute of a Rule, or the "symbol" attribute of an InitialAssignment. More...
 
const std::string & getIdAttribute () const
 Returns the value of the "id" attribute of this SBML object. More...
 
UnitKind_t getKind () const
 Returns the "kind" of Unit this is. More...
 
unsigned int getLevel () const
 Returns the SBML Level of the SBMLDocument object containing this object. More...
 
unsigned int getLine () const
 Returns the line number where this object first appears in the XML representation of the SBML document. More...
 
std::string & getMetaId ()
 Returns the value of the "metaid" attribute of this SBML object. More...
 
const std::string & getMetaId () const
 Returns the value of the "metaid" attribute of this SBML object. More...
 
const ModelgetModel () const
 Returns the Model object for the SBML Document in which the current object is located. More...
 
ModelHistorygetModelHistory ()
 Returns the ModelHistory object, if any, attached to this object. More...
 
ModelHistorygetModelHistory () const
 Returns the ModelHistory object, if any, attached to this object. More...
 
DategetModifiedDate (unsigned int n)
 Get the nth Date object in the list of "modified date" values stored in the ModelHistory of this object. More...
 
double getMultiplier () const
 Returns the value of the "multiplier" attribute of this Unit. More...
 
virtual const std::string & getName () const
 Returns the value of the "name" attribute of this SBML object. More...
 
virtual XMLNamespacesgetNamespaces () const
 Returns a list of the XML Namespaces declared on the SBML document owning this object. More...
 
XMLNodegetNotes ()
 Returns the content of the "notes" subelement of this object as a tree of XMLNode objects. More...
 
XMLNodegetNotes () const
 Returns the content of the "notes" subelement of this object as a tree of XMLNode objects. More...
 
std::string getNotesString ()
 Returns the content of the "notes" subelement of this object as a string. More...
 
std::string getNotesString () const
 Returns the content of the "notes" subelement of this object as a string. More...
 
unsigned int getNumCVTerms () const
 Returns the number of CVTerm objects in the annotations of this SBML object. More...
 
unsigned int getNumDisabledPlugins () const
 Returns the number of disabled plug-in objects (extension interfaces) for SBML Level 3 package extensions known. More...
 
unsigned int getNumModifiedDates ()
 Get the number of Date objects in the ModelHistory of this Iobject's list of "modified dates". More...
 
unsigned int getNumPlugins () const
 Returns the number of plug-in objects (extenstion interfaces) for SBML Level 3 package extensions known. More...
 
double getOffset () const
 Returns the value of the "offset" attribute of this Unit. More...
 
unsigned int getPackageCoreVersion () const
 Returns the SBML Core Version within the SBML Level of the actual object. More...
 
const std::string & getPackageName () const
 Returns the name of the SBML Level 3 package in which this element is defined. More...
 
unsigned int getPackageVersion () const
 Returns the Version of the SBML Level 3 package to which this element belongs to. More...
 
SBasegetParentSBMLObject ()
 Returns the parent SBML object containing this object. More...
 
const SBasegetParentSBMLObject () const
 Returns the parent SBML object containing this object. More...
 
SBasePlugingetPlugin (const std::string &package)
 Returns a plug-in object (extension interface) for an SBML Level 3 package extension with the given package name or URI. More...
 
const SBasePlugingetPlugin (const std::string &package) const
 Returns a plug-in object (extension interface) for an SBML Level 3 package extension with the given package name or URI. More...
 
SBasePlugingetPlugin (unsigned int n)
 Returns the nth plug-in object (extension interface) for an SBML Level 3 package extension. More...
 
const SBasePlugingetPlugin (unsigned int n) const
 Returns the nth plug-in object (extension interface) for an SBML Level 3 package extension. More...
 
std::string getPrefix () const
 Returns the XML namespace prefix of this element. More...
 
BiolQualifierType_t getResourceBiologicalQualifier (std::string resource) const
 Returns the MIRIAM biological qualifier associated with the given resource. More...
 
ModelQualifierType_t getResourceModelQualifier (std::string resource) const
 Returns the MIRIAM model qualifier associated with the given resource. More...
 
SBMLDocumentgetSBMLDocument ()
 Returns the SBMLDocument object containing this object instance. More...
 
const SBMLDocumentgetSBMLDocument () const
 Returns the SBMLDocument object containing this object instance. More...
 
int getSBOTerm () const
 Returns the integer portion of the value of the "sboTerm" attribute of this object. More...
 
std::string getSBOTermAsURL () const
 Returns the URL representation of the "sboTerm" attribute of this object. More...
 
std::string getSBOTermID () const
 Returns the string representation of the "sboTerm" attribute of this object. More...
 
int getScale () const
 Returns the value of the "scale" attribute of this unit. More...
 
virtual int getTypeCode () const
 Returns the libSBML type code of this object instance. More...
 
std::string getURI () const
 Returns the namespace URI to which this element belongs to. More...
 
void * getUserData () const
 Returns the user data that has been previously set via setUserData(). More...
 
unsigned int getVersion () const
 Returns the Version within the SBML Level of the SBMLDocument object containing this object. More...
 
virtual bool hasRequiredAttributes () const
 Predicate returning true if all the required attributes for this Unit object have been set. More...
 
bool hasValidLevelVersionNamespaceCombination ()
 Predicate returning true if this object's level/version and namespace values correspond to a valid SBML specification. More...
 
void initDefaults ()
 Initializes the fields of this Unit object to "typical" default values. More...
 
bool isAmpere () const
 Predicate for testing whether this Unit is of the kind ampere. More...
 
bool isAvogadro () const
 Predicate for testing whether this Unit is of the kind avogadro. More...
 
bool isBecquerel () const
 Predicate for testing whether this Unit is of the kind becquerel. More...
 
bool isCandela () const
 Predicate for testing whether this Unit is of the kind candela. More...
 
bool isCelsius () const
 Predicate for testing whether this Unit is of the kind Celsius. More...
 
bool isCoulomb () const
 Predicate for testing whether this Unit is of the kind coulomb. More...
 
bool isDimensionless () const
 Predicate for testing whether this Unit is of the kind dimensionless. More...
 
bool isFarad () const
 Predicate for testing whether this Unit is of the kind farad. More...
 
bool isGram () const
 Predicate for testing whether this Unit is of the kind gram. More...
 
bool isGray () const
 Predicate for testing whether this Unit is of the kind gray. More...
 
bool isHenry () const
 Predicate for testing whether this Unit is of the kind henry. More...
 
bool isHertz () const
 Predicate for testing whether this Unit is of the kind hertz. More...
 
bool isItem () const
 Predicate for testing whether this Unit is of the kind item. More...
 
bool isJoule () const
 Predicate for testing whether this Unit is of the kind joule. More...
 
bool isKatal () const
 Predicate for testing whether this Unit is of the kind katal. More...
 
bool isKelvin () const
 Predicate for testing whether this Unit is of the kind kelvin. More...
 
bool isKilogram () const
 Predicate for testing whether this Unit is of the kind kilogram. More...
 
bool isLitre () const
 Predicate for testing whether this Unit is of the kind litre. More...
 
bool isLumen () const
 Predicate for testing whether this Unit is of the kind lumen. More...
 
bool isLux () const
 Predicate for testing whether this Unit is of the kind lux. More...
 
bool isMetre () const
 Predicate for testing whether this Unit is of the kind metre. More...
 
bool isMole () const
 Predicate for testing whether this Unit is of the kind mole. More...
 
bool isNewton () const
 Predicate for testing whether this Unit is of the kind newton. More...
 
bool isOhm () const
 Predicate for testing whether this Unit is of the kind ohm. More...
 
bool isPackageEnabled (const std::string &pkgName) const
 Predicate returning true if the given SBML Level 3 package is enabled with this object. More...
 
bool isPackageURIEnabled (const std::string &pkgURI) const
 Predicate returning true if an SBML Level 3 package with the given URI is enabled with this object. More...
 
bool isPascal () const
 Predicate for testing whether this Unit is of the kind pascal. More...
 
bool isPkgEnabled (const std::string &pkgName) const
 Predicate returning true if the given SBML Level 3 package is enabled with this object. More...
 
bool isPkgURIEnabled (const std::string &pkgURI) const
 Predicate returning true if an SBML Level 3 package with the given URI is enabled with this object. More...
 
bool isRadian () const
 Predicate for testing whether this Unit is of the kind radian. More...
 
bool isSecond () const
 Predicate for testing whether this Unit is of the kind second. More...
 
bool isSetAnnotation () const
 Predicate returning true if this object's "annotation" subelement exists and has content. More...
 
bool isSetCreatedDate () const
 Predicate returning true if this object has a ModelHistory object attached to it and the created date is set. More...
 
bool isSetExponent () const
 Predicate to test whether the "exponent" attribute of this Unit is set. More...
 
virtual bool isSetId () const
 Predicate returning true if a call to getId() returns a non-empty string. More...
 
bool isSetIdAttribute () const
 Predicate returning true if this object's "id" attribute is set. More...
 
bool isSetKind () const
 Predicate to test whether the "kind" attribute of this Unit is set. More...
 
bool isSetMetaId () const
 Predicate returning true if this object's "metaid" attribute is set. More...
 
bool isSetModelHistory () const
 Predicate returning true if this object has a ModelHistory object attached to it. More...
 
bool isSetModifiedDate () const
 Predicate returning true or false depending on whether the ModelHistory's "modified date" of this object is set. More...
 
bool isSetMultiplier () const
 Predicate to test whether the "multiplier" attribute of this Unit is set. More...
 
virtual bool isSetName () const
 Predicate returning true if this object's "name" attribute is set. More...
 
bool isSetNotes () const
 Predicate returning true if this object's "notes" subelement exists and has content. More...
 
bool isSetOffset () const
 Predicate to test whether the "offset" attribute of this Unit is set. More...
 
bool isSetSBOTerm () const
 Predicate returning true if this object's "sboTerm" attribute is set. More...
 
bool isSetScale () const
 Predicate to test whether the "scale" attribute of this Unit is set. More...
 
bool isSetUserData () const
 Predicate returning true or false depending on whether the user data of this element has been set. More...
 
bool isSiemens () const
 Predicate for testing whether this Unit is of the kind siemens. More...
 
bool isSievert () const
 Predicate for testing whether this Unit is of the kind sievert. More...
 
bool isSteradian () const
 Predicate for testing whether this Unit is of the kind steradian. More...
 
bool isTesla () const
 Predicate for testing whether this Unit is of the kind tesla. More...
 
bool isVolt () const
 Predicate for testing whether this Unit is of the kind volt. More...
 
bool isWatt () const
 Predicate for testing whether this Unit is of the kind watt. More...
 
bool isWeber () const
 Predicate for testing whether this Unit is of the kind weber. More...
 
bool matchesRequiredSBMLNamespacesForAddition (const SBase *sb)
 Returns true if this object's set of XML namespaces are a subset of the given object's XML namespaces. More...
 
bool matchesRequiredSBMLNamespacesForAddition (const SBase *sb) const
 Returns true if this object's set of XML namespaces are a subset of the given object's XML namespaces. More...
 
bool matchesSBMLNamespaces (const SBase *sb)
 Returns true if this object's set of XML namespaces are the same as the given object's XML namespaces. More...
 
bool matchesSBMLNamespaces (const SBase *sb) const
 Returns true if this object's set of XML namespaces are the same as the given object's XML namespaces. More...
 
Unitoperator= (const Unit &rhs)
 Assignment operator. More...
 
void read (const XMLNode &node, XMLErrorSeverityOverride_t flag=LIBSBML_OVERRIDE_DISABLED)
 Reads (initializes) this SBML object by reading from the given XMLNode. More...
 
virtual int removeFromParentAndDelete ()
 Removes this object from its parent. More...
 
int removeTopLevelAnnotationElement (const std::string &elementName, const std::string elementURI="", bool removeEmpty=true)
 Removes the top-level element within the "annotation" subelement of this SBML object with the given name and optional URI. More...
 
virtual void renameMetaIdRefs (const std::string &oldid, const std::string &newid)
 
virtual void renameSIdRefs (const std::string &oldid, const std::string &newid)
 
virtual void renameUnitSIdRefs (const std::string &oldid, const std::string &newid)
 
int replaceTopLevelAnnotationElement (const std::string &annotation)
 Replaces the given top-level element within the "annotation" subelement of this SBML object and with the annotation element supplied. More...
 
int replaceTopLevelAnnotationElement (const XMLNode *annotation)
 Replaces the given top-level element within the "annotation" subelement of this SBML object and with the annotation element supplied. More...
 
virtual int setAnnotation (const std::string &annotation)
 Sets the value of the "annotation" subelement of this SBML object. More...
 
virtual int setAnnotation (const XMLNode *annotation)
 Sets the value of the "annotation" subelement of this SBML object. More...
 
int setCreatedDate (Date *date)
 Sets the creation date of the ModelHistory of this object. More...
 
int setExponent (double value)
 Sets the "exponent" attribute value of this Unit. More...
 
int setExponent (int value)
 Sets the "exponent" attribute value of this Unit. More...
 
virtual int setId (const std::string &sid)
 Sets the value of the "id" attribute of this SBML object. More...
 
virtual int setIdAttribute (const std::string &sid)
 Sets the value of the "id" attribute of this SBML object. More...
 
int setKind (UnitKind_t kind)
 Sets the "kind" attribute value of this Unit. More...
 
int setMetaId (const std::string &metaid)
 Sets the value of the meta-identifier attribute of this SBML object. More...
 
int setModelHistory (ModelHistory *history)
 Sets the ModelHistory of this object. More...
 
int setMultiplier (double value)
 Sets the "multipler" attribute value of this Unit. More...
 
virtual int setName (const std::string &name)
 Sets the value of the "name" attribute of this SBML object. More...
 
int setNamespaces (XMLNamespaces *xmlns)
 Sets the namespaces relevant of this SBML object. More...
 
int setNotes (const std::string &notes, bool addXHTMLMarkup=false)
 Sets the value of the "notes" subelement of this SBML object to a copy of the string notes. More...
 
int setNotes (const XMLNode *notes)
 Sets the value of the "notes" subelement of this SBML object. More...
 
int setOffset (double value)
 Sets the "offset" attribute value of this Unit. More...
 
virtual int setSBOTerm (const std::string &sboid)
 Sets the value of the "sboTerm" attribute by string. More...
 
virtual int setSBOTerm (int value)
 Sets the value of the "sboTerm" attribute. More...
 
int setScale (int value)
 Sets the "scale" attribute value of this Unit. More...
 
int setUserData (void *userData)
 Sets the user data of this element. More...
 
char * toSBML ()
 Returns a string consisting of a partial SBML corresponding to just this object. More...
 
XMLNodetoXMLNode ()
 Returns this element as an XMLNode. More...
 
 Unit (const Unit &orig)
 Copy constructor; creates a copy of this Unit. More...
 
 Unit (SBMLNamespaces *sbmlns)
 Creates a new Unit using the given SBMLNamespaces object sbmlns. More...
 
 Unit (unsigned int level, unsigned int version)
 Creates a new Unit using the given SBML level and version values. More...
 
int unsetAnnotation ()
 Unsets the value of the "annotation" subelement of this SBML object. More...
 
int unsetCreatedDate ()
 Unsets the created date of the ModelHistory object attached to this object. More...
 
int unsetCVTerms ()
 Clears the list of CVTerm objects attached to this SBML object. More...
 
int unsetExponent ()
 Unsets the "exponent" attribute value of this Unit. More...
 
virtual int unsetId ()
 Unsets the value of the "id" attribute of this SBML object. More...
 
int unsetIdAttribute ()
 Unsets the value of the "id" attribute of this SBML object. More...
 
int unsetKind ()
 Unsets the "kind" attribute value of this Unit. More...
 
int unsetMetaId ()
 Unsets the value of the "metaid" attribute of this SBML object. More...
 
int unsetModelHistory ()
 Unsets the ModelHistory object attached to this object. More...
 
int unsetModifiedDates ()
 Unsets the modified dates of the ModelHistory object attached to this object. More...
 
int unsetMultiplier ()
 Unsets the "multipler" attribute value of this Unit. More...
 
virtual int unsetName ()
 Unsets the value of the "name" attribute of this SBML object. More...
 
int unsetNotes ()
 Unsets the value of the "notes" subelement of this SBML object. More...
 
int unsetOffset ()
 Unsets the "offset" attribute value of this Unit. More...
 
int unsetSBOTerm ()
 Unsets the value of the "sboTerm" attribute of this SBML object. More...
 
int unsetScale ()
 Unsets the "scale" attribute value of this Unit. More...
 
int unsetUserData ()
 Unsets the user data of this element. More...
 
virtual ~Unit ()
 Destroys this Unit. More...
 

Static Public Member Functions

static bool areEquivalent (Unit *unit1, Unit *unit2)
 Predicate returning true if Unit objects are equivalent. More...
 
static bool areIdentical (Unit *unit1, Unit *unit2)
 Predicate returning true if two Unit objects are identical. More...
 
static UnitDefinitionconvertToSI (const Unit *unit)
 Returns a UnitDefinition object containing the given unit converted to the appropriate SI unit. More...
 
static bool isBuiltIn (const std::string &name, unsigned int level)
 Predicate to test whether a given string is the name of a built-in SBML unit, depending on the SBML level, since new predefined units were added between level 2 versions 1 and 2, and then all predefined units were removed again in SBML Level 3. More...
 
static bool isUnitKind (const std::string &name, unsigned int level, unsigned int version)
 Predicate to test whether a given string is the name of a valid base unit in SBML (such as "gram" or "mole"). More...
 
static void merge (Unit *unit1, Unit *unit2)
 Merges two Unit objects with the same "kind" attribute value into a single Unit. More...
 
static int removeScale (Unit *unit)
 Manipulates the attributes of the Unit to express the unit with the value of the scale attribute reduced to zero. More...
 

Protected Member Functions

virtual void setElementText (const std::string &text)
 When overridden allows SBase elements to use the text included in between the elements tags. More...
 

Constructor & Destructor Documentation

◆ Unit() [1/3]

Unit::Unit ( unsigned int  level,
unsigned int  version 
)

Creates a new Unit using the given SBML level and version values.

Parameters
levelan unsigned int, the SBML Level to assign to this Unit.
versionan unsigned int, the SBML Version to assign to this Unit.
Exceptions
SBMLConstructorExceptionThrown if the given level and version combination are invalid or if this object is incompatible with the given level and version.
Note
Attempting to add an object to an SBMLDocument having a different combination of SBML Level, Version and XML namespaces than the object itself will result in an error at the time a caller attempts to make the addition. A parent object must have compatible Level, Version and XML namespaces. (Strictly speaking, a parent may also have more XML namespaces than a child, but the reverse is not permitted.) The restriction is necessary to ensure that an SBML model has a consistent overall structure. This requires callers to manage their objects carefully, but the benefit is increased flexibility in how models can be created by permitting callers to create objects bottom-up if desired. In situations where objects are not yet attached to parents (e.g., SBMLDocument), knowledge of the intented SBML Level and Version help libSBML determine such things as whether it is valid to assign a particular value to an attribute.

◆ Unit() [2/3]

Unit::Unit ( SBMLNamespaces sbmlns)

Creates a new Unit using the given SBMLNamespaces object sbmlns.

The SBMLNamespaces object encapsulates SBML Level/Version/namespaces information. It is used to communicate the SBML Level, Version, and (in Level 3) packages used in addition to SBML Level 3 Core. A common approach to using libSBML's SBMLNamespaces facilities is to create an SBMLNamespaces object somewhere in a program once, then hand that object as needed to object constructors that accept SBMLNamespaces as arguments.
Parameters
sbmlnsan SBMLNamespaces object.
Exceptions
SBMLConstructorExceptionThrown if the given sbmlns is inconsistent or incompatible with this object.
Note
Attempting to add an object to an SBMLDocument having a different combination of SBML Level, Version and XML namespaces than the object itself will result in an error at the time a caller attempts to make the addition. A parent object must have compatible Level, Version and XML namespaces. (Strictly speaking, a parent may also have more XML namespaces than a child, but the reverse is not permitted.) The restriction is necessary to ensure that an SBML model has a consistent overall structure. This requires callers to manage their objects carefully, but the benefit is increased flexibility in how models can be created by permitting callers to create objects bottom-up if desired. In situations where objects are not yet attached to parents (e.g., SBMLDocument), knowledge of the intented SBML Level and Version help libSBML determine such things as whether it is valid to assign a particular value to an attribute.

◆ ~Unit()

Unit::~Unit ( )
virtual

Destroys this Unit.

◆ Unit() [3/3]

Unit::Unit ( const Unit orig)

Copy constructor; creates a copy of this Unit.

Parameters
origthe object to copy.

Member Function Documentation

◆ addCVTerm()

int SBase::addCVTerm ( CVTerm term,
bool  newBag = false 
)
inherited

Adds a copy of the given CVTerm object to this SBML object.

Parameters
termthe CVTerm to assign.
newBagif true, creates a new RDF bag with the same identifier as a previous bag, and if false, adds the term to an existing RDF bag with the same type of qualifier as the term being added.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Note
Since the CV Term uses the "metaid" attribute of the object as a reference, if the object has no "metaid" attribute value set, then the CVTerm will not be added.
This method should be used with some caution. The fact that this method copies the object passed to it means that the caller will be left holding a physically different object instance than the one contained inside this object. Changes made to the original object instance (such as resetting attribute values) will not affect the instance in this object. In addition, the caller should make sure to free the original object if it is no longer being used, or else a memory leak will result. Please see other methods on this class (particularly a corresponding method whose name begins with the word create) for alternatives that do not lead to these issues.
Examples
addCVTerms.cpp, addingEvidenceCodes_1.cpp, and addingEvidenceCodes_2.cpp.

◆ addModifiedDate()

int SBase::addModifiedDate ( Date date)
inherited

Adds a modified date to the ModelHistory of this object.

Parameters
datea Date object representing the date to which the "modified date" portion of this ModelHistory should be set.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ appendAnnotation() [1/2]

int SBase::appendAnnotation ( const std::string &  annotation)
virtualinherited

Appends the given annotation to the "annotation" subelement of this 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.

Unlike SBase::setAnnotation(const XMLNode* annotation) or SBase::setAnnotation(const std::string& annotation), this method allows other annotations to be preserved when an application adds its own data.

Parameters
annotationan XML string that is to be copied and appended to the content of the "annotation" subelement of this object.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getAnnotationString()
isSetAnnotation()
setAnnotation(const XMLNode* annotation)
setAnnotation(const std::string& annotation)
appendAnnotation(const XMLNode* annotation)
unsetAnnotation()

Reimplemented in SpeciesReference, and Model.

◆ appendAnnotation() [2/2]

int SBase::appendAnnotation ( const XMLNode annotation)
virtualinherited

Appends the given annotation to the "annotation" subelement of this 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.

Unlike SBase::setAnnotation(const XMLNode* annotation) or SBase::setAnnotation(const std::string& annotation), this method allows other annotations to be preserved when an application adds its own data.

Parameters
annotationan XML structure that is to be copied and appended to the content of the "annotation" subelement of this object.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getAnnotationString()
isSetAnnotation()
setAnnotation(const XMLNode* annotation)
setAnnotation(const std::string& annotation)
appendAnnotation(const std::string& annotation)
unsetAnnotation()

Reimplemented in SpeciesReference, and Model.

Examples
addingEvidenceCodes_2.cpp, and appendAnnotation.cpp.

◆ appendNotes() [1/2]

int SBase::appendNotes ( const std::string &  notes)
inherited

Appends the given notes to the "notes" subelement of this object.

The content of the parameter notes is copied.

The optional SBML 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. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); however, readers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

Parameters
notesan 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 value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getNotesString()
isSetNotes()
setNotes(const XMLNode* notes)
setNotes(const std::string& notes, bool addXHTMLMarkup)
appendNotes(const XMLNode* notes)
unsetNotes()
SyntaxChecker::hasExpectedXHTMLSyntax()

◆ appendNotes() [2/2]

int SBase::appendNotes ( const XMLNode notes)
inherited

Appends the given notes to the "notes" subelement of this object.

The content of notes is copied.

The optional SBML 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. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); however, readers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

Parameters
notesan XML node structure that is to appended to the content of the "notes" subelement of this object.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getNotesString()
isSetNotes()
setNotes(const XMLNode* notes)
setNotes(const std::string& notes, bool addXHTMLMarkup)
appendNotes(const std::string& notes)
unsetNotes()
SyntaxChecker::hasExpectedXHTMLSyntax()

◆ areEquivalent()

static bool Unit::areEquivalent ( Unit unit1,
Unit unit2 
)
static

Predicate returning true if Unit objects are equivalent.

Two Unit objects are considered to be equivalent either if (1) both have a "kind" attribute value of dimensionless, or (2) their "kind", "exponent" and (for SBML Level 2 Version 1) "offset" attribute values are equal. (Contrast this to the method areIdentical(), which compares Unit objects with respect to all attributes, not just the "kind" and "exponent".)

Parameters
unit1the first Unit object to compare.
unit2the second Unit object to compare.
Returns
true if the "kind" and "exponent" attributes of unit1 are identical to the kind and exponent attributes of unit2, or if the kind attributes of both are dimensionless; false otherwise.
See also
areIdentical()

◆ areIdentical()

static bool Unit::areIdentical ( Unit unit1,
Unit unit2 
)
static

Predicate returning true if two Unit objects are identical.

Two Unit objects are considered to be identical if they match in all attributes. (Contrast this to the method areEquivalent(), which compares Unit objects only with respect to certain attributes.)

Parameters
unit1the first Unit object to compare.
unit2the second Unit object to compare.
Returns
true if all the attributes of unit1 are identical to the attributes of unit2, false otherwise.
See also
areEquivalent()

◆ clone()

Unit * Unit::clone ( ) const
virtual

Creates and returns a deep copy of this Unit object.

Returns
the (deep) copy of this Unit object.

Implements SBase.

◆ convertToSI()

static UnitDefinition* Unit::convertToSI ( const Unit unit)
static

Returns a UnitDefinition object containing the given unit converted to the appropriate SI unit.

This method exists because some units can be expressed in terms of others when the same physical dimension is involved. For example, one hertz is identical to 1 sec-1, one litre is equivalent to 1 cubic decametre, and so on.

Parameters
unitthe Unit object to convert to SI.
Returns
a UnitDefinition object containing the SI unit.
See also
merge()

◆ deleteDisabledPlugins()

void SBase::deleteDisabledPlugins ( bool  recursive = true)
inherited

Deletes all information stored in disabled plugins.

If the plugin is re-enabled later, it will then not have any previously-stored information.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.
If a plugin is disabled, the package information it contains is no longer considered to be part of the SBML document for the purposes of searching the document or writing out the document. However, the information is still retained, so if the plugin is enabled again, the same information will once again be available, and will be written out to the final model.
Parameters
recursiveif true, the disabled information will be deleted also from all child elements, otherwise only from this SBase element.
See also
getNumDisabledPlugins()

◆ disablePackage()

int SBase::disablePackage ( const std::string &  pkgURI,
const std::string &  pkgPrefix 
)
inherited

Disables the given SBML Level 3 package on this object.

This method disables the specified package on this object and other objects connected by child-parent links in the same SBMLDocument object.

An example of when this may be useful is during construction of model components when mixing existing and new models. Suppose your application read an SBML document containing a model that used the SBML Hierarchical Model Composition (“comp”) package, and extracted parts of that model in order to construct a new model in memory. The new, in-memory model will not accept a component drawn from an other SBMLDocument with different package namespace declarations. You could reconstruct the same namespaces in the in-memory model first, but as a shortcut, you could also disable the package namespace on the object being added. Here is a code example to help clarify this:

// We read in an SBML L3V1 model that uses the 'comp'
// package namespace.
doc = readSBML("sbml-file-with-comp-elements.xml");
// We extract one of the species from the model.
Species* s1 = doc->getModel()->getSpecies(0);
// We construct a new model. This model does not use the
// 'comp' package.
Model * newModel = new Model(3,1);
// The following will fail with an error, because addSpecies()
// will first check that the parent of the given object has
// namespaces declared, and will discover that s1 does but
// newModel does not.
// newModel->addSpecies(s1);
// However, if we disable the 'comp' package on s1, then
// the call to addSpecies will work.
s1->disablePackage("http://www.sbml.org/sbml/level3/version1/comp/version1",
"comp");
newModel->addSpecies(s1);
SBMLDocument_t * readSBML(const char *filename)
Reads an SBML document from the given file.
Definition: Model.h:485
const Species * getSpecies(unsigned int n) const
Get the nth Species object in this Model.
Definition: Model.cpp:2564
int addSpecies(const Species *s)
Adds a copy of the given Species object to this Model.
Definition: Model.cpp:1265
int disablePackage(const std::string &pkgURI, const std::string &pkgPrefix)
Disables the given SBML Level 3 package on this object.
Definition: SBase.cpp:3642
const Model * getModel() const
Returns the Model object for the SBML Document in which the current object is located.
Definition: SBase.cpp:3117
Definition: Species.h:429
Parameters
pkgURIthe URI of the package.
pkgPrefixthe XML prefix of the package.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
enablePackage(const std::string& pkgURI, const std::string& pkgPrefix, bool flag)

◆ enablePackage()

int SBase::enablePackage ( const std::string &  pkgURI,
const std::string &  pkgPrefix,
bool  flag 
)
inherited

Enables or disables the given SBML Level 3 package on this object.

This method enables the specified package on this object and other objects connected by child-parent links in the same SBMLDocument object. This method is the converse of SBase::disablePackage(const std::string& pkgURI, const std::string& pkgPrefix).

Parameters
pkgURIthe URI of the package.
pkgPrefixthe XML prefix of the package.
flagwhether to enable (true) or disable (false) the package.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
disablePackage(const std::string& pkgURI, const std::string& pkgPrefix)
Examples
addLayout.cpp.

◆ getAllElements()

List * SBase::getAllElements ( ElementFilter filter = NULL)
virtualinherited

◆ getAllElementsFromPlugins()

List * SBase::getAllElementsFromPlugins ( ElementFilter filter = NULL)
virtualinherited

Returns a List of all child SBase objects contained in SBML package plug-ins.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.

This method walks down the list of all SBML Level 3 packages used by this object and returns all child objects defined by those packages.

Parameters
filtera pointer to an ElementFilter, which causes the function to return only elements that match a particular set of constraints. If NULL (the default), the function will return all child objects.
Returns
a pointer to a List of pointers to all children objects from plug-ins.

◆ getAncestorOfType() [1/2]

SBase * SBase::getAncestorOfType ( int  type,
const std::string &  pkgName = "core" 
)
inherited

Returns the first ancestor object that has the given SBML type code from the given package.

LibSBML attaches an identifying code to every kind of SBML object. These are known as SBML type codes. The set of possible type codes is defined in the enumeration SBMLTypeCode_t. The names of the type codes all begin with the characters SBML_.

This method searches the tree of objects that are parents of this object, and returns the first one that has the given SBML type code from the given pkgName.

Parameters
typethe SBML type code of the object sought.
pkgName(optional) the short name of an SBML Level 3 package to which the sought-after object must belong.
Returns
the ancestor SBML object of this SBML object that corresponds to the given SBMLTypeCode_t value, or NULL if no ancestor exists.
Warning
The optional argument pkgName must be used for all type codes from SBML Level 3 packages. Otherwise, the function will search the "core" namespace alone, not find any corresponding elements, and return NULL.

◆ getAncestorOfType() [2/2]

const SBase * SBase::getAncestorOfType ( int  type,
const std::string  pkgName = "core" 
) const
inherited

Returns the first ancestor object that has the given SBML type code from the given package.

LibSBML attaches an identifying code to every kind of SBML object. These are known as SBML type codes. The set of possible type codes is defined in the enumeration SBMLTypeCode_t. The names of the type codes all begin with the characters SBML_.

This method searches the tree of objects that are parents of this object, and returns the first one that has the given SBML type code from the given pkgName.

Parameters
typethe SBML type code of the object sought.
pkgName(optional) the short name of an SBML Level 3 package to which the sought-after object must belong.
Returns
the ancestor SBML object of this SBML object that corresponds to the given SBMLTypeCode_t value, or NULL if no ancestor exists.
Warning
The optional argument pkgName must be used for all type codes from SBML Level 3 packages. Otherwise, the function will search the "core" namespace alone, not find any corresponding elements, and return NULL.

◆ getAnnotation() [1/2]

XMLNode * SBase::getAnnotation ( )
inherited

Returns the content of the "annotation" subelement of this object as a tree of XMLNode objects.

Whereas the SBML "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 a tree of XMLNode objects.
See also
getAnnotationString()
isSetAnnotation()
setAnnotation(const XMLNode* annotation)
setAnnotation(const std::string& annotation)
appendAnnotation(const XMLNode* annotation)
appendAnnotation(const std::string& annotation)
unsetAnnotation()

◆ getAnnotation() [2/2]

XMLNode * SBase::getAnnotation ( ) const
inherited

Returns the content of the "annotation" subelement of this object as a tree of XMLNode objects.

Whereas the SBML "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 a tree of XMLNode objects.
See also
getAnnotationString()
isSetAnnotation()
setAnnotation(const XMLNode* annotation)
setAnnotation(const std::string& annotation)
appendAnnotation(const XMLNode* annotation)
appendAnnotation(const std::string& annotation)
unsetAnnotation()

◆ getAnnotationString() [1/2]

std::string SBase::getAnnotationString ( )
inherited

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

Whereas the SBML "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. See the method getAnnotation() for a version that returns annotations in XML form.

Returns
the annotation of this SBML object as a character string.
See also
getAnnotation()
isSetAnnotation()
setAnnotation(const XMLNode* annotation)
setAnnotation(const std::string& annotation)
appendAnnotation(const XMLNode* annotation)
appendAnnotation(const std::string& annotation)
unsetAnnotation()
Examples
printAnnotation.cpp.

◆ getAnnotationString() [2/2]

std::string SBase::getAnnotationString ( ) const
inherited

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

Whereas the SBML "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. See the method getAnnotation() for a version that returns annotations in XML form.

Returns
the annotation of this SBML object as a character string.
See also
getAnnotation()
isSetAnnotation()
setAnnotation(const XMLNode* annotation)
setAnnotation(const std::string& annotation)
appendAnnotation(const XMLNode* annotation)
appendAnnotation(const std::string& annotation)
unsetAnnotation()

◆ getColumn()

unsigned int SBase::getColumn ( ) const
inherited

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

Returns
the column number of this SBML object. If this object was created programmatically and not read from a file, this method will return the value 0.
Note
The column number for each construct in an SBML model is set upon reading the model. The accuracy of the column number depends on the correctness of the XML representation of the model, and on the particular XML parser library being used. The former limitation relates to the following problem: if the model is actually invalid XML, then the parser may not be able to interpret the data correctly and consequently may not be able to establish the real column number. The latter limitation is simply that different parsers seem to have their own accuracy limitations, and out of all the parsers supported by libSBML, none have been 100% accurate in all situations. (At this time, libSBML supports the use of libxml2, Expat and Xerces.)
See also
getLine()

◆ getCreatedDate() [1/2]

Date * SBase::getCreatedDate ( )
inherited

Returns the "creation date" portion of the ModelHistory of this object.

Returns
a Date object representing the creation date stored in this ModelHistory object.
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.

◆ getCreatedDate() [2/2]

Date * SBase::getCreatedDate ( ) const
inherited

Returns the "creation date" portion of the ModelHistory of this object.

Returns
a Date object representing the creation date stored in this ModelHistory object.
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.

◆ getCVTerm()

CVTerm * SBase::getCVTerm ( unsigned int  n)
inherited

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

Parameters
nunsigned int the index of the CVTerm to retrieve.
Returns
the nth CVTerm in the list of CVTerms for this SBML object. If the index n is invalid, NULL is returned.

◆ getCVTerms() [1/2]

List * SBase::getCVTerms ( )
inherited

Returns a list of CVTerm objects in the annotations of this SBML object.

Returns
the list of CVTerms for this SBML object.

◆ getCVTerms() [2/2]

List * SBase::getCVTerms ( ) const
inherited

Returns a list of CVTerm objects in the annotations of this SBML object.

Returns
the list of CVTerms for this SBML object.

◆ getDisabledPlugin() [1/2]

SBasePlugin * SBase::getDisabledPlugin ( unsigned int  n)
inherited

Returns the nth disabled plug-in object (extension interface) for an SBML Level 3 package extension.

If no such plugin exists, NULL is returned.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.
If a plugin is disabled, the package information it contains is no longer considered to be part of the SBML document for the purposes of searching the document or writing out the document. However, the information is still retained, so if the plugin is enabled again, the same information will once again be available, and will be written out to the final model.
Parameters
nthe index of the disabled plug-in to return.
Returns
the nth disabled plug-in object (the libSBML extension interface) of a package extension. If the index n is invalid, NULL is returned.
See also
getNumDisabledPlugins()
getPlugin(const std::string& package)

◆ getDisabledPlugin() [2/2]

const SBasePlugin * SBase::getDisabledPlugin ( unsigned int  n) const
inherited

Returns the nth disabled plug-in object (extension interface) for an SBML Level 3 package extension.

If no such plugin exists, NULL is returned.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.
If a plugin is disabled, the package information it contains is no longer considered to be part of the SBML document for the purposes of searching the document or writing out the document. However, the information is still retained, so if the plugin is enabled again, the same information will once again be available, and will be written out to the final model.
Parameters
nthe index of the disabled plug-in to return.
Returns
the nth disabled plug-in object (the libSBML extension interface) of a package extension. If the index n is invalid, NULL is returned.
See also
getNumDisabledPlugins()
getPlugin(const std::string& package)

◆ getElementByMetaId() [1/2]

SBase * SBase::getElementByMetaId ( const std::string &  metaid)
virtualinherited

Returns the first child element it can find with a specific "metaid" attribute value, or NULL if no such object is found.

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. The latter point is important, because the uniqueness criterion applies across any attribute with type ID anywhere in the file, 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 the XML ID type. Although SBML itself specifies the use of XML ID only for the "metaid" attribute, SBML-compatible applications 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. Finally, note that LibSBML does not provide an explicit XML ID data type; it uses ordinary character strings, which is easier for applications to support.
Parameters
metaidstring representing the "metaid" attribute value of the object to find.
Returns
pointer to the first element found with the given meta-identifier.

Reimplemented in UnitDefinition, SBMLDocument, Reaction, SampledFieldGeometry, ParametricGeometry, MixedGeometry, Geometry, Domain, CSGTransformation, CSGSetOperator, CSGObject, CSGHomogeneousTransformation, CSGeometry, CoordinateComponent, AnalyticGeometry, Style, RenderInformationBase, RenderGroup, RenderCurve, Polygon, LocalRenderInformation, ListOfLocalRenderInformation, ListOfGlobalRenderInformation, LineEnding, GradientBase, GlobalRenderInformation, Transition, Group, UserDefinedConstraint, Objective, GeneProductAssociation, UncertParameter, Uncertainty, Submodel, SBaseRef, Model, ListOf, KineticLaw, and Event.

◆ getElementByMetaId() [2/2]

const SBase * SBase::getElementByMetaId ( const std::string &  metaid) const
inherited

Returns the first child element it can find with a specific "metaid" attribute value, or NULL if no such object is found.

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. The latter point is important, because the uniqueness criterion applies across any attribute with type ID anywhere in the file, 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 the XML ID type. Although SBML itself specifies the use of XML ID only for the "metaid" attribute, SBML-compatible applications 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. Finally, note that LibSBML does not provide an explicit XML ID data type; it uses ordinary character strings, which is easier for applications to support.
Parameters
metaidstring representing the "metaid" attribute value of the object to find.
Returns
pointer to the first element found with the given meta-identifier.

◆ getElementBySId() [1/2]

SBase * SBase::getElementBySId ( const std::string &  id)
virtualinherited

◆ getElementBySId() [2/2]

const SBase * SBase::getElementBySId ( const std::string &  id) const
virtualinherited

Returns the first child element found that has the given id in the model-wide SId namespace, or NULL if no such object is found.

Parameters
idstring representing the "id" attribute value of the object to find.
Returns
pointer to the first element found with the given identifier.

◆ getElementName()

const string & Unit::getElementName ( ) const
virtual

Returns the XML element name of this object, which for Unit, is always "unit".

Returns
the name of this element, i.e., "unit".

Reimplemented from SBase.

◆ getExponent()

int Unit::getExponent ( ) const

Returns the value of the "exponent" attribute of this unit.

Returns
the "exponent" value of this Unit, as an integer.

◆ getExponentAsDouble()

double Unit::getExponentAsDouble ( ) const

Returns the value of the "exponent" attribute of this unit.

Returns
the "exponent" value of this Unit, as a double.

◆ getId()

const string & SBase::getId ( ) const
virtualinherited

Returns the value of the "id" attribute of this SBML object, if it has one, or the "variable" attribute of a Rule, or the "symbol" attribute of an InitialAssignment.

The identifier given by an object's "id" attribute value is used to identify the object within the SBML model definition. Other objects can refer to the component using this identifier. The data type of "id" is always SId or a type derived from that, such as UnitSId, depending on the object in question. All data types are defined as follows:
     letter ::= 'a'..'z','A'..'Z'
     digit  ::= '0'..'9'
     idChar ::= letter | digit | '_'
     SId    ::= ( letter | '_' ) idChar*
   
The characters ( and ) are used for grouping, the character * "zero or more times", and the character | indicates logical "or". The equality of SBML identifiers is determined by an exact character sequence match; i.e., comparisons must be performed in a case-sensitive manner. This applies to all uses of SId, SIdRef, and derived types.

Users need to be aware of some important API issues that are the result of the history of SBML and libSBML. Prior to SBML Level 3 Version 2, SBML defined "id" and "name" attributes on only a subset of SBML objects. To simplify the work of programmers, libSBML's API provided get, set, check, and unset on the SBase object class itself instead of on individual subobject classes. This made the get/set/etc. methods uniformly available on all objects in the libSBML API. LibSBML simply returned empty strings or otherwise did not act when the methods were applied to SBML objects that were not defined by the SBML specification to have "id" or "name" attributes. Additional complications arose with the rule and assignment objects: InitialAssignment, EventAssignment, AssignmentRule, and RateRule. In early versions of SBML, the rule object hierarchy was different, and in addition, then as now, they possess different attributes: "variable" (for the rules and event assignments), "symbol" (for initial assignments), or neither (for algebraic rules). Prior to SBML Level 3 Version 2, getId() would always return an empty string, and isSetId() would always return false for objects of these classes.

With the addition of "id" and "name" attributes on SBase in Level 3 Version 2, it became necessary to introduce a new way to interact with the attributes more consistently in libSBML to avoid breaking backward compatibility in the behavior of the original "id" methods. For this reason, libSBML provides four functions (getIdAttribute(), setIdAttribute(), isSetIdAttribute(), and unsetIdAttribute()) that always act on the actual "id" attribute inherited from SBase, regardless of the object's type. These new methods should be used instead of the older getId()/setId()/etc. methods unless the old behavior is somehow necessary. Regardless of the Level and Version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have identifiers). If the object in question does not posess an "id" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the identifier to be set, nor will it read or write "id" attributes for those objects.

Returns
the id of this SBML object, or the "variable" if the object is a Rule, or the "symbol" if the object is an InitialAssignment.
Note
Because of the inconsistent behavior of this function with respect to assignments and rules, callers should use getIdAttribute() instead.
See also
getIdAttribute()
setIdAttribute(const std::string& sid)
isSetIdAttribute()
unsetIdAttribute()

Reimplemented in UnitDefinition, SpeciesType, Species, SimpleSpeciesReference, Rule, Reaction, Parameter, SpatialPoints, SampledVolume, SampledField, ParametricObject, GeometryDefinition, Geometry, DomainType, Domain, CSGObject, CSGNode, CoordinateComponent, CompartmentMapping, Boundary, AnalyticVolume, AdjacentDomains, Style, RenderInformationBase, LineEnding, Image, GraphicalPrimitive1D, GradientBase, ColorDefinition, Transition, QualitativeSpecies, Output, Input, SubListOfSpeciesFeatures, SpeciesTypeInstance, SpeciesTypeComponentMapInProduct, SpeciesTypeComponentIndex, SpeciesFeatureType, SpeciesFeature, PossibleSpeciesFeatureValue, OutwardBindingSite, MultiSpeciesType, InSpeciesTypeBond, CompartmentReference, Point, Layout, GraphicalObject, Dimensions, BoundingBox, Member, ListOfMembers, Group, UserDefinedConstraintComponent, UserDefinedConstraint, Objective, KeyValuePair, GeneProductRef, GeneProductAssociation, GeneProduct, GeneAssociation, FluxObjective, FluxBound, DistribBase, Submodel, Port, ExternalModelDefinition, Deletion, Model, InitialAssignment, FunctionDefinition, EventAssignment, Event, CompartmentType, and Compartment.

Examples
getAllElementsWithNotes.cpp, printAnnotation.cpp, printNotes.cpp, setIdFromNames.cpp, and setNamesFromIds.cpp.

◆ getIdAttribute()

const string & SBase::getIdAttribute ( ) const
inherited

Returns the value of the "id" attribute of this SBML object.

The identifier given by an object's "id" attribute value is used to identify the object within the SBML model definition. Other objects can refer to the component using this identifier. The data type of "id" is always SId or a type derived from that, such as UnitSId, depending on the object in question. All data types are defined as follows:
     letter ::= 'a'..'z','A'..'Z'
     digit  ::= '0'..'9'
     idChar ::= letter | digit | '_'
     SId    ::= ( letter | '_' ) idChar*
   
The characters ( and ) are used for grouping, the character * "zero or more times", and the character | indicates logical "or". The equality of SBML identifiers is determined by an exact character sequence match; i.e., comparisons must be performed in a case-sensitive manner. This applies to all uses of SId, SIdRef, and derived types.

Users need to be aware of some important API issues that are the result of the history of SBML and libSBML. Prior to SBML Level 3 Version 2, SBML defined "id" and "name" attributes on only a subset of SBML objects. To simplify the work of programmers, libSBML's API provided get, set, check, and unset on the SBase object class itself instead of on individual subobject classes. This made the get/set/etc. methods uniformly available on all objects in the libSBML API. LibSBML simply returned empty strings or otherwise did not act when the methods were applied to SBML objects that were not defined by the SBML specification to have "id" or "name" attributes. Additional complications arose with the rule and assignment objects: InitialAssignment, EventAssignment, AssignmentRule, and RateRule. In early versions of SBML, the rule object hierarchy was different, and in addition, then as now, they possess different attributes: "variable" (for the rules and event assignments), "symbol" (for initial assignments), or neither (for algebraic rules). Prior to SBML Level 3 Version 2, getId() would always return an empty string, and isSetId() would always return false for objects of these classes.

With the addition of "id" and "name" attributes on SBase in Level 3 Version 2, it became necessary to introduce a new way to interact with the attributes more consistently in libSBML to avoid breaking backward compatibility in the behavior of the original "id" methods. For this reason, libSBML provides four functions (getIdAttribute(), setIdAttribute(), isSetIdAttribute(), and unsetIdAttribute()) that always act on the actual "id" attribute inherited from SBase, regardless of the object's type. These new methods should be used instead of the older getId()/setId()/etc. methods unless the old behavior is somehow necessary. Regardless of the Level and Version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have identifiers). If the object in question does not posess an "id" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the identifier to be set, nor will it read or write "id" attributes for those objects.

Returns
the id of this SBML object, if set and valid for this level and version of SBML; an empty string otherwise.
Note
Because of the inconsistent behavior of this function with respect to assignments and rules, callers should use getIdAttribute() instead.
See also
setIdAttribute(const std::string& sid)
isSetIdAttribute()
unsetIdAttribute()

◆ getKind()

UnitKind_t Unit::getKind ( ) const

Returns the "kind" of Unit this is.

Returns
the value of the "kind" attribute of this Unit as a value from the UnitKind_t enumeration.

◆ getLevel()

unsigned int SBase::getLevel ( ) const
inherited

Returns the SBML Level of the SBMLDocument object containing this 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 3 and Level 2 specifications, 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, Level 2 or Level 3.)
Returns
the SBML level of this SBML object.
See also
getVersion()
getNamespaces()
getPackageVersion()
Examples
addLayout.cpp, convertSBML.cpp, and printSBML.cpp.

◆ getLine()

unsigned int SBase::getLine ( ) const
inherited

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

Returns
the line number of this SBML object. If this object was created programmatically and not read from a file, this method will return the value 0.
Note
The line number for each construct in an SBML model is set upon reading the model. The accuracy of the line number depends on the correctness of the XML representation of the model, and on the particular XML parser library being used. The former limitation relates to the following problem: if the model is actually invalid XML, then the parser may not be able to interpret the data correctly and consequently may not be able to establish the real line number. The latter limitation is simply that different parsers seem to have their own accuracy limitations, and out of all the parsers supported by libSBML, none have been 100% accurate in all situations. (At this time, libSBML supports the use of libxml2, Expat and Xerces.)
See also
getColumn()

◆ getMetaId() [1/2]

string & SBase::getMetaId ( )
inherited

Returns 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. The latter point is important, because the uniqueness criterion applies across any attribute with type ID anywhere in the file, 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 the XML ID type. Although SBML itself specifies the use of XML ID only for the "metaid" attribute, SBML-compatible applications 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. Finally, note that LibSBML does not provide an explicit XML ID data type; it uses ordinary character strings, which is easier for applications to support.
Returns
the meta-identifier of this SBML object, as a string.
See also
isSetMetaId()
setMetaId(const std::string& metaid)

◆ getMetaId() [2/2]

const string & SBase::getMetaId ( ) const
inherited

Returns 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. The latter point is important, because the uniqueness criterion applies across any attribute with type ID anywhere in the file, 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 the XML ID type. Although SBML itself specifies the use of XML ID only for the "metaid" attribute, SBML-compatible applications 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. Finally, note that LibSBML does not provide an explicit XML ID data type; it uses ordinary character strings, which is easier for applications to support.
Returns
the meta-identifier of this SBML object.
See also
isSetMetaId()
setMetaId(const std::string& metaid)
Examples
addingEvidenceCodes_2.cpp.

◆ getModel()

const Model * SBase::getModel ( ) const
inherited

Returns the Model object for the SBML Document in which the current object is located.

Returns
the Model object for the SBML Document of this SBML object.
See also
getParentSBMLObject()
getSBMLDocument()

◆ getModelHistory() [1/2]

ModelHistory * SBase::getModelHistory ( )
inherited

Returns the ModelHistory object, if any, attached to this object.

Returns
the ModelHistory object attached to this object, or NULL if none exist.
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.

◆ getModelHistory() [2/2]

ModelHistory * SBase::getModelHistory ( ) const
inherited

Returns the ModelHistory object, if any, attached to this object.

Returns
the ModelHistory object attached to this object, or NULL if none exist.
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.

◆ getModifiedDate()

Date * SBase::getModifiedDate ( unsigned int  n)
inherited

Get the nth Date object in the list of "modified date" values stored in the ModelHistory of this object.

In the MIRIAM format for annotations, there can be multiple modification dates. The libSBML ModelHistory class supports this by storing a list of "modified date" values.

Returns
the nth Date in the list of ModifiedDates of this ModelHistory or NULL if no such object exists.

◆ getMultiplier()

double Unit::getMultiplier ( ) const

Returns the value of the "multiplier" attribute of this Unit.

Returns
the "multiplier" value of this Unit, as a double.

◆ getName()

const string & SBase::getName ( ) const
virtualinherited

Returns the value of the "name" attribute of this SBML object.

In SBML Level 3 Version 2, the "id" and "name" attributes were moved to SBase directly, instead of being defined individually for many (but not all) objects. LibSBML has for a long time provided functions defined on SBase itself to get, set, and unset those attributes, which would fail or otherwise return empty strings if executed on any object for which those attributes were not defined. Now that all SBase objects define those attributes, those functions now succeed for any object with the appropriate level and version.

The "name" attribute is optional and is not intended to be used for cross-referencing purposes within a model. Its purpose instead is to provide a human-readable label for the component. The data type of "name" is the type string defined in XML Schema. SBML imposes no restrictions as to the content of "name" attributes beyond those restrictions defined by the string type in XML Schema.

The recommended practice for handling "name" is as follows. If a software tool has the capability for displaying the content of "name" attributes, it should display this content to the user as a component's label instead of the component's "id". If the user interface does not have this capability (e.g., because it cannot display or use special characters in symbol names), or if the "name" attribute is missing on a given component, then the user interface should display the value of the "id" attribute instead. (Script language interpreters are especially likely to display "id" instead of "name".)

As a consequence of the above, authors of systems that automatically generate the values of "id" attributes should be aware some systems may display the "id"'s to the user. Authors therefore may wish to take some care to have their software create "id" values that are: (a) reasonably easy for humans to type and read; and (b) likely to be meaningful, for example by making the "id" attribute be an abbreviated form of the name attribute value.

An additional point worth mentioning is although there are restrictions on the uniqueness of "id" values, there are no restrictions on the uniqueness of "name" values in a model. This allows software applications leeway in assigning component identifiers.

Regardless of the level and version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have names). If the object in question does not posess a "name" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the name to be set, nor will it read or write "name" attributes for those objects.

Returns
the name of this SBML object, or the empty string if not set or unsettable.
See also
getIdAttribute()
isSetName()
setName(const std::string& sid)
unsetName()

Reimplemented in UnitDefinition, SpeciesType, Species, SimpleSpeciesReference, Reaction, Parameter, SpatialPoints, SampledVolume, SampledField, ParametricObject, GeometryDefinition, DomainType, Domain, CSGObject, CSGNode, CoordinateComponent, CompartmentMapping, Boundary, AnalyticVolume, AdjacentDomains, Transformation, Style, RenderInformationBase, GradientBase, ColorDefinition, Transition, QualitativeSpecies, Output, Input, SubListOfSpeciesFeatures, SpeciesTypeInstance, SpeciesTypeComponentMapInProduct, SpeciesTypeComponentIndex, SpeciesFeatureType, SpeciesFeature, PossibleSpeciesFeatureValue, OutwardBindingSite, MultiSpeciesType, InSpeciesTypeBond, CompartmentReference, Layout, Member, ListOfMembers, Group, UserDefinedConstraintComponent, UserDefinedConstraint, Objective, KeyValuePair, GeneProductRef, GeneProductAssociation, GeneProduct, FluxObjective, FluxBound, DistribBase, Submodel, Port, ExternalModelDefinition, Deletion, Model, FunctionDefinition, Event, CompartmentType, and Compartment.

Examples
setIdFromNames.cpp, and setNamesFromIds.cpp.

◆ getNamespaces()

XMLNamespaces * SBase::getNamespaces ( ) const
virtualinherited

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

The SBMLNamespaces object encapsulates SBML Level/Version/namespaces information. It is used to communicate the SBML Level, Version, and (in Level 3) packages used in addition to SBML Level 3 Core.

Returns
the XML Namespaces associated with this SBML object, or NULL in certain very usual circumstances where a namespace is not set.
See also
getLevel()
getVersion()

Reimplemented in SBMLDocument.

◆ getNotes() [1/2]

XMLNode * SBase::getNotes ( )
inherited

Returns the content of the "notes" subelement of this object as a tree of XMLNode objects.

The optional SBML element named "notes", present on every major SBML component type (and in SBML Level 3, the "message" subelement of Constraint), 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 conform to the definition of XHTML 1.0. However, the content cannot be entirely free-form; it must satisfy certain requirements defined in the SBML specifications for specific SBML Levels. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); this method implements a verification process that lets callers check whether the content of a given XMLNode object conforms to the SBML requirements for "notes" and "message" structure. Developers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations of using "notes" in SBML. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

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. For an alternative method of accessing the notes, see getNotesString().

Returns
the content of the "notes" subelement of this SBML object as a tree structure composed of XMLNode objects.
See also
getNotesString()
isSetNotes()
setNotes(const XMLNode* notes)
setNotes(const std::string& notes, bool addXHTMLMarkup)
appendNotes(const XMLNode* notes)
appendNotes(const std::string& notes)
unsetNotes()
SyntaxChecker::hasExpectedXHTMLSyntax()

◆ getNotes() [2/2]

XMLNode * SBase::getNotes ( ) const
inherited

Returns the content of the "notes" subelement of this object as a tree of XMLNode objects.

The optional SBML element named "notes", present on every major SBML component type (and in SBML Level 3, the "message" subelement of Constraint), 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 conform to the definition of XHTML 1.0. However, the content cannot be entirely free-form; it must satisfy certain requirements defined in the SBML specifications for specific SBML Levels. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); this method implements a verification process that lets callers check whether the content of a given XMLNode object conforms to the SBML requirements for "notes" and "message" structure. Developers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations of using "notes" in SBML. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

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. For an alternative method of accessing the notes, see getNotesString().

Returns
the content of the "notes" subelement of this SBML object as a tree structure composed of XMLNode objects.
See also
getNotesString()
isSetNotes()
setNotes(const XMLNode* notes)
setNotes(const std::string& notes, bool addXHTMLMarkup)
appendNotes(const XMLNode* notes)
appendNotes(const std::string& notes)
unsetNotes()
SyntaxChecker::hasExpectedXHTMLSyntax()

◆ getNotesString() [1/2]

std::string SBase::getNotesString ( )
inherited

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

The optional SBML element named "notes", present on every major SBML component type (and in SBML Level 3, the "message" subelement of Constraint), 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 conform to the definition of XHTML 1.0. However, the content cannot be entirely free-form; it must satisfy certain requirements defined in the SBML specifications for specific SBML Levels. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); this method implements a verification process that lets callers check whether the content of a given XMLNode object conforms to the SBML requirements for "notes" and "message" structure. Developers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations of using "notes" in SBML. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

For an alternative method of accessing the notes, see getNotes(), which returns the content as an XMLNode tree structure. Depending on an application's needs, one or the other method may be more convenient.

Returns
the content of the "notes" subelement of this SBML object as a string.
See also
getNotes()
isSetNotes()
setNotes(const XMLNode* notes)
setNotes(const std::string& notes, bool addXHTMLMarkup)
appendNotes(const XMLNode* notes)
appendNotes(const std::string& notes)
unsetNotes()
SyntaxChecker::hasExpectedXHTMLSyntax()
Examples
SBMLHttpResolverExample.cpp, and printNotes.cpp.

◆ getNotesString() [2/2]

std::string SBase::getNotesString ( ) const
inherited

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

The optional SBML element named "notes", present on every major SBML component type (and in SBML Level 3, the "message" subelement of Constraint), 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 conform to the definition of XHTML 1.0. However, the content cannot be entirely free-form; it must satisfy certain requirements defined in the SBML specifications for specific SBML Levels. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); this method implements a verification process that lets callers check whether the content of a given XMLNode object conforms to the SBML requirements for "notes" and "message" structure. Developers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations of using "notes" in SBML. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

For an alternative method of accessing the notes, see getNotes(), which returns the content as an XMLNode tree structure. Depending on an application's needs, one or the other method may be more convenient.

Returns
the content of the "notes" subelement of this SBML object as a string.
See also
getNotes()
isSetNotes()
setNotes(const XMLNode* notes)
setNotes(const std::string& notes, bool addXHTMLMarkup)
appendNotes(const XMLNode* notes)
appendNotes(const std::string& notes)
unsetNotes()
SyntaxChecker::hasExpectedXHTMLSyntax()

◆ getNumCVTerms()

unsigned int SBase::getNumCVTerms ( ) const
inherited

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

Returns
the number of CVTerms for this SBML object.

◆ getNumDisabledPlugins()

unsigned int SBase::getNumDisabledPlugins ( ) const
inherited

Returns the number of disabled plug-in objects (extension interfaces) for SBML Level 3 package extensions known.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.
If a plugin is disabled, the package information it contains is no longer considered to be part of the SBML document for the purposes of searching the document or writing out the document. However, the information is still retained, so if the plugin is enabled again, the same information will once again be available, and will be written out to the final model.
Returns
the number of disabled plug-in objects (extension interfaces) of package extensions known by this instance of libSBML.

◆ getNumModifiedDates()

unsigned int SBase::getNumModifiedDates ( )
inherited

Get the number of Date objects in the ModelHistory of this Iobject's list of "modified dates".

In the MIRIAM format for annotations, there can be multiple modification dates. The libSBML ModelHistory class supports this by storing a list of "modified date" values.

Returns
the number of ModifiedDates in this ModelHistory.

◆ getNumPlugins()

unsigned int SBase::getNumPlugins ( ) const
inherited

Returns the number of plug-in objects (extenstion interfaces) for SBML Level 3 package extensions known.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.
Returns
the number of plug-in objects (extension interfaces) of package extensions known by this instance of libSBML.
See also
getPlugin(unsigned int n)

◆ getOffset()

double Unit::getOffset ( ) const

Returns the value of the "offset" attribute of this Unit.

Returns
the "offset" value of this Unit, as a double.
Warning
The "offset" attribute is only available in SBML Level 2 Version 1. This attribute is not present in SBML Level 2 Version 2 or above. When producing SBML models using these later specifications, modelers and software tools need to account for units with offsets explicitly. The SBML specification document offers a number of suggestions for how to achieve this. LibSBML methods such as this one related to "offset" are retained for compatibility with earlier versions of SBML Level 2, but their use is strongly discouraged.

◆ getPackageCoreVersion()

unsigned int SBase::getPackageCoreVersion ( ) const
inherited

Returns the SBML Core Version within the SBML Level of the actual 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 3 and Level 2 specifications, 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, Level 2 or Level 3.)
Returns
the SBML core version of this SBML object.

◆ getPackageName()

const std::string & SBase::getPackageName ( ) const
inherited

Returns the name of the SBML Level 3 package in which this element is defined.

Returns
the name of the SBML package in which this element is defined. The string "core" will be returned if this element is defined in SBML Level 3 Core. The string "unknown" will be returned if this element is not defined in any SBML package.

◆ getPackageVersion()

unsigned int SBase::getPackageVersion ( ) const
inherited

Returns the Version of the SBML Level 3 package to which this element belongs to.

Returns
the version of the SBML Level 3 package to which this element belongs. The value 0 will be returned if this element belongs to the SBML Level 3 Core package.
See also
getLevel()
getVersion()

◆ getParentSBMLObject() [1/2]

SBase * SBase::getParentSBMLObject ( )
inherited

Returns the parent SBML object containing this object.

This returns the immediately-containing object. This method is convenient when holding an object nested inside other objects in an SBML model.

Returns
the parent SBML object of this SBML object.
See also
getSBMLDocument()
getModel()

◆ getParentSBMLObject() [2/2]

const SBase * SBase::getParentSBMLObject ( ) const
inherited

Returns the parent SBML object containing this object.

This returns the immediately-containing object. This method is convenient when holding an object nested inside other objects in an SBML model.

Returns
the parent SBML object of this SBML object.
See also
getSBMLDocument()
getModel()

◆ getPlugin() [1/4]

SBasePlugin * SBase::getPlugin ( const std::string &  package)
inherited

Returns a plug-in object (extension interface) for an SBML Level 3 package extension with the given package name or URI.

The returned plug-in will be the appropriate type of plugin requested: calling Model::getPlugin("fbc") will return an FbcModelPlugin; calling Parameter::getPlugin("comp") will return CompSBasePlugin, etc.

If no such plugin exists, NULL is returned.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.
Parameters
packagethe name or URI of the package.
Returns
the plug-in object (the libSBML extension interface) of a package extension with the given package name or URI.
See also
getPlugin(unsigned int n)
Examples
addLayout.cpp, convertLayout.cpp, example1-L3.cpp, example1.cpp, example2-L3.cpp, example2.cpp, example3-L3.cpp, example3.cpp, fbc_example1.cpp, groups_example1.cpp, groups_example2.cpp, qual_example1.cpp, spec_example1.cpp, spec_example2.cpp, spec_example3.cpp, and spec_example4.cpp.

◆ getPlugin() [2/4]

const SBasePlugin * SBase::getPlugin ( const std::string &  package) const
inherited

Returns a plug-in object (extension interface) for an SBML Level 3 package extension with the given package name or URI.

The returned plug-in will be the appropriate type of plugin requested: calling Model::getPlugin("fbc") will return an FbcModelPlugin; calling Parameter::getPlugin("comp") will return CompSBasePlugin, etc.

If no such plugin exists, NULL is returned.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.
Parameters
packagethe name or URI of the package.
Returns
the plug-in object (the libSBML extension interface) of a package extension with the given package name or URI.
See also
getPlugin(unsigned int n)

◆ getPlugin() [3/4]

SBasePlugin * SBase::getPlugin ( unsigned int  n)
inherited

Returns the nth plug-in object (extension interface) for an SBML Level 3 package extension.

The returned plug-in will be the appropriate type of plugin requested: calling Model::getPlugin("fbc") will return an FbcModelPlugin; calling Parameter::getPlugin("comp") will return CompSBasePlugin, etc.

If no such plugin exists, NULL is returned.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.
Parameters
nthe index of the plug-in to return.
Returns
the nth plug-in object (the libSBML extension interface) of a package extension. If the index n is invalid, NULL is returned.
See also
getNumPlugins()
getPlugin(const std::string& package)

◆ getPlugin() [4/4]

const SBasePlugin * SBase::getPlugin ( unsigned int  n) const
inherited

Returns the nth plug-in object (extension interface) for an SBML Level 3 package extension.

The returned plug-in will be the appropriate type of plugin requested: calling Model::getPlugin("fbc") will return an FbcModelPlugin; calling Parameter::getPlugin("comp") will return CompSBasePlugin, etc.

If no such plugin exists, NULL is returned.

SBML Level 3 consists of a Core definition that can be extended via optional SBML Level 3 packages. A given model may indicate that it uses one or more SBML packages, and likewise, a software tool may be able to support one or more packages. LibSBML does not come preconfigured with all possible packages included and enabled, in part because not all package specifications have been finalized. To support the ability for software systems to enable support for the Level 3 packages they choose, libSBML features a plug-in mechanism. Each SBML Level 3 package is implemented in a separate code plug-in that can be enabled by the application to support working with that SBML package. A given SBML model may thus contain not only objects defined by SBML Level 3 Core, but also objects created by libSBML plug-ins supporting additional Level 3 packages.
Parameters
nthe index of the plug-in to return.
Returns
the nth plug-in object (the libSBML extension interface) of a package extension. If the index n is invalid, NULL is returned.
See also
getNumPlugins()
getPlugin(const std::string& package)

◆ getPrefix()

std::string SBase::getPrefix ( ) const
inherited

Returns the XML namespace prefix of this element.

This reports the XML namespace prefix chosen for this class of object in the current SBML document. This may be an empty string if the component has no explicit prefix (for instance, if it is a core SBML object placed in the default SBML namespace of the document). If it is not empty, then it corresponds to the XML namespace prefix used set the object, whatever that may be in a given SBML document.

Returns
a text string representing the XML namespace prefix.

◆ getResourceBiologicalQualifier()

BiolQualifierType_t SBase::getResourceBiologicalQualifier ( std::string  resource) const
inherited

Returns the MIRIAM biological qualifier associated with the given resource.

In MIRIAM, qualifiers are an optional means of indicating the relationship between a model component and its annotations. There are two broad kinds of annotations: model and biological. The latter kind is used to qualify the relationship between a model component and a biological entity which it represents. Examples of relationships include "is" and "has part", but many others are possible. MIRIAM defines numerous relationship qualifiers to enable different software tools to qualify biological annotations in the same standardized way. In libSBML, the MIRIAM controlled-vocabulary annotations on an SBML model element are represented using lists of CVTerm objects, and the the MIRIAM biological qualifiers are represented using values from the enumeration type BiolQualifierType_t.

This method searches the controlled-vocabulary annotations (i.e., the list of CVTerm objects) on the present object, then out of those that have biological qualifiers, looks for an annotation to the given resource. If such an annotation is found, it returns the type of biological qualifier associated with that resource as a value from the enumeration type BiolQualifierType_t.

Parameters
resourcestring representing the resource; e.g., "http://www.geneontology.org/#GO:0005892".
Returns
the qualifier associated with the resource, or BQB_UNKNOWN if the resource does not exist.
Note
The set of MIRIAM biological qualifiers grows over time, although relatively slowly. The values in the enumeration BiolQualifierType_t are up to date with MIRIAM at the time of a given libSBML release. The set of values may be expanded in later libSBML releases, to match the values defined by MIRIAM at that later time.

◆ getResourceModelQualifier()

ModelQualifierType_t SBase::getResourceModelQualifier ( std::string  resource) const
inherited

Returns the MIRIAM model qualifier associated with the given resource.

In MIRIAM, qualifiers are an optional means of indicating the relationship between a model component and its annotations. There are two broad kinds of annotations: model and biological. The former kind is used to qualify the relationship between a model component and another modeling object. An example qualifier is "isDerivedFrom", to indicate that a given component of the model is derived from the modeling object represented by the referenced resource. MIRIAM defines numerous relationship qualifiers to enable different software tools to qualify model annotations in the same standardized way. In libSBML, the MIRIAM controlled-vocabulary annotations on an SBML model element are represented using lists of CVTerm objects, and the the MIRIAM model qualifiers are represented using values from the enumeration type ModelQualifierType_t.

This method method searches the controlled-vocabulary annotations (i.e., the list of CVTerm objects) on the present object, then out of those that have model qualifiers, looks for an annotation to the given resource. If such an annotation is found, it returns the type of type of model qualifier associated with that resource as a value from the enumeration type ModelQualifierType_t.

Parameters
resourcestring representing the resource; e.g., "http://www.geneontology.org/#GO:0005892".
Returns
the ModelQualifierType_t value associated with the resource, or BQM_UNKNOWN if the resource does not exist.
Note
The set of MIRIAM biological qualifiers grows over time, although relatively slowly. The values in the enumeration ModelQualifierType_t are up to date with MIRIAM at the time of a given libSBML release. The set of values may be expanded in later libSBML releases, to match the values defined by MIRIAM at that later time.

◆ getSBMLDocument() [1/2]

SBMLDocument * SBase::getSBMLDocument ( )
inherited

Returns the SBMLDocument object containing this object instance.

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 3 and Level 2 specifications, 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, Level 2 or Level 3.)

This method allows the caller to obtain the SBMLDocument for the current object.

Returns
the parent SBMLDocument object of this SBML object.
See also
getParentSBMLObject()
getModel()

◆ getSBMLDocument() [2/2]

const SBMLDocument * SBase::getSBMLDocument ( ) const
inherited

Returns the SBMLDocument object containing this object instance.

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 3 and Level 2 specifications, 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, Level 2 or Level 3.)

This method allows the caller to obtain the SBMLDocument for the current object.

Returns
the parent SBMLDocument object of this SBML object.
See also
getParentSBMLObject()
getModel()

◆ getSBOTerm()

int SBase::getSBOTerm ( ) const
inherited

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

Beginning with SBML Level 2 Version 2, objects derived from SBase have an optional attribute named "sboTerm" for supporting the use of the Systems Biology Ontology. In SBML proper, 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". More details can be found in SBML specifications for Level 2 Version 2 and above.
Returns
the value of the "sboTerm" attribute as an integer, or -1 if the value is not set.
Examples
printSBML.cpp.

◆ getSBOTermAsURL()

std::string SBase::getSBOTermAsURL ( ) const
inherited

Returns the URL representation of the "sboTerm" attribute of this object.

This method returns the entire SBO identifier as a text string in the form http://identifiers.org/biomodels.sbo/SBO:NNNNNNN".

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". More details can be found in SBML specifications for Level 2 Version 2 and above.
Returns
the value of the "sboTerm" attribute as an identifiers.org URL, or an empty string if the value is not set.

◆ getSBOTermID()

std::string SBase::getSBOTermID ( ) const
inherited

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

Beginning with SBML Level 2 Version 2, objects derived from SBase have an optional attribute named "sboTerm" for supporting the use of the Systems Biology Ontology. In SBML proper, 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". More details can be found in SBML specifications for Level 2 Version 2 and above.
Returns
the value of the "sboTerm" attribute as a string (its value will be of the form "SBO:NNNNNNN"), or an empty string if the value is not set.

◆ getScale()

int Unit::getScale ( ) const

Returns the value of the "scale" attribute of this unit.

Returns
the "scale" value of this Unit, as an integer.

◆ getTypeCode()

int Unit::getTypeCode ( ) const
virtual

Returns the libSBML type code of this object instance.

LibSBML attaches an identifying code to every kind of SBML object. These are integer constants known as SBML type codes. The names of all the codes begin with the characters SBML_. The set of possible type codes for core elements is defined in the enumeration SBMLTypeCode_t, and in addition, libSBML plug-ins for SBML Level 3 packages define their own extra enumerations of type codes (e.g., SBMLLayoutTypeCode_t for the Level 3 Layout package). Note that different Level 3 package plug-ins may use overlapping type codes; to identify the package to which a given object belongs, call the SBase::getPackageName() method on the object.

The exception to this is lists: all SBML-style list elements have the type SBML_LIST_OF, regardless of what package they are from.

Returns
the SBML type code for this object: SBML_UNIT (default).
Warning
The specific integer values of the possible type codes may be reused by different libSBML plug-ins for SBML Level 3. packages, To fully identify the correct code, it is necessary to invoke both getPackageName() and getTypeCode() (or ListOf::getItemTypeCode()).
See also
getPackageName()
getElementName()

Reimplemented from SBase.

◆ getURI()

std::string SBase::getURI ( ) const
inherited

Returns the namespace URI to which this element belongs to.

For example, all elements that belong to SBML Level 3 Version 1 Core must would have the URI "http://www.sbml.org/sbml/level3/version1/core"; all elements that belong to Layout Extension Version 1 for SBML Level 3 Version 1 Core must would have the URI "http://www.sbml.org/sbml/level3/version1/layout/version1".

This function first returns the URI for this element by looking into the SBMLNamespaces object of the document with the its package name. If not found, it will then look for the namespace associated with the element itself.

Returns
the URI of this element, as a text string.
See also
getSBMLDocument()
getPackageName()

◆ getUserData()

void * SBase::getUserData ( ) const
inherited

Returns the user data that has been previously set via setUserData().

The user data associated with an SBML object can be used by an application developer to attach custom information to that object in the model. In case of a deep copy, this attribute will passed as it is. The attribute will never be interpreted by libSBML.
The user data associated with an SBML object can be used by an application developer to attach custom information to that object in the model. In case of a deep copy, this data will passed as-is. The data attribute will never be interpreted by libSBML.
Returns
the user data of this node, or NULL if no user data has been set.
See also
ASTNode::setUserData(void *userData)

◆ getVersion()

unsigned int SBase::getVersion ( ) const
inherited

Returns the Version within the SBML Level of the SBMLDocument object containing this 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 3 and Level 2 specifications, 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, Level 2 or Level 3.)
Returns
the SBML version of this SBML object.
See also
getLevel()
getNamespaces()
Examples
addLayout.cpp, convertSBML.cpp, and printSBML.cpp.

◆ hasRequiredAttributes()

bool Unit::hasRequiredAttributes ( ) const
virtual

Predicate returning true if all the required attributes for this Unit object have been set.

The required attributes for a Unit object are:

  • "kind"
  • "exponent" (required in SBML Level 3; optional in Level 2)
  • "multiplier" (required in SBML Level 3; optional in Level 2)
  • "scale" (required in SBML Level 3; optional in Level 2)
Returns
true if the required attributes have been set, false otherwise.

◆ hasValidLevelVersionNamespaceCombination()

bool SBase::hasValidLevelVersionNamespaceCombination ( )
inherited

Predicate returning true if 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"
  • Level 2 Version 5: "http://www.sbml.org/sbml/level2/version5"
  • Level 3 Version 1 Core: "http://www.sbml.org/sbml/level3/version1/core"
  • Level 3 Version 2 Core: "http://www.sbml.org/sbml/level3/version2/core"
Returns
true if the level, version and namespace values of this SBML object correspond to a valid set of values, false otherwise.

◆ initDefaults()

void Unit::initDefaults ( )

Initializes the fields of this Unit object to "typical" default values.

The SBML Unit component has slightly different aspects and default attribute values in different SBML Levels and Versions. This method sets the values to certain common defaults, based mostly on what they are in SBML Level 2. Specifically:

  • Sets attribute "exponent" to 1
  • Sets attribute "scale" to 0
  • Sets attribute "multiplier" to 1.0

The "kind" attribute is left unchanged.

◆ isAmpere()

bool Unit::isAmpere ( ) const

Predicate for testing whether this Unit is of the kind ampere.

Returns
true if the kind of this Unit is ampere, false otherwise.

◆ isAvogadro()

bool Unit::isAvogadro ( ) const

Predicate for testing whether this Unit is of the kind avogadro.

Returns
true if the kind of this Unit is avogadro, false otherwise.
Note
The unit avogadro was introduced in SBML Level 3, and is only permitted for use in SBML Level 3 models.

◆ isBecquerel()

bool Unit::isBecquerel ( ) const

Predicate for testing whether this Unit is of the kind becquerel.

Returns
true if the kind of this Unit is becquerel, false otherwise.

◆ isBuiltIn()

bool Unit::isBuiltIn ( const std::string &  name,
unsigned int  level 
)
static

Predicate to test whether a given string is the name of a built-in SBML unit, depending on the SBML level, since new predefined units were added between level 2 versions 1 and 2, and then all predefined units were removed again in SBML Level 3.

Parameters
namea string to be tested against the built-in unit names.
levelthe level of SBML one is checking.
Returns
true if name is one of "substance", "volume", or "time" and the level is 1; or if name is one of "substance", "volume", "area", "length", or "time" and the level is 2; false otherwise (including all values when level is 3).

◆ isCandela()

bool Unit::isCandela ( ) const

Predicate for testing whether this Unit is of the kind candela.

Returns
true if the kind of this Unit is candela, false otherwise.

◆ isCelsius()

bool Unit::isCelsius ( ) const

Predicate for testing whether this Unit is of the kind Celsius.

Returns
true if the kind of this Unit is Celsius, false otherwise.
Warning
The predefined unit Celsius was removed from the list of predefined units in SBML Level 2 Version 2 at the same time that the "offset" attribute was removed from Unit definitions. LibSBML methods such as this one related to Celsius are retained in order to support SBML Level 2 Version 1, but their use is strongly discouraged.

◆ isCoulomb()

bool Unit::isCoulomb ( ) const

Predicate for testing whether this Unit is of the kind coulomb.

Returns
true if the kind of this Unit is coulomb, false otherwise.

◆ isDimensionless()

bool Unit::isDimensionless ( ) const

Predicate for testing whether this Unit is of the kind dimensionless.

Returns
true if the kind of this Unit is dimensionless, false otherwise.

◆ isFarad()

bool Unit::isFarad ( ) const

Predicate for testing whether this Unit is of the kind farad.

Returns
true if the kind of this Unit is farad, false otherwise.

◆ isGram()

bool Unit::isGram ( ) const

Predicate for testing whether this Unit is of the kind gram.

Returns
true if the kind of this Unit is gram, false otherwise.

◆ isGray()

bool Unit::isGray ( ) const

Predicate for testing whether this Unit is of the kind gray.

Returns
true if the kind of this Unit is gray, false otherwise.

◆ isHenry()

bool Unit::isHenry ( ) const

Predicate for testing whether this Unit is of the kind henry.

Returns
true if the kind of this Unit is henry, false otherwise.

◆ isHertz()

bool Unit::isHertz ( ) const

Predicate for testing whether this Unit is of the kind hertz.

Returns
true if the kind of this Unit is hertz, false otherwise.

◆ isItem()

bool Unit::isItem ( ) const

Predicate for testing whether this Unit is of the kind item.

Returns
true if the kind of this Unit is item, false otherwise.

◆ isJoule()

bool Unit::isJoule ( ) const

Predicate for testing whether this Unit is of the kind joule.

Returns
true if the kind of this Unit is joule, false otherwise.

◆ isKatal()

bool Unit::isKatal ( ) const

Predicate for testing whether this Unit is of the kind katal.

Returns
true if the kind of this Unit is katal, false otherwise.

◆ isKelvin()

bool Unit::isKelvin ( ) const

Predicate for testing whether this Unit is of the kind kelvin.

Returns
true if the kind of this Unit is kelvin, false otherwise.

◆ isKilogram()

bool Unit::isKilogram ( ) const

Predicate for testing whether this Unit is of the kind kilogram.

Returns
true if the kind of this Unit is kilogram, false otherwise.

◆ isLitre()

bool Unit::isLitre ( ) const

Predicate for testing whether this Unit is of the kind litre.

Returns
true if the kind of this Unit is litre or 'liter', false otherwise.

◆ isLumen()

bool Unit::isLumen ( ) const

Predicate for testing whether this Unit is of the kind lumen.

Returns
true if the kind of this Unit is lumen, false otherwise.

◆ isLux()

bool Unit::isLux ( ) const

Predicate for testing whether this Unit is of the kind lux.

Returns
true if the kind of this Unit is lux, false otherwise.

◆ isMetre()

bool Unit::isMetre ( ) const

Predicate for testing whether this Unit is of the kind metre.

Returns
true if the kind of this Unit is metre or 'meter', false otherwise.

◆ isMole()

bool Unit::isMole ( ) const

Predicate for testing whether this Unit is of the kind mole.

Returns
true if the kind of this Unit is mole, false otherwise.

◆ isNewton()

bool Unit::isNewton ( ) const

Predicate for testing whether this Unit is of the kind newton.

Returns
true if the kind of this Unit is newton, false otherwise.

◆ isOhm()

bool Unit::isOhm ( ) const

Predicate for testing whether this Unit is of the kind ohm.

Returns
true if the kind of this Unit is ohm, false otherwise.

◆ isPackageEnabled()

bool SBase::isPackageEnabled ( const std::string &  pkgName) const
inherited

Predicate returning true if the given SBML Level 3 package is enabled with this object.

The search ignores the package version.

Parameters
pkgNamethe name of the package.
Returns
true if the given package is enabled within this object, false otherwise.
See also
isPackageURIEnabled()

◆ isPackageURIEnabled()

bool SBase::isPackageURIEnabled ( const std::string &  pkgURI) const
inherited

Predicate returning true if an SBML Level 3 package with the given URI is enabled with this object.

Parameters
pkgURIthe URI of the package.
Returns
true if the given package is enabled within this object, false otherwise.
See also
isPackageEnabled()

◆ isPascal()

bool Unit::isPascal ( ) const

Predicate for testing whether this Unit is of the kind pascal.

Returns
true if the kind of this Unit is pascal, false otherwise.

◆ isPkgEnabled()

bool SBase::isPkgEnabled ( const std::string &  pkgName) const
inherited

Predicate returning true if the given SBML Level 3 package is enabled with this object.

The search ignores the package version.

Parameters
pkgNamethe name of the package.
Returns
true if the given package is enabled within this object, false otherwise.
See also
isPkgURIEnabled()

◆ isPkgURIEnabled()

bool SBase::isPkgURIEnabled ( const std::string &  pkgURI) const
inherited

Predicate returning true if an SBML Level 3 package with the given URI is enabled with this object.

Parameters
pkgURIthe URI of the package.
Returns
true if the given package is enabled within this object, false otherwise.
See also
isPkgEnabled()

◆ isRadian()

bool Unit::isRadian ( ) const

Predicate for testing whether this Unit is of the kind radian.

Returns
true if the kind of this Unit is radian, false otherwise.

◆ isSecond()

bool Unit::isSecond ( ) const

Predicate for testing whether this Unit is of the kind second.

Returns
true if the kind of this Unit is second, false otherwise.

◆ isSetAnnotation()

bool SBase::isSetAnnotation ( ) const
inherited

Predicate returning true if 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.

Returns
true if a "annotation" subelement exists, false otherwise.
See also
getAnnotation()
getAnnotationString()
setAnnotation(const XMLNode* annotation)
setAnnotation(const std::string& annotation)
appendAnnotation(const XMLNode* annotation)
appendAnnotation(const std::string& annotation)
unsetAnnotation()
Examples
printAnnotation.cpp.

◆ isSetCreatedDate()

bool SBase::isSetCreatedDate ( ) const
inherited

Predicate returning true if this object has a ModelHistory object attached to it and the created date is set.

Returns
true if the CreatedDate of the ModelHistory of this object is set, false otherwise.
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.

◆ isSetExponent()

bool Unit::isSetExponent ( ) const

Predicate to test whether the "exponent" attribute of this Unit is set.

Returns
true if the "exponent" attribute of this Unit is set, false otherwise.

◆ isSetId()

bool SBase::isSetId ( ) const
virtualinherited

Predicate returning true if a call to getId() returns a non-empty string.

For most objects, this function will return true if its "id" attribute is set, and false if it is not, or if the object has no "id" attribute at all. However, for an EventAssignment or a Rule, isSetId() checks whether the "variable" attribute is set, and for an InitialAssignment, it checks whether the "symbol" attribute is set. Because those elements will also have an "id" attribute in SBML Level 3 Version 2 which isSetId() will not check, the function itself is deprecated, and it is recommended to use isSetIdAttribute() in all cases where one needs to know whether the "id" attribute is set, and to use EventAssignment::isSetVariable(), Rule::isSetVariable() and InitialAssignment::isSetSymbol() when the status of the "variable" or "symbol" attributes need to be checked.

The identifier given by an object's "id" attribute value is used to identify the object within the SBML model definition. Other objects can refer to the component using this identifier. The data type of "id" is always SId or a type derived from that, such as UnitSId, depending on the object in question. All data types are defined as follows:
     letter ::= 'a'..'z','A'..'Z'
     digit  ::= '0'..'9'
     idChar ::= letter | digit | '_'
     SId    ::= ( letter | '_' ) idChar*
   
The characters ( and ) are used for grouping, the character * "zero or more times", and the character | indicates logical "or". The equality of SBML identifiers is determined by an exact character sequence match; i.e., comparisons must be performed in a case-sensitive manner. This applies to all uses of SId, SIdRef, and derived types.

Users need to be aware of some important API issues that are the result of the history of SBML and libSBML. Prior to SBML Level 3 Version 2, SBML defined "id" and "name" attributes on only a subset of SBML objects. To simplify the work of programmers, libSBML's API provided get, set, check, and unset on the SBase object class itself instead of on individual subobject classes. This made the get/set/etc. methods uniformly available on all objects in the libSBML API. LibSBML simply returned empty strings or otherwise did not act when the methods were applied to SBML objects that were not defined by the SBML specification to have "id" or "name" attributes. Additional complications arose with the rule and assignment objects: InitialAssignment, EventAssignment, AssignmentRule, and RateRule. In early versions of SBML, the rule object hierarchy was different, and in addition, then as now, they possess different attributes: "variable" (for the rules and event assignments), "symbol" (for initial assignments), or neither (for algebraic rules). Prior to SBML Level 3 Version 2, getId() would always return an empty string, and isSetId() would always return false for objects of these classes.

With the addition of "id" and "name" attributes on SBase in Level 3 Version 2, it became necessary to introduce a new way to interact with the attributes more consistently in libSBML to avoid breaking backward compatibility in the behavior of the original "id" methods. For this reason, libSBML provides four functions (getIdAttribute(), setIdAttribute(), isSetIdAttribute(), and unsetIdAttribute()) that always act on the actual "id" attribute inherited from SBase, regardless of the object's type. These new methods should be used instead of the older getId()/setId()/etc. methods unless the old behavior is somehow necessary. Regardless of the Level and Version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have identifiers). If the object in question does not posess an "id" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the identifier to be set, nor will it read or write "id" attributes for those objects.

Returns
true if the "id" attribute of this SBML object is set, false otherwise.
Note
Because of the inconsistent behavior of this function with respect to assignments and rules, it is recommended that callers use isSetIdAttribute() instead.
See also
getIdAttribute()
setIdAttribute(const std::string& sid)
unsetIdAttribute()
isSetIdAttribute()

Reimplemented in UnitDefinition, SpeciesType, Species, SimpleSpeciesReference, Reaction, Parameter, SpatialPoints, SampledVolume, SampledField, ParametricObject, GeometryDefinition, Geometry, DomainType, Domain, CSGObject, CSGNode, CoordinateComponent, CompartmentMapping, Boundary, AnalyticVolume, AdjacentDomains, Style, RenderInformationBase, LineEnding, Image, GraphicalPrimitive1D, GradientBase, ColorDefinition, Transition, QualitativeSpecies, Output, Input, SubListOfSpeciesFeatures, SpeciesTypeInstance, SpeciesTypeComponentMapInProduct, SpeciesTypeComponentIndex, SpeciesFeatureType, SpeciesFeature, PossibleSpeciesFeatureValue, OutwardBindingSite, MultiSpeciesType, InSpeciesTypeBond, CompartmentReference, Point, Layout, GraphicalObject, Dimensions, BoundingBox, Member, ListOfMembers, Group, UserDefinedConstraintComponent, UserDefinedConstraint, Objective, KeyValuePair, GeneProductRef, GeneProductAssociation, GeneProduct, GeneAssociation, FluxObjective, FluxBound, DistribBase, Submodel, Port, ExternalModelDefinition, Deletion, Model, FunctionDefinition, Event, CompartmentType, and Compartment.

Examples
getAllElementsWithNotes.cpp, printAnnotation.cpp, printNotes.cpp, setIdFromNames.cpp, and setNamesFromIds.cpp.

◆ isSetIdAttribute()

bool SBase::isSetIdAttribute ( ) const
inherited

Predicate returning true if this object's "id" attribute is set.

The identifier given by an object's "id" attribute value is used to identify the object within the SBML model definition. Other objects can refer to the component using this identifier. The data type of "id" is always SId or a type derived from that, such as UnitSId, depending on the object in question. All data types are defined as follows:
     letter ::= 'a'..'z','A'..'Z'
     digit  ::= '0'..'9'
     idChar ::= letter | digit | '_'
     SId    ::= ( letter | '_' ) idChar*
   
The characters ( and ) are used for grouping, the character * "zero or more times", and the character | indicates logical "or". The equality of SBML identifiers is determined by an exact character sequence match; i.e., comparisons must be performed in a case-sensitive manner. This applies to all uses of SId, SIdRef, and derived types.

Users need to be aware of some important API issues that are the result of the history of SBML and libSBML. Prior to SBML Level 3 Version 2, SBML defined "id" and "name" attributes on only a subset of SBML objects. To simplify the work of programmers, libSBML's API provided get, set, check, and unset on the SBase object class itself instead of on individual subobject classes. This made the get/set/etc. methods uniformly available on all objects in the libSBML API. LibSBML simply returned empty strings or otherwise did not act when the methods were applied to SBML objects that were not defined by the SBML specification to have "id" or "name" attributes. Additional complications arose with the rule and assignment objects: InitialAssignment, EventAssignment, AssignmentRule, and RateRule. In early versions of SBML, the rule object hierarchy was different, and in addition, then as now, they possess different attributes: "variable" (for the rules and event assignments), "symbol" (for initial assignments), or neither (for algebraic rules). Prior to SBML Level 3 Version 2, getId() would always return an empty string, and isSetId() would always return false for objects of these classes.

With the addition of "id" and "name" attributes on SBase in Level 3 Version 2, it became necessary to introduce a new way to interact with the attributes more consistently in libSBML to avoid breaking backward compatibility in the behavior of the original "id" methods. For this reason, libSBML provides four functions (getIdAttribute(), setIdAttribute(), isSetIdAttribute(), and unsetIdAttribute()) that always act on the actual "id" attribute inherited from SBase, regardless of the object's type. These new methods should be used instead of the older getId()/setId()/etc. methods unless the old behavior is somehow necessary. Regardless of the Level and Version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have identifiers). If the object in question does not posess an "id" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the identifier to be set, nor will it read or write "id" attributes for those objects.

Returns
true if the "id" attribute of this SBML object is set, false otherwise.
See also
getIdAttribute()
setIdAttribute(const std::string& sid)
unsetIdAttribute()

◆ isSetKind()

bool Unit::isSetKind ( ) const

Predicate to test whether the "kind" attribute of this Unit is set.

Returns
true if the "kind" attribute of this Unit is set, false otherwise.

◆ isSetMetaId()

bool SBase::isSetMetaId ( ) const
inherited

Predicate returning true if this object's "metaid" attribute is 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. The latter point is important, because the uniqueness criterion applies across any attribute with type ID anywhere in the file, 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 the XML ID type. Although SBML itself specifies the use of XML ID only for the "metaid" attribute, SBML-compatible applications 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. Finally, note that LibSBML does not provide an explicit XML ID data type; it uses ordinary character strings, which is easier for applications to support.
Returns
true if the "metaid" attribute of this SBML object is set, false otherwise.
See also
getMetaId()
setMetaId(const std::string& metaid)
Examples
addingEvidenceCodes_1.cpp, and addingEvidenceCodes_2.cpp.

◆ isSetModelHistory()

bool SBase::isSetModelHistory ( ) const
inherited

Predicate returning true if this object has a ModelHistory object attached to it.

Returns
true if the ModelHistory of this object is set, false otherwise.
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.

◆ isSetModifiedDate()

bool SBase::isSetModifiedDate ( ) const
inherited

Predicate returning true or false depending on whether the ModelHistory's "modified date" of this object is set.

Returns
true if the modification date value of this ModelHistory object is set, false otherwise.

◆ isSetMultiplier()

bool Unit::isSetMultiplier ( ) const

Predicate to test whether the "multiplier" attribute of this Unit is set.

Returns
true if the "multiplier" attribute of this Unit is set, false otherwise.

◆ isSetName()

bool SBase::isSetName ( ) const
virtualinherited

Predicate returning true if this object's "name" attribute is set.

In SBML Level 3 Version 2, the "id" and "name" attributes were moved to SBase directly, instead of being defined individually for many (but not all) objects. LibSBML has for a long time provided functions defined on SBase itself to get, set, and unset those attributes, which would fail or otherwise return empty strings if executed on any object for which those attributes were not defined. Now that all SBase objects define those attributes, those functions now succeed for any object with the appropriate level and version.

The "name" attribute is optional and is not intended to be used for cross-referencing purposes within a model. Its purpose instead is to provide a human-readable label for the component. The data type of "name" is the type string defined in XML Schema. SBML imposes no restrictions as to the content of "name" attributes beyond those restrictions defined by the string type in XML Schema.

The recommended practice for handling "name" is as follows. If a software tool has the capability for displaying the content of "name" attributes, it should display this content to the user as a component's label instead of the component's "id". If the user interface does not have this capability (e.g., because it cannot display or use special characters in symbol names), or if the "name" attribute is missing on a given component, then the user interface should display the value of the "id" attribute instead. (Script language interpreters are especially likely to display "id" instead of "name".)

As a consequence of the above, authors of systems that automatically generate the values of "id" attributes should be aware some systems may display the "id"'s to the user. Authors therefore may wish to take some care to have their software create "id" values that are: (a) reasonably easy for humans to type and read; and (b) likely to be meaningful, for example by making the "id" attribute be an abbreviated form of the name attribute value.

An additional point worth mentioning is although there are restrictions on the uniqueness of "id" values, there are no restrictions on the uniqueness of "name" values in a model. This allows software applications leeway in assigning component identifiers.

Regardless of the level and version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have names). If the object in question does not posess a "name" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the name to be set, nor will it read or write "name" attributes for those objects.

Returns
true if the "name" attribute of this SBML object is set, false otherwise.
See also
getName()
setName(const std::string& sid)
unsetName()

Reimplemented in UnitDefinition, SpeciesType, Species, SimpleSpeciesReference, Reaction, Parameter, SpatialPoints, SampledVolume, SampledField, ParametricObject, GeometryDefinition, DomainType, Domain, CSGObject, CSGNode, CoordinateComponent, CompartmentMapping, Boundary, AnalyticVolume, AdjacentDomains, Transformation, Style, RenderInformationBase, GradientBase, ColorDefinition, Transition, QualitativeSpecies, Output, Input, SubListOfSpeciesFeatures, SpeciesTypeInstance, SpeciesTypeComponentMapInProduct, SpeciesTypeComponentIndex, SpeciesFeatureType, SpeciesFeature, PossibleSpeciesFeatureValue, OutwardBindingSite, MultiSpeciesType, InSpeciesTypeBond, CompartmentReference, Layout, Member, ListOfMembers, Group, UserDefinedConstraintComponent, UserDefinedConstraint, Objective, KeyValuePair, GeneProductRef, GeneProductAssociation, GeneProduct, FluxObjective, FluxBound, DistribBase, Submodel, Port, ExternalModelDefinition, Deletion, Model, FunctionDefinition, Event, CompartmentType, and Compartment.

Examples
setIdFromNames.cpp.

◆ isSetNotes()

bool SBase::isSetNotes ( ) const
inherited

Predicate returning true if this object's "notes" subelement exists and has content.

The optional SBML 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. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); however, readers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

Returns
true if a "notes" subelement exists, false otherwise.
See also
getNotes()
getNotesString()
setNotes(const XMLNode* notes)
setNotes(const std::string& notes, bool addXHTMLMarkup)
appendNotes(const XMLNode* notes)
appendNotes(const std::string& notes)
unsetNotes()
SyntaxChecker::hasExpectedXHTMLSyntax()
Examples
SBMLHttpResolverExample.cpp, getAllElementsWithNotes.cpp, and printNotes.cpp.

◆ isSetOffset()

bool Unit::isSetOffset ( ) const

Predicate to test whether the "offset" attribute of this Unit is set.

Returns
true if the "offset" attribute of this Unit is set, false otherwise.
Warning
The "offset" attribute is only available in SBML Level 2 Version 1. This attribute is not present in SBML Level 2 Version 2 or above. When producing SBML models using these later specifications, modelers and software tools need to account for units with offsets explicitly. The SBML specification document offers a number of suggestions for how to achieve this. LibSBML methods such as this one related to "offset" are retained for compatibility with earlier versions of SBML Level 2, but their use is strongly discouraged.

◆ isSetSBOTerm()

bool SBase::isSetSBOTerm ( ) const
inherited

Predicate returning true if this object's "sboTerm" attribute is set.

Returns
true if the "sboTerm" attribute of this SBML object is set, false otherwise.
Examples
printSBML.cpp.

◆ isSetScale()

bool Unit::isSetScale ( ) const

Predicate to test whether the "scale" attribute of this Unit is set.

Returns
true if the "scale" attribute of this Unit is set, false otherwise.

◆ isSetUserData()

bool SBase::isSetUserData ( ) const
inherited

Predicate returning true or false depending on whether the user data of this element has been set.

The user data associated with an SBML object can be used by an application developer to attach custom information to that object in the model. In case of a deep copy, this attribute will passed as it is. The attribute will never be interpreted by libSBML.
The user data associated with an SBML object can be used by an application developer to attach custom information to that object in the model. In case of a deep copy, this data will passed as-is. The data attribute will never be interpreted by libSBML.
Returns
boolean, true if this object's user data has been set, false otherwise.

◆ isSiemens()

bool Unit::isSiemens ( ) const

Predicate for testing whether this Unit is of the kind siemens.

Returns
true if the kind of this Unit is siemens, false otherwise.

◆ isSievert()

bool Unit::isSievert ( ) const

Predicate for testing whether this Unit is of the kind sievert.

Returns
true if the kind of this Unit is sievert, false otherwise.

◆ isSteradian()

bool Unit::isSteradian ( ) const

Predicate for testing whether this Unit is of the kind steradian.

Returns
true if the kind of this Unit is steradian, false otherwise.

◆ isTesla()

bool Unit::isTesla ( ) const

Predicate for testing whether this Unit is of the kind tesla.

Returns
true if the kind of this Unit is tesla, false otherwise.

◆ isUnitKind()

bool Unit::isUnitKind ( const std::string &  name,
unsigned int  level,
unsigned int  version 
)
static

Predicate to test whether a given string is the name of a valid base unit in SBML (such as "gram" or "mole").

This method exists because prior to SBML Level 2 Version 3, an enumeration called UnitKind was defined by SBML. This enumeration was removed in SBML Level 2 Version 3 and its values were folded into the space of values of a type called UnitSId. This method therefore has less significance in SBML Level 2 Version 3 and Level 2 Version 4, but remains for backward compatibility and support for reading models in older Versions of Level 2.

Parameters
namea string to be tested.
levelan unsigned int representing the SBML specification Level.
versionan unsigned int representing the SBML specification Version.
Returns
true if name is a valid SBML UnitKind, false otherwise.
Note
The allowed unit names differ between SBML Levels 1 and 2 and again slightly between Level 2 Versions 1 and 2.

◆ isVolt()

bool Unit::isVolt ( ) const

Predicate for testing whether this Unit is of the kind volt.

Returns
true if the kind of this Unit is volt, false otherwise.

◆ isWatt()

bool Unit::isWatt ( ) const

Predicate for testing whether this Unit is of the kind watt.

Returns
true if the kind of this Unit is watt, false otherwise.

◆ isWeber()

bool Unit::isWeber ( ) const

Predicate for testing whether this Unit is of the kind weber.

Returns
true if the kind of this Unit is weber, false otherwise.

◆ matchesRequiredSBMLNamespacesForAddition() [1/2]

bool SBase::matchesRequiredSBMLNamespacesForAddition ( const SBase sb)
inherited

Returns true if this object's set of XML namespaces are a subset of the given object's XML namespaces.

The SBMLNamespaces object encapsulates SBML Level/Version/namespaces information. It is used to communicate the SBML Level, Version, and (in Level 3) packages used in addition to SBML Level 3 Core. A common approach to using libSBML's SBMLNamespaces facilities is to create an SBMLNamespaces object somewhere in a program once, then hand that object as needed to object constructors that accept SBMLNamespaces as arguments.
Parameters
sban object to compare with respect to namespaces.
Returns
boolean, true if this object's collection of namespaces is a subset of sb's, false otherwise.

◆ matchesRequiredSBMLNamespacesForAddition() [2/2]

bool SBase::matchesRequiredSBMLNamespacesForAddition ( const SBase sb) const
inherited

Returns true if this object's set of XML namespaces are a subset of the given object's XML namespaces.

The SBMLNamespaces object encapsulates SBML Level/Version/namespaces information. It is used to communicate the SBML Level, Version, and (in Level 3) packages used in addition to SBML Level 3 Core. A common approach to using libSBML's SBMLNamespaces facilities is to create an SBMLNamespaces object somewhere in a program once, then hand that object as needed to object constructors that accept SBMLNamespaces as arguments.
Parameters
sban object to compare with respect to namespaces.
Returns
boolean, true if this object's collection of namespaces is a subset of sb's, false otherwise.

◆ matchesSBMLNamespaces() [1/2]

bool SBase::matchesSBMLNamespaces ( const SBase sb)
inherited

Returns true if this object's set of XML namespaces are the same as the given object's XML namespaces.

The SBMLNamespaces object encapsulates SBML Level/Version/namespaces information. It is used to communicate the SBML Level, Version, and (in Level 3) packages used in addition to SBML Level 3 Core. A common approach to using libSBML's SBMLNamespaces facilities is to create an SBMLNamespaces object somewhere in a program once, then hand that object as needed to object constructors that accept SBMLNamespaces as arguments.
Parameters
sban object to compare with respect to namespaces.
Returns
boolean, true if this object's collection of namespaces is the same as sb's, false otherwise.

◆ matchesSBMLNamespaces() [2/2]

bool SBase::matchesSBMLNamespaces ( const SBase sb) const
inherited

Returns true if this object's set of XML namespaces are the same as the given object's XML namespaces.

The SBMLNamespaces object encapsulates SBML Level/Version/namespaces information. It is used to communicate the SBML Level, Version, and (in Level 3) packages used in addition to SBML Level 3 Core. A common approach to using libSBML's SBMLNamespaces facilities is to create an SBMLNamespaces object somewhere in a program once, then hand that object as needed to object constructors that accept SBMLNamespaces as arguments.
Parameters
sban object to compare with respect to namespaces.
Returns
boolean, true if this object's collection of namespaces is the same as sb's, false otherwise.

◆ merge()

static void Unit::merge ( Unit unit1,
Unit unit2 
)
static

Merges two Unit objects with the same "kind" attribute value into a single Unit.

For example, the following,

<unit kind="metre" exponent="2"/>
<unit kind="metre" exponent="1"/>

would be merged to become

<unit kind="metre" exponent="3"/>
Parameters
unit1the first Unit object; the result of the operation is left as a new version of this unit, modified in-place. Not modified if the two units have different kinds.
unit2the second Unit object to merge with the first.
See also
convertToSI()
removeScale()

◆ operator=()

Unit & Unit::operator= ( const Unit rhs)

Assignment operator.

Parameters
rhsthe object whose values are used as the basis of the assignment.

◆ read()

void SBase::read ( const XMLNode node,
XMLErrorSeverityOverride_t  flag = LIBSBML_OVERRIDE_DISABLED 
)
inherited

Reads (initializes) this SBML object by reading from the given XMLNode.

Parameters
nodethe XMLNode to read from.
flagan optional flag that determines how how errors are logged during the reading process.
Warning
This method is computationally expensive, because the given node has to be serialized to a string first. Attempting to serialize a large tree structure (e.g., a large Model) may consume significant computer memory and time.

◆ removeFromParentAndDelete()

int SBase::removeFromParentAndDelete ( )
virtualinherited

Removes this object from its parent.

If the parent was storing this object as a pointer, it is deleted. If not, it is simply cleared (as in ListOf objects). This is a pure virtual method, as every SBase element has different parents, and therefore different methods of removing itself. Will fail (and not delete itself) if it has no parent object. This function is designed to be overridden, but for all objects whose parent is of the class ListOf, the default implementation will work.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

Reimplemented in Trigger, StoichiometryMath, Priority, SBaseRef, ReplacedBy, ModelDefinition, Model, ListOf, KineticLaw, and Delay.

◆ removeScale()

static int Unit::removeScale ( Unit unit)
static

Manipulates the attributes of the Unit to express the unit with the value of the scale attribute reduced to zero.

For example, 1 millimetre can be expressed as a Unit with kind= "metre" multiplier="1" scale="-3" exponent="1". It can also be expressed as a Unit with kind="metre" multiplier="0.001" scale="0" exponent="1".

Parameters
unitthe Unit object to manipulate.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. This particular function only does one thing irrespective of user input or object state, and thus will only return a single value:
See also
convertToSI()
merge()

◆ removeTopLevelAnnotationElement()

int SBase::removeTopLevelAnnotationElement ( const std::string &  elementName,
const std::string  elementURI = "",
bool  removeEmpty = true 
)
inherited

Removes the top-level element within the "annotation" subelement of this SBML object with the given name and optional URI.

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.

Calling this method allows a particular annotation element to be removed whilst the remaining annotations remain intact.

Parameters
elementNamea string representing the name of the top level annotation element that is to be removed.
elementURIan optional string that is used to check both the name and URI of the top level element to be removed.
removeEmptyif after removing of the element, the annotation is empty, and the removeEmpty argument is true, the annotation node will be deleted (default).
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
replaceTopLevelAnnotationElement(const XMLNode *)
replaceTopLevelAnnotationElement(const std::string&)

◆ renameMetaIdRefs()

void SBase::renameMetaIdRefs ( const std::string &  oldid,
const std::string &  newid 
)
virtualinherited

Replaces all uses of a given meta identifier attribute value with another value.
In SBML, object "meta" identifiers are of the XML data type ID; the SBML object attribute itself is typically named metaid. All attributes that hold values referring to values of type ID are of the XML data type IDREF. They are also sometimes informally referred to as "metaid refs", in analogy to the SBML-defined type SIdRef.

This method works by looking at all meta-identifier attribute values, comparing the identifiers to the value of oldid. If any matches are found, the matching identifiers are replaced with newid. The method does not descend into child elements.

Parameters
oldidthe old identifier.
newidthe new identifier.

Reimplemented in GraphicalObject, and Port.

◆ renameSIdRefs()

void SBase::renameSIdRefs ( const std::string &  oldid,
const std::string &  newid 
)
virtualinherited

Replaces all uses of a given SIdRef type attribute value with another value.

In SBML, object identifiers are of a data type called SId. In SBML Level 3, an explicit data type called SIdRef was introduced for attribute values that refer to SId values; in previous Levels of SBML, this data type did not exist and attributes were simply described to as "referring to an identifier", but the effective data type was the same as SIdRef in Level 3. These and other methods of libSBML refer to the type SIdRef for all Levels of SBML, even if the corresponding SBML specification did not explicitly name the data type.

This method works by looking at all attributes and (if appropriate) mathematical formulas in MathML content, comparing the referenced identifiers to the value of oldid. If any matches are found, the matching values are replaced with newid. The method does not descend into child elements.

Parameters
oldidthe old identifier.
newidthe new identifier.

Reimplemented in Trigger, StoichiometryMath, Species, SimpleSpeciesReference, Rule, Reaction, RateRule, Priority, SpatialSymbolReference, SampledVolume, SampledFieldGeometry, ParametricObject, OrdinalMapping, Domain, DiffusionCoefficient, CSGSetOperator, CSGObject, CoordinateComponent, CompartmentMapping, BoundaryCondition, AnalyticVolume, AdvectionCoefficient, AdjacentDomains, RenderInformationBase, RenderGroup, RenderCurve, DefaultValues, QualitativeSpecies, Output, Input, FunctionTerm, SpeciesTypeInstance, SpeciesTypeComponentMapInProduct, SpeciesTypeComponentIndex, SpeciesFeatureValue, SpeciesFeature, PossibleSpeciesFeatureValue, OutwardBindingSite, MultiSpeciesType, InSpeciesTypeBond, CompartmentReference, TextGlyph, SpeciesReferenceGlyph, SpeciesGlyph, ReferenceGlyph, ReactionGlyph, GeneralGlyph, CompartmentGlyph, Member, UserDefinedConstraintComponent, UserDefinedConstraint, ListOfObjectives, GeneProductRef, GeneProduct, FluxObjective, FluxBound, UncertSpan, UncertParameter, Submodel, SBaseRef, Replacing, ReplacedElement, Port, Model, KineticLaw, InitialAssignment, EventAssignment, Delay, Constraint, Compartment, and AssignmentRule.

Examples
renameSId.cpp.

◆ renameUnitSIdRefs()

void SBase::renameUnitSIdRefs ( const std::string &  oldid,
const std::string &  newid 
)
virtualinherited

Replaces all uses of a given UnitSIdRef type attribute value with another value.
In SBML, unit definitions have identifiers of type UnitSId. In SBML Level 3, an explicit data type called UnitSIdRef was introduced for attribute values that refer to UnitSId values; in previous Levels of SBML, this data type did not exist and attributes were simply described to as "referring to a unit identifier", but the effective data type was the same as UnitSIdRef in Level 3. These and other methods of libSBML refer to the type UnitSIdRef for all Levels of SBML, even if the corresponding SBML specification did not explicitly name the data type.

This method works by looking at all unit identifier attribute values (including, if appropriate, inside mathematical formulas), comparing the referenced unit identifiers to the value of oldid. If any matches are found, the matching values are replaced with newid. The method does not descend into child elements.

Parameters
oldidthe old identifier.
newidthe new identifier.

Reimplemented in Trigger, StoichiometryMath, Species, Rule, Priority, Parameter, UncertParameter, Port, Model, KineticLaw, InitialAssignment, FunctionDefinition, EventAssignment, Delay, Constraint, and Compartment.

◆ replaceTopLevelAnnotationElement() [1/2]

int SBase::replaceTopLevelAnnotationElement ( const std::string &  annotation)
inherited

Replaces the given top-level element within the "annotation" subelement of this SBML object and with the annotation element supplied.

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.

This method determines the name of the element to be replaced from the annotation argument. Functionally it is equivalent to calling removeTopLevelAnnotationElement(name) followed by calling appendAnnotation(annotation_with_name), with the exception that the placement of the annotation element remains the same.

Parameters
annotationstring representing the replacement top level annotation.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
removeTopLevelAnnotationElement(const std::string elementName, const std::string elementURI)
replaceTopLevelAnnotationElement(const XMLNode*)

◆ replaceTopLevelAnnotationElement() [2/2]

int SBase::replaceTopLevelAnnotationElement ( const XMLNode annotation)
inherited

Replaces the given top-level element within the "annotation" subelement of this SBML object and with the annotation element supplied.

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.

This method determines the name of the element to be replaced from the annotation argument. Functionally it is equivalent to calling removeTopLevelAnnotationElement(name) followed by calling appendAnnotation(annotation_with_name), with the exception that the placement of the annotation element remains the same.

Parameters
annotationXMLNode representing the replacement top level annotation.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
removeTopLevelAnnotationElement(const std::string elementName, const std::string elementURI, bool removeEmpty)
replaceTopLevelAnnotationElement(const std::string&)

◆ setAnnotation() [1/2]

int SBase::setAnnotation ( const std::string &  annotation)
virtualinherited

Sets the value of the "annotation" subelement of this SBML object.

The content of annotation is copied, and any previous content of this object's "annotation" subelement is deleted.

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).

Parameters
annotationan 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 value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getAnnotationString()
isSetAnnotation()
setAnnotation(const XMLNode* annotation)
appendAnnotation(const XMLNode* annotation)
appendAnnotation(const std::string& annotation)
unsetAnnotation()

Reimplemented in SpeciesReference, and Model.

◆ setAnnotation() [2/2]

int SBase::setAnnotation ( const XMLNode annotation)
virtualinherited

Sets the value of the "annotation" subelement of this SBML object.

The content of annotation is copied, and any previous content of this object's "annotation" subelement is deleted.

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).

Parameters
annotationan XML structure that is to be used as the new content of the "annotation" subelement of this object.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. This particular function only does one thing irrespective of user input or object state, and thus will only return a single value:
See also
getAnnotationString()
isSetAnnotation()
setAnnotation(const std::string& annotation)
appendAnnotation(const XMLNode* annotation)
appendAnnotation(const std::string& annotation)
unsetAnnotation()

Reimplemented in SpeciesReference, and Model.

◆ setCreatedDate()

int SBase::setCreatedDate ( Date date)
inherited

Sets the creation date of the ModelHistory of this object.

Parameters
datea Date object representing the date to which the "created date" portion of this ModelHistory should be set.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ setElementText()

void SBase::setElementText ( const std::string &  text)
protectedvirtualinherited

When overridden allows SBase elements to use the text included in between the elements tags.

The default implementation does nothing.

Parameters
textthe text string found between the element tags.

◆ setExponent() [1/2]

int Unit::setExponent ( double  value)

Sets the "exponent" attribute value of this Unit.

Parameters
valuethe double to which the attribute "exponent" should be set.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ setExponent() [2/2]

int Unit::setExponent ( int  value)

Sets the "exponent" attribute value of this Unit.

Parameters
valuethe integer to which the attribute "exponent" should be set.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Examples
createExampleSBML.cpp.

◆ setId()

int SBase::setId ( const std::string &  sid)
virtualinherited

Sets the value of the "id" attribute of this SBML object.

The string sid is copied.
The identifier given by an object's "id" attribute value is used to identify the object within the SBML model definition. Other objects can refer to the component using this identifier. The data type of "id" is always SId or a type derived from that, such as UnitSId, depending on the object in question. All data types are defined as follows:
     letter ::= 'a'..'z','A'..'Z'
     digit  ::= '0'..'9'
     idChar ::= letter | digit | '_'
     SId    ::= ( letter | '_' ) idChar*
   
The characters ( and ) are used for grouping, the character * "zero or more times", and the character | indicates logical "or". The equality of SBML identifiers is determined by an exact character sequence match; i.e., comparisons must be performed in a case-sensitive manner. This applies to all uses of SId, SIdRef, and derived types.

Users need to be aware of some important API issues that are the result of the history of SBML and libSBML. Prior to SBML Level 3 Version 2, SBML defined "id" and "name" attributes on only a subset of SBML objects. To simplify the work of programmers, libSBML's API provided get, set, check, and unset on the SBase object class itself instead of on individual subobject classes. This made the get/set/etc. methods uniformly available on all objects in the libSBML API. LibSBML simply returned empty strings or otherwise did not act when the methods were applied to SBML objects that were not defined by the SBML specification to have "id" or "name" attributes. Additional complications arose with the rule and assignment objects: InitialAssignment, EventAssignment, AssignmentRule, and RateRule. In early versions of SBML, the rule object hierarchy was different, and in addition, then as now, they possess different attributes: "variable" (for the rules and event assignments), "symbol" (for initial assignments), or neither (for algebraic rules). Prior to SBML Level 3 Version 2, getId() would always return an empty string, and isSetId() would always return false for objects of these classes.

With the addition of "id" and "name" attributes on SBase in Level 3 Version 2, it became necessary to introduce a new way to interact with the attributes more consistently in libSBML to avoid breaking backward compatibility in the behavior of the original "id" methods. For this reason, libSBML provides four functions (getIdAttribute(), setIdAttribute(), isSetIdAttribute(), and unsetIdAttribute()) that always act on the actual "id" attribute inherited from SBase, regardless of the object's type. These new methods should be used instead of the older getId()/setId()/etc. methods unless the old behavior is somehow necessary. Regardless of the Level and Version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have identifiers). If the object in question does not posess an "id" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the identifier to be set, nor will it read or write "id" attributes for those objects.

Parameters
sidthe string to use as the identifier of this object.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getIdAttribute()
setIdAttribute(const std::string& sid)
isSetIdAttribute()
unsetIdAttribute()

Reimplemented in UnitDefinition, SpeciesType, Species, SimpleSpeciesReference, Reaction, Parameter, Transition, QualitativeSpecies, Output, Input, Point, Layout, GraphicalObject, Dimensions, BoundingBox, Objective, GeneProductRef, GeneProductAssociation, GeneProduct, GeneAssociation, FluxObjective, FluxBound, Submodel, Port, ExternalModelDefinition, Deletion, Model, FunctionDefinition, Event, CompartmentType, Compartment, SpatialPoints, SampledVolume, SampledField, ParametricObject, GeometryDefinition, Geometry, DomainType, Domain, CSGObject, CSGNode, CoordinateComponent, CompartmentMapping, Boundary, AnalyticVolume, AdjacentDomains, Style, RenderInformationBase, LineEnding, Image, GraphicalPrimitive1D, GradientBase, ColorDefinition, SubListOfSpeciesFeatures, SpeciesTypeInstance, SpeciesTypeComponentMapInProduct, SpeciesTypeComponentIndex, SpeciesFeatureType, SpeciesFeature, PossibleSpeciesFeatureValue, OutwardBindingSite, MultiSpeciesType, InSpeciesTypeBond, CompartmentReference, Member, ListOfMembers, Group, UserDefinedConstraintComponent, UserDefinedConstraint, KeyValuePair, and DistribBase.

Examples
renameSId.cpp, and setIdFromNames.cpp.

◆ setIdAttribute()

int SBase::setIdAttribute ( const std::string &  sid)
virtualinherited

Sets the value of the "id" attribute of this SBML object.

The string sid is copied.
The identifier given by an object's "id" attribute value is used to identify the object within the SBML model definition. Other objects can refer to the component using this identifier. The data type of "id" is always SId or a type derived from that, such as UnitSId, depending on the object in question. All data types are defined as follows:
     letter ::= 'a'..'z','A'..'Z'
     digit  ::= '0'..'9'
     idChar ::= letter | digit | '_'
     SId    ::= ( letter | '_' ) idChar*
   
The characters ( and ) are used for grouping, the character * "zero or more times", and the character | indicates logical "or". The equality of SBML identifiers is determined by an exact character sequence match; i.e., comparisons must be performed in a case-sensitive manner. This applies to all uses of SId, SIdRef, and derived types.

Users need to be aware of some important API issues that are the result of the history of SBML and libSBML. Prior to SBML Level 3 Version 2, SBML defined "id" and "name" attributes on only a subset of SBML objects. To simplify the work of programmers, libSBML's API provided get, set, check, and unset on the SBase object class itself instead of on individual subobject classes. This made the get/set/etc. methods uniformly available on all objects in the libSBML API. LibSBML simply returned empty strings or otherwise did not act when the methods were applied to SBML objects that were not defined by the SBML specification to have "id" or "name" attributes. Additional complications arose with the rule and assignment objects: InitialAssignment, EventAssignment, AssignmentRule, and RateRule. In early versions of SBML, the rule object hierarchy was different, and in addition, then as now, they possess different attributes: "variable" (for the rules and event assignments), "symbol" (for initial assignments), or neither (for algebraic rules). Prior to SBML Level 3 Version 2, getId() would always return an empty string, and isSetId() would always return false for objects of these classes.

With the addition of "id" and "name" attributes on SBase in Level 3 Version 2, it became necessary to introduce a new way to interact with the attributes more consistently in libSBML to avoid breaking backward compatibility in the behavior of the original "id" methods. For this reason, libSBML provides four functions (getIdAttribute(), setIdAttribute(), isSetIdAttribute(), and unsetIdAttribute()) that always act on the actual "id" attribute inherited from SBase, regardless of the object's type. These new methods should be used instead of the older getId()/setId()/etc. methods unless the old behavior is somehow necessary. Regardless of the Level and Version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have identifiers). If the object in question does not posess an "id" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the identifier to be set, nor will it read or write "id" attributes for those objects.

Parameters
sidthe string to use as the identifier of this object.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getIdAttribute()
setIdAttribute(const std::string& sid)
isSetIdAttribute()
unsetIdAttribute()

◆ setKind()

int Unit::setKind ( UnitKind_t  kind)

Sets the "kind" attribute value of this Unit.

Parameters
kinda value from the UnitKind_t enumeration.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Examples
createExampleSBML.cpp.

◆ setMetaId()

int SBase::setMetaId ( const std::string &  metaid)
inherited

Sets the value of the meta-identifier 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. The latter point is important, because the uniqueness criterion applies across any attribute with type ID anywhere in the file, 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 the XML ID type. Although SBML itself specifies the use of XML ID only for the "metaid" attribute, SBML-compatible applications 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. Finally, note that LibSBML does not provide an explicit XML ID data type; it uses ordinary character strings, which is easier for applications to support.

The string metaid is copied.

Parameters
metaidthe identifier string to use as the value of the "metaid" attribute.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getMetaId()
isSetMetaId()
Examples
addingEvidenceCodes_1.cpp, and addingEvidenceCodes_2.cpp.

◆ setModelHistory()

int SBase::setModelHistory ( ModelHistory history)
inherited

Sets the ModelHistory of this object.

The content of history is copied, and this object's existing model history content is deleted.

Parameters
historyModelHistory of this object.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.
Examples
addModelHistory.cpp.

◆ setMultiplier()

int Unit::setMultiplier ( double  value)

Sets the "multipler" attribute value of this Unit.

Parameters
valuethe floating-point value to which the attribute "multiplier" should be set.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ setName()

◆ setNamespaces()

int SBase::setNamespaces ( XMLNamespaces xmlns)
inherited

Sets the namespaces relevant of this SBML object.

The content of xmlns is copied, and this object's existing namespace content is deleted.

The SBMLNamespaces object encapsulates SBML Level/Version/namespaces information. It is used to communicate the SBML Level, Version, and (in Level 3) packages used in addition to SBML Level 3 Core.

Parameters
xmlnsthe namespaces to set.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ setNotes() [1/2]

int SBase::setNotes ( const std::string &  notes,
bool  addXHTMLMarkup = false 
)
inherited

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

The content of notes is copied, and any existing content of this object's "notes" subelement is deleted.

The optional SBML 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. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); however, readers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

The following code illustrates a very simple way of setting the notes using this method. Here, the object being annotated is the whole SBML document, but that is for illustration purposes only; you could of course use this same approach to annotate any other SBML component.

SBMLDocument* s = new SBMLDocument(3, 1);
s->setNotes("<body xmlns='http://www.w3.org/1999/xhtml'><p>here is my note</p></body>");
Definition: SBMLDocument.h:351
int setNotes(const XMLNode *notes)
Sets the value of the "notes" subelement of this SBML object.
Definition: SBase.cpp:1775
Parameters
notesan XML string that is to be used as the content of the "notes" subelement of this object.
addXHTMLMarkupa boolean indicating whether to wrap the contents of the notes argument with XHTML paragraph (<p>) tags. This is appropriate when the string in notes does not already containg the appropriate XHTML markup.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getNotesString()
isSetNotes()
setNotes(const XMLNode* notes)
appendNotes(const XMLNode* notes)
appendNotes(const std::string& notes)
unsetNotes()
SyntaxChecker::hasExpectedXHTMLSyntax()

◆ setNotes() [2/2]

int SBase::setNotes ( const XMLNode notes)
inherited

Sets the value of the "notes" subelement of this SBML object.

The content of notes is copied, and any existing content of this object's "notes" subelement is deleted.

The optional SBML 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. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); however, readers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

Parameters
notesan XML structure 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 value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getNotesString()
isSetNotes()
setNotes(const std::string& notes, bool addXHTMLMarkup)
appendNotes(const XMLNode* notes)
appendNotes(const std::string& notes)
unsetNotes()
SyntaxChecker::hasExpectedXHTMLSyntax()
Examples
createExampleSBML.cpp.

◆ setOffset()

int Unit::setOffset ( double  value)

Sets the "offset" attribute value of this Unit.

Parameters
valuethe floating point value to which the attribute "offset" should set.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Warning
The "offset" attribute is only available in SBML Level 2 Version 1. This attribute is not present in SBML Level 2 Version 2 or above. When producing SBML models using these later specifications, modelers and software tools need to account for units with offsets explicitly. The SBML specification document offers a number of suggestions for how to achieve this. LibSBML methods such as this one related to "offset" are retained for compatibility with earlier versions of SBML Level 2, but their use is strongly discouraged.

◆ setSBOTerm() [1/2]

int SBase::setSBOTerm ( const std::string &  sboid)
virtualinherited

Sets the value of the "sboTerm" attribute by string.

Beginning with SBML Level 2 Version 2, objects derived from SBase have an optional attribute named "sboTerm" for supporting the use of the Systems Biology Ontology. In SBML proper, 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". More details can be found in SBML specifications for Level 2 Version 2 and above.
Parameters
sboidthe SBO identifier string of the form "SBO:NNNNNNN".
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
setSBOTerm(int value)

◆ setSBOTerm() [2/2]

int SBase::setSBOTerm ( int  value)
virtualinherited

Sets the value of the "sboTerm" attribute.

Beginning with SBML Level 2 Version 2, objects derived from SBase have an optional attribute named "sboTerm" for supporting the use of the Systems Biology Ontology. In SBML proper, 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". More details can be found in SBML specifications for Level 2 Version 2 and above.
Parameters
valuethe NNNNNNN integer portion of the SBO identifier.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
setSBOTerm(const std::string &sboid)
Examples
groups_example1.cpp, and qual_example1.cpp.

◆ setScale()

int Unit::setScale ( int  value)

Sets the "scale" attribute value of this Unit.

Parameters
valuethe integer to which the attribute "scale" should be set.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Examples
createExampleSBML.cpp.

◆ setUserData()

int SBase::setUserData ( void *  userData)
inherited

Sets the user data of this element.

The user data associated with an SBML object can be used by an application developer to attach custom information to that object in the model. In case of a deep copy, this attribute will passed as it is. The attribute will never be interpreted by libSBML.
The user data associated with an SBML object can be used by an application developer to attach custom information to that object in the model. In case of a deep copy, this data will passed as-is. The data attribute will never be interpreted by libSBML.
Parameters
userDataspecifies the new user data.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ toSBML()

char * SBase::toSBML ( )
inherited

Returns a string consisting of a partial SBML corresponding to just this object.

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

◆ toXMLNode()

XMLNode* SBase::toXMLNode ( )
inherited

Returns this element as an XMLNode.

Returns
this element as an XMLNode.
Warning
This operation is computationally expensive, because the element has to be fully serialized to a string and then parsed into the XMLNode structure. Attempting to convert a large tree structure (e.g., a large Model) may consume significant computer memory and time.

◆ unsetAnnotation()

int SBase::unsetAnnotation ( )
inherited

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.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. This particular function only does one thing irrespective of user input or object state, and thus will only return a single value:
See also
getAnnotation()
getAnnotationString()
isSetAnnotation()
setAnnotation(const XMLNode* annotation)
setAnnotation(const std::string& annotation)
appendAnnotation(const XMLNode* annotation)
appendAnnotation(const std::string& annotation)
Examples
unsetAnnotation.cpp.

◆ unsetCreatedDate()

int SBase::unsetCreatedDate ( )
inherited

Unsets the created date of the ModelHistory object attached to this object.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.

◆ unsetCVTerms()

int SBase::unsetCVTerms ( )
inherited

Clears the list of CVTerm objects attached to this SBML object.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ unsetExponent()

int Unit::unsetExponent ( )

Unsets the "exponent" attribute value of this Unit.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ unsetId()

int SBase::unsetId ( )
virtualinherited

Unsets the value of the "id" attribute of this SBML object.

The identifier given by an object's "id" attribute value is used to identify the object within the SBML model definition. Other objects can refer to the component using this identifier. The data type of "id" is always SId or a type derived from that, such as UnitSId, depending on the object in question. All data types are defined as follows:
     letter ::= 'a'..'z','A'..'Z'
     digit  ::= '0'..'9'
     idChar ::= letter | digit | '_'
     SId    ::= ( letter | '_' ) idChar*
   
The characters ( and ) are used for grouping, the character * "zero or more times", and the character | indicates logical "or". The equality of SBML identifiers is determined by an exact character sequence match; i.e., comparisons must be performed in a case-sensitive manner. This applies to all uses of SId, SIdRef, and derived types.

Users need to be aware of some important API issues that are the result of the history of SBML and libSBML. Prior to SBML Level 3 Version 2, SBML defined "id" and "name" attributes on only a subset of SBML objects. To simplify the work of programmers, libSBML's API provided get, set, check, and unset on the SBase object class itself instead of on individual subobject classes. This made the get/set/etc. methods uniformly available on all objects in the libSBML API. LibSBML simply returned empty strings or otherwise did not act when the methods were applied to SBML objects that were not defined by the SBML specification to have "id" or "name" attributes. Additional complications arose with the rule and assignment objects: InitialAssignment, EventAssignment, AssignmentRule, and RateRule. In early versions of SBML, the rule object hierarchy was different, and in addition, then as now, they possess different attributes: "variable" (for the rules and event assignments), "symbol" (for initial assignments), or neither (for algebraic rules). Prior to SBML Level 3 Version 2, getId() would always return an empty string, and isSetId() would always return false for objects of these classes.

With the addition of "id" and "name" attributes on SBase in Level 3 Version 2, it became necessary to introduce a new way to interact with the attributes more consistently in libSBML to avoid breaking backward compatibility in the behavior of the original "id" methods. For this reason, libSBML provides four functions (getIdAttribute(), setIdAttribute(), isSetIdAttribute(), and unsetIdAttribute()) that always act on the actual "id" attribute inherited from SBase, regardless of the object's type. These new methods should be used instead of the older getId()/setId()/etc. methods unless the old behavior is somehow necessary. Regardless of the Level and Version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have identifiers). If the object in question does not posess an "id" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the identifier to be set, nor will it read or write "id" attributes for those objects.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getIdAttribute()
setIdAttribute(const std::string& sid)
isSetIdAttribute()
unsetIdAttribute()

Reimplemented in SimpleSpeciesReference, SpatialPoints, SampledVolume, SampledField, ParametricObject, GeometryDefinition, Geometry, DomainType, Domain, CSGObject, CSGNode, CoordinateComponent, CompartmentMapping, Boundary, AnalyticVolume, AdjacentDomains, Style, RenderInformationBase, LineEnding, Image, GraphicalPrimitive1D, GradientBase, ColorDefinition, Transition, QualitativeSpecies, Output, Input, SubListOfSpeciesFeatures, SpeciesTypeInstance, SpeciesTypeComponentMapInProduct, SpeciesTypeComponentIndex, SpeciesFeatureType, SpeciesFeature, PossibleSpeciesFeatureValue, OutwardBindingSite, MultiSpeciesType, InSpeciesTypeBond, CompartmentReference, Point, Layout, GraphicalObject, Dimensions, BoundingBox, Member, ListOfMembers, Group, UserDefinedConstraintComponent, UserDefinedConstraint, Objective, KeyValuePair, GeneProductRef, GeneProductAssociation, GeneProduct, GeneAssociation, FluxObjective, FluxBound, DistribBase, Submodel, Port, ExternalModelDefinition, Deletion, Model, and Event.

◆ unsetIdAttribute()

int SBase::unsetIdAttribute ( )
inherited

Unsets the value of the "id" attribute of this SBML object.

Most (but not all) objects in SBML include two common attributes: "id" and "name". The identifier given by an object's "id" attribute value is used to identify the object within the SBML model definition. Other objects can refer to the component using this identifier.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getIdAttribute()
setIdAttribute(const std::string& sid)
isSetIdAttribute()

◆ unsetKind()

int Unit::unsetKind ( )

Unsets the "kind" attribute value of this Unit.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ unsetMetaId()

int SBase::unsetMetaId ( )
inherited

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. The latter point is important, because the uniqueness criterion applies across any attribute with type ID anywhere in the file, 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 the XML ID type. Although SBML itself specifies the use of XML ID only for the "metaid" attribute, SBML-compatible applications 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. Finally, note that LibSBML does not provide an explicit XML ID data type; it uses ordinary character strings, which is easier for applications to support.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ unsetModelHistory()

int SBase::unsetModelHistory ( )
inherited

Unsets the ModelHistory object attached to this object.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.

◆ unsetModifiedDates()

int SBase::unsetModifiedDates ( )
inherited

Unsets the modified dates of the ModelHistory object attached to this object.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Note
In SBML Level 2, model history annotations were only permitted on the Model element. In SBML Level 3, they are permitted on all SBML components derived from SBase.

◆ unsetMultiplier()

int Unit::unsetMultiplier ( )

Unsets the "multipler" attribute value of this Unit.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ unsetName()

int SBase::unsetName ( )
virtualinherited

Unsets the value of the "name" attribute of this SBML object.

In SBML Level 3 Version 2, the "id" and "name" attributes were moved to SBase directly, instead of being defined individually for many (but not all) objects. LibSBML has for a long time provided functions defined on SBase itself to get, set, and unset those attributes, which would fail or otherwise return empty strings if executed on any object for which those attributes were not defined. Now that all SBase objects define those attributes, those functions now succeed for any object with the appropriate level and version.

The "name" attribute is optional and is not intended to be used for cross-referencing purposes within a model. Its purpose instead is to provide a human-readable label for the component. The data type of "name" is the type string defined in XML Schema. SBML imposes no restrictions as to the content of "name" attributes beyond those restrictions defined by the string type in XML Schema.

The recommended practice for handling "name" is as follows. If a software tool has the capability for displaying the content of "name" attributes, it should display this content to the user as a component's label instead of the component's "id". If the user interface does not have this capability (e.g., because it cannot display or use special characters in symbol names), or if the "name" attribute is missing on a given component, then the user interface should display the value of the "id" attribute instead. (Script language interpreters are especially likely to display "id" instead of "name".)

As a consequence of the above, authors of systems that automatically generate the values of "id" attributes should be aware some systems may display the "id"'s to the user. Authors therefore may wish to take some care to have their software create "id" values that are: (a) reasonably easy for humans to type and read; and (b) likely to be meaningful, for example by making the "id" attribute be an abbreviated form of the name attribute value.

An additional point worth mentioning is although there are restrictions on the uniqueness of "id" values, there are no restrictions on the uniqueness of "name" values in a model. This allows software applications leeway in assigning component identifiers.

Regardless of the level and version of the SBML, these functions allow client applications to use more generalized code in some situations (for instance, when manipulating objects that are all known to have names). If the object in question does not posess a "name" attribute according to the SBML specification for the Level and Version in use, libSBML will not allow the name to be set, nor will it read or write "name" attributes for those objects.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
See also
getName()
setName(const std::string& sid)
isSetName()

Reimplemented in UnitDefinition, SpeciesType, Species, SimpleSpeciesReference, Reaction, Parameter, SpatialPoints, SampledVolume, SampledField, ParametricObject, GeometryDefinition, DomainType, Domain, CSGObject, CSGNode, CoordinateComponent, CompartmentMapping, Boundary, AnalyticVolume, AdjacentDomains, Transformation, Style, RenderInformationBase, GradientBase, ColorDefinition, Transition, QualitativeSpecies, Output, Input, SubListOfSpeciesFeatures, SpeciesTypeInstance, SpeciesTypeComponentMapInProduct, SpeciesTypeComponentIndex, SpeciesFeatureType, SpeciesFeature, PossibleSpeciesFeatureValue, OutwardBindingSite, MultiSpeciesType, InSpeciesTypeBond, CompartmentReference, Layout, Member, ListOfMembers, Group, UserDefinedConstraintComponent, UserDefinedConstraint, Objective, KeyValuePair, GeneProductRef, GeneProductAssociation, GeneProduct, FluxObjective, FluxBound, DistribBase, Submodel, Port, ExternalModelDefinition, Deletion, Model, FunctionDefinition, Event, CompartmentType, and Compartment.

◆ unsetNotes()

int SBase::unsetNotes ( )
inherited

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

The optional SBML 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. To help verify the formatting of "notes" content, libSBML provides the static utility method SyntaxChecker::hasExpectedXHTMLSyntax(); however, readers are urged to consult the appropriate SBML specification document for the Level and Version of their model for more in-depth explanations. The SBML Level 2 and 3 specifications have considerable detail about how "notes" element content must be structured.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. This particular function only does one thing irrespective of user input or object state, and thus will only return a single value:
See also
getNotesString()
isSetNotes()
setNotes(const XMLNode* notes)
setNotes(const std::string& notes, bool addXHTMLMarkup)
appendNotes(const XMLNode* notes)
appendNotes(const std::string& notes)
SyntaxChecker::hasExpectedXHTMLSyntax()
Examples
unsetNotes.cpp.

◆ unsetOffset()

int Unit::unsetOffset ( )

Unsets the "offset" attribute value of this Unit.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:
Warning
The "offset" attribute is only available in SBML Level 2 Version 1. This attribute is not present in SBML Level 2 Version 2 or above. When producing SBML models using these later specifications, modelers and software tools need to account for units with offsets explicitly. The SBML specification document offers a number of suggestions for how to achieve this. LibSBML methods such as this one related to "offset" are retained for compatibility with earlier versions of SBML Level 2, but their use is strongly discouraged.

◆ unsetSBOTerm()

int SBase::unsetSBOTerm ( )
inherited

Unsets the value of the "sboTerm" attribute of this SBML object.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ unsetScale()

int Unit::unsetScale ( )

Unsets the "scale" attribute value of this Unit.

Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are:

◆ unsetUserData()

int SBase::unsetUserData ( )
inherited

Unsets the user data of this element.

The user data associated with an SBML object can be used by an application developer to attach custom information to that object in the model. In case of a deep copy, this attribute will passed as it is. The attribute will never be interpreted by libSBML.
The user data associated with an SBML object can be used by an application developer to attach custom information to that object in the model. In case of a deep copy, this data will passed as-is. The data attribute will never be interpreted by libSBML.
Returns
integer value indicating success/failure of the function. The value is drawn from the enumeration OperationReturnValues_t. The possible values returned by this function are: