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* @file StoichiometryMath.h
* @brief Definition of StoichiometryMath
* @author Sarah Keating
*
* <!--------------------------------------------------------------------------
* This file is part of libSBML. Please visit http://sbml.org for more
* information about SBML, and the latest version of libSBML.
*
* Copyright (C) 2013-2015 jointly by the following organizations:
* 1. California Institute of Technology, Pasadena, CA, USA
* 2. EMBL European Bioinformatics Institute (EMBL-EBI), Hinxton, UK
* 3. University of Heidelberg, Heidelberg, Germany
*
* Copyright (C) 2009-2013 jointly by the following organizations:
* 1. California Institute of Technology, Pasadena, CA, USA
* 2. EMBL European Bioinformatics Institute (EMBL-EBI), Hinxton, UK
*
* Copyright (C) 2006-2008 by the California Institute of Technology,
* Pasadena, CA, USA
*
* Copyright (C) 2002-2005 jointly by the following organizations:
* 1. California Institute of Technology, Pasadena, CA, USA
* 2. Japan Science and Technology Agency, Japan
*
* This library is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation. A copy of the license agreement is provided
* in the file named "LICENSE.txt" included with this software distribution
* and also available online as http://sbml.org/software/libsbml/license.html
* ------------------------------------------------------------------------ -->
*
* @class StoichiometryMath
* @sbmlbrief{core} Stochiometry expressions in SBML Level 2 reactions.
*
* @section l2-stoichiometries Stoichiometries in SBML Level 2
*
* In SBML Level 2, product and reactant stoichiometries can be specified
* using @em either the "stoichiometry" attribute or a "stoichiometryMath"
* element in a SpeciesReference object. The "stoichiometry" attribute is
* of type @c double and should contain values greater than zero (0). The
* "stoichiometryMath" element is implemented as an element containing a
* MathML expression. These two are mutually exclusive; only one of
* "stoichiometry" or "stoichiometryMath" should be defined in a given
* SpeciesReference instance. When neither the attribute nor the element
* is present, the value of "stoichiometry" in the enclosing
* SpeciesReference instance defaults to @c 1.
*
* For maximum interoperability, SpeciesReference's "stoichiometry"
* attribute should be used in preference to "stoichiometryMath" when a
* species' stoichiometry is a simple scalar number (integer or decimal).
* When the stoichiometry is a rational number, or when it is a more
* complicated formula, "stoichiometryMath" must be used. The MathML
* expression in "stoichiometryMath" may also refer to identifiers of
* entities in a model (except reaction identifiers). However, the only
* species identifiers that can be used in "stoichiometryMath" are those
* referenced in the enclosing Reaction's list of reactants, products and
* modifiers.
*
* The "stoichiometry" attribute and the "stoichiometryMath" element, when
* either is used, is each interpreted as a factor applied to the reaction
* rate to produce the rate of change of the species identified by the
* "species" attribute in the enclosing SpeciesReference. This is the
* normal interpretation of a stoichiometry, but in SBML, one additional
* consideration has to be taken into account. The reaction rate, which is
* the result of the KineticLaw's "math" element, is always in the model's
* @em substance per @em time units. However, the rate of change of the
* species will involve the species' @em substance units (i.e., the units
* identified by the Species object's "substanceUnits" attribute), and
* these units may be different from the model's default @em substance
* units. If the units @em are different, the stoichiometry must
* incorporate a conversion factor for converting the model's @em substance
* units to the species' @em substance units. The conversion factor is
* assumed to be included in the scalar value of the "stoichiometry"
* attribute if "stoichiometry" is used. If instead "stoichiometryMath" is
* used, then the product of the model's "substance" units times the
* "stoichiometryMath" units must match the @em substance units of the
* species. Note that in either case, if the species' units and the
* model's default @em substance units are the same, the stoichiometry ends
* up being a dimensionless number and equivalent to the standard chemical
* stoichiometry found in textbooks. Examples and more explanations of
* this are given in the SBML specification.
*
* The following is a simple example of a species reference for species @c
* "X0", with stoichiometry @c 2, in a list of reactants within a reaction
* having the identifier @c "J1":
* @verbatim
<model>
...
<listOfReactions>
<reaction id="J1">
<listOfReactants>
<speciesReference species="X0" stoichiometry="2">
</listOfReactants>
...
</reaction>
...
</listOfReactions>
...
</model>
@endverbatim
*
* The following is a more complex example of a species reference for
* species @c "X0", with a stoichiometry formula consisting of
* a rational number:
* @verbatim
<model>
...
<listOfReactions>
<reaction id="J1">
<listOfReactants>
<speciesReference species="X0">
<stoichiometryMath>
<math xmlns="http://www.w3.org/1998/Math/MathML">
<cn type="rational"> 3 <sep/> 2 </cn>
</math>
</stoichiometryMath>
</speciesReference>
</listOfReactants>
...
</reaction>
...
</listOfReactions>
...
</model>
@endverbatim
*
* Additional discussions of stoichiometries and implications for species
* and reactions are included in the documentation of SpeciesReference
* class.
*
* @section l3-stoichiometries Stoichiometries in SBML Level 3
*
* The StoichiometryMath construct is not defined in SBML Level 3
* Version 1 Core. Instead, Level 3 defines the identifier of
* SpeciesReference objects as a stand-in for the stoichiometry of the
* reactant or product being referenced, and allows that identifier to be
* used elsewhere in SBML models, including (for example) InitialAssignment
* objects. This makes it possible to achieve the same effect as
* StoichiometryMath, but with other SBML objects. For instance, to
* produce a stoichiometry value that is a rational number, a model can use
* InitialAssignment to assign the identifier of a SpeciesReference object
* to a MathML expression evaluating to a rational number. This is
* analogous to the same way that, in Level 2, the model would use
* StoichiometryMath with a MathML expression evaluating to a rational
* number.
*
* In SBML Level 2, the stoichiometry of a reactant or product is a
* combination of both a <em>biochemical stoichiometry</em> (meaning, the
* standard stoichiometry of a species in a reaction) and any necessary
* unit conversion factors. The introduction of an explicit attribute on
* the Species object for a conversion factor allows Level 3 to avoid
* having to overload the meaning of stoichiometry. In Level 3, the
* stoichiometry given by a SpeciesReference object in a reaction is a
* "proper" biochemical stoichiometry, meaning a dimensionless number free
* of unit conversions.
*
* @see SpeciesReference
* @see Reaction
*/
/**
* <!-- ~ ~ ~ ~ ~ Start of common documentation strings ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
* The following text is used as common documentation blocks copied multiple
* times elsewhere in this file. The use of @class is a hack needed because
* Doxygen's @copydetails command has limited functionality. Symbols
* beginning with "doc_" are marked as ignored in our Doxygen configuration.
* ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ -->
*
* @class doc_note_stoichiometrymath_availability
*
* @note The StoichiometryMath construct exists only in SBML Level 2.
* It is an optional construct available for defining the stoichiometries of
* reactants and products in Reaction objects. Note that a different
* mechanism is used in SBML Level 3, where StoichiometryMath is not
* available. Please consult the top of this libSBML StoichiometryMath
* documentation for more information about the differences between SBML
* Level 2 and 3 with respect to stoichiometries.
*
*/
#ifndef StoichiometryMath_h
#define StoichiometryMath_h
#include <sbml/common/extern.h>
#include <sbml/common/sbmlfwd.h>
#ifdef __cplusplus
#include <string>
#include <sbml/SBase.h>
LIBSBML_CPP_NAMESPACE_BEGIN
class ASTNode;
class SBMLVisitor;
class LIBSBML_EXTERN StoichiometryMath : public SBase
{
public:
/**
* Creates a new StoichiometryMath object using the given SBML @p level
* values.
*
* @param level an unsigned int, the SBML Level to assign to this StoichiometryMath
*
* @param version an unsigned int, the SBML Version to assign to this
* StoichiometryMath
*
* @copydetails doc_throw_exception_lv
*
* @copydetails doc_note_stoichiometrymath_availability
*
* @copydetails doc_note_setting_lv
*/
StoichiometryMath (unsigned int level, unsigned int version);
/**
* Creates a new StoichiometryMath object using the given SBMLNamespaces object
* @p sbmlns.
*
* @copydetails doc_what_are_sbmlnamespaces
*
* @param sbmlns an SBMLNamespaces object.
*
* @copydetails doc_throw_exception_namespace
*
* @copydetails doc_note_stoichiometrymath_availability
*
* @copydetails doc_note_setting_lv
*/
StoichiometryMath (SBMLNamespaces* sbmlns);
/**
* Destroys this StoichiometryMath object.
*/
virtual ~StoichiometryMath ();
/**
* Copy constructor; creates a copy of this StoichiometryMath.
*
* @param orig the object to copy.
*/
StoichiometryMath (const StoichiometryMath& orig);
/**
* Assignment operator
*
* @param rhs The object whose values are used as the basis of the
* assignment.
*/
StoichiometryMath& operator=(const StoichiometryMath& rhs);
/** @cond doxygenLibsbmlInternal */
/**
* Accepts the given SBMLVisitor for this instance of StoichiometryMath.
*
* @param v the SBMLVisitor instance to be used.
*
* @return the result of calling <code>v.visit()</code>.
*/
virtual bool accept (SBMLVisitor& v) const;
/** @endcond */
/**
* Creates and returns a deep copy of this StoichiometryMath object.
*
* @return the (deep) copy of this StoichiometryMath object.
*/
virtual StoichiometryMath* clone () const;
/**
* Retrieves the mathematical formula within this StoichiometryMath and
* return it as an AST.
*
* @return the math of this StoichiometryMath.
*
* @copydetails doc_note_stoichiometrymath_availability
*/
const ASTNode* getMath () const;
/**
* Predicate to test whether the math for this StoichiometryMath object
* is set.
*
* @return @c true if the formula (meaning the @c math subelement) of
* this StoichiometryMath is set, @c false otherwise.
*
* @copydetails doc_note_stoichiometrymath_availability
*/
bool isSetMath () const;
/**
* Sets the 'math' expression of this StoichiometryMath instance to a
* copy of the given ASTNode.
*
* @param math an ASTNode representing a formula tree.
*
* @copydetails doc_returns_success_code
* @li @sbmlconstant{LIBSBML_OPERATION_SUCCESS, OperationReturnValues_t}
* @li @sbmlconstant{LIBSBML_INVALID_OBJECT, OperationReturnValues_t}
*
* @copydetails doc_note_stoichiometrymath_availability
*/
int setMath (const ASTNode* math);
/**
* Calculates and returns a UnitDefinition object that expresses the
* units returned by the math expression in this StoichiometryMath
* object.
*
* The units are calculated based on the mathematical expression in the
* StoichiometryMath and the model quantities referenced by
* <code><ci></code> elements used within that expression. The
* StoichiometryMath::getDerivedUnitDefinition() method returns the
* calculated units.
*
* Note that the functionality that facilitates unit analysis depends
* on the model as a whole. Thus, in cases where the object has not
* been added to a model or the model itself is incomplete,
* unit analysis is not possible and this method will return @c NULL.
*
* @return a UnitDefinition that expresses the units of the math,
* or @c NULL if one cannot be constructed.
*
* @warning <span class="warning">Note that it is possible the "math"
* expression in the StoichiometryMath instance contains literal numbers or
* parameters with undeclared units. In those cases, it is not possible to
* calculate the units of the overall expression without making
* assumptions. LibSBML does not make assumptions about the units, and
* StoichiometryMath::getDerivedUnitDefinition() only returns the units as
* far as it is able to determine them. For example, in an expression
* <em>X + Y</em>, if <em>X</em> has unambiguously-defined units and
* <em>Y</em> does not, it will return the units of <em>X</em>. When using
* this method, <strong>it is critical that callers also invoke the
* method</strong> StoichiometryMath::containsUndeclaredUnits() <strong>to
* determine whether this situation holds</strong>. Callers should take
* suitable action in those situations.</span>
*
* @see containsUndeclaredUnits()
*/
UnitDefinition * getDerivedUnitDefinition();
/**
* Calculates and returns a UnitDefinition object that expresses the
* units returned by the math expression in this StoichiometryMath
* object.
*
* The units are calculated based on the mathematical expression in the
* StoichiometryMath and the model quantities referenced by
* <code><ci></code> elements used within that expression. The
* StoichiometryMath::getDerivedUnitDefinition() method returns the
* calculated units.
*
* Note that the functionality that facilitates unit analysis depends
* on the model as a whole. Thus, in cases where the object has not
* been added to a model or the model itself is incomplete,
* unit analysis is not possible and this method will return @c NULL.
*
* @return a UnitDefinition that expresses the units of the math,
* or @c NULL if one cannot be constructed.
*
* @warning <span class="warning">Note that it is possible the "math"
* expression in the StoichiometryMath instance contains literal numbers or
* parameters with undeclared units. In those cases, it is not possible to
* calculate the units of the overall expression without making
* assumptions. LibSBML does not make assumptions about the units, and
* StoichiometryMath::getDerivedUnitDefinition() only returns the units as
* far as it is able to determine them. For example, in an expression
* <em>X + Y</em>, if <em>X</em> has unambiguously-defined units and
* <em>Y</em> does not, it will return the units of <em>X</em>. When using
* this method, <strong>it is critical that callers also invoke the
* method</strong> StoichiometryMath::containsUndeclaredUnits() <strong>to
* determine whether this situation holds</strong>. Callers should take
* suitable action in those situations.</span>
*
* @see containsUndeclaredUnits()
*/
const UnitDefinition * getDerivedUnitDefinition() const;
/**
* Predicate returning @c true if the math
* expression of this StoichiometryMath object contains literal numbers
* or parameters with undeclared units.
*
* The StoichiometryMath::getDerivedUnitDefinition() method returns what
* libSBML computes the units of the Stoichiometry to be, to the extent
* that libSBML can compute them. However, if the expression contains
* literal numbers or parameters with undeclared units, libSBML may not
* be able to compute the full units of the expression and will only
* return what it can compute. Callers should always use
* StoichiometryMath::containsUndeclaredUnits() when using
* StoichiometryMath::getDerivedUnitDefinition() to decide whether the
* returned units may be incomplete.
*
* @return @c true if the math expression of this StoichiometryMath
* includes numbers/parameters with undeclared units, @c false otherwise.
*
* @note A return value of @c true indicates that the UnitDefinition
* returned by StoichiometryMath::getDerivedUnitDefinition() may not
* accurately represent the units of the expression.
*
* @see getDerivedUnitDefinition()
*/
bool containsUndeclaredUnits();
/**
* Predicate returning @c true if the math
* expression of this StoichiometryMath object contains literal numbers
* or parameters with undeclared units.
*
* The StoichiometryMath::getDerivedUnitDefinition() method returns what
* libSBML computes the units of the Stoichiometry to be, to the extent
* that libSBML can compute them. However, if the expression contains
* literal numbers or parameters with undeclared units, libSBML may not
* be able to compute the full units of the expression and will only
* return what it can compute. Callers should always use
* StoichiometryMath::containsUndeclaredUnits() when using
* StoichiometryMath::getDerivedUnitDefinition() to decide whether the
* returned units may be incomplete.
*
* @return @c true if the math expression of this StoichiometryMath
* includes numbers/parameters with undeclared units, @c false otherwise.
*
* @note A return value of @c true indicates that the UnitDefinition
* returned by StoichiometryMath::getDerivedUnitDefinition() may not
* accurately represent the units of the expression.
*
* @see getDerivedUnitDefinition()
*/
bool containsUndeclaredUnits() const;
/**
* Returns the libSBML type code of this object instance.
*
* @copydetails doc_what_are_typecodes
*
* @return the SBML type code for this object:
* @sbmlconstant{SBML_STOICHIOMETRY_MATH, SBMLTypeCode_t} (default).
*
* @copydetails doc_warning_typecodes_not_unique
*
* @see getElementName()
* @see getPackageName()
*/
virtual int getTypeCode () const;
/**
* Returns the XML element name of this object, which for StoichiometryMath, is
* always @c "stoichiometryMath".
*
* @return the name of this element, i.e., @c "stoichiometryMath".
*/
virtual const std::string& getElementName () const;
/** @cond doxygenLibsbmlInternal */
/**
* Returns the position of this element.
*
* @return the ordinal position of the element with respect to its
* siblings or @c -1 (default) to indicate the position is not significant.
*/
virtual int getElementPosition () const;
/** @endcond */
/** @cond doxygenLibsbmlInternal */
/**
* Subclasses should override this method to write out their contained
* SBML objects as XML elements. Be sure to call your parents
* implementation of this method as well.
*/
virtual void writeElements (XMLOutputStream& stream) const;
/** @endcond */
/**
* Predicate returning @c true if
* all the required elements for this StoichiometryMath object
* have been set.
*
* @note The required elements for a StoichiometryMath object are:
* @li "math"
*
* @return a boolean value indicating whether all the required
* elements for this object have been defined.
*/
virtual bool hasRequiredElements() const ;
/**
* Finds this StoichiometryMath's SpeciesReference parent and calls
* unsetStoichiometryMath() on it, indirectly deleting itself.
*
* Overridden from the SBase function since the parent is not a ListOf.
*
* @copydetails doc_returns_success_code
* @li @sbmlconstant{LIBSBML_OPERATION_SUCCESS, OperationReturnValues_t}
* @li @sbmlconstant{LIBSBML_OPERATION_FAILED, OperationReturnValues_t}
*/
virtual int removeFromParentAndDelete();
/**
* @copydoc doc_renamesidref_common
*/
virtual void renameSIdRefs(const std::string& oldid, const std::string& newid);
/**
* @copydoc doc_renameunitsidref_common
*/
virtual void renameUnitSIdRefs(const std::string& oldid, const std::string& newid);
/** @cond doxygenLibsbmlInternal */
/**
* Replace all nodes with the name 'id' from the child 'math' object with the provided function.
*
*/
virtual void replaceSIDWithFunction(const std::string& id, const ASTNode* function);
/** @endcond */
/** @cond doxygenLibsbmlInternal */
/*
* Function to set/get an identifier for unit checking.
*/
std::string getInternalId() const { return mInternalId; };
void setInternalId(std::string id) { mInternalId = id; };
/** @endcond */
protected:
/** @cond doxygenLibsbmlInternal */
/**
* Subclasses should override this method to read (and store) XHTML,
* MathML, etc. directly from the XMLInputStream.
*
* @return true if the subclass read from the stream, false otherwise.
*/
virtual bool readOtherXML (XMLInputStream& stream);
/**
* Create and return an SBML object of this class, if present.
*
* @return the SBML object corresponding to next XMLToken in the
* XMLInputStream or @c NULL if the token was not recognized.
*/
// virtual SBase* createObject (XMLInputStream& stream);
/**
* Subclasses should override this method to get the list of
* expected attributes.
* This function is invoked from corresponding readAttributes()
* function.
*/
virtual void addExpectedAttributes(ExpectedAttributes& attributes);
/**
* Subclasses should override this method to read values from the given
* XMLAttributes set into their specific fields. Be sure to call your
* parents implementation of this method as well.
*/
virtual void readAttributes (const XMLAttributes& attributes,
const ExpectedAttributes& expectedAttributes);
void readL2Attributes (const XMLAttributes& attributes);
/**
* Subclasses should override this method to write their XML attributes
* to the XMLOutputStream. Be sure to call your parents implementation
* of this method as well.
*/
virtual void writeAttributes (XMLOutputStream& stream) const;
ASTNode* mMath;
/* internal id used by unit checking */
std::string mInternalId;
/* the validator classes need to be friends to access the
* protected constructor that takes no arguments
*/
friend class Validator;
friend class ConsistencyValidator;
friend class IdentifierConsistencyValidator;
friend class InternalConsistencyValidator;
friend class L1CompatibilityValidator;
friend class L2v1CompatibilityValidator;
friend class L2v2CompatibilityValidator;
friend class L2v3CompatibilityValidator;
friend class L2v4CompatibilityValidator;
friend class MathMLConsistencyValidator;
friend class ModelingPracticeValidator;
friend class OverdeterminedValidator;
friend class SBOConsistencyValidator;
friend class UnitConsistencyValidator;
/** @endcond */
};
LIBSBML_CPP_NAMESPACE_END
#endif /* __cplusplus */
#ifndef SWIG
LIBSBML_CPP_NAMESPACE_BEGIN
BEGIN_C_DECLS
/**
* Creates a new StoichiometryMath_t structure using the given SBML @p level
* and @p version values.
*
* @param level an unsigned int, the SBML Level to assign to this
* StoichiometryMath_t
*
* @param version an unsigned int, the SBML Version to assign to this
* StoichiometryMath_t
*
* @return a pointer to the newly created StoichiometryMath_t structure.
*
* @note Once a StoichiometryMath_t has been added to an SBMLDocument_t, the @p
* level and @p version for the document @em override those used to create
* the StoichiometryMath_t. Despite this, the ability to supply the values at
* creation time is an important aid to creating valid SBML. Knowledge of
* the intended SBML Level and Version determine whether it is valid to
* assign a particular value to an attribute, or whether it is valid to add
* a structure to an existing SBMLDocument_t.
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
StoichiometryMath_t *
StoichiometryMath_create (unsigned int level, unsigned int version);
/**
* Creates a new StoichiometryMath_t structure using the given
* SBMLNamespaces_t structure.
*
* @param sbmlns SBMLNamespaces_t, a pointer to an SBMLNamespaces_t structure
* to assign to this StoichiometryMath_t
*
* @return a pointer to the newly created StoichiometryMath_t structure.
*
* @note Once a StoichiometryMath_t has been added to an SBMLDocument_t, the
* @p sbmlns namespaces for the document @em override those used to create
* the StoichiometryMath_t. Despite this, the ability to supply the values at
* creation time is an important aid to creating valid SBML. Knowledge of the
* intended SBML Level and Version determine whether it is valid to assign a
* particular value to an attribute, or whether it is valid to add a structure
* to an existing SBMLDocument_t.
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
StoichiometryMath_t *
StoichiometryMath_createWithNS (SBMLNamespaces_t *sbmlns);
/**
* Frees the given StoichiometryMath_t.
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
void
StoichiometryMath_free (StoichiometryMath_t *t);
/**
* @return a (deep) copy of this StoichiometryMath_t.
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
StoichiometryMath_t *
StoichiometryMath_clone (const StoichiometryMath_t *t);
/**
* Returns a list of XMLNamespaces_t associated with this StoichiometryMath_t
* structure.
*
* @param sm the StoichiometryMath_t structure
*
* @return pointer to the XMLNamespaces_t structure associated with
* this structure
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
const XMLNamespaces_t *
StoichiometryMath_getNamespaces(StoichiometryMath_t *sm);
/**
* @return the stoichMath of this StoichiometryMath_t.
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
const ASTNode_t *
StoichiometryMath_getMath (const StoichiometryMath_t *t);
/**
* @return true (non-zero) if the stoichMath (or equivalently the formula) of
* this StoichiometryMath_t is set, false (0) otherwise.
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
int
StoichiometryMath_isSetMath (const StoichiometryMath_t *t);
/**
* Sets the math of this StoichiometryMath_t to a copy of the given ASTNode_t.
*
* @copydetails doc_returns_success_code
* @li @sbmlconstant{LIBSBML_OPERATION_SUCCESS, OperationReturnValues_t}
* @li @sbmlconstant{LIBSBML_INVALID_OBJECT, OperationReturnValues_t}
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
int
StoichiometryMath_setMath (StoichiometryMath_t *t, const ASTNode_t *math);
/**
* Calculates and returns a UnitDefinition_t that expresses the units
* returned by the math expression in this StoichiometryMath_t.
*
* @param math the StoichiometryMath_t structure to check
*
* @return A UnitDefinition_t that expresses the units of the math
*
*
* The units are calculated based on the mathematical expression in the
* StoichiometryMath_t and the model quantities referenced by
* <code><ci></code> elements used within that expression. The
* getDerivedUnitDefinition() method returns the calculated units.
*
* @warning Note that it is possible the "math" expression in the
* StoichiometryMath_t contains pure numbers or parameters with undeclared
* units. In those cases, it is not possible to calculate the units of
* the overall expression without making assumptions. LibSBML does not
* make assumptions about the units, and getDerivedUnitDefinition() only
* returns the units as far as it is able to determine them. For
* example, in an expression <em>X + Y</em>, if <em>X</em> has
* unambiguously-defined units and <em>Y</em> does not, it will return
* the units of <em>X</em>. <strong>It is important that callers also
* invoke the method</strong> containsUndeclaredUnits() <strong>to
* determine whether this situation holds</strong>. Callers may wish to
* take suitable actions in those scenarios.
*
* @see containsUndeclaredUnits()
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
UnitDefinition_t *
StoichiometryMath_getDerivedUnitDefinition(StoichiometryMath_t *math);
/**
* Predicate returning @c true or @c false depending on whether
* the math expression of this StoichiometryMath_t contains
* parameters/numbers with undeclared units.
*
* @param math the StoichiometryMath_t structure to check
*
* @return @c true if the math expression of this StoichiometryMath_t
* includes parameters/numbers
* with undeclared units, @c false otherwise.
*
* @note A return value of @c true indicates that the UnitDefinition_t
* returned by getDerivedUnitDefinition() may not accurately represent
* the units of the expression.
*
* @see StoichiometryMath_getDerivedUnitDefinition()
*
* @memberof StoichiometryMath_t
*/
LIBSBML_EXTERN
int
StoichiometryMath_containsUndeclaredUnits(StoichiometryMath_t *math);
END_C_DECLS
LIBSBML_CPP_NAMESPACE_END
#endif /* !SWIG */
#endif /* StoichiometryMath_h */
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