/**
*
* Creates an SBML model represented in "7.2 Example involving units"
* in the SBML Level 2 Version 4 Specification.
*
*/
private static SBMLDocument createExampleInvolvingUnits()
{
int level = Level;
int version = Version;
//---------------------------------------------------------------------------
//
// Creates an SBMLDocument object
//
//---------------------------------------------------------------------------
SBMLDocument sbmlDoc = new SBMLDocument(level, version);
// Adds the namespace for XHTML to the SBMLDocument object. We need this
// because we will add notes to the model. (By default, the SBML document
// created by SBMLDocument only declares the SBML XML namespace.)
sbmlDoc.getNamespaces().add("http://www.w3.org/1999/xhtml", "xhtml");
//---------------------------------------------------------------------------
//
// Creates a Model object inside the SBMLDocument object.
//
//---------------------------------------------------------------------------
Model model = sbmlDoc.createModel();
model.setId("unitsExample");
//---------------------------------------------------------------------------
//
// Creates UnitDefinition objects inside the Model object.
//
//---------------------------------------------------------------------------
// Temporary pointers (reused more than once below).
UnitDefinition unitdef;
Unit unit;
//---------------------------------------------------------------------------
// (UnitDefinition1) Creates an UnitDefinition object ("substance").
//
// This has the effect of redefining the default unit of subtance for the
// whole model.
//---------------------------------------------------------------------------
unitdef = model.createUnitDefinition();
unitdef.setId("substance");
// Creates an Unit inside the UnitDefinition object
unit = unitdef.createUnit();
unit.setKind(libsbml.UNIT_KIND_MOLE);
unit.setScale(-3);
//--------------------------------------------------------------------------------
// (UnitDefinition2) Creates an UnitDefinition object ("mmls")
//--------------------------------------------------------------------------------
// Note that we can reuse the pointers 'unitdef' and 'unit' because the
// actual UnitDefinition object (along with the Unit objects within it)
// is already attached to the Model object.
unitdef = model.createUnitDefinition();
unitdef.setId("mmls");
// Creates an Unit inside the UnitDefinition object ("mmls")
unit = unitdef.createUnit();
unit.setKind(libsbml.UNIT_KIND_MOLE);
unit.setScale(-3);
// Creates an Unit inside the UnitDefinition object ("mmls")
unit = unitdef.createUnit();
unit.setKind(libsbml.UNIT_KIND_LITRE);
unit.setExponent(-1);
// Creates an Unit inside the UnitDefinition object ("mmls")
unit = unitdef.createUnit();
unit.setKind(libsbml.UNIT_KIND_SECOND);
unit.setExponent(-1);
//--------------------------------------------------------------------------------
// (UnitDefinition3) Creates an UnitDefinition object ("mml")
//--------------------------------------------------------------------------------
unitdef = model.createUnitDefinition();
unitdef.setId("mml");
// Creates an Unit inside the UnitDefinition object ("mml")
unit = unitdef.createUnit();
unit.setKind(libsbml.UNIT_KIND_MOLE);
unit.setScale(-3);
// Creates an Unit inside the UnitDefinition object ("mml")
unit = unitdef.createUnit();
unit.setKind(libsbml.UNIT_KIND_LITRE);
unit.setExponent(-1);
//---------------------------------------------------------------------------
//
// Creates a Compartment object inside the Model object.
//
//---------------------------------------------------------------------------
Compartment comp;
string compName = "cell";
// Creates a Compartment object ("cell")
comp = model.createCompartment();
comp.setId(compName);
// Sets the "size" attribute of the Compartment object.
//
// The units of this Compartment object is the default SBML
// units of volume (litre), and thus we don't have to explicitly invoke
// setUnits("litre") function to set the default units.
//
comp.setSize(1);
//---------------------------------------------------------------------------
//
// Creates Species objects inside the Model object.
//
//---------------------------------------------------------------------------
// Temporary pointer (reused more than once below).
Species sp;
//---------------------------------------------------------------------------
// (Species1) Creates a Species object ("x0")
//---------------------------------------------------------------------------
sp = model.createSpecies();
sp.setId("x0");
// Sets the "compartment" attribute of the Species object to identify the
// compartnet in which the Species object located.
sp.setCompartment(compName);
// Sets the "initialConcentration" attribute of the Species object.
//
// The units of this Species object is determined by two attributes of this
// Species object ("substanceUnits" and "hasOnlySubstanceUnits") and the
// "spatialDimensions" attribute of the Compartment object ("cytosol") in which
// this species object is located.
// Since the default values are used for "substanceUnits" (substance (mole))
// and "hasOnlySubstanceUnits" (false) and the value of "spatialDimension" (3)
// is greater than 0, the units of this Species object is moles/liters .
//
sp.setInitialConcentration(1);
//---------------------------------------------------------------------------
// (Species2) Creates a Species object ("x1")
//---------------------------------------------------------------------------
sp = model.createSpecies();
sp.setId("x1");
sp.setCompartment(compName);
sp.setInitialConcentration(1);
//---------------------------------------------------------------------------
// (Species3) Creates a Species object ("s1")
//---------------------------------------------------------------------------
sp = model.createSpecies();
sp.setCompartment(compName);
sp.setId("s1");
sp.setInitialConcentration(1);
//---------------------------------------------------------------------------
// (Species4) Creates a Species object ("s2")
//---------------------------------------------------------------------------
sp = model.createSpecies();
sp.setCompartment(compName);
sp.setId("s2");
sp.setInitialConcentration(1);
//---------------------------------------------------------------------------
//
// Creates global Parameter objects inside the Model object.
//
//---------------------------------------------------------------------------
Parameter para;
// Creates a Parameter ("vm")
para = model.createParameter();
para.setId("vm");
para.setValue(2);
para.setUnits("mmls");
// Creates a Parameter ("km")
para = model.createParameter();
para.setId("km");
para.setValue(2);
para.setUnits("mml");
//---------------------------------------------------------------------------
//
// Creates Reaction objects inside the Model object.
//
//---------------------------------------------------------------------------
// Temporary pointers.
Reaction reaction;
SpeciesReference spr;
KineticLaw kl;
//---------------------------------------------------------------------------
// (Reaction1) Creates a Reaction object ("v1").
//---------------------------------------------------------------------------
reaction = model.createReaction();
reaction.setId("v1");
//---------------------------------------------------------------------------
// Creates Reactant objects inside the Reaction object ("v1").
//---------------------------------------------------------------------------
// (Reactant1) Creates a Reactant object that references Species "x0"
// in the model.
spr = reaction.createReactant();
spr.setSpecies("x0");
//---------------------------------------------------------------------------
// Creates a Product object inside the Reaction object ("v1").
//---------------------------------------------------------------------------
// Creates a Product object that references Species "s1" in the model.
spr = reaction.createProduct();
spr.setSpecies("s1");
//---------------------------------------------------------------------------
// Creates a KineticLaw object inside the Reaction object ("v1").
//---------------------------------------------------------------------------
kl = reaction.createKineticLaw();
// Creates a <notes> element in the KineticLaw object.
// Here we illustrate how to do it using a literal string. This requires
// known the required syntax of XHTML and the requirements for SBML <notes>
// elements. Later below, we show how to create notes using objects instead
// of strings.
string notesString = "<xhtml:p> ((vm * s1)/(km + s1)) * cell </xhtml:p>";
kl.setNotes(notesString);
//---------------------------------------------------------------------------
// Creates an ASTNode object which represents the following KineticLaw object.
//
// <math xmlns=\"http://www.w3.org/1998/Math/MathML\">
// <apply>
// <times/>
// <apply>
// <divide/>
// <apply>
// <times/>
// <ci> vm </ci>
// <ci> s1 </ci>
// </apply>
// <apply>
// <plus/>
// <ci> km </ci>
// <ci> s1 </ci>
// </apply>
// </apply>
// <ci> cell </ci>
// </apply>
// </math>
//---------------------------------------------------------------------------
//
// In the following code, ASTNode objects, which construct an ASTNode tree
// of the above math, are created and added in the order of preorder traversal
// of the tree (i.e. the order corresponds to the nested structure of the above
// MathML elements), and thus the following code maybe a bit more efficient but
// maybe a bit difficult to read.
//
ASTNode astMath = new ASTNode(libsbml.AST_TIMES);
astMath.addChild(new ASTNode(libsbml.AST_DIVIDE));
ASTNode astDivide = astMath.getLeftChild();
astDivide.addChild(new ASTNode(libsbml.AST_TIMES));
ASTNode astTimes = astDivide.getLeftChild();
astTimes.addChild(new ASTNode(libsbml.AST_NAME));
astTimes.getLeftChild().setName("vm");
astTimes.addChild(new ASTNode(libsbml.AST_NAME));
astTimes.getRightChild().setName("s1");
astDivide.addChild(new ASTNode(libsbml.AST_PLUS));
ASTNode astPlus = astDivide.getRightChild();
astPlus.addChild(new ASTNode(libsbml.AST_NAME));
astPlus.getLeftChild().setName("km");
astPlus.addChild(new ASTNode(libsbml.AST_NAME));
astPlus.getRightChild().setName("s1");
astMath.addChild(new ASTNode(libsbml.AST_NAME));
astMath.getRightChild().setName("cell");
//---------------------------------------------
//
// set the Math element
//
//------------------------------------------------
kl.setMath(astMath);
//---------------------------------------------------------------------------
// (Reaction2) Creates a Reaction object ("v2").
//---------------------------------------------------------------------------
reaction = model.createReaction();
reaction.setId("v2");
//---------------------------------------------------------------------------
// Creates Reactant objects inside the Reaction object ("v2").
//---------------------------------------------------------------------------
// (Reactant2) Creates a Reactant object that references Species "s1"
// in the model.
spr = reaction.createReactant();
spr.setSpecies("s1");
//---------------------------------------------------------------------------
// Creates a Product object inside the Reaction object ("v2").
//---------------------------------------------------------------------------
// Creates a Product object that references Species "s2" in the model.
spr = reaction.createProduct();
spr.setSpecies("s2");
//---------------------------------------------------------------------------
// Creates a KineticLaw object inside the Reaction object ("v2").
//---------------------------------------------------------------------------
kl = reaction.createKineticLaw();
// Sets a notes (by XMLNode) to the KineticLaw object.
//
// The following code is an alternative to using setNotes(const string&).
// The equivalent code would be like this:
//
// notesString = "<xhtml:p>((vm * s2)/(km + s2))*cell</xhtml:p>";
// kl.setNotes(notesString);
// Creates an XMLNode of start element (<xhtml:p>) without attributes.
XMLNode notesXMLNode = new XMLNode(
new XMLTriple("p", "", "xhtml"),
new XMLAttributes());
// Adds a text element to the start element.
notesXMLNode.addChild(new XMLNode(" ((vm * s2)/(km + s2)) * cell "));
// Adds it to the kineticLaw object.
kl.setNotes(notesXMLNode);
//---------------------------------------------------------------------------
// Sets a math (ASTNode object) to the KineticLaw object.
//---------------------------------------------------------------------------
// To create mathematical expressions, one would typically construct
// an ASTNode tree as the above example code which creates a math of another
// KineticLaw object. Here, to save some space and illustrate another approach
// of doing it, we will write out the formula in MathML form and then use a
// libSBML convenience function to create the ASTNode tree for us.
// (This is a bit dangerous; it's very easy to make mistakes when writing MathML
// by hand, so in a real program, we would not really want to do it this way.)
string mathXMLString = "<math xmlns=\"http://www.w3.org/1998/Math/MathML\">"
+ " <apply>"
+ " <times/>"
+ " <apply>"
+ " <divide/>"
+ " <apply>"
+ " <times/>"
+ " <ci> vm </ci>"
+ " <ci> s2 </ci>"
+ " </apply>"
+ " <apply>"
+ " <plus/>"
+ " <ci> km </ci>"
+ " <ci> s2 </ci>"
+ " </apply>"
+ " </apply>"
+ " <ci> cell </ci>"
+ " </apply>"
+ "</math>";
astMath = libsbml.readMathMLFromString(mathXMLString);
kl.setMath(astMath);
//---------------------------------------------------------------------------
// (Reaction3) Creates a Reaction object ("v3").
//---------------------------------------------------------------------------
reaction = model.createReaction();
reaction.setId("v3");
//---------------------------------------------------------------------------
// Creates Reactant objects inside the Reaction object ("v3").
//---------------------------------------------------------------------------
// (Reactant2) Creates a Reactant object that references Species "s2"
// in the model.
spr = reaction.createReactant();
spr.setSpecies("s2");
//---------------------------------------------------------------------------
// Creates a Product object inside the Reaction object ("v3").
//---------------------------------------------------------------------------
// Creates a Product object that references Species "x1" in the model.
spr = reaction.createProduct();
spr.setSpecies("x1");
//---------------------------------------------------------------------------
// Creates a KineticLaw object inside the Reaction object ("v3").
//---------------------------------------------------------------------------
kl = reaction.createKineticLaw();
// Sets a notes (by string) to the KineticLaw object.
notesString = "<xhtml:p> ((vm * x1)/(km + x1)) * cell </xhtml:p>";
kl.setNotes(notesString);
//---------------------------------------------------------------------------
// Sets a math (ASTNode object) to the KineticLaw object.
//---------------------------------------------------------------------------
mathXMLString = "<math xmlns=\"http://www.w3.org/1998/Math/MathML\">"
+ " <apply>"
+ " <times/>"
+ " <apply>"
+ " <divide/>"
+ " <apply>"
+ " <times/>"
+ " <ci> vm </ci>"
+ " <ci> x1 </ci>"
+ " </apply>"
+ " <apply>"
+ " <plus/>"
+ " <ci> km </ci>"
+ " <ci> x1 </ci>"
+ " </apply>"
+ " </apply>"
+ " <ci> cell </ci>"
+ " </apply>"
+ "</math>";
astMath = libsbml.readMathMLFromString(mathXMLString);
kl.setMath(astMath);
// Returns the created SBMLDocument object.
// The returned object must be explicitly deleted by the caller,
// otherwise memory leak will happen.
return sbmlDoc;
}
public void test_element_bug_csymbol_1()
{
string s = wrapMathML("<apply>" +
" <gt/>" +
" <csymbol encoding='text' " +
" definitionURL='http://www.sbml.org/sbml/symbols/time'>time</csymbol>" +
" <cn>5000</cn>" +
"</apply>");
N = libsbml.readMathMLFromString(s);
assertTrue( N != null );
assertTrue( N.getType() == libsbml.AST_RELATIONAL_GT );
assertTrue( N.getNumChildren() == 2 );
ASTNode c = N.getLeftChild();
assertTrue( c != null );
assertTrue( c.getType() == libsbml.AST_NAME_TIME );
assertTrue(( "time" == c.getName() ));
assertTrue( c.getNumChildren() == 0 );
c = N.getRightChild();
assertTrue( c != null );
assertTrue( c.getType() == libsbml.AST_REAL );
assertTrue( c.getReal() == 5000 );
assertTrue( c.getNumChildren() == 0 );
}
public void test_element_bug_csymbol_delay_1()
{
string s = wrapMathML("<apply>" +
" <csymbol encoding='text' definitionURL='http://www.sbml.org/sbml/" +
"symbols/delay'> my_delay </csymbol>" +
" <ci> x </ci>" +
" <cn> 0.1 </cn>" +
"</apply>\n");
N = libsbml.readMathMLFromString(s);
assertTrue( N != null );
assertTrue( N.getType() == libsbml.AST_FUNCTION_DELAY );
assertTrue(( "my_delay" == N.getName() ));
assertTrue( N.getNumChildren() == 2 );
ASTNode c = N.getLeftChild();
assertTrue( c != null );
assertTrue( c.getType() == libsbml.AST_NAME );
assertTrue(( "x" == c.getName() ));
assertTrue( c.getNumChildren() == 0 );
c = N.getRightChild();
assertTrue( c != null );
assertTrue( c.getType() == libsbml.AST_REAL );
assertTrue( c.getReal() == 0.1 );
assertTrue( c.getNumChildren() == 0 );
}
public void test_element_bug_apply_ci_1()
{
string s = wrapMathML("<apply>" +
" <ci> Y </ci>" +
" <cn> 1 </cn>" +
"</apply>");
N = libsbml.readMathMLFromString(s);
assertTrue( N != null );
assertTrue( N.getType() == libsbml.AST_FUNCTION );
assertTrue(( "Y" == N.getName() ));
assertTrue( N.getNumChildren() == 1 );
ASTNode c = N.getLeftChild();
assertTrue( c != null );
assertTrue( c.getType() == libsbml.AST_REAL );
assertTrue( c.getReal() == 1 );
assertTrue( c.getNumChildren() == 0 );
}
public void test_element_bug_apply_ci_2()
{
string s = wrapMathML("<apply>" +
" <ci> Y </ci>" +
" <csymbol encoding='text' " +
" definitionURL='http://www.sbml.org/sbml/symbols/time'> t </csymbol>" +
"</apply>");
N = libsbml.readMathMLFromString(s);
assertTrue( N != null );
assertTrue( N.getType() == libsbml.AST_FUNCTION );
assertTrue(( "Y" == N.getName() ));
assertTrue( N.getNumChildren() == 1 );
ASTNode c = N.getLeftChild();
assertTrue( c != null );
assertTrue( c.getType() == libsbml.AST_NAME_TIME );
assertTrue(( "t" == c.getName() ));
assertTrue( c.getNumChildren() == 0 );
}
public void test_ASTNode_one_child()
{
ASTNode node = new ASTNode();
ASTNode child = new ASTNode();
node.addChild(child);
assertTrue( node.getNumChildren() == 1 );
assertTrue( node.getLeftChild() == child );
assertTrue( node.getRightChild() == null );
assertTrue( node.getChild(0) == child );
assertTrue( node.getChild(1) == null );
node = null;
}
public void test_ASTNode_no_children()
{
ASTNode node = new ASTNode();
assertTrue( node.getNumChildren() == 0 );
assertTrue( node.getLeftChild() == null );
assertTrue( node.getRightChild() == null );
assertTrue( node.getChild(0) == null );
node = null;
}
public void test_ASTNode_deepCopy_1()
{
ASTNode node = new ASTNode();
ASTNode child, copy;
node.setCharacter( '+');
node.addChild(new ASTNode());
node.addChild(new ASTNode());
node.getLeftChild().setValue(1);
node.getRightChild().setValue(2);
assertTrue( node.getType() == libsbml.AST_PLUS );
assertTrue( node.getCharacter() == '+' );
assertTrue( node.getNumChildren() == 2 );
child = node.getLeftChild();
assertTrue( child.getType() == libsbml.AST_INTEGER );
assertTrue( child.getInteger() == 1 );
assertTrue( child.getNumChildren() == 0 );
child = node.getRightChild();
assertTrue( child.getType() == libsbml.AST_INTEGER );
assertTrue( child.getInteger() == 2 );
assertTrue( child.getNumChildren() == 0 );
copy = node.deepCopy();
assertTrue( copy != node );
assertTrue( copy.getType() == libsbml.AST_PLUS );
assertTrue( copy.getCharacter() == '+' );
assertTrue( copy.getNumChildren() == 2 );
child = copy.getLeftChild();
assertTrue( child != node.getLeftChild() );
assertTrue( child.getType() == libsbml.AST_INTEGER );
assertTrue( child.getInteger() == 1 );
assertTrue( child.getNumChildren() == 0 );
child = copy.getRightChild();
assertTrue( child != node.getRightChild() );
assertTrue( child.getType() == libsbml.AST_INTEGER );
assertTrue( child.getInteger() == 2 );
assertTrue( child.getNumChildren() == 0 );
node = null;
copy = null;
}
public void test_ASTNode_children()
{
ASTNode parent = new ASTNode();
ASTNode left = new ASTNode();
ASTNode right = new ASTNode();
ASTNode right2 = new ASTNode();
parent.setType(libsbml.AST_PLUS);
left.setValue(1);
right.setValue(2);
right2.setValue(3);
parent.addChild(left);
parent.addChild(right);
assertTrue( parent.getNumChildren() == 2 );
assertTrue( left.getNumChildren() == 0 );
assertTrue( right.getNumChildren() == 0 );
assertTrue( parent.getLeftChild() == left );
assertTrue( parent.getRightChild() == right );
assertTrue( parent.getChild(0) == left );
assertTrue( parent.getChild(1) == right );
assertTrue( parent.getChild(2) == null );
parent.addChild(right2);
assertTrue( parent.getNumChildren() == 3 );
assertTrue( left.getNumChildren() == 0 );
assertTrue( right.getNumChildren() == 0 );
assertTrue( right2.getNumChildren() == 0 );
assertTrue( parent.getLeftChild() == left );
assertTrue( parent.getRightChild() == right2 );
assertTrue( parent.getChild(0) == left );
assertTrue( parent.getChild(1) == right );
assertTrue( parent.getChild(2) == right2 );
assertTrue( parent.getChild(3) == null );
parent = null;
}
public void test_ASTNode_canonicalizeFunctionsL1()
{
ASTNode n = new ASTNode(libsbml.AST_FUNCTION);
ASTNode c;
n.setName( "acos");
assertTrue( n.getType() == libsbml.AST_FUNCTION );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_ARCCOS );
n.setType(libsbml.AST_FUNCTION);
n.setName( "asin");
assertTrue( n.getType() == libsbml.AST_FUNCTION );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_ARCSIN );
n.setType(libsbml.AST_FUNCTION);
n.setName( "atan");
assertTrue( n.getType() == libsbml.AST_FUNCTION );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_ARCTAN );
n.setType(libsbml.AST_FUNCTION);
n.setName( "ceil");
assertTrue( n.getType() == libsbml.AST_FUNCTION );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_CEILING );
n.setType(libsbml.AST_FUNCTION);
n.setName( "pow");
assertTrue( n.getType() == libsbml.AST_FUNCTION );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_POWER );
n = null;
n = new ASTNode(libsbml.AST_FUNCTION);
n.setName( "log");
c = new ASTNode();
c.setName( "x");
n.addChild(c);
assertTrue( n.getType() == libsbml.AST_FUNCTION );
assertTrue( n.getNumChildren() == 1 );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_LN );
assertTrue( n.getNumChildren() == 1 );
n.setType(libsbml.AST_FUNCTION);
c = new ASTNode();
c.setName( "y");
n.addChild(c);
assertTrue( n.getType() == libsbml.AST_FUNCTION );
assertTrue( n.getNumChildren() == 2 );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_LOG );
n = null;
n = new ASTNode(libsbml.AST_FUNCTION);
n.setName( "log10");
c = new ASTNode();
c.setName( "x");
n.addChild(c);
assertTrue( n.getType() == libsbml.AST_FUNCTION );
assertTrue( n.getNumChildren() == 1 );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_LOG );
assertTrue( n.getNumChildren() == 2 );
c = n.getLeftChild();
assertTrue( c.getType() == libsbml.AST_INTEGER );
assertTrue( c.getInteger() == 10 );
c = n.getRightChild();
assertTrue( c.getType() == libsbml.AST_NAME );
assertTrue(( "x" == c.getName() ));
n = null;
n = new ASTNode(libsbml.AST_FUNCTION);
n.setName( "sqr");
c = new ASTNode();
c.setName( "x");
n.addChild(c);
assertTrue( n.getType() == libsbml.AST_FUNCTION );
assertTrue( n.getNumChildren() == 1 );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_POWER );
assertTrue( n.getNumChildren() == 2 );
c = n.getLeftChild();
assertTrue( c.getType() == libsbml.AST_NAME );
assertTrue(( "x" == c.getName() ));
c = n.getRightChild();
assertTrue( c.getType() == libsbml.AST_INTEGER );
assertTrue( c.getInteger() == 2 );
n = null;
n = new ASTNode(libsbml.AST_FUNCTION);
n.setName( "sqrt");
c = new ASTNode();
c.setName( "x");
n.addChild(c);
assertTrue( n.getType() == libsbml.AST_FUNCTION );
assertTrue( n.getNumChildren() == 1 );
n.canonicalize();
assertTrue( n.getType() == libsbml.AST_FUNCTION_ROOT );
assertTrue( n.getNumChildren() == 2 );
c = n.getLeftChild();
assertTrue( c.getType() == libsbml.AST_INTEGER );
assertTrue( c.getInteger() == 2 );
c = n.getRightChild();
assertTrue( c.getType() == libsbml.AST_NAME );
assertTrue(( "x" == c.getName() ));
n = null;
}
