/**
* Tests if a Element <code>element</code> is valid for the <code>FdFixme</code>.
*
* @param element
* @return boolean
*/
public static boolean isMatch(Element element) {
if (!URelaxer.isTargetElement(element, "fixme")) {
return (false);
}
RStack target = new RStack(element);
boolean $match$ = false;
Element child;
if (!URelaxer.hasAttributeHungry(target, "author")) {
return (false);
}
$match$ = true;
if (RString.isMatch(target)) {
$match$ = true;
}
while (true) {
if (FdImg.isMatchHungry(target)) {
$match$ = true;
} else if (FdIcon.isMatchHungry(target)) {
$match$ = true;
} else if (FdLink.isMatchHungry(target)) {
$match$ = true;
} else if (FdJump.isMatchHungry(target)) {
$match$ = true;
} else if (FdFork.isMatchHungry(target)) {
$match$ = true;
} else if (FdAcronym.isMatchHungry(target)) {
$match$ = true;
} else if (FdStrong.isMatchHungry(target)) {
$match$ = true;
} else if (FdEm.isMatchHungry(target)) {
$match$ = true;
} else if (FdCode.isMatchHungry(target)) {
$match$ = true;
} else if (FdSub.isMatchHungry(target)) {
$match$ = true;
} else if (FdSup.isMatchHungry(target)) {
$match$ = true;
} else if (FdBr.isMatchHungry(target)) {
$match$ = true;
} else {
break;
}
}
if (!target.isEmptyElement()) {
return (false);
}
return (true);
}
/**
* Tests if a Element <code>element</code> is valid for the <code>FtHeader</code>.
*
* @param element
* @return boolean
*/
public static boolean isMatch(Element element) {
if (!URelaxer.isTargetElement(element, "header")) {
return (false);
}
RStack target = new RStack(element);
boolean $match$ = false;
Element child;
if (!FtTitle.isMatchHungry(target)) {
return (false);
}
$match$ = true;
if (FtSubtitle.isMatchHungry(target)) {}
if (FtVersion.isMatchHungry(target)) {}
if (FtType.isMatchHungry(target)) {}
if (FtAuthors.isMatchHungry(target)) {}
while (true) {
if (!FtNotice.isMatchHungry(target)) {
break;
}
$match$ = true;
}
if (FtAbstract.isMatchHungry(target)) {}
if (!target.isEmptyElement()) {
return (false);
}
return (true);
}
/**
* Tests if a Element <code>element</code> is valid for the <code>NonExistentAttributeTransition
* </code>.
*
* @param element
* @return boolean
*/
public static boolean isMatch(Element element) {
if (!URelaxer2.isTargetElement(
element,
"http://www.iso_relax.org/xmlns/miaou/binaryTreeAutomaton",
"nonExistentAttributeTransition")) {
return (false);
}
RStack target = new RStack(element);
boolean $match$ = false;
Element child;
if (!target.hasAttributeHungry("target")) {
return (false);
}
$match$ = true;
if (!target.hasAttributeHungry("nameClass")) {
return (false);
}
$match$ = true;
if (!target.hasAttributeHungry("right")) {
return (false);
}
$match$ = true;
if (!target.isEmptyElement()) {
return (false);
}
return (true);
}
/**
* Tests if a Element <code>element</code> is valid for the <code>XmlCenter</code>.
*
* @param element
* @return boolean
*/
public static boolean isMatch(Element element) {
String tagName = element.getTagName();
if (!"center".equals(tagName)) {
return (false);
}
RStack target = new RStack(element);
Element child;
child = target.popElement();
if (child == null) {
return (false);
}
if (!"ra".equals(child.getTagName())) {
return (false);
}
child = target.popElement();
if (child == null) {
return (false);
}
if (!"decl".equals(child.getTagName())) {
return (false);
}
if (!target.isEmptyElement()) {
return (false);
}
return (true);
}
/**
* Tests if a Element <code>element</code> is valid for the <code>MRem</code>.
*
* @param element
* @return boolean
*/
public static boolean isMatch(Element element) {
if (!URelaxer2.isTargetElement(element, "http://www.w3.org/1998/Math/MathML", "rem")) {
return (false);
}
RStack target = new RStack(element);
Element child;
if (!target.isEmptyElement()) {
return (false);
}
return (true);
}
/**
* Tests if elements contained in a Stack <code>stack</code> is valid for the <code>TextTransition
* </code>. This method consumes the stack contents during matching operation. This mehtod is
* supposed to be used internally by the Relaxer system.
*
* @param stack
* @return boolean
*/
public static boolean isMatchHungry(RStack stack) {
Element element = stack.peekElement();
if (element == null) {
return (false);
}
if (isMatch(element)) {
stack.popElement();
return (true);
} else {
return (false);
}
}
/**
* Tests if a Element <code>element</code> is valid for the <code>Direction</code>.
*
* @param element
* @return boolean
*/
public static boolean isMatch(Element element) {
if (!URelaxer2.isTargetElement(
element, "http://www.asahi-net.or.jp/~cs8k-cyu/bulletml", "direction")) {
return (false);
}
RStack target = new RStack(element);
Element child;
if (!target.isEmptyElement()) {
return (false);
}
return (true);
}
/**
* Tests if elements contained in a Stack <code>stack</code> is valid for the <code>TextTransition
* </code>. This mehtod is supposed to be used internally by the Relaxer system.
*
* @param stack
* @return boolean
*/
public static boolean isMatch(RStack stack) {
Element element = stack.peekElement();
if (element == null) {
return (false);
}
return (isMatch(element));
}
/**
* Tests if a Element <code>element</code> is valid for the <code>FtLegal</code>.
*
* @param element
* @return boolean
*/
public static boolean isMatch(Element element) {
if (!URelaxer.isTargetElement(element, "legal")) {
return (false);
}
RStack target = new RStack(element);
boolean $match$ = false;
Element child;
if (RString.isMatch(target)) {
$match$ = true;
}
while (true) {
if (FtImg.isMatchHungry(target)) {
$match$ = true;
} else if (FtLink.isMatchHungry(target)) {
$match$ = true;
} else if (FtJump.isMatchHungry(target)) {
$match$ = true;
} else if (FtAcronym.isMatchHungry(target)) {
$match$ = true;
} else if (FtStrong.isMatchHungry(target)) {
$match$ = true;
} else if (FtCode.isMatchHungry(target)) {
$match$ = true;
} else if (FtSub.isMatchHungry(target)) {
$match$ = true;
} else if (FtSup.isMatchHungry(target)) {
$match$ = true;
} else if (FtEm.isMatchHungry(target)) {
$match$ = true;
} else if (FtBr.isMatchHungry(target)) {
$match$ = true;
} else if (FtIcon.isMatchHungry(target)) {
$match$ = true;
} else if (FtFork.isMatchHungry(target)) {
$match$ = true;
} else {
break;
}
}
if (!target.isEmptyElement()) {
return (false);
}
return (true);
}
/**
* Initializes the <code>XParamList</code> by the Stack <code>stack</code> that contains Elements.
* This constructor is supposed to be used internally by the Relaxer system.
*
* @param stack
*/
public void setup(RStack stack) {
Element element = stack.getContextElement();
IGlyphFactory factory = GlyphFactory.getFactory();
paramListParam_.clear();
while (true) {
if (XParamListParam.isMatch(stack)) {
addParamListParam(factory.createXParamListParam(stack));
} else {
break;
}
}
}
/**
* Tests if a Element <code>element</code> is valid for the <code>FtAuthors</code>.
*
* @param element
* @return boolean
*/
public static boolean isMatch(Element element) {
if (!URelaxer.isTargetElement(element, "authors")) {
return (false);
}
RStack target = new RStack(element);
boolean $match$ = false;
Element child;
if (!FtPerson.isMatchHungry(target)) {
return (false);
}
$match$ = true;
while (true) {
if (!FtPerson.isMatchHungry(target)) {
break;
}
$match$ = true;
}
if (!target.isEmptyElement()) {
return (false);
}
return (true);
}
/**
* Tests if elements contained in a Stack <code>stack</code> is valid for the <code>XParamList
* </code>. This method consumes the stack contents during matching operation. This mehtod is
* supposed to be used internally by the Relaxer system.
*
* @param stack
* @return boolean
*/
public static boolean isMatchHungry(RStack stack) {
RStack target = stack;
boolean $match$ = false;
Element element = stack.peekElement();
IGlyphFactory factory = GlyphFactory.getFactory();
Element child;
while (true) {
if (!XParamListParam.isMatchHungry(target)) {
break;
}
$match$ = true;
}
return ($match$);
}
/**
* Initializes the <code>TextTransition</code> by the Stack <code>stack</code> that contains
* Elements. This constructor is supposed to be used internally by the Relaxer system.
*
* @param stack
*/
public void setup(RStack stack) {
init(stack.popElement());
}
/** @param element */
private void init(Element element) {
RStack stack = new RStack(element);
classValue =
URelaxer2.getAttributePropertyAsString(
element, "http://www.w3.org/1998/Math/MathML", "class");
style =
URelaxer2.getAttributePropertyAsString(
element, "http://www.w3.org/1998/Math/MathML", "style");
id =
URelaxer2.getAttributePropertyAsString(element, "http://www.w3.org/1998/Math/MathML", "id");
other =
URelaxer2.getAttributePropertyAsString(
element, "http://www.w3.org/1998/Math/MathML", "other");
content.clear();
while (!stack.isEmptyElement()) {
if (MCi.isMatch(stack)) {
addContent(new MCi(stack));
} else if (MCn.isMatch(stack)) {
addContent(new MCn(stack));
} else if (MApply.isMatch(stack)) {
addContent(new MApply(stack));
} else if (MReln.isMatch(stack)) {
addContent(new MReln(stack));
} else if (MLambda.isMatch(stack)) {
addContent(new MLambda(stack));
} else if (MCondition.isMatch(stack)) {
addContent(new MCondition(stack));
} else if (MDeclare.isMatch(stack)) {
addContent(new MDeclare(stack));
} else if (MSep.isMatch(stack)) {
addContent(new MSep(stack));
} else if (MSemantics.isMatch(stack)) {
addContent(new MSemantics(stack));
} else if (MAnnotation.isMatch(stack)) {
addContent(new MAnnotation(stack));
} else if (MAnnotationXml.isMatch(stack)) {
addContent(new MAnnotationXml(stack));
} else if (MInterval.isMatch(stack)) {
addContent(new MInterval(stack));
} else if (MList.isMatch(stack)) {
addContent(new MList(stack));
} else if (MMatrix.isMatch(stack)) {
addContent(new MMatrix(stack));
} else if (MMatrixrow.isMatch(stack)) {
addContent(new MMatrixrow(stack));
} else if (MSet.isMatch(stack)) {
addContent(new MSet(stack));
} else if (MVector.isMatch(stack)) {
addContent(new MVector(stack));
} else if (MLowlimit.isMatch(stack)) {
addContent(new MLowlimit(stack));
} else if (MUplimit.isMatch(stack)) {
addContent(new MUplimit(stack));
} else if (MBvar.isMatch(stack)) {
addContent(new MBvar(stack));
} else if (MDegree.isMatch(stack)) {
addContent(new MDegree(stack));
} else if (MLogbase.isMatch(stack)) {
addContent(new MLogbase(stack));
} else if (MInverse.isMatch(stack)) {
addContent(new MInverse(stack));
} else if (MIdent.isMatch(stack)) {
addContent(new MIdent(stack));
} else if (MAbs.isMatch(stack)) {
addContent(new MAbs(stack));
} else if (MConjugate.isMatch(stack)) {
addContent(new MConjugate(stack));
} else if (MExp.isMatch(stack)) {
addContent(new MExp(stack));
} else if (MFactorial.isMatch(stack)) {
addContent(new MFactorial(stack));
} else if (MNot.isMatch(stack)) {
addContent(new MNot(stack));
} else if (MLn.isMatch(stack)) {
addContent(new MLn(stack));
} else if (MSin.isMatch(stack)) {
addContent(new MSin(stack));
} else if (MCos.isMatch(stack)) {
addContent(new MCos(stack));
} else if (MTan.isMatch(stack)) {
addContent(new MTan(stack));
} else if (MSec.isMatch(stack)) {
addContent(new MSec(stack));
} else if (MCsc.isMatch(stack)) {
addContent(new MCsc(stack));
} else if (MCot.isMatch(stack)) {
addContent(new MCot(stack));
} else if (MSinh.isMatch(stack)) {
addContent(new MSinh(stack));
} else if (MCosh.isMatch(stack)) {
addContent(new MCosh(stack));
} else if (MTanh.isMatch(stack)) {
addContent(new MTanh(stack));
} else if (MSech.isMatch(stack)) {
addContent(new MSech(stack));
} else if (MCsch.isMatch(stack)) {
addContent(new MCsch(stack));
} else if (MCoth.isMatch(stack)) {
addContent(new MCoth(stack));
} else if (MArcsin.isMatch(stack)) {
addContent(new MArcsin(stack));
} else if (MArccos.isMatch(stack)) {
addContent(new MArccos(stack));
} else if (MArctan.isMatch(stack)) {
addContent(new MArctan(stack));
} else if (MDeterminant.isMatch(stack)) {
addContent(new MDeterminant(stack));
} else if (MTranspose.isMatch(stack)) {
addContent(new MTranspose(stack));
} else if (MQuotient.isMatch(stack)) {
addContent(new MQuotient(stack));
} else if (MDivide.isMatch(stack)) {
addContent(new MDivide(stack));
} else if (MPower.isMatch(stack)) {
addContent(new MPower(stack));
} else if (MRem.isMatch(stack)) {
addContent(new MRem(stack));
} else if (MImplies.isMatch(stack)) {
addContent(new MImplies(stack));
} else if (MSetdiff.isMatch(stack)) {
addContent(new MSetdiff(stack));
} else if (MFn.isMatch(stack)) {
addContent(new MFn(stack));
} else if (MCompose.isMatch(stack)) {
addContent(new MCompose(stack));
} else if (MPlus.isMatch(stack)) {
addContent(new MPlus(stack));
} else if (MTimes.isMatch(stack)) {
addContent(new MTimes(stack));
} else if (MMax.isMatch(stack)) {
addContent(new MMax(stack));
} else if (MMin.isMatch(stack)) {
addContent(new MMin(stack));
} else if (MGcd.isMatch(stack)) {
addContent(new MGcd(stack));
} else if (MAnd.isMatch(stack)) {
addContent(new MAnd(stack));
} else if (MOr.isMatch(stack)) {
addContent(new MOr(stack));
} else if (MXor.isMatch(stack)) {
addContent(new MXor(stack));
} else if (MUnion.isMatch(stack)) {
addContent(new MUnion(stack));
} else if (MIntersect.isMatch(stack)) {
addContent(new MIntersect(stack));
} else if (MMean.isMatch(stack)) {
addContent(new MMean(stack));
} else if (MSdev.isMatch(stack)) {
addContent(new MSdev(stack));
} else if (MVariance.isMatch(stack)) {
addContent(new MVariance(stack));
} else if (MMedian.isMatch(stack)) {
addContent(new MMedian(stack));
} else if (MMode.isMatch(stack)) {
addContent(new MMode(stack));
} else if (MSelector.isMatch(stack)) {
addContent(new MSelector(stack));
} else if (MRoot.isMatch(stack)) {
addContent(new MRoot(stack));
} else if (MMinus.isMatch(stack)) {
addContent(new MMinus(stack));
} else if (MLog.isMatch(stack)) {
addContent(new MLog(stack));
} else if (MInt.isMatch(stack)) {
addContent(new MInt(stack));
} else if (MDiff.isMatch(stack)) {
addContent(new MDiff(stack));
} else if (MPartialdiff.isMatch(stack)) {
addContent(new MPartialdiff(stack));
} else if (MSum.isMatch(stack)) {
addContent(new MSum(stack));
} else if (MProduct.isMatch(stack)) {
addContent(new MProduct(stack));
} else if (MLimit.isMatch(stack)) {
addContent(new MLimit(stack));
} else if (MMoment.isMatch(stack)) {
addContent(new MMoment(stack));
} else if (MExists.isMatch(stack)) {
addContent(new MExists(stack));
} else if (MForall.isMatch(stack)) {
addContent(new MForall(stack));
} else if (MNeq.isMatch(stack)) {
addContent(new MNeq(stack));
} else if (MIn.isMatch(stack)) {
addContent(new MIn(stack));
} else if (MNotin.isMatch(stack)) {
addContent(new MNotin(stack));
} else if (MNotsubset.isMatch(stack)) {
addContent(new MNotsubset(stack));
} else if (MNotprsubset.isMatch(stack)) {
addContent(new MNotprsubset(stack));
} else if (MTendsto.isMatch(stack)) {
addContent(new MTendsto(stack));
} else if (MEq.isMatch(stack)) {
addContent(new MEq(stack));
} else if (MLeq.isMatch(stack)) {
addContent(new MLeq(stack));
} else if (MLt.isMatch(stack)) {
addContent(new MLt(stack));
} else if (MGeq.isMatch(stack)) {
addContent(new MGeq(stack));
} else if (MGt.isMatch(stack)) {
addContent(new MGt(stack));
} else if (MSubset.isMatch(stack)) {
addContent(new MSubset(stack));
} else if (MPrsubset.isMatch(stack)) {
addContent(new MPrsubset(stack));
} else if (MMi.isMatch(stack)) {
addContent(new MMi(stack));
} else if (MMn.isMatch(stack)) {
addContent(new MMn(stack));
} else if (MMo.isMatch(stack)) {
addContent(new MMo(stack));
} else if (MMtext.isMatch(stack)) {
addContent(new MMtext(stack));
} else if (MMs.isMatch(stack)) {
addContent(new MMs(stack));
} else if (MMspace.isMatch(stack)) {
addContent(new MMspace(stack));
} else if (MMrow.isMatch(stack)) {
addContent(new MMrow(stack));
} else if (MMfrac.isMatch(stack)) {
addContent(new MMfrac(stack));
} else if (MMsqrt.isMatch(stack)) {
addContent(new MMsqrt(stack));
} else if (MMroot.isMatch(stack)) {
addContent(new MMroot(stack));
} else if (MMstyle.isMatch(stack)) {
addContent(new MMstyle(stack));
} else if (MMerror.isMatch(stack)) {
addContent(new MMerror(stack));
} else if (MMpadded.isMatch(stack)) {
addContent(new MMpadded(stack));
} else if (MMphantom.isMatch(stack)) {
addContent(new MMphantom(stack));
} else if (MMfenced.isMatch(stack)) {
addContent(new MMfenced(stack));
} else if (MMsub.isMatch(stack)) {
addContent(new MMsub(stack));
} else if (MMsup.isMatch(stack)) {
addContent(new MMsup(stack));
} else if (MMsubsup.isMatch(stack)) {
addContent(new MMsubsup(stack));
} else if (MMunder.isMatch(stack)) {
addContent(new MMunder(stack));
} else if (MMover.isMatch(stack)) {
addContent(new MMover(stack));
} else if (MMunderover.isMatch(stack)) {
addContent(new MMunderover(stack));
} else if (MMmultiscripts.isMatch(stack)) {
addContent(new MMmultiscripts(stack));
} else if (MMtable.isMatch(stack)) {
addContent(new MMtable(stack));
} else if (MMtr.isMatch(stack)) {
addContent(new MMtr(stack));
} else if (MMtd.isMatch(stack)) {
addContent(new MMtd(stack));
} else if (MMaligngroup.isMatch(stack)) {
addContent(new MMaligngroup(stack));
} else if (MMalignmark.isMatch(stack)) {
addContent(new MMalignmark(stack));
} else if (MMaction.isMatch(stack)) {
addContent(new MMaction(stack));
} else {
break;
}
}
}
/**
* Tests if a Element <code>element</code> is valid for the <code>MSet</code>.
*
* @param element
* @return boolean
*/
public static boolean isMatch(Element element) {
if (!URelaxer2.isTargetElement(element, "http://www.w3.org/1998/Math/MathML", "set")) {
return (false);
}
RStack target = new RStack(element);
Element child;
while (!target.isEmptyElement()) {
if (MCi.isMatchHungry(target)) {
} else if (MCn.isMatchHungry(target)) {
} else if (MApply.isMatchHungry(target)) {
} else if (MReln.isMatchHungry(target)) {
} else if (MLambda.isMatchHungry(target)) {
} else if (MCondition.isMatchHungry(target)) {
} else if (MDeclare.isMatchHungry(target)) {
} else if (MSep.isMatchHungry(target)) {
} else if (MSemantics.isMatchHungry(target)) {
} else if (MAnnotation.isMatchHungry(target)) {
} else if (MAnnotationXml.isMatchHungry(target)) {
} else if (MInterval.isMatchHungry(target)) {
} else if (MList.isMatchHungry(target)) {
} else if (MMatrix.isMatchHungry(target)) {
} else if (MMatrixrow.isMatchHungry(target)) {
} else if (MSet.isMatchHungry(target)) {
} else if (MVector.isMatchHungry(target)) {
} else if (MLowlimit.isMatchHungry(target)) {
} else if (MUplimit.isMatchHungry(target)) {
} else if (MBvar.isMatchHungry(target)) {
} else if (MDegree.isMatchHungry(target)) {
} else if (MLogbase.isMatchHungry(target)) {
} else if (MInverse.isMatchHungry(target)) {
} else if (MIdent.isMatchHungry(target)) {
} else if (MAbs.isMatchHungry(target)) {
} else if (MConjugate.isMatchHungry(target)) {
} else if (MExp.isMatchHungry(target)) {
} else if (MFactorial.isMatchHungry(target)) {
} else if (MNot.isMatchHungry(target)) {
} else if (MLn.isMatchHungry(target)) {
} else if (MSin.isMatchHungry(target)) {
} else if (MCos.isMatchHungry(target)) {
} else if (MTan.isMatchHungry(target)) {
} else if (MSec.isMatchHungry(target)) {
} else if (MCsc.isMatchHungry(target)) {
} else if (MCot.isMatchHungry(target)) {
} else if (MSinh.isMatchHungry(target)) {
} else if (MCosh.isMatchHungry(target)) {
} else if (MTanh.isMatchHungry(target)) {
} else if (MSech.isMatchHungry(target)) {
} else if (MCsch.isMatchHungry(target)) {
} else if (MCoth.isMatchHungry(target)) {
} else if (MArcsin.isMatchHungry(target)) {
} else if (MArccos.isMatchHungry(target)) {
} else if (MArctan.isMatchHungry(target)) {
} else if (MDeterminant.isMatchHungry(target)) {
} else if (MTranspose.isMatchHungry(target)) {
} else if (MQuotient.isMatchHungry(target)) {
} else if (MDivide.isMatchHungry(target)) {
} else if (MPower.isMatchHungry(target)) {
} else if (MRem.isMatchHungry(target)) {
} else if (MImplies.isMatchHungry(target)) {
} else if (MSetdiff.isMatchHungry(target)) {
} else if (MFn.isMatchHungry(target)) {
} else if (MCompose.isMatchHungry(target)) {
} else if (MPlus.isMatchHungry(target)) {
} else if (MTimes.isMatchHungry(target)) {
} else if (MMax.isMatchHungry(target)) {
} else if (MMin.isMatchHungry(target)) {
} else if (MGcd.isMatchHungry(target)) {
} else if (MAnd.isMatchHungry(target)) {
} else if (MOr.isMatchHungry(target)) {
} else if (MXor.isMatchHungry(target)) {
} else if (MUnion.isMatchHungry(target)) {
} else if (MIntersect.isMatchHungry(target)) {
} else if (MMean.isMatchHungry(target)) {
} else if (MSdev.isMatchHungry(target)) {
} else if (MVariance.isMatchHungry(target)) {
} else if (MMedian.isMatchHungry(target)) {
} else if (MMode.isMatchHungry(target)) {
} else if (MSelector.isMatchHungry(target)) {
} else if (MRoot.isMatchHungry(target)) {
} else if (MMinus.isMatchHungry(target)) {
} else if (MLog.isMatchHungry(target)) {
} else if (MInt.isMatchHungry(target)) {
} else if (MDiff.isMatchHungry(target)) {
} else if (MPartialdiff.isMatchHungry(target)) {
} else if (MSum.isMatchHungry(target)) {
} else if (MProduct.isMatchHungry(target)) {
} else if (MLimit.isMatchHungry(target)) {
} else if (MMoment.isMatchHungry(target)) {
} else if (MExists.isMatchHungry(target)) {
} else if (MForall.isMatchHungry(target)) {
} else if (MNeq.isMatchHungry(target)) {
} else if (MIn.isMatchHungry(target)) {
} else if (MNotin.isMatchHungry(target)) {
} else if (MNotsubset.isMatchHungry(target)) {
} else if (MNotprsubset.isMatchHungry(target)) {
} else if (MTendsto.isMatchHungry(target)) {
} else if (MEq.isMatchHungry(target)) {
} else if (MLeq.isMatchHungry(target)) {
} else if (MLt.isMatchHungry(target)) {
} else if (MGeq.isMatchHungry(target)) {
} else if (MGt.isMatchHungry(target)) {
} else if (MSubset.isMatchHungry(target)) {
} else if (MPrsubset.isMatchHungry(target)) {
} else if (MMi.isMatchHungry(target)) {
} else if (MMn.isMatchHungry(target)) {
} else if (MMo.isMatchHungry(target)) {
} else if (MMtext.isMatchHungry(target)) {
} else if (MMs.isMatchHungry(target)) {
} else if (MMspace.isMatchHungry(target)) {
} else if (MMrow.isMatchHungry(target)) {
} else if (MMfrac.isMatchHungry(target)) {
} else if (MMsqrt.isMatchHungry(target)) {
} else if (MMroot.isMatchHungry(target)) {
} else if (MMstyle.isMatchHungry(target)) {
} else if (MMerror.isMatchHungry(target)) {
} else if (MMpadded.isMatchHungry(target)) {
} else if (MMphantom.isMatchHungry(target)) {
} else if (MMfenced.isMatchHungry(target)) {
} else if (MMsub.isMatchHungry(target)) {
} else if (MMsup.isMatchHungry(target)) {
} else if (MMsubsup.isMatchHungry(target)) {
} else if (MMunder.isMatchHungry(target)) {
} else if (MMover.isMatchHungry(target)) {
} else if (MMunderover.isMatchHungry(target)) {
} else if (MMmultiscripts.isMatchHungry(target)) {
} else if (MMtable.isMatchHungry(target)) {
} else if (MMtr.isMatchHungry(target)) {
} else if (MMtd.isMatchHungry(target)) {
} else if (MMaligngroup.isMatchHungry(target)) {
} else if (MMalignmark.isMatchHungry(target)) {
} else if (MMaction.isMatchHungry(target)) {
} else {
break;
}
}
if (!target.isEmptyElement()) {
return (false);
}
return (true);
}
/** @param element */
private void init(Element element) {
IPixyFactory factory = PixyFactory.getFactory();
RStack stack = new RStack(element);
ra = URelaxer.getElementPropertyAsString(stack.popElement());
decl = URelaxer.getElementPropertyAsString(stack.popElement());
}
/**
* Tests if elements contained in a Stack <code>stack</code> is valid for the <code>XParamList
* </code>. This mehtod is supposed to be used internally by the Relaxer system.
*
* @param stack
* @return boolean
*/
public static boolean isMatch(RStack stack) {
return (isMatchHungry(stack.makeClone()));
}
