com.sun.msv.reader.RunAwayExpressionChecker Maven / Gradle / Ivy
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package com.sun.msv.reader;
import java.util.Set;
import java.util.Stack;
import java.util.Vector;
import org.xml.sax.Locator;
import com.sun.msv.grammar.AttributeExp;
import com.sun.msv.grammar.BinaryExp;
import com.sun.msv.grammar.ChoiceExp;
import com.sun.msv.grammar.ConcurExp;
import com.sun.msv.grammar.DataExp;
import com.sun.msv.grammar.ElementExp;
import com.sun.msv.grammar.Expression;
import com.sun.msv.grammar.ExpressionVisitorVoid;
import com.sun.msv.grammar.InterleaveExp;
import com.sun.msv.grammar.ListExp;
import com.sun.msv.grammar.MixedExp;
import com.sun.msv.grammar.OneOrMoreExp;
import com.sun.msv.grammar.OtherExp;
import com.sun.msv.grammar.ReferenceExp;
import com.sun.msv.grammar.SequenceExp;
import com.sun.msv.grammar.UnaryExp;
import com.sun.msv.grammar.ValueExp;
/**
* makes sure that the expression does not run away.
*
* "run-away" expressions are expressions like this.
*
* <hedgeRule label="foo" />
* <hedgeRef label="foo" />
* </hedgeRule>
*
* Apparently, those expressions cannot be expressed in string regular expression.
* Therefore run-away expressions are prohibited in both RELAX and TREX.
*
* @author Kohsuke KAWAGUCHI
*/
public class RunAwayExpressionChecker implements ExpressionVisitorVoid
{
/** this exception is thrown to abort check when a error is found. */
protected static final RuntimeException eureka = new RuntimeException();
/** set of ElementExps which are already confirmed as being not a run-away exp. */
private final Set testedExps = new java.util.HashSet();
/** Expressions which are used as the content model of current element. */
private Set contentModel = new java.util.HashSet();
/**
* visited Expressions.
* this information is useful for the user to figure out where did they make a mistake.
*/
private Stack refStack = new Stack();
/**
* Queue of unchecked element exps.
*/
private Stack unprocessedElementExps = new Stack();
private final GrammarReader reader;
protected RunAwayExpressionChecker( GrammarReader reader ) { this.reader = reader; }
private void check( Expression exp ) {
try {
exp.visit(this);
while(!unprocessedElementExps.isEmpty()) {
contentModel.clear();
refStack.clear();
ElementExp e = (ElementExp)unprocessedElementExps.pop();
e.contentModel.visit(this);
}
} catch( RuntimeException e ) {
if(e!=eureka) throw e;
}
}
public static void check( GrammarReader reader, Expression exp ) {
new RunAwayExpressionChecker(reader).check(exp);
}
public void onAttribute( AttributeExp exp ) {
enter(exp);
exp.exp.visit(this);
leave();
}
public void onConcur( ConcurExp exp ) { binaryVisit(exp); }
public void onInterleave( InterleaveExp exp ) { binaryVisit(exp); }
public void onSequence( SequenceExp exp ) { binaryVisit(exp); }
public void onChoice( ChoiceExp exp ) { binaryVisit(exp); }
public void onOneOrMore( OneOrMoreExp exp ) { unaryVisit(exp); }
public void onMixed( MixedExp exp ) { unaryVisit(exp); }
public void onList( ListExp exp ) { unaryVisit(exp); }
public void onEpsilon() {}
public void onNullSet() {}
public void onAnyString() {}
public void onData( DataExp exp ) {}
public void onValue( ValueExp exp ) {}
protected final void binaryVisit( BinaryExp exp ) {
// do the tail recursion to avoid StackOverflowError as much as possible
int cnt=0;
while(true) {
enter(exp);
cnt++;
exp.exp2.visit(this);
if( exp.exp1 instanceof BinaryExp )
exp = (BinaryExp)exp.exp1;
else
break;
}
exp.exp1.visit(this);
for( ; cnt>0; cnt-- )
leave();
}
protected final void unaryVisit( UnaryExp exp ) {
enter(exp);
exp.exp.visit(this);
leave();
}
private void enter( Expression exp ) {
if(contentModel.contains(exp)) {
// this indicates that we have reached the same expression object
// without visiting any ElementExp.
// so this one is a run-away expression.
// check stack to find actual sequence of reference.
String s = "";
int i = refStack.indexOf(exp);
int sz = refStack.size();
Vector locs = new Vector();
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