public Object applyOnce(Object t, fptr whichRule) { if ( t==null ) return null; try { // share TreeParser object but not parsing-related state state = new RecognizerSharedState(); input = new CommonTreeNodeStream(originalAdaptor, t); ((CommonTreeNodeStream)input).setTokenStream(originalTokenStream); setBacktrackingLevel(1); TreeRuleReturnScope r = (TreeRuleReturnScope)whichRule.rule(); setBacktrackingLevel(0); if ( failed() ) return t; if ( showTransformations && r!=null && !t.equals(r.getTree()) && r.getTree()!=null ) { reportTransformation(t, r.getTree()); } if ( r!=null && r.getTree()!=null ) return r.getTree(); else return t; } catch (RecognitionException e) { ; } return t; }
public Object applyOnce(Object t, fptr whichRule) { if ( t==null ) return null; try { // share TreeParser object but not parsing-related state state = new RecognizerSharedState(); input = new CommonTreeNodeStream(originalAdaptor, t); ((CommonTreeNodeStream)input).setTokenStream(originalTokenStream); setBacktrackingLevel(1); TreeRuleReturnScope r = (TreeRuleReturnScope)whichRule.rule(); setBacktrackingLevel(0); if ( failed() ) return t; if ( showTransformations && r!=null && !t.equals(r.getTree()) && r.getTree()!=null ) { reportTransformation(t, r.getTree()); } if ( r!=null && r.getTree()!=null ) return r.getTree(); else return t; } catch (RecognitionException e) { ; } return t; }
public Object applyOnce(Object t, fptr whichRule) { if ( t==null ) return null; try { // share TreeParser object but not parsing-related state state = new RecognizerSharedState(); input = new CommonTreeNodeStream(originalAdaptor, t); ((CommonTreeNodeStream)input).setTokenStream(originalTokenStream); setBacktrackingLevel(1); TreeRuleReturnScope r = (TreeRuleReturnScope)whichRule.rule(); setBacktrackingLevel(0); if ( failed() ) return t; if ( showTransformations && r!=null && !t.equals(r.getTree()) && r.getTree()!=null ) { reportTransformation(t, r.getTree()); } if ( r!=null && r.getTree()!=null ) return r.getTree(); else return t; } catch (RecognitionException e) { ; } return t; }
public Object applyOnce(Object t, fptr whichRule) { if ( t==null ) return null; try { // share TreeParser object but not parsing-related state state = new RecognizerSharedState(); input = new CommonTreeNodeStream(originalAdaptor, t); ((CommonTreeNodeStream)input).setTokenStream(originalTokenStream); setBacktrackingLevel(1); TreeRuleReturnScope r = (TreeRuleReturnScope)whichRule.rule(); setBacktrackingLevel(0); if ( failed() ) return t; if ( showTransformations && r!=null && !t.equals(r.getTree()) && r.getTree()!=null ) { reportTransformation(t, r.getTree()); } if ( r!=null && r.getTree()!=null ) return r.getTree(); else return t; } catch (RecognitionException e) { ; } return t; }
public Object applyOnce(Object t, fptr whichRule) { if ( t==null ) return null; try { // share TreeParser object but not parsing-related state state = new RecognizerSharedState(); input = new CommonTreeNodeStream(originalAdaptor, t); ((CommonTreeNodeStream)input).setTokenStream(originalTokenStream); setBacktrackingLevel(1); TreeRuleReturnScope r = (TreeRuleReturnScope)whichRule.rule(); setBacktrackingLevel(0); if ( failed() ) return t; if ( showTransformations && r!=null && !t.equals(r.getTree()) && r.getTree()!=null ) { reportTransformation(t, r.getTree()); } if ( r!=null && r.getTree()!=null ) return r.getTree(); else return t; } catch (RecognitionException e) { ; } return t; }
public Object applyOnce(Object t, fptr whichRule) { if ( t==null ) return null; try { // share TreeParser object but not parsing-related state state = new RecognizerSharedState(); input = new CommonTreeNodeStream(originalAdaptor, t); ((CommonTreeNodeStream)input).setTokenStream(originalTokenStream); setBacktrackingLevel(1); TreeRuleReturnScope r = (TreeRuleReturnScope)whichRule.rule(); setBacktrackingLevel(0); if ( failed() ) return t; if ( showTransformations && r!=null && !t.equals(r.getTree()) && r.getTree()!=null ) { reportTransformation(t, r.getTree()); } if ( r!=null && r.getTree()!=null ) return r.getTree(); else return t; } catch (RecognitionException e) { ; } return t; }
public final CmisQueryWalker.root_return root(QueryObject go, PredicateWalkerBase pw) throws CmisQueryException, RecognitionException { CmisQueryWalker.root_return retval = new CmisQueryWalker.root_return(); retval.start = input.LT(1); CommonTree root_0 = null; CommonTree _first_0 = null; CommonTree _last = null; TreeRuleReturnScope query1 =null; try { // org/apache/chemistry/opencmis/server/support/query/CmisQueryWalker.g:107:72: ( query[go, pw] ) // org/apache/chemistry/opencmis/server/support/query/CmisQueryWalker.g:108:7: query[go, pw] { root_0 = (CommonTree)adaptor.nil(); _last = (CommonTree)input.LT(1); pushFollow(FOLLOW_query_in_root91); query1=query(go, pw); state._fsp--; adaptor.addChild(root_0, query1.getTree()); } retval.tree = (CommonTree)adaptor.rulePostProcessing(root_0); } catch (RecognitionException e) { throw e; } finally { // do for sure before leaving } return retval; } // $ANTLR end "root"
if ( _first_0==null ) _first_0 = (CommonTree)valueExpression183.getTree();
if ( _first_0==null ) _first_0 = (CommonTree)valueExpression188.getTree();
if ( _first_0==null ) _first_0 = (CommonTree)valueExpression189.getTree();
if ( _first_0==null ) _first_0 = (CommonTree)rowValueConstructor182.getTree();
if ( _first_0==null ) _first_0 = (CommonTree)valueExpression190.getTree();
if ( _first_0==null ) _first_0 = (CommonTree)propertyReference354.getTree();
if ( _first_0==null ) _first_0 = (CommonTree)valueExpression399.getTree();
state._fsp--; adaptor.addChild(root_0, table_name21.getTree());
if ( _first_1==null ) _first_1 = (CommonTree)searchCondition91.getTree();
if ( _first_1==null ) _first_1 = (CommonTree)trimOperands305.getTree();
if ( _first_1==null ) _first_1 = (CommonTree)numericValueExpression320.getTree();
if ( _first_1==null ) _first_1 = (CommonTree)persisterSpace74.getTree();