// $ANTLR start "stringLiteral" // C:\\Users\\Steve\\Documents\\NHibernate\\nhibernate\\src\\NHibernate\\Hql\\Ast\\ANTLR\\HqlSqlWalker.g:432:1: stringLiteral : QUOTED_String ; public HqlSqlWalker.stringLiteral_return stringLiteral() // throws RecognitionException [1] { HqlSqlWalker.stringLiteral_return retval = new HqlSqlWalker.stringLiteral_return(); retval.Start = input.LT(1); IASTNode root_0 = null; IASTNode _first_0 = null; IASTNode _last = null; IASTNode QUOTED_String198 = null; IASTNode QUOTED_String198_tree=null; try { // C:\\Users\\Steve\\Documents\\NHibernate\\nhibernate\\src\\NHibernate\\Hql\\Ast\\ANTLR\\HqlSqlWalker.g:433:2: ( QUOTED_String ) // C:\\Users\\Steve\\Documents\\NHibernate\\nhibernate\\src\\NHibernate\\Hql\\Ast\\ANTLR\\HqlSqlWalker.g:433:4: QUOTED_String { root_0 = (IASTNode)adaptor.GetNilNode(); _last = (IASTNode)input.LT(1); QUOTED_String198=(IASTNode)Match(input,QUOTED_String,FOLLOW_QUOTED_String_in_stringLiteral2250); QUOTED_String198_tree = (IASTNode)adaptor.DupNode(QUOTED_String198); adaptor.AddChild(root_0, QUOTED_String198_tree); } retval.Tree = (IASTNode)adaptor.RulePostProcessing(root_0); } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return retval; }
// $ANTLR start "stringLiteral" // /Users/Steve/Projects/NHibernate/Branches/2.1.x/nhibernate/src/NHibernate/Hql/Ast/ANTLR/HqlSqlWalker.g:423:1: stringLiteral : QUOTED_String ; public HqlSqlWalker.stringLiteral_return stringLiteral() // throws RecognitionException [1] { HqlSqlWalker.stringLiteral_return retval = new HqlSqlWalker.stringLiteral_return(); retval.Start = input.LT(1); IASTNode root_0 = null; IASTNode _first_0 = null; IASTNode _last = null; IASTNode QUOTED_String197 = null; IASTNode QUOTED_String197_tree=null; try { // /Users/Steve/Projects/NHibernate/Branches/2.1.x/nhibernate/src/NHibernate/Hql/Ast/ANTLR/HqlSqlWalker.g:424:2: ( QUOTED_String ) // /Users/Steve/Projects/NHibernate/Branches/2.1.x/nhibernate/src/NHibernate/Hql/Ast/ANTLR/HqlSqlWalker.g:424:4: QUOTED_String { root_0 = (IASTNode)adaptor.GetNilNode(); _last = (IASTNode)input.LT(1); QUOTED_String197=(IASTNode)Match(input,QUOTED_String,FOLLOW_QUOTED_String_in_stringLiteral2206); QUOTED_String197_tree = (IASTNode)adaptor.DupNode(QUOTED_String197); adaptor.AddChild(root_0, QUOTED_String197_tree); } retval.Tree = (IASTNode)adaptor.RulePostProcessing(root_0); } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return retval; }
// $ANTLR start "stringLiteral" // HqlSqlWalker.g:448:1: stringLiteral : QUOTED_String ; public HqlSqlWalker.stringLiteral_return stringLiteral() // throws RecognitionException [1] { HqlSqlWalker.stringLiteral_return retval = new HqlSqlWalker.stringLiteral_return(); retval.Start = input.LT(1); IASTNode root_0 = null; IASTNode _first_0 = null; IASTNode _last = null; IASTNode QUOTED_String203 = null; IASTNode QUOTED_String203_tree=null; try { // HqlSqlWalker.g:449:2: ( QUOTED_String ) // HqlSqlWalker.g:449:4: QUOTED_String { root_0 = (IASTNode)adaptor.GetNilNode(); _last = (IASTNode)input.LT(1); QUOTED_String203=(IASTNode)Match(input,QUOTED_String,FOLLOW_QUOTED_String_in_stringLiteral2331); QUOTED_String203_tree = (IASTNode)adaptor.DupNode(QUOTED_String203); adaptor.AddChild(root_0, QUOTED_String203_tree); } retval.Tree = (IASTNode)adaptor.RulePostProcessing(root_0); } catch (RecognitionException re) { ReportError(re); Recover(input,re); } finally { } return retval; }