newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
public final void ruleValidID() throws RecognitionException { int stackSize = keepStackSize(); try { // InternalXtype.g:371:2: ( ( RULE_ID ) ) // InternalXtype.g:372:2: ( RULE_ID ) { // InternalXtype.g:372:2: ( RULE_ID ) // InternalXtype.g:373:3: RULE_ID { if ( state.backtracking==0 ) { before(grammarAccess.getValidIDAccess().getIDTerminalRuleCall()); } match(input,RULE_ID,FOLLOW_2); if (state.failed) return ; if ( state.backtracking==0 ) { after(grammarAccess.getValidIDAccess().getIDTerminalRuleCall()); } } } } catch (RecognitionException re) { reportError(re); recover(input,re); } finally { restoreStackSize(stackSize); } return ; } // $ANTLR end "ruleValidID"
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());
newLeafNode(this_ID_0, grammarAccess.getValidIDAccess().getIDTerminalRuleCall());