throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae;
throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae; } finally { input.rewind(nvaeMark); throw nvae;
@Override public void rewind() { dbg.rewind(); input.rewind(lastMarker); }
@Override public void rewind(int marker) { dbg.rewind(marker); input.rewind(marker); }
@Override public void rewind() { dbg.rewind(); input.rewind(lastMarker); }
@Override public void rewind() { dbg.rewind(); input.rewind(lastMarker); }
@Override public void rewind(int marker) { dbg.rewind(marker); input.rewind(marker); }
@Override public void rewind(int marker) { dbg.rewind(marker); input.rewind(marker); }
@Override public void rewind(int marker) { dbg.rewind(marker); input.rewind(marker); }
@Override public void rewind() { dbg.rewind(); input.rewind(lastMarker); }
@Override public void rewind(int marker) { dbg.rewind(marker); input.rewind(marker); }
@Override public void rewind() { dbg.rewind(); input.rewind(lastMarker); }
public void rewind(int marker) { dbg.rewind(marker); input.rewind(marker); }
public void rewind() { dbg.rewind(); input.rewind(lastMarker); }
public final boolean synpred3_LeftRecursiveRuleWalker() { state.backtracking++; int start = input.mark(); try { synpred3_LeftRecursiveRuleWalker_fragment(); // can never throw exception } catch (RecognitionException re) { System.err.println("impossible: "+re); } boolean success = !state.failed; input.rewind(start); state.backtracking--; state.failed=false; return success; }
public final boolean synpred3_LeftRecursiveRuleWalker() { state.backtracking++; int start = input.mark(); try { synpred3_LeftRecursiveRuleWalker_fragment(); // can never throw exception } catch (RecognitionException re) { System.err.println("impossible: "+re); } boolean success = !state.failed; input.rewind(start); state.backtracking--; state.failed=false; return success; }
public final boolean synpred5_LeftRecursiveRuleWalker() { state.backtracking++; int start = input.mark(); try { synpred5_LeftRecursiveRuleWalker_fragment(); // can never throw exception } catch (RecognitionException re) { System.err.println("impossible: "+re); } boolean success = !state.failed; input.rewind(start); state.backtracking--; state.failed=false; return success; }
public final boolean synpred1_CodeGenTreeWalker() { state.backtracking++; int start = input.mark(); try { synpred1_CodeGenTreeWalker_fragment(); // can never throw exception } catch (RecognitionException re) { System.err.println("impossible: "+re); } boolean success = !state.failed; input.rewind(start); state.backtracking--; state.failed=false; return success; }
public final boolean synpred1_CodeGenTreeWalker() { state.backtracking++; int start = input.mark(); try { synpred1_CodeGenTreeWalker_fragment(); // can never throw exception } catch (RecognitionException re) { System.err.println("impossible: "+re); } boolean success = !state.failed; input.rewind(start); state.backtracking--; state.failed=false; return success; }
public final boolean synpred3_LeftRecursiveRuleWalker() { state.backtracking++; int start = input.mark(); try { synpred3_LeftRecursiveRuleWalker_fragment(); // can never throw exception } catch (RecognitionException re) { System.err.println("impossible: "+re); } boolean success = !state.failed; input.rewind(start); state.backtracking--; state.failed=false; return success; }