Given Inequality:

$$
\(\left|\frac{-x}{3}+1\right|<2\)
$$


Step 1: Simplify the Inequality

$$
\(\left|-\frac{x}{3}+1\right|=\left|1-\frac{x}{3}\right|\)
$$


So, the inequality becomes:

$$
\(-2<1-\frac{x}{3}<2\)
$$


Step 2: Solve the Compound Inequality
1. Left Part:

$$
\(1-\frac{x}{3}>-2 \Longrightarrow-\frac{x}{3}>-3 \Longrightarrow x<9\)
$$

2. Right Part:

$$
\(1-\frac{x}{3}<2 \Longrightarrow-\frac{x}{3}<1 \Longrightarrow x>-3\)
$$


Final Solution:

$$
\(-3<x<9\)
$$


Step 3: Evaluate Each Option
- A: $\(x>0\)$

False. $x$ can be negative (e.g., $\(x=-1\)$ ).

- B: $\(x<9\)$

- True. Directly from the solution.

- $\(\mathbf{C :} x>-9\)$

- True. Since $\(x>-3\)$, and $\(-3>-9\)$, this is always true.

- D: $\(0<x<3\)$

False. $x$ can be outside this range (e.g., $x=4$ or $x=-1$ ).

Conclusion:
Options B and C must be true.