use super::Operation;
use crate::{CPUControlFlags, DriverError, TxDatagram};
#[derive(Default)]
pub struct ConfigSilencer {
sent: bool,
step: u16,
}
impl ConfigSilencer {
pub fn new(step: u16) -> Self {
Self { sent: false, step }
}
}
impl Operation for ConfigSilencer {
fn pack(&mut self, tx: &mut TxDatagram) -> Result<(), DriverError> {
if self.is_finished() {
return Ok(());
}
tx.header_mut().cpu_flag.remove(CPUControlFlags::MOD);
tx.header_mut()
.cpu_flag
.remove(CPUControlFlags::CONFIG_SYNC);
tx.header_mut()
.cpu_flag
.set(CPUControlFlags::CONFIG_SILENCER, true);
tx.header_mut().silencer_mut().step = self.step;
self.sent = true;
Ok(())
}
fn init(&mut self) {
self.sent = false;
}
fn is_finished(&self) -> bool {
self.sent
}
}
#[cfg(test)]
mod test {
use super::*;
const NUM_TRANS_IN_UNIT: usize = 249;
#[test]
fn clear() {
let mut tx = TxDatagram::new(&[
NUM_TRANS_IN_UNIT,
NUM_TRANS_IN_UNIT,
NUM_TRANS_IN_UNIT,
NUM_TRANS_IN_UNIT,
NUM_TRANS_IN_UNIT,
NUM_TRANS_IN_UNIT,
NUM_TRANS_IN_UNIT,
NUM_TRANS_IN_UNIT,
NUM_TRANS_IN_UNIT,
NUM_TRANS_IN_UNIT,
]);
let mut op = ConfigSilencer::new(4);
op.init();
assert!(!op.is_finished());
op.pack(&mut tx).unwrap();
assert!(op.is_finished());
assert!(!tx.header().cpu_flag.contains(CPUControlFlags::MOD));
assert!(!tx.header().cpu_flag.contains(CPUControlFlags::CONFIG_EN_N));
assert!(!tx.header().cpu_flag.contains(CPUControlFlags::CONFIG_SYNC));
assert!(tx
.header()
.cpu_flag
.contains(CPUControlFlags::CONFIG_SILENCER));
assert_eq!(tx.header().silencer().step, 4);
op.init();
assert!(!op.is_finished());
}
}