use super::*;
#[serde_api]
#[derive(Clone, Debug, PartialEq, Serialize, Deserialize, StateMethods, SetCumulative)]
#[non_exhaustive]
#[serde(deny_unknown_fields)]
#[cfg_attr(feature = "pyo3", pyclass(module = "fastsim", subclass, eq))]
pub struct ConventionalVehicle {
pub fs: FuelStorage,
#[has_state]
pub fc: FuelConverter,
#[has_state]
pub transmission: Transmission,
pub(crate) mass: Option<si::Mass>,
pub alt_eff: si::Ratio,
}
#[pyo3_api]
impl ConventionalVehicle {}
impl SerdeAPI for ConventionalVehicle {}
impl Init for ConventionalVehicle {
fn init(&mut self) -> Result<(), Error> {
self.fc
.init()
.map_err(|err| Error::InitError(format_dbg!(err)))?;
self.fs
.init()
.map_err(|err| Error::InitError(format_dbg!(err)))?;
self.transmission
.init()
.map_err(|err| Error::InitError(format_dbg!(err)))?;
Ok(())
}
}
impl HistoryMethods for ConventionalVehicle {
fn save_interval(&self) -> anyhow::Result<Option<usize>> {
bail!("`save_interval` is not implemented in ConventionalVehicle")
}
fn set_save_interval(&mut self, save_interval: Option<usize>) -> anyhow::Result<()> {
self.fc.set_save_interval(save_interval)?;
self.transmission.set_save_interval(save_interval)?;
Ok(())
}
fn clear(&mut self) {
self.fc.clear();
self.transmission.clear();
}
}
impl Powertrain for Box<ConventionalVehicle> {
fn set_curr_pwr_prop_out_max(
&mut self,
_pwr_upstream: (si::Power, si::Power),
pwr_aux: si::Power,
dt: si::Time,
_veh_state: &VehicleState,
) -> anyhow::Result<()> {
self.fc
.set_curr_pwr_out_max(dt)
.with_context(|| anyhow!(format_dbg!()))?;
self.fc
.set_curr_pwr_prop_max(pwr_aux / self.alt_eff)
.with_context(|| anyhow!(format_dbg!()))?;
self.transmission
.set_curr_pwr_prop_out_max(
(
*self.fc.state.pwr_prop_max.get_fresh(|| format_dbg!())?,
si::Power::ZERO,
),
f64::NAN * uc::W,
dt,
_veh_state,
)
.with_context(|| format_dbg!())?;
Ok(())
}
fn get_curr_pwr_prop_out_max(&self) -> anyhow::Result<(si::Power, si::Power)> {
self.transmission
.get_curr_pwr_prop_out_max()
.with_context(|| format_dbg!())
}
fn solve(
&mut self,
pwr_out_req: si::Power,
_enabled: bool,
dt: si::Time,
) -> anyhow::Result<Option<si::Power>> {
ensure!(pwr_out_req >= si::Power::ZERO, format_dbg!());
ensure!(almost_le_uom(
&pwr_out_req,
self.transmission
.state
.pwr_out_fwd_max
.get_fresh(|| format_dbg!())?,
None
));
ensure!(almost_le_uom(
&pwr_out_req,
self.transmission
.state
.pwr_out_fwd_max
.get_fresh(|| format_dbg!())?,
None
));
let enabled = true; let pwr_in_transmission = self
.transmission
.solve(pwr_out_req, true, dt)
.with_context(|| format_dbg!())?
.with_context(|| format!("{}\nExpected `Some`", format_dbg!()))?;
self.fc
.solve(pwr_in_transmission, enabled, dt)
.with_context(|| anyhow!(format_dbg!()))?;
Ok(None)
}
fn pwr_regen(&self) -> anyhow::Result<si::Power> {
Ok(si::Power::ZERO)
}
}
impl ConventionalVehicle {
pub fn solve_thermal(
&mut self,
te_amb: si::Temperature,
pwr_thrml_fc_to_cab: Option<si::Power>,
veh_state: &mut VehicleState,
dt: si::Time,
) -> anyhow::Result<()> {
self.fc
.solve_thermal(te_amb, pwr_thrml_fc_to_cab, veh_state, dt)
}
}
impl TryFrom<&fastsim_2::vehicle::RustVehicle> for ConventionalVehicle {
type Error = anyhow::Error;
fn try_from(f2veh: &fastsim_2::vehicle::RustVehicle) -> anyhow::Result<ConventionalVehicle> {
let conv = ConventionalVehicle {
fs: {
let mut fs = FuelStorage {
pwr_out_max: f2veh.fs_max_kw * uc::KW,
pwr_ramp_lag: f2veh.fs_secs_to_peak_pwr * uc::S,
energy_capacity: f2veh.fs_kwh * uc::KWH,
specific_energy: Some(
super::vehicle_model::FUEL_LHV_MJ_PER_KG * uc::MJ / uc::KG,
),
mass: None,
};
fs.set_mass(None, MassSideEffect::None)
.with_context(|| anyhow!(format_dbg!()))?;
fs
},
fc: FuelConverter::try_from(f2veh.clone())?,
transmission: Transmission::try_from(f2veh.clone())?,
mass: None,
alt_eff: f2veh.alt_eff * uc::R,
};
Ok(conv)
}
}
impl Mass for ConventionalVehicle {
fn mass(&self) -> anyhow::Result<Option<si::Mass>> {
let derived_mass = self
.derived_mass()
.with_context(|| anyhow!(format_dbg!()))?;
match (derived_mass, self.mass) {
(Some(derived_mass), Some(set_mass)) => {
ensure!(
utils::almost_eq_uom(&set_mass, &derived_mass, None),
format!(
"{}",
format_dbg!(utils::almost_eq_uom(&set_mass, &derived_mass, None)),
)
);
Ok(Some(set_mass))
}
_ => Ok(self.mass.or(derived_mass)),
}
}
fn set_mass(
&mut self,
new_mass: Option<si::Mass>,
side_effect: MassSideEffect,
) -> anyhow::Result<()> {
ensure!(
side_effect == MassSideEffect::None,
"At the powertrain level, only `MassSideEffect::None` is allowed"
);
let derived_mass = self
.derived_mass()
.with_context(|| anyhow!(format_dbg!()))?;
self.mass = match new_mass {
Some(new_mass) => {
if let Some(dm) = derived_mass {
if dm != new_mass {
self.expunge_mass_fields();
}
}
Some(new_mass)
}
None => Some(derived_mass.with_context(|| {
format!(
"Not all mass fields in `{}` are set and no mass was provided.",
stringify!(ConventionalVehicle)
)
})?),
};
Ok(())
}
fn derived_mass(&self) -> anyhow::Result<Option<si::Mass>> {
let fc_mass = self.fc.mass().with_context(|| anyhow!(format_dbg!()))?;
let fs_mass = self.fs.mass().with_context(|| anyhow!(format_dbg!()))?;
let transmission_mass = self
.transmission
.mass()
.with_context(|| anyhow!(format_dbg!()))?;
match (fc_mass, fs_mass, transmission_mass) {
(Some(fc_mass), Some(fs_mass), Some(transmission_mass)) => {
Ok(Some(fc_mass + fs_mass + transmission_mass))
}
(None, None, None) => Ok(None),
_ => bail!(
"`{}` field masses are not consistently set to `Some` or `None`",
stringify!(ConventionalVehicle)
),
}
}
fn expunge_mass_fields(&mut self) {
self.fc.expunge_mass_fields();
self.fs.expunge_mass_fields();
self.transmission.expunge_mass_fields();
self.mass = None;
}
}