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use std::path::PathBuf;
use std::str::FromStr;
use std::time::Duration;
use solverforge_maps::{
BoundingBox, Coord, NetworkConfig, NetworkRef, RoadNetwork, RoutingError, UNREACHABLE,
};
use super::bergamo_locations::{DEPOTS, SERVICE_LOCATIONS};
use super::bergamo_profiles::VISIT_PROFILES;
use super::bergamo_technicians::TECHNICIANS;
use crate::domain::{
FieldServicePlan, Location, ServiceVisit, ServiceVisitInit, TechnicianRoute,
TechnicianRouteInit, TravelLeg, TravelLegInit,
};
const BERGAMO_BBOX: BoundingBox = BoundingBox {
min_lat: 45.64,
min_lng: 9.58,
max_lat: 45.75,
max_lng: 9.78,
};
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum DemoData {
Standard,
}
#[derive(Debug)]
pub enum DemoDataError {
Routing(RoutingError),
}
impl fmt::Display for DemoDataError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::Routing(error) => write!(f, "Bergamo OSM routing data is unavailable: {error}"),
}
}
}
impl std::error::Error for DemoDataError {}
impl From<RoutingError> for DemoDataError {
fn from(error: RoutingError) -> Self {
Self::Routing(error)
}
}
const AVAILABLE_DEMO_DATA: &[DemoData] = &[DemoData::Standard];
const DEFAULT_DEMO_DATA: DemoData = DemoData::Standard;
pub fn default_demo_data() -> DemoData {
DEFAULT_DEMO_DATA
}
pub fn available_demo_data() -> &'static [DemoData] {
AVAILABLE_DEMO_DATA
}
impl DemoData {
pub fn id(self) -> &'static str {
match self {
DemoData::Standard => "STANDARD",
}
}
pub fn default_demo_data() -> Self {
default_demo_data()
}
pub fn available_demo_data() -> &'static [Self] {
available_demo_data()
}
fn technician_count(self) -> usize {
match self {
Self::Standard => 6,
}
}
fn visit_count(self) -> usize {
match self {
Self::Standard => SERVICE_LOCATIONS.len() * 2,
}
}
}
impl FromStr for DemoData {
type Err = ();
fn from_str(s: &str) -> Result<Self, Self::Err> {
match s.to_ascii_uppercase().as_str() {
"STANDARD" => Ok(DemoData::Standard),
_ => Err(()),
}
}
}
pub async fn generate(demo: DemoData) -> Result<FieldServicePlan, DemoDataError> {
let locations = build_locations(demo);
let travel_legs = build_seed_travel_legs(locations.len());
let service_visits = build_service_visits(demo);
let technician_routes = build_technician_routes(demo);
Ok(FieldServicePlan::new(
locations,
service_visits,
travel_legs,
technician_routes,
))
}
pub async fn prepare_routing(plan: &mut FieldServicePlan) -> Result<(), DemoDataError> {
let coords = plan
.locations
.iter()
.map(|location| Coord::new(location.lat(), location.lng()))
.collect::<Vec<_>>();
let network = load_network().await?;
let matrix = network.compute_matrix(&coords, None).await;
plan.travel_legs = build_travel_legs(&matrix, coords.len());
Ok(())
}
pub async fn load_network() -> Result<NetworkRef, DemoDataError> {
RoadNetwork::load_or_fetch(&BERGAMO_BBOX, &network_config(), None)
.await
.map_err(DemoDataError::from)
}
pub fn network_config() -> NetworkConfig {
NetworkConfig::default()
.cache_dir(PathBuf::from(".osm_cache/field-service-routing/bergamo"))
.connect_timeout(Duration::from_secs(10))
.read_timeout(Duration::from_secs(30))
.overpass_max_retries(1)
.overpass_retry_backoff(Duration::from_secs(2))
}
fn build_locations(demo: DemoData) -> Vec<Location> {
let service_location_count = demo.visit_count().min(SERVICE_LOCATIONS.len());
DEPOTS
.iter()
.map(|seed| seed.to_location("depot"))
.chain(
SERVICE_LOCATIONS
.iter()
.take(service_location_count)
.map(|seed| seed.to_location("customer")),
)
.collect()
}
fn build_service_visits(demo: DemoData) -> Vec<ServiceVisit> {
(0..demo.visit_count())
.map(|idx| {
let seed = &SERVICE_LOCATIONS[idx % SERVICE_LOCATIONS.len()];
let profile = VISIT_PROFILES[idx % VISIT_PROFILES.len()];
ServiceVisit::new(ServiceVisitInit {
id: format!("visit-{idx:02}"),
name: profile.name.to_string(),
customer: seed.label.to_string(),
location_idx: DEPOTS.len() + (idx % SERVICE_LOCATIONS.len()),
duration_minutes: profile.duration_minutes,
earliest_minute: profile.earliest_minute,
latest_minute: profile.latest_minute,
required_skill_mask: profile.required_skill_mask,
required_parts_mask: profile.required_parts_mask,
priority: profile.priority,
territory: seed.territory.to_string(),
})
})
.collect()
}
fn build_technician_routes(demo: DemoData) -> Vec<TechnicianRoute> {
TECHNICIANS
.iter()
.take(demo.technician_count())
.enumerate()
.map(|(idx, seed)| {
TechnicianRoute::new(TechnicianRouteInit {
id: format!("route-{idx:02}"),
technician_id: seed.id.to_string(),
technician_name: seed.name.to_string(),
color: seed.color.to_string(),
start_location_idx: seed.start_location_idx,
end_location_idx: seed.end_location_idx,
shift_start_minute: 8 * 60,
shift_end_minute: 18 * 60,
max_route_minutes: 10 * 60,
skill_mask: seed.skill_mask,
inventory_mask: seed.inventory_mask,
territory: seed.territory.to_string(),
})
})
.collect()
}
fn build_seed_travel_legs(width: usize) -> Vec<TravelLeg> {
(0..width)
.map(|idx| {
TravelLeg::new(TravelLegInit {
id: format!("leg-{idx:02}-{idx:02}"),
name: format!("leg-{idx:02}-{idx:02}"),
from_location_idx: idx,
to_location_idx: idx,
duration_seconds: 0,
distance_meters: 0,
reachable: true,
})
})
.collect()
}
fn build_travel_legs(matrix: &solverforge_maps::TravelTimeMatrix, width: usize) -> Vec<TravelLeg> {
let mut legs = Vec::with_capacity(width * width);
for from in 0..width {
for to in 0..width {
let (duration_seconds, distance_meters, reachable) = if from == to {
(0, 0, true)
} else {
let matrix_duration = matrix.get(from, to).unwrap_or(UNREACHABLE);
let matrix_distance = matrix.distance_meters(from, to).unwrap_or(UNREACHABLE);
if matrix_duration == UNREACHABLE || matrix_distance == UNREACHABLE {
(0, 0, false)
} else {
(matrix_duration, matrix_distance, true)
}
};
legs.push(TravelLeg::new(TravelLegInit {
id: format!("leg-{from:02}-{to:02}"),
name: format!("leg-{from:02}-{to:02}"),
from_location_idx: from,
to_location_idx: to,
duration_seconds,
distance_meters,
reachable,
}));
}
}
legs
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn generated_technician_routes_start_without_assigned_visits() {
for demo in DemoData::available_demo_data() {
let routes = build_technician_routes(*demo);
assert!(!routes.is_empty());
assert!(routes.iter().all(|route| route.visits.is_empty()));
}
}
#[tokio::test]
async fn generated_seed_plan_has_only_identity_travel_legs() {
let plan = generate(DemoData::Standard).await.unwrap();
assert_eq!(plan.travel_legs.len(), plan.locations.len());
assert!(plan.travel_legs.iter().enumerate().all(|(idx, leg)| {
leg.from_location_idx == idx
&& leg.to_location_idx == idx
&& leg.duration_seconds == 0
&& leg.distance_meters == 0
&& leg.reachable
}));
}
}
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