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use std::collections::{HashMap, HashSet};
use petgraph::graphmap::DiGraphMap;
use geom::{Distance, Duration, Speed};
pub use self::walking::{all_walking_costs_from, WalkingOptions};
use crate::pathfind::build_graph_for_vehicles;
pub use crate::pathfind::{driving_cost, WalkingNode};
use crate::{BuildingID, LaneID, Map, PathConstraints};
mod walking;
pub fn find_scc(map: &Map, constraints: PathConstraints) -> (HashSet<LaneID>, HashSet<LaneID>) {
let mut graph = DiGraphMap::new();
for turn in map.all_turns().values() {
if constraints.can_use(map.get_l(turn.id.src), map)
&& constraints.can_use(map.get_l(turn.id.dst), map)
{
graph.add_edge(turn.id.src, turn.id.dst, 1);
}
}
let components = petgraph::algo::kosaraju_scc(&graph);
if components.is_empty() {
return (HashSet::new(), HashSet::new());
}
let largest_group: HashSet<LaneID> = components
.into_iter()
.max_by_key(|c| c.len())
.unwrap()
.into_iter()
.collect();
let disconnected = map
.all_lanes()
.iter()
.filter_map(|l| {
if constraints.can_use(l, map) && !largest_group.contains(&l.id) {
Some(l.id)
} else {
None
}
})
.collect();
(largest_group, disconnected)
}
pub fn all_vehicle_costs_from(
map: &Map,
start: BuildingID,
time_limit: Duration,
constraints: PathConstraints,
) -> HashMap<BuildingID, Duration> {
assert!(constraints != PathConstraints::Pedestrian);
let mut results = HashMap::new();
let mut bldg_to_lane = HashMap::new();
for b in map.all_buildings() {
if constraints == PathConstraints::Car {
if let Some((pos, _)) = b.driving_connection(map) {
bldg_to_lane.insert(b.id, pos.lane());
}
} else if constraints == PathConstraints::Bike {
if let Some((pos, _)) = b.biking_connection(map) {
bldg_to_lane.insert(b.id, pos.lane());
}
}
}
let max_bike_speed = Speed::miles_per_hour(10.0);
if let Some(start_lane) = bldg_to_lane.get(&start) {
let graph = build_graph_for_vehicles(map, constraints);
let cost_per_lane = petgraph::algo::dijkstra(&graph, *start_lane, None, |(_, _, turn)| {
driving_cost(
map.get_l(turn.src),
map.get_t(*turn),
constraints,
map.routing_params(),
map,
)
});
for (b, lane) in bldg_to_lane {
if let Some(meters) = cost_per_lane.get(&lane) {
let distance = Distance::meters(*meters as f64);
let duration = distance / max_bike_speed;
if duration <= time_limit {
results.insert(b, duration);
}
}
}
}
results
}