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use std::collections::HashSet;
use map_gui::tools::ColorDiscrete;
use map_model::{connectivity, LaneID, Map, PathConstraints};
use widgetry::{
Choice, Color, Drawable, EventCtx, GfxCtx, HorizontalAlignment, Line, Outcome, Panel, State,
TextExt, VerticalAlignment, Widget,
};
use crate::app::App;
use crate::app::Transition;
pub struct Floodfiller {
panel: Panel,
unzoomed: Drawable,
zoomed: Drawable,
source: Source,
}
impl Floodfiller {
pub fn floodfill(ctx: &mut EventCtx, app: &App, l: LaneID) -> Box<dyn State<App>> {
let constraints = PathConstraints::from_lt(app.primary.map.get_l(l).lane_type);
Floodfiller::new(ctx, app, Source::Floodfill(l), constraints)
}
pub fn scc(ctx: &mut EventCtx, app: &App, l: LaneID) -> Box<dyn State<App>> {
let constraints = PathConstraints::from_lt(app.primary.map.get_l(l).lane_type);
Floodfiller::new(ctx, app, Source::SCC, constraints)
}
fn new(
ctx: &mut EventCtx,
app: &App,
source: Source,
constraints: PathConstraints,
) -> Box<dyn State<App>> {
let (reachable_lanes, unreachable_lanes, title) =
source.calculate(&app.primary.map, constraints);
let mut colorer = ColorDiscrete::new(
app,
vec![("unreachable", Color::RED), ("reachable", Color::GREEN)],
);
for l in reachable_lanes {
colorer.add_l(l, "reachable");
}
let num_unreachable = unreachable_lanes.len();
for l in unreachable_lanes {
colorer.add_l(l, "unreachable");
}
let (unzoomed, zoomed, legend) = colorer.build(ctx);
Box::new(Floodfiller {
panel: Panel::new(Widget::col(vec![
Widget::row(vec![
Line(title).small_heading().draw(ctx),
ctx.style().btn_close_widget(ctx),
]),
format!("{} unreachable lanes", num_unreachable).draw_text(ctx),
legend,
Widget::row(vec![
"Connectivity type:".draw_text(ctx),
Widget::dropdown(
ctx,
"constraints",
constraints,
PathConstraints::all()
.into_iter()
.map(|c| Choice::new(format!("{:?}", c), c))
.collect(),
),
]),
]))
.aligned(HorizontalAlignment::Center, VerticalAlignment::Top)
.build(ctx),
unzoomed,
zoomed,
source,
})
}
}
impl State<App> for Floodfiller {
fn event(&mut self, ctx: &mut EventCtx, app: &mut App) -> Transition {
if ctx.redo_mouseover() {
app.recalculate_current_selection(ctx);
}
ctx.canvas_movement();
match self.panel.event(ctx) {
Outcome::Clicked(x) => match x.as_ref() {
"close" => {
return Transition::Pop;
}
_ => unreachable!(),
},
Outcome::Changed => {
return Transition::Replace(Floodfiller::new(
ctx,
app,
self.source.clone(),
self.panel.dropdown_value("constraints"),
));
}
_ => {}
}
Transition::Keep
}
fn draw(&self, g: &mut GfxCtx, app: &App) {
if g.canvas.cam_zoom < app.opts.min_zoom_for_detail {
g.redraw(&self.unzoomed);
} else {
g.redraw(&self.zoomed);
}
self.panel.draw(g);
}
}
#[derive(Clone)]
enum Source {
Floodfill(LaneID),
SCC,
}
impl Source {
fn calculate(
&self,
map: &Map,
constraints: PathConstraints,
) -> (HashSet<LaneID>, HashSet<LaneID>, String) {
match self {
Source::Floodfill(start) => {
let mut visited = HashSet::new();
let mut queue = vec![*start];
while !queue.is_empty() {
let current = queue.pop().unwrap();
if visited.contains(¤t) {
continue;
}
visited.insert(current);
for turn in map.get_turns_for(current, constraints) {
if !visited.contains(&turn.id.dst) {
queue.push(turn.id.dst);
}
}
}
let mut unreached = HashSet::new();
for l in map.all_lanes() {
if constraints.can_use(l, map) && !visited.contains(&l.id) {
unreached.insert(l.id);
}
}
(visited, unreached, format!("Floodfill from {}", start))
}
Source::SCC => {
let (good, bad) = connectivity::find_scc(map, constraints);
(good, bad, format!("strongpy-connected component"))
}
}
}
}