use crate::app::App;
use crate::helpers::color_for_agent_type;
use crate::info::{header_btns, make_tabs, throughput, DataOptions, Details, Tab};
use crate::options::TrafficSignalStyle;
use crate::render::traffic_signal::draw_signal_stage;
use abstutil::prettyprint_usize;
use geom::{ArrowCap, Distance, Duration, PolyLine, Polygon, Time};
use map_model::{IntersectionID, IntersectionType, PhaseType};
use sim::AgentType;
use std::collections::{BTreeMap, BTreeSet};
use widgetry::{
Btn, Checkbox, Color, DrawWithTooltips, EventCtx, FanChart, GeomBatch, Line, PlotOptions,
ScatterPlot, Series, Text, Widget,
};
pub fn info(ctx: &EventCtx, app: &App, details: &mut Details, id: IntersectionID) -> Vec<Widget> {
let mut rows = header(ctx, app, details, id, Tab::IntersectionInfo(id));
let i = app.primary.map.get_i(id);
let mut txt = Text::from(Line("Connecting"));
let mut road_names = BTreeSet::new();
for r in &i.roads {
road_names.insert(
app.primary
.map
.get_r(*r)
.get_name(app.opts.language.as_ref()),
);
}
for r in road_names {
txt.add(Line(format!(" {}", r)));
}
rows.push(txt.draw(ctx));
if app.opts.dev {
rows.push(Btn::text_bg1("Open OSM node").build(ctx, format!("open {}", i.orig_id), None));
}
rows
}
pub fn traffic(
ctx: &mut EventCtx,
app: &App,
details: &mut Details,
id: IntersectionID,
opts: &DataOptions,
) -> Vec<Widget> {
let mut rows = header(
ctx,
app,
details,
id,
Tab::IntersectionTraffic(id, opts.clone()),
);
let mut txt = Text::new();
txt.add(Line(format!(
"Since midnight: {} agents crossed",
prettyprint_usize(
app.primary
.sim
.get_analytics()
.intersection_thruput
.total_for(id)
)
)));
rows.push(txt.draw(ctx));
rows.push(opts.to_controls(ctx, app));
let time = if opts.show_end_of_day {
app.primary.sim.get_end_of_day()
} else {
app.primary.sim.time()
};
rows.push(throughput(
ctx,
app,
"Number of crossing trips per hour",
move |a| {
if a.intersection_thruput.raw.is_empty() {
a.intersection_thruput.count_per_hour(id, time)
} else {
a.intersection_thruput.raw_throughput(time, id)
}
},
&opts,
));
rows
}
pub fn delay(
ctx: &mut EventCtx,
app: &App,
details: &mut Details,
id: IntersectionID,
opts: &DataOptions,
fan_chart: bool,
) -> Vec<Widget> {
let mut rows = header(
ctx,
app,
details,
id,
Tab::IntersectionDelay(id, opts.clone(), fan_chart),
);
let i = app.primary.map.get_i(id);
assert!(i.is_traffic_signal());
rows.push(opts.to_controls(ctx, app));
rows.push(Checkbox::toggle(
ctx,
"fan chart / scatter plot",
"fan chart",
"scatter plot",
None,
fan_chart,
));
rows.push(delay_plot(ctx, app, id, opts, fan_chart));
rows
}
pub fn current_demand(
ctx: &mut EventCtx,
app: &App,
details: &mut Details,
id: IntersectionID,
) -> Vec<Widget> {
let mut rows = header(ctx, app, details, id, Tab::IntersectionDemand(id));
let mut total_demand = 0;
let mut demand_per_movement: Vec<(&PolyLine, usize)> = Vec::new();
for m in app.primary.map.get_traffic_signal(id).movements.values() {
let demand = app
.primary
.sim
.get_analytics()
.demand
.get(&m.id)
.cloned()
.unwrap_or(0);
if demand > 0 {
total_demand += demand;
demand_per_movement.push((&m.geom, demand));
}
}
let mut batch = GeomBatch::new();
let polygon = app.primary.map.get_i(id).polygon.clone();
let bounds = polygon.get_bounds();
let zoom = (0.25 * ctx.canvas.window_width) / bounds.width();
batch.push(
app.cs.normal_intersection,
polygon.translate(-bounds.min_x, -bounds.min_y).scale(zoom),
);
let mut tooltips: Vec<(Polygon, Text)> = Vec::new();
let mut outlines = Vec::new();
for (pl, demand) in demand_per_movement {
let percent = (demand as f64) / (total_demand as f64);
let arrow = pl
.make_arrow(percent * Distance::meters(3.0), ArrowCap::Triangle)
.translate(-bounds.min_x, -bounds.min_y)
.scale(zoom);
if let Ok(p) = arrow.to_outline(Distance::meters(1.0)) {
outlines.push(p);
}
batch.push(Color::hex("#A3A3A3"), arrow.clone());
tooltips.push((arrow, Text::from(Line(prettyprint_usize(demand)))));
}
batch.extend(Color::WHITE, outlines);
let mut txt = Text::from(Line(format!(
"Active agent demand at {}",
app.primary.sim.time().ampm_tostring()
)));
txt.add(
Line(format!(
"Includes all {} active agents anywhere on the map",
prettyprint_usize(total_demand)
))
.secondary(),
);
rows.push(
Widget::col(vec![
txt.draw(ctx),
DrawWithTooltips::new(
ctx,
batch,
tooltips,
Box::new(|arrow| {
let mut list = vec![(Color::hex("#EE702E"), arrow.clone())];
if let Ok(p) = arrow.to_outline(Distance::meters(1.0)) {
list.push((Color::WHITE, p));
}
GeomBatch::from(list)
}),
),
])
.padding(10)
.bg(app.cs.inner_panel)
.outline(2.0, Color::WHITE),
);
rows
}
pub fn arrivals(
ctx: &mut EventCtx,
app: &App,
details: &mut Details,
id: IntersectionID,
opts: &DataOptions,
) -> Vec<Widget> {
let mut rows = header(
ctx,
app,
details,
id,
Tab::IntersectionArrivals(id, opts.clone()),
);
rows.push(throughput(
ctx,
app,
"Number of in-bound trips from this border",
move |_| app.primary.sim.all_arrivals_at_border(id),
opts,
));
rows
}
pub fn traffic_signal(
ctx: &mut EventCtx,
app: &App,
details: &mut Details,
id: IntersectionID,
) -> Vec<Widget> {
let mut rows = header(ctx, app, details, id, Tab::IntersectionTrafficSignal(id));
let bounds = app.primary.map.get_i(id).polygon.get_bounds();
let zoom = 150.0 / bounds.width();
let bbox = Polygon::rectangle(zoom * bounds.width(), zoom * bounds.height());
let signal = app.primary.map.get_traffic_signal(id);
{
let mut txt = Text::new();
txt.add(Line(format!("{} stages", signal.stages.len())).small_heading());
txt.add(Line(format!("Signal offset: {}", signal.offset)));
{
let mut total = Duration::ZERO;
for s in &signal.stages {
total += s.phase_type.simple_duration();
}
txt.add(Line(format!("One cycle lasts {}", total)));
}
rows.push(txt.draw(ctx));
}
for (idx, stage) in signal.stages.iter().enumerate() {
rows.push(
match stage.phase_type {
PhaseType::Fixed(d) => Line(format!("Stage {}: {}", idx + 1, d)),
PhaseType::Adaptive(d) => Line(format!("Stage {}: {} (adaptive)", idx + 1, d)),
}
.draw(ctx),
);
{
let mut orig_batch = GeomBatch::new();
draw_signal_stage(
ctx.prerender,
stage,
idx,
id,
None,
&mut orig_batch,
app,
TrafficSignalStyle::Yuwen,
);
let mut normal = GeomBatch::new();
normal.push(Color::BLACK, bbox.clone());
normal.append(
orig_batch
.translate(-bounds.min_x, -bounds.min_y)
.scale(zoom),
);
rows.push(Widget::draw_batch(ctx, normal));
}
}
rows
}
fn delay_plot(
ctx: &EventCtx,
app: &App,
i: IntersectionID,
opts: &DataOptions,
fan_chart: bool,
) -> Widget {
let data = if opts.show_before {
app.prebaked()
} else {
app.primary.sim.get_analytics()
};
let mut by_type: BTreeMap<AgentType, Vec<(Time, Duration)>> = AgentType::all()
.into_iter()
.map(|t| (t, Vec::new()))
.collect();
let limit = if opts.show_end_of_day {
app.primary.sim.get_end_of_day()
} else {
app.primary.sim.time()
};
if let Some(list) = data.intersection_delays.get(&i) {
for (_, t, dt, agent_type) in list {
if *t > limit {
break;
}
by_type.get_mut(agent_type).unwrap().push((*t, *dt));
}
}
let series: Vec<Series<Duration>> = by_type
.into_iter()
.map(|(agent_type, pts)| Series {
label: agent_type.noun().to_string(),
color: color_for_agent_type(app, agent_type),
pts,
})
.collect();
let plot_opts = PlotOptions {
filterable: true,
max_x: Some(limit),
max_y: None,
disabled: opts.disabled_series(),
};
Widget::col(vec![
Line("Delay through intersection").small_heading().draw(ctx),
if fan_chart {
FanChart::new(ctx, series, plot_opts)
} else {
ScatterPlot::new(ctx, series, plot_opts)
},
])
.padding(10)
.bg(app.cs.inner_panel)
.outline(2.0, Color::WHITE)
}
fn header(
ctx: &EventCtx,
app: &App,
details: &mut Details,
id: IntersectionID,
tab: Tab,
) -> Vec<Widget> {
let mut rows = vec![];
let i = app.primary.map.get_i(id);
let label = match i.intersection_type {
IntersectionType::StopSign => format!("{} (Stop signs)", id),
IntersectionType::TrafficSignal => format!("{} (Traffic signals)", id),
IntersectionType::Border => format!("Border #{}", id.0),
IntersectionType::Construction => format!("{} (under construction)", id),
};
rows.push(Widget::row(vec![
Line(label).small_heading().draw(ctx),
header_btns(ctx),
]));
rows.push(make_tabs(ctx, &mut details.hyperlinks, tab, {
let mut tabs = vec![
("Info", Tab::IntersectionInfo(id)),
("Traffic", Tab::IntersectionTraffic(id, DataOptions::new())),
];
if i.is_traffic_signal() {
tabs.push((
"Delay",
Tab::IntersectionDelay(id, DataOptions::new(), false),
));
tabs.push(("Current demand", Tab::IntersectionDemand(id)));
tabs.push(("Signal", Tab::IntersectionTrafficSignal(id)));
}
if i.is_incoming_border() {
tabs.push((
"Arrivals",
Tab::IntersectionArrivals(id, DataOptions::new()),
));
}
tabs
}));
rows
}