use crate::app::App;
use crate::game::State;
use crate::helpers::{checkbox_per_mode, cmp_duration_shorter, color_for_mode};
use crate::sandbox::dashboards::generic_trip_table::GenericTripTable;
use crate::sandbox::dashboards::table::{Col, Filter, Table};
use crate::sandbox::dashboards::DashTab;
use abstutil::prettyprint_usize;
use geom::{Duration, Time};
use sim::{TripEndpoint, TripID, TripMode};
use std::collections::{BTreeSet, HashMap};
use widgetry::{Btn, Checkbox, EventCtx, Filler, Line, Panel, Text, Widget};
pub struct FinishedTripTable;
impl FinishedTripTable {
pub fn new(ctx: &mut EventCtx, app: &App) -> Box<dyn State> {
GenericTripTable::new(
ctx,
app,
DashTab::FinishedTripTable,
make_table_finished_trips(app),
make_panel_finished_trips,
)
}
}
pub struct CancelledTripTable;
impl CancelledTripTable {
pub fn new(ctx: &mut EventCtx, app: &App) -> Box<dyn State> {
GenericTripTable::new(
ctx,
app,
DashTab::CancelledTripTable,
make_table_cancelled_trips(app),
make_panel_cancelled_trips,
)
}
}
pub struct UnfinishedTripTable;
impl UnfinishedTripTable {
pub fn new(ctx: &mut EventCtx, app: &App) -> Box<dyn State> {
GenericTripTable::new(
ctx,
app,
DashTab::UnfinishedTripTable,
make_table_unfinished_trips(app),
make_panel_unfinished_trips,
)
}
}
struct FinishedTrip {
id: TripID,
mode: TripMode,
modified: bool,
capped: bool,
starts_off_map: bool,
ends_off_map: bool,
departure: Time,
duration_after: Duration,
duration_before: Duration,
waiting: Duration,
percent_waiting: usize,
}
struct CancelledTrip {
id: TripID,
mode: TripMode,
departure: Time,
starts_off_map: bool,
ends_off_map: bool,
duration_before: Duration,
}
struct UnfinishedTrip {
id: TripID,
mode: TripMode,
departure: Time,
duration_before: Duration,
}
struct Filters {
modes: BTreeSet<TripMode>,
off_map_starts: bool,
off_map_ends: bool,
unmodified_trips: bool,
modified_trips: bool,
uncapped_trips: bool,
capped_trips: bool,
}
fn produce_raw_data(app: &App) -> (Vec<FinishedTrip>, Vec<CancelledTrip>) {
let mut finished = Vec::new();
let mut cancelled = Vec::new();
let trip_times_before = if app.has_prebaked().is_some() {
let mut times = HashMap::new();
for (_, id, maybe_mode, dt) in &app.prebaked().finished_trips {
if maybe_mode.is_some() {
times.insert(*id, *dt);
}
}
Some(times)
} else {
None
};
let sim = &app.primary.sim;
for (_, id, maybe_mode, duration_after) in &sim.get_analytics().finished_trips {
let trip = sim.trip_info(*id);
let starts_off_map = match trip.start {
TripEndpoint::Border(_, _) => true,
_ => false,
};
let ends_off_map = match trip.end {
TripEndpoint::Border(_, _) => true,
_ => false,
};
let duration_before = if let Some(ref times) = trip_times_before {
times.get(id).cloned()
} else {
Some(Duration::ZERO)
};
if maybe_mode.is_none() || duration_before.is_none() {
cancelled.push(CancelledTrip {
id: *id,
mode: trip.mode,
departure: trip.departure,
starts_off_map,
ends_off_map,
duration_before: duration_before.unwrap_or(Duration::ZERO),
});
continue;
};
let (_, waiting) = sim.finished_trip_time(*id).unwrap();
finished.push(FinishedTrip {
id: *id,
mode: trip.mode,
departure: trip.departure,
modified: trip.modified,
capped: trip.capped,
starts_off_map,
ends_off_map,
duration_after: *duration_after,
duration_before: duration_before.unwrap(),
waiting,
percent_waiting: (100.0 * waiting / *duration_after) as usize,
});
}
(finished, cancelled)
}
fn make_table_finished_trips(app: &App) -> Table<FinishedTrip, Filters> {
let (finished, _) = produce_raw_data(app);
let any_congestion_caps = app
.primary
.map
.all_zones()
.iter()
.any(|z| z.restrictions.cap_vehicles_per_hour.is_some());
let filter: Filter<FinishedTrip, Filters> = Filter {
state: Filters {
modes: TripMode::all().into_iter().collect(),
off_map_starts: true,
off_map_ends: true,
unmodified_trips: true,
modified_trips: true,
uncapped_trips: true,
capped_trips: true,
},
to_controls: Box::new(move |ctx, app, state| {
Widget::col(vec![
checkbox_per_mode(ctx, app, &state.modes),
Widget::row(vec![
Checkbox::switch(ctx, "starting off-map", None, state.off_map_starts),
Checkbox::switch(ctx, "ending off-map", None, state.off_map_ends),
if app.primary.has_modified_trips {
Checkbox::switch(
ctx,
"trips unmodified by experiment",
None,
state.unmodified_trips,
)
} else {
Widget::nothing()
},
if app.primary.has_modified_trips {
Checkbox::switch(
ctx,
"trips modified by experiment",
None,
state.modified_trips,
)
} else {
Widget::nothing()
},
if any_congestion_caps {
Checkbox::switch(
ctx,
"trips not affected by congestion caps",
None,
state.uncapped_trips,
)
} else {
Widget::nothing()
},
if any_congestion_caps {
Checkbox::switch(
ctx,
"trips affected by congestion caps",
None,
state.capped_trips,
)
} else {
Widget::nothing()
},
]),
])
}),
from_controls: Box::new(|panel| {
let mut modes = BTreeSet::new();
for m in TripMode::all() {
if panel.is_checked(m.ongoing_verb()) {
modes.insert(m);
}
}
Filters {
modes,
off_map_starts: panel.is_checked("starting off-map"),
off_map_ends: panel.is_checked("ending off-map"),
unmodified_trips: panel
.maybe_is_checked("trips unmodified by experiment")
.unwrap_or(true),
modified_trips: panel
.maybe_is_checked("trips modified by experiment")
.unwrap_or(true),
uncapped_trips: panel
.maybe_is_checked("trips not affected by congestion caps")
.unwrap_or(true),
capped_trips: panel
.maybe_is_checked("trips affected by congestion caps")
.unwrap_or(true),
}
}),
apply: Box::new(|state, x| {
if !state.modes.contains(&x.mode) {
return false;
}
if !state.off_map_starts && x.starts_off_map {
return false;
}
if !state.off_map_ends && x.ends_off_map {
return false;
}
if !state.unmodified_trips && !x.modified {
return false;
}
if !state.modified_trips && x.modified {
return false;
}
if !state.uncapped_trips && !x.capped {
return false;
}
if !state.capped_trips && x.capped {
return false;
}
true
}),
};
let mut table = Table::new(
finished,
Box::new(|x| x.id.0.to_string()),
"Percent waiting",
filter,
);
table.static_col("Trip ID", Box::new(|x| x.id.0.to_string()));
if app.primary.has_modified_trips {
table.static_col(
"Modified",
Box::new(|x| {
if x.modified {
"Yes".to_string()
} else {
"No".to_string()
}
}),
);
}
if any_congestion_caps {
table.static_col(
"Capped",
Box::new(|x| {
if x.capped {
"Yes".to_string()
} else {
"No".to_string()
}
}),
);
}
table.column(
"Type",
Box::new(|ctx, app, x| {
Text::from(Line(x.mode.ongoing_verb()).fg(color_for_mode(app, x.mode))).render_ctx(ctx)
}),
Col::Static,
);
table.column(
"Departure",
Box::new(|ctx, _, x| Text::from(Line(x.departure.ampm_tostring())).render_ctx(ctx)),
Col::Sortable(Box::new(|rows| rows.sort_by_key(|x| x.departure))),
);
table.column(
"Duration",
Box::new(|ctx, _, x| Text::from(Line(x.duration_after.to_string())).render_ctx(ctx)),
Col::Sortable(Box::new(|rows| rows.sort_by_key(|x| x.duration_after))),
);
if app.has_prebaked().is_some() {
table.column(
"Comparison",
Box::new(|ctx, _, x| {
Text::from_all(cmp_duration_shorter(x.duration_after, x.duration_before))
.render_ctx(ctx)
}),
Col::Sortable(Box::new(|rows| {
rows.sort_by_key(|x| x.duration_after - x.duration_before)
})),
);
table.column(
"Normalized",
Box::new(|ctx, _, x| {
Text::from(Line(if x.duration_after == x.duration_before {
format!("same")
} else if x.duration_after < x.duration_before {
format!(
"{}% faster",
(100.0 * (1.0 - (x.duration_after / x.duration_before))) as usize
)
} else {
format!(
"{}% slower ",
(100.0 * ((x.duration_after / x.duration_before) - 1.0)) as usize
)
}))
.render_ctx(ctx)
}),
Col::Sortable(Box::new(|rows| {
rows.sort_by_key(|x| (100.0 * (x.duration_after / x.duration_before)) as isize)
})),
);
}
table.column(
"Time spent waiting",
Box::new(|ctx, _, x| Text::from(Line(x.waiting.to_string())).render_ctx(ctx)),
Col::Sortable(Box::new(|rows| rows.sort_by_key(|x| x.waiting))),
);
table.column(
"Percent waiting",
Box::new(|ctx, _, x| Text::from(Line(x.percent_waiting.to_string())).render_ctx(ctx)),
Col::Sortable(Box::new(|rows| rows.sort_by_key(|x| x.percent_waiting))),
);
table
}
fn make_table_cancelled_trips(app: &App) -> Table<CancelledTrip, Filters> {
let (_, cancelled) = produce_raw_data(app);
let filter: Filter<CancelledTrip, Filters> = Filter {
state: Filters {
modes: TripMode::all().into_iter().collect(),
off_map_starts: true,
off_map_ends: true,
unmodified_trips: true,
modified_trips: true,
uncapped_trips: true,
capped_trips: true,
},
to_controls: Box::new(move |ctx, app, state| {
Widget::col(vec![
checkbox_per_mode(ctx, app, &state.modes),
Widget::row(vec![
Checkbox::switch(ctx, "starting off-map", None, state.off_map_starts),
Checkbox::switch(ctx, "ending off-map", None, state.off_map_ends),
]),
])
}),
from_controls: Box::new(|panel| {
let mut modes = BTreeSet::new();
for m in TripMode::all() {
if panel.is_checked(m.ongoing_verb()) {
modes.insert(m);
}
}
Filters {
modes,
off_map_starts: panel.is_checked("starting off-map"),
off_map_ends: panel.is_checked("ending off-map"),
unmodified_trips: true,
modified_trips: true,
uncapped_trips: true,
capped_trips: true,
}
}),
apply: Box::new(|state, x| {
if !state.modes.contains(&x.mode) {
return false;
}
if !state.off_map_starts && x.starts_off_map {
return false;
}
if !state.off_map_ends && x.ends_off_map {
return false;
}
true
}),
};
let mut table = Table::new(
cancelled,
Box::new(|x| x.id.0.to_string()),
"Departure",
filter,
);
table.static_col("Trip ID", Box::new(|x| x.id.0.to_string()));
table.column(
"Type",
Box::new(|ctx, app, x| {
Text::from(Line(x.mode.ongoing_verb()).fg(color_for_mode(app, x.mode))).render_ctx(ctx)
}),
Col::Static,
);
table.column(
"Departure",
Box::new(|ctx, _, x| Text::from(Line(x.departure.ampm_tostring())).render_ctx(ctx)),
Col::Sortable(Box::new(|rows| rows.sort_by_key(|x| x.departure))),
);
if app.has_prebaked().is_some() {
table.column(
"Estimated duration",
Box::new(|ctx, _, x| Text::from(Line(x.duration_before.to_string())).render_ctx(ctx)),
Col::Sortable(Box::new(|rows| rows.sort_by_key(|x| x.duration_before))),
);
}
table
}
fn make_table_unfinished_trips(app: &App) -> Table<UnfinishedTrip, Filters> {
let trip_times_before = if app.has_prebaked().is_some() {
let mut times = HashMap::new();
for (_, id, maybe_mode, dt) in &app.prebaked().finished_trips {
if maybe_mode.is_some() {
times.insert(*id, *dt);
}
}
Some(times)
} else {
None
};
let mut unfinished = Vec::new();
for (id, trip) in app.primary.sim.all_trip_info() {
if app.primary.sim.finished_trip_time(id).is_none() {
let duration_before = trip_times_before
.as_ref()
.and_then(|times| times.get(&id))
.cloned()
.unwrap_or(Duration::ZERO);
unfinished.push(UnfinishedTrip {
id,
mode: trip.mode,
departure: trip.departure,
duration_before,
});
}
}
let filter: Filter<UnfinishedTrip, Filters> = Filter {
state: Filters {
modes: TripMode::all().into_iter().collect(),
off_map_starts: true,
off_map_ends: true,
unmodified_trips: true,
modified_trips: true,
uncapped_trips: true,
capped_trips: true,
},
to_controls: Box::new(move |ctx, app, state| checkbox_per_mode(ctx, app, &state.modes)),
from_controls: Box::new(|panel| {
let mut modes = BTreeSet::new();
for m in TripMode::all() {
if panel.is_checked(m.ongoing_verb()) {
modes.insert(m);
}
}
Filters {
modes,
off_map_starts: true,
off_map_ends: true,
unmodified_trips: true,
modified_trips: true,
uncapped_trips: true,
capped_trips: true,
}
}),
apply: Box::new(|state, x| {
if !state.modes.contains(&x.mode) {
return false;
}
true
}),
};
let mut table = Table::new(
unfinished,
Box::new(|x| x.id.0.to_string()),
"Departure",
filter,
);
table.static_col("Trip ID", Box::new(|x| x.id.0.to_string()));
table.column(
"Type",
Box::new(|ctx, app, x| {
Text::from(Line(x.mode.ongoing_verb()).fg(color_for_mode(app, x.mode))).render_ctx(ctx)
}),
Col::Static,
);
table.column(
"Departure",
Box::new(|ctx, _, x| Text::from(Line(x.departure.ampm_tostring())).render_ctx(ctx)),
Col::Sortable(Box::new(|rows| rows.sort_by_key(|x| x.departure))),
);
if app.has_prebaked().is_some() {
table.column(
"Estimated duration",
Box::new(|ctx, _, x| Text::from(Line(x.duration_before.to_string())).render_ctx(ctx)),
Col::Sortable(Box::new(|rows| rows.sort_by_key(|x| x.duration_before))),
);
}
table
}
fn trip_category_selector(ctx: &mut EventCtx, app: &App, tab: DashTab) -> Widget {
let (finished, unfinished) = app.primary.sim.num_trips();
let mut aborted = 0;
for (_, _, maybe_mode, _) in &app.primary.sim.get_analytics().finished_trips {
if maybe_mode.is_none() {
aborted += 1;
}
}
let total = finished + aborted + unfinished;
let btn = |dash, action, label| {
if dash == tab {
Text::from(Line(label).underlined())
.draw(ctx)
.centered_vert()
} else {
Btn::plaintext(label).build(ctx, action, None)
}
};
Widget::custom_row(vec![
btn(
DashTab::FinishedTripTable,
"finished trips",
format!(
"{} ({:.1}%) Finished Trips",
prettyprint_usize(finished),
if total > 0 {
(finished as f64) / (total as f64) * 100.0
} else {
0.0
}
),
)
.margin_right(28),
btn(
DashTab::CancelledTripTable,
"cancelled trips",
format!("{} Cancelled Trips", prettyprint_usize(aborted)),
)
.margin_right(28),
btn(
DashTab::UnfinishedTripTable,
"unfinished trips",
format!(
"{} ({:.1}%) Unfinished Trips",
prettyprint_usize(unfinished),
if total > 0 {
(unfinished as f64) / (total as f64) * 100.0
} else {
0.0
}
),
),
])
}
fn make_panel_finished_trips(
ctx: &mut EventCtx,
app: &App,
table: &Table<FinishedTrip, Filters>,
) -> Panel {
Panel::new(Widget::col(vec![
DashTab::FinishedTripTable.picker(ctx, app),
trip_category_selector(ctx, app, DashTab::FinishedTripTable),
table.render(ctx, app),
Filler::square_width(ctx, 0.15)
.named("preview")
.centered_horiz(),
]))
.exact_size_percent(90, 90)
.build(ctx)
}
fn make_panel_cancelled_trips(
ctx: &mut EventCtx,
app: &App,
table: &Table<CancelledTrip, Filters>,
) -> Panel {
Panel::new(Widget::col(vec![
DashTab::FinishedTripTable.picker(ctx, app),
trip_category_selector(ctx, app, DashTab::CancelledTripTable),
table.render(ctx, app),
Filler::square_width(ctx, 0.15)
.named("preview")
.centered_horiz(),
]))
.exact_size_percent(90, 90)
.build(ctx)
}
fn make_panel_unfinished_trips(
ctx: &mut EventCtx,
app: &App,
table: &Table<UnfinishedTrip, Filters>,
) -> Panel {
Panel::new(Widget::col(vec![
DashTab::FinishedTripTable.picker(ctx, app),
trip_category_selector(ctx, app, DashTab::UnfinishedTripTable),
table.render(ctx, app),
Filler::square_width(ctx, 0.15)
.named("preview")
.centered_horiz(),
]))
.exact_size_percent(90, 90)
.build(ctx)
}