use std::collections::BTreeSet;
use abstutil::{prettyprint_usize, Counter};
use geom::ArrowCap;
use map_gui::options::OptionsPanel;
use map_gui::render::{DrawOptions, BIG_ARROW_THICKNESS};
use map_gui::tools::{
nice_map_name, open_browser, CityPicker, Minimap, MinimapControls, Navigator, PopupMsg,
TurnExplorer,
};
use map_gui::{SimpleApp, ID};
use map_model::osm;
use widgetry::{
lctrl, Checkbox, Color, DrawBaselayer, Drawable, EventCtx, GeomBatch, GfxCtx,
HorizontalAlignment, Key, Line, Outcome, Panel, State, StyledButtons, Text, TextExt,
Transition, VerticalAlignment, Widget,
};
type App = SimpleApp<()>;
pub struct Viewer {
top_panel: Panel,
fixed_object_outline: Option<Drawable>,
minimap: Minimap<App, MinimapController>,
businesses: Option<BusinessSearch>,
}
impl Viewer {
pub fn new(ctx: &mut EventCtx, app: &App) -> Box<dyn State<App>> {
let mut viewer = Viewer {
fixed_object_outline: None,
minimap: Minimap::new(ctx, app, MinimapController),
businesses: None,
top_panel: Panel::empty(ctx),
};
viewer.recalculate_top_panel(ctx, app, None);
Box::new(viewer)
}
fn recalculate_top_panel(
&mut self,
ctx: &mut EventCtx,
app: &App,
biz_search_panel: Option<Widget>,
) {
let top_panel = Panel::new(Widget::col(vec![
Line("OpenStreetMap viewer").small_heading().draw(ctx),
ctx.style()
.btn_light_popup_icon_text(
"system/assets/tools/map.svg",
nice_map_name(app.map.get_name()),
)
.hotkey(lctrl(Key::L))
.build_widget(ctx, "change map"),
Widget::row(vec![
ctx.style()
.btn_plain_light_icon("system/assets/tools/settings.svg")
.build_widget(ctx, "settings"),
ctx.style()
.btn_plain_light_icon("system/assets/tools/search.svg")
.hotkey(lctrl(Key::F))
.build_widget(ctx, "search"),
ctx.style().btn_plain_light_text("About").build_def(ctx),
]),
Widget::horiz_separator(ctx, 0.3),
self.calculate_tags(ctx, app),
Widget::horiz_separator(ctx, 0.3),
if let Some(ref b) = self.businesses {
biz_search_panel.unwrap_or_else(|| b.render(ctx).named("Search for businesses"))
} else {
ctx.style()
.btn_solid_dark_text("Search for businesses")
.hotkey(Key::Tab)
.build_def(ctx)
},
]))
.aligned(HorizontalAlignment::Left, VerticalAlignment::Top)
.build(ctx);
self.top_panel = top_panel;
}
fn calculate_tags(&self, ctx: &EventCtx, app: &App) -> Widget {
let mut col = Vec::new();
if self.fixed_object_outline.is_some() {
col.push("Click something else to examine it".draw_text(ctx));
} else {
col.push("Click to examine".draw_text(ctx));
}
match app.current_selection {
Some(ID::Lane(l)) => {
let r = app.map.get_parent(l);
col.push(
Widget::row(vec![
ctx.style()
.btn_solid_dark_text(&format!(
"Open OSM way {}",
r.orig_id.osm_way_id.0
))
.build_widget(ctx, &format!("open {}", r.orig_id.osm_way_id)),
ctx.style()
.btn_solid_dark_text("Edit OSM way")
.build_widget(
ctx,
&format!(
"open https://www.openstreetmap.org/edit?way={}",
r.orig_id.osm_way_id.0
),
),
])
.evenly_spaced(),
);
let tags = &r.osm_tags;
for (k, v) in tags.inner() {
if k.starts_with("abst:") {
continue;
}
if tags.contains_key(osm::INFERRED_PARKING)
&& (k == osm::PARKING_RIGHT
|| k == osm::PARKING_LEFT
|| k == osm::PARKING_BOTH)
{
continue;
}
if tags.contains_key(osm::INFERRED_SIDEWALKS) && k == osm::SIDEWALK {
continue;
}
col.push(Widget::row(vec![
ctx.style().btn_plain_light_text(k).build_widget(
ctx,
&format!("open https://wiki.openstreetmap.org/wiki/Key:{}", k),
),
Line(v).draw(ctx).align_right(),
]));
}
}
Some(ID::Intersection(i)) => {
let i = app.map.get_i(i);
col.push(
ctx.style()
.btn_solid_dark_text(&format!("Open OSM node {}", i.orig_id.0))
.build_widget(ctx, &format!("open {}", i.orig_id)),
);
}
Some(ID::Building(b)) => {
let b = app.map.get_b(b);
col.push(
ctx.style()
.btn_solid_dark_text(&format!("Open OSM ID {}", b.orig_id.inner()))
.build_widget(ctx, &format!("open {}", b.orig_id)),
);
let mut txt = Text::new();
txt.add(Line(format!("Address: {}", b.address)));
if let Some(ref names) = b.name {
txt.add(Line(format!(
"Name: {}",
names.get(app.opts.language.as_ref()).to_string()
)));
}
if !b.amenities.is_empty() {
txt.add(Line(""));
if b.amenities.len() == 1 {
txt.add(Line("1 amenity:"));
} else {
txt.add(Line(format!("{} amenities:", b.amenities.len())));
}
for a in &b.amenities {
txt.add(Line(format!(
" {} ({})",
a.names.get(app.opts.language.as_ref()),
a.amenity_type
)));
}
}
col.push(txt.draw(ctx));
if !b.osm_tags.is_empty() {
for (k, v) in b.osm_tags.inner() {
if k.starts_with("abst:") {
continue;
}
col.push(Widget::row(vec![
ctx.style().btn_plain_light_text(k).build_widget(
ctx,
&format!("open https://wiki.openstreetmap.org/wiki/Key:{}", k),
),
Line(v).draw(ctx).align_right(),
]));
}
}
}
Some(ID::ParkingLot(pl)) => {
let pl = app.map.get_pl(pl);
col.push(
ctx.style()
.btn_solid_dark_text(&format!("Open OSM ID {}", pl.osm_id.inner()))
.build_widget(ctx, &format!("open {}", pl.osm_id)),
);
col.push(
format!(
"Estimated parking spots: {}",
prettyprint_usize(pl.capacity())
)
.draw_text(ctx),
);
}
_ => {
col = vec!["Zoom in and select something to begin".draw_text(ctx)];
}
}
Widget::col(col)
}
}
impl State<App> for Viewer {
fn event(&mut self, ctx: &mut EventCtx, app: &mut App) -> Transition<App> {
ctx.canvas_movement();
if ctx.redo_mouseover() {
let old_id = app.current_selection.clone();
app.recalculate_current_selection(ctx);
if self.fixed_object_outline.is_none() && old_id != app.current_selection {
let biz_search = self.top_panel.take("Search for businesses");
self.recalculate_top_panel(ctx, app, Some(biz_search));
}
let maybe_amenity = ctx
.canvas
.get_cursor_in_screen_space()
.and_then(|_| self.top_panel.currently_hovering().cloned());
if let Some(ref mut b) = self.businesses {
b.hovering_on_amenity(ctx, app, maybe_amenity);
}
}
if ctx.canvas.get_cursor_in_map_space().is_some() && ctx.normal_left_click() {
if let Some(id) = app.current_selection.clone() {
let outline = app
.draw_map
.get_obj(ctx, id, app, &mut map_gui::render::AgentCache::new(&app.cs))
.unwrap()
.get_outline(&app.map);
let mut batch = GeomBatch::from(vec![(app.cs.perma_selected_object, outline)]);
if let Some(ID::Lane(l)) = app.current_selection {
for turn in app.map.get_turns_from_lane(l) {
batch.push(
TurnExplorer::color_turn_type(turn.turn_type),
turn.geom
.make_arrow(BIG_ARROW_THICKNESS, ArrowCap::Triangle),
);
}
}
self.fixed_object_outline = Some(ctx.upload(batch));
} else {
self.fixed_object_outline = None;
}
let biz_search = self.top_panel.take("Search for businesses");
self.recalculate_top_panel(ctx, app, Some(biz_search));
}
if let Some(t) = self.minimap.event(ctx, app) {
return t;
}
match self.top_panel.event(ctx) {
Outcome::Clicked(x) => match x.as_ref() {
"change map" => {
return Transition::Push(CityPicker::new(
ctx,
app,
Box::new(|ctx, app| {
Transition::Multi(vec![
Transition::Pop,
Transition::Replace(Viewer::new(ctx, app)),
])
}),
));
}
"settings" => {
return Transition::Push(OptionsPanel::new(ctx, app));
}
"search" => {
return Transition::Push(Navigator::new(ctx, app));
}
"About" => {
return Transition::Push(PopupMsg::new(
ctx,
"About this OSM viewer",
vec![
"If you have an idea about what this viewer should do, get in touch \
at abstreet.org!",
"",
"Note major liberties have been taken with inferring where sidewalks \
and crosswalks exist.",
"Separate footpaths, bicycle trails, tram lines, etc are not imported \
yet.",
],
));
}
"Search for businesses" => {
self.businesses = Some(BusinessSearch::new(ctx, app));
self.recalculate_top_panel(ctx, app, None);
}
"Hide business search" => {
self.businesses = None;
self.recalculate_top_panel(ctx, app, None);
}
x => {
if let Some(url) = x.strip_prefix("open ") {
open_browser(url);
} else {
unreachable!()
}
}
},
Outcome::Changed => {
let b = self.businesses.as_mut().unwrap();
b.show.clear();
for amenity in b.counts.borrow().keys() {
if self.top_panel.is_checked(amenity) {
b.show.insert(amenity.clone());
}
}
b.update(ctx, app);
return Transition::KeepWithMouseover;
}
_ => {}
}
Transition::Keep
}
fn draw_baselayer(&self) -> DrawBaselayer {
DrawBaselayer::Custom
}
fn draw(&self, g: &mut GfxCtx, app: &App) {
if g.canvas.cam_zoom < app.opts.min_zoom_for_detail {
app.draw_unzoomed(g);
} else {
let mut opts = DrawOptions::new();
opts.show_building_paths = false;
app.draw_zoomed(g, opts);
}
self.top_panel.draw(g);
self.minimap.draw(g, app);
if let Some(ref d) = self.fixed_object_outline {
g.redraw(d);
}
if let Some(ref b) = self.businesses {
g.redraw(&b.highlight);
if let Some((_, ref d)) = b.hovering_on_amenity {
g.redraw(d);
}
}
}
}
struct BusinessSearch {
counts: Counter<String>,
show: BTreeSet<String>,
highlight: Drawable,
hovering_on_amenity: Option<(String, Drawable)>,
}
impl BusinessSearch {
fn new(ctx: &mut EventCtx, app: &App) -> BusinessSearch {
let mut counts = Counter::new();
for b in app.map.all_buildings() {
for a in &b.amenities {
counts.inc(a.amenity_type.clone());
}
}
let show = counts.borrow().keys().cloned().collect();
let mut s = BusinessSearch {
counts,
show,
highlight: Drawable::empty(ctx),
hovering_on_amenity: None,
};
s.update(ctx, app);
s
}
fn update(&mut self, ctx: &mut EventCtx, app: &App) {
let mut batch = GeomBatch::new();
for b in app.map.all_buildings() {
if b.amenities
.iter()
.any(|a| self.show.contains(&a.amenity_type))
{
batch.push(Color::RED, b.polygon.clone());
}
}
self.highlight = ctx.upload(batch);
}
fn hovering_on_amenity(&mut self, ctx: &mut EventCtx, app: &App, amenity: Option<String>) {
if amenity.is_none() {
self.hovering_on_amenity = None;
return;
}
let amenity = amenity.unwrap();
if self
.hovering_on_amenity
.as_ref()
.map(|(current, _)| current == &amenity)
.unwrap_or(false)
{
return;
}
let mut batch = GeomBatch::new();
if self.counts.get(amenity.clone()) > 0 {
for b in app.map.all_buildings() {
if b.amenities.iter().any(|a| a.amenity_type == amenity) {
batch.push(Color::BLUE, b.polygon.clone());
}
}
}
self.hovering_on_amenity = Some((amenity, ctx.upload(batch)));
}
fn render(&self, ctx: &mut EventCtx) -> Widget {
let mut col = Vec::new();
col.push(
ctx.style()
.btn_solid_dark_text("Hide business search")
.hotkey(Key::Tab)
.build_def(ctx),
);
col.push(
format!("{} businesses total", prettyprint_usize(self.counts.sum())).draw_text(ctx),
);
for (amenity, cnt) in self.counts.borrow() {
col.push(Checkbox::custom_checkbox(
ctx,
amenity,
vec![Line(format!("{}: {}", amenity, prettyprint_usize(*cnt)))],
None,
self.show.contains(amenity),
));
}
Widget::col(col)
}
}
struct MinimapController;
impl MinimapControls<App> for MinimapController {
fn has_zorder(&self, _: &App) -> bool {
true
}
fn make_legend(&self, _: &mut EventCtx, _: &App) -> Widget {
Widget::nothing()
}
}