Flesh out the OSM viewer:

- outline around fixed objects
- open OSM keys in the wiki
- info panels for buildings, intersections, and parking lots
- show turns from lanes
This commit is contained in:
Dustin Carlino 2020-10-24 11:38:19 -07:00
parent 8339c893eb
commit 6fef09fb8d
3 changed files with 136 additions and 50 deletions

View File

@ -1,7 +1,9 @@
use abstutil::prettyprint_usize;
use geom::ArrowCap;
use map_model::osm;
use widgetry::{
lctrl, Btn, EventCtx, GfxCtx, HorizontalAlignment, Key, Line, Outcome, Panel, State, TextExt,
VerticalAlignment, Widget,
lctrl, Btn, Drawable, EventCtx, GeomBatch, GfxCtx, HorizontalAlignment, Key, Line, Outcome,
Panel, State, Text, TextExt, VerticalAlignment, Widget,
};
use crate::app::App;
@ -9,10 +11,12 @@ use crate::common::{CityPicker, Navigator};
use crate::game::{PopupMsg, Transition};
use crate::helpers::{nice_map_name, open_browser, ID};
use crate::options::OptionsPanel;
use crate::render::BIG_ARROW_THICKNESS;
use crate::sandbox::TurnExplorer;
pub struct Viewer {
top_panel: Panel,
object_fixed: bool,
fixed_object_outline: Option<Drawable>,
}
impl Viewer {
@ -52,20 +56,20 @@ impl Viewer {
.aligned(HorizontalAlignment::Right, VerticalAlignment::Top)
.exact_size_percent(35, 80)
.build(ctx),
object_fixed: false,
fixed_object_outline: None,
})
}
fn update_tags(&mut self, ctx: &mut EventCtx, app: &App) {
let mut col = Vec::new();
match app.primary.current_selection {
Some(ID::Lane(l)) => {
if self.object_fixed {
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.primary.current_selection {
Some(ID::Lane(l)) => {
let r = app.primary.map.get_parent(l);
col.push(
Btn::text_bg2(format!("Open OSM way {}", r.orig_id.osm_way_id.0)).build(
@ -90,23 +94,83 @@ impl Viewer {
if tags.contains_key(osm::INFERRED_SIDEWALKS) && k == osm::SIDEWALK {
continue;
}
if self.object_fixed {
col.push(Widget::row(vec![
Line(k).draw(ctx),
Btn::plaintext(k).build(
ctx,
format!("open https://wiki.openstreetmap.org/wiki/Key:{}", k),
None,
),
Line(v).draw(ctx).align_right(),
]));
}
}
Some(ID::Intersection(i)) => {
let i = app.primary.map.get_i(i);
col.push(
Btn::text_bg2(format!("Open OSM node {}", i.orig_id.0)).build(
ctx,
format!("open {}", i.orig_id),
None,
),
);
}
Some(ID::Building(b)) => {
let b = app.primary.map.get_b(b);
col.push(
Btn::text_bg2(format!("Open OSM ID {}", b.orig_id.inner())).build(
ctx,
format!("open {}", b.orig_id),
None,
),
);
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 {
col.push(Widget::row(vec![
Line(k).secondary().draw(ctx),
Line(v).secondary().draw(ctx).align_right(),
]));
txt.add(Line(format!("{} amenities:", b.amenities.len())));
}
for (names, amenity) in &b.amenities {
txt.add(Line(format!(
" {} ({})",
names.get(app.opts.language.as_ref()),
amenity
)));
}
}
col.push(txt.draw(ctx));
}
Some(ID::ParkingLot(pl)) => {
let pl = app.primary.map.get_pl(pl);
col.push(
Btn::text_bg2(format!("Open OSM ID {}", pl.osm_id.inner())).build(
ctx,
format!("open {}", pl.osm_id),
None,
),
);
col.push(
format!(
"Estimated parking spots: {}",
prettyprint_usize(pl.capacity())
)
.draw_text(ctx),
);
}
_ => {
col.push("Zoom in and select something to begin".draw_text(ctx));
col = vec!["Zoom in and select something to begin".draw_text(ctx)];
}
}
};
self.top_panel
.replace(ctx, "tags", Widget::col(col).named("tags"));
}
@ -119,20 +183,37 @@ impl State<App> for Viewer {
let old_id = app.primary.current_selection.clone();
app.recalculate_current_selection(ctx);
if !self.object_fixed && old_id != app.primary.current_selection {
if self.fixed_object_outline.is_none() && old_id != app.primary.current_selection {
self.update_tags(ctx, app);
}
}
if self.object_fixed {
if ctx.canvas.get_cursor_in_map_space().is_some() && ctx.normal_left_click() {
self.object_fixed = false;
self.update_tags(ctx, app);
if let Some(id) = app.primary.current_selection.clone() {
// get_obj must succeed, because we can only click static map elements.
let outline = app
.primary
.draw_map
.get_obj(ctx, id, app, &mut app.primary.draw_map.agents.borrow_mut())
.unwrap()
.get_outline(&app.primary.map);
let mut batch = GeomBatch::from(vec![(app.cs.perma_selected_object, outline)]);
if let Some(ID::Lane(l)) = app.primary.current_selection {
for turn in app.primary.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 {
if ctx.canvas.get_cursor_in_map_space().is_some() && ctx.normal_left_click() {
self.object_fixed = true;
self.update_tags(ctx, app);
self.fixed_object_outline = None;
}
self.update_tags(ctx, app);
}
match self.top_panel.event(ctx) {
@ -189,5 +270,8 @@ impl State<App> for Viewer {
fn draw(&self, g: &mut GfxCtx, _: &App) {
self.top_panel.draw(g);
if let Some(ref d) = self.fixed_object_outline {
g.redraw(d);
}
}
}

View File

@ -129,7 +129,7 @@ impl State<App> for TurnExplorer {
if self.idx == 0 {
for turn in &app.primary.map.get_turns_from_lane(self.l) {
g.draw_polygon(
color_turn_type(turn.turn_type).alpha(0.5),
TurnExplorer::color_turn_type(turn.turn_type).alpha(0.5),
turn.geom
.make_arrow(BIG_ARROW_THICKNESS, ArrowCap::Triangle),
);
@ -200,28 +200,28 @@ impl TurnExplorer {
if app.primary.map.get_l(l).is_walkable() {
col.push(ColorLegend::row(
ctx,
color_turn_type(TurnType::Crosswalk),
TurnExplorer::color_turn_type(TurnType::Crosswalk),
"crosswalk",
));
col.push(ColorLegend::row(
ctx,
color_turn_type(TurnType::SharedSidewalkCorner),
TurnExplorer::color_turn_type(TurnType::SharedSidewalkCorner),
"sidewalk connection",
));
} else {
col.push(ColorLegend::row(
ctx,
color_turn_type(TurnType::Straight),
TurnExplorer::color_turn_type(TurnType::Straight),
"straight",
));
col.push(ColorLegend::row(
ctx,
color_turn_type(TurnType::Right),
TurnExplorer::color_turn_type(TurnType::Right),
"right turn",
));
col.push(ColorLegend::row(
ctx,
color_turn_type(TurnType::Left),
TurnExplorer::color_turn_type(TurnType::Left),
"left turn",
));
}
@ -247,10 +247,10 @@ impl TurnExplorer {
.aligned(HorizontalAlignment::Center, VerticalAlignment::Top)
.build(ctx)
}
}
// Since this is extremely localized and probably changing, not going to put this in ColorScheme.
fn color_turn_type(t: TurnType) -> Color {
// Since this is extremely localized and probably changing, not going to put this in
// ColorScheme.
pub fn color_turn_type(t: TurnType) -> Color {
match t {
TurnType::SharedSidewalkCorner => Color::BLACK,
TurnType::Crosswalk => Color::WHITE,
@ -258,6 +258,7 @@ fn color_turn_type(t: TurnType) -> Color {
TurnType::Right => Color::GREEN,
TurnType::Left => Color::RED,
}
}
}
const CURRENT_TURN: Color = Color::GREEN;

View File

@ -11,7 +11,8 @@ use widgetry::{
Text, TextExt, UpdateType, VerticalAlignment, Widget,
};
use self::misc_tools::{RoutePreview, TurnExplorer};
use self::misc_tools::RoutePreview;
pub use self::misc_tools::TurnExplorer;
use crate::app::App;
use crate::common::{tool_panel, CommonState, ContextualActions, IsochroneViewer, Minimap};
use crate::debug::DebugMode;