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https://github.com/a-b-street/abstreet.git
synced 2024-12-27 00:12:55 +03:00
better selection polygons for polyline-based things
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parent
2454704b6b
commit
9b848c894a
@ -1,11 +1,12 @@
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use crate::helpers::{ColorScheme, ID};
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use crate::render::{DrawCtx, DrawOptions, Renderable};
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use crate::render::{DrawCtx, DrawOptions, Renderable, OUTLINE_THICKNESS};
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use ezgui::{Color, Drawable, GfxCtx, Prerender};
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use geom::{Distance, Polygon};
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use geom::{Distance, PolyLine, Polygon, Pt2D};
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use map_model::{BusStop, BusStopID, Map, LANE_THICKNESS};
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pub struct DrawBusStop {
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pub id: BusStopID,
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polyline: PolyLine,
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polygon: Polygon,
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zorder: isize,
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@ -18,13 +19,11 @@ impl DrawBusStop {
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// Kinda sad that bus stops might be very close to the start of the lane, but it's
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// happening.
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let lane = map.get_l(stop.id.sidewalk);
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let polygon = lane
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.lane_center_pts
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.exact_slice(
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Distance::ZERO.max(stop.sidewalk_pos.dist_along() - radius),
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lane.length().min(stop.sidewalk_pos.dist_along() + radius),
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)
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.make_polygons(LANE_THICKNESS * 0.8);
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let polyline = lane.lane_center_pts.exact_slice(
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Distance::ZERO.max(stop.sidewalk_pos.dist_along() - radius),
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lane.length().min(stop.sidewalk_pos.dist_along() + radius),
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);
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let polygon = polyline.make_polygons(LANE_THICKNESS * 0.8);
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let draw_default = prerender.upload_borrowed(vec![(
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cs.get_def("bus stop marking", Color::rgba(220, 160, 220, 0.8)),
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&polygon,
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@ -32,6 +31,7 @@ impl DrawBusStop {
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DrawBusStop {
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id: stop.id,
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polyline,
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polygon,
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zorder: map.get_parent(lane.id).get_zorder(),
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draw_default,
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@ -53,8 +53,13 @@ impl Renderable for DrawBusStop {
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}
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fn get_outline(&self, _: &Map) -> Polygon {
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// TODO need PolyLine->boundary
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self.polygon.clone()
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self.polyline
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.to_thick_boundary(LANE_THICKNESS * 0.8, OUTLINE_THICKNESS)
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.unwrap_or_else(|| self.polygon.clone())
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}
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fn contains_pt(&self, pt: Pt2D, _: &Map) -> bool {
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self.polygon.contains_pt(pt)
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}
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fn get_zorder(&self) -> isize {
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@ -1,5 +1,5 @@
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use crate::helpers::{ColorScheme, ID};
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use crate::render::{should_draw_blinkers, DrawCtx, DrawOptions, Renderable};
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use crate::render::{should_draw_blinkers, DrawCtx, DrawOptions, Renderable, OUTLINE_THICKNESS};
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use ezgui::{Color, Drawable, GfxCtx, Prerender};
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use geom::{Angle, Circle, Distance, PolyLine, Polygon, Pt2D};
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use map_model::{Map, TurnType};
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@ -9,6 +9,7 @@ const CAR_WIDTH: Distance = Distance::const_meters(2.0);
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pub struct DrawCar {
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pub id: CarID,
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body: PolyLine,
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body_polygon: Polygon,
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// Optional and could be empty for super short cars near borders.
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window_polygons: Vec<Polygon>,
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@ -90,6 +91,7 @@ impl DrawCar {
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DrawCar {
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id: input.id,
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body: input.body,
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body_polygon,
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window_polygons: vec![front_window, back_window],
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left_blinkers: Some((
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@ -177,8 +179,13 @@ impl Renderable for DrawCar {
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}
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fn get_outline(&self, _: &Map) -> Polygon {
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// TODO need PolyLine->boundary
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self.body_polygon.clone()
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self.body
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.to_thick_boundary(CAR_WIDTH, OUTLINE_THICKNESS)
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.unwrap_or_else(|| self.body_polygon.clone())
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}
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fn contains_pt(&self, pt: Pt2D, _: &Map) -> bool {
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self.body_polygon.contains_pt(pt)
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}
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fn get_zorder(&self) -> isize {
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@ -1,8 +1,8 @@
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use crate::helpers::{ColorScheme, ID};
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use crate::render::{DrawCtx, DrawOptions, Renderable, BIG_ARROW_THICKNESS};
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use crate::render::{DrawCtx, DrawOptions, Renderable, BIG_ARROW_THICKNESS, OUTLINE_THICKNESS};
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use abstutil::Timer;
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use ezgui::{Color, Drawable, GfxCtx, Prerender};
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use geom::{Circle, Distance, Line, PolyLine, Polygon};
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use geom::{Circle, Distance, Line, PolyLine, Polygon, Pt2D};
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use map_model::{
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IntersectionType, Lane, LaneID, LaneType, Map, Road, LANE_THICKNESS, PARKING_SPOT_LENGTH,
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};
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@ -100,9 +100,15 @@ impl Renderable for DrawLane {
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}
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}
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fn get_outline(&self, _: &Map) -> Polygon {
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// TODO need PolyLine->boundary
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self.polygon.clone()
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fn get_outline(&self, map: &Map) -> Polygon {
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map.get_l(self.id)
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.lane_center_pts
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.to_thick_boundary(LANE_THICKNESS, OUTLINE_THICKNESS)
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.unwrap_or_else(|| self.polygon.clone())
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}
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fn contains_pt(&self, pt: Pt2D, _: &Map) -> bool {
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self.polygon.contains_pt(pt)
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}
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fn get_zorder(&self) -> isize {
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@ -39,7 +39,7 @@ const TURN_ICON_ARROW_THICKNESS: Distance = Distance::const_meters(0.15);
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const TURN_ICON_ARROW_LENGTH: Distance = Distance::const_meters(2.0);
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pub const CROSSWALK_LINE_THICKNESS: Distance = Distance::const_meters(0.25);
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pub const OUTLINE_THICKNESS: Distance = Distance::const_meters(1.5);
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pub const OUTLINE_THICKNESS: Distance = Distance::const_meters(0.5);
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// Does something belong here or as a method on ID? If it ONLY applies to renderable things, then
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// here. For example, trips aren't drawn, so it's meaningless to ask what their bounding box is.
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@ -1,7 +1,7 @@
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use crate::helpers::{ColorScheme, ID};
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use crate::render::{DrawCtx, DrawOptions, Renderable, BIG_ARROW_THICKNESS};
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use crate::render::{DrawCtx, DrawOptions, Renderable, BIG_ARROW_THICKNESS, OUTLINE_THICKNESS};
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use ezgui::{Color, Drawable, GfxCtx, Prerender};
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use geom::Polygon;
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use geom::{Polygon, Pt2D};
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use map_model::{Map, Road, RoadID};
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pub struct DrawRoad {
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@ -34,8 +34,16 @@ impl Renderable for DrawRoad {
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}
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fn get_outline(&self, map: &Map) -> Polygon {
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// TODO need PolyLine->boundary
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map.get_r(self.id).get_thick_polygon().unwrap()
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let (pl, width) = map.get_r(self.id).get_thick_polyline().unwrap();
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pl.to_thick_boundary(width, OUTLINE_THICKNESS)
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.unwrap_or_else(|| map.get_r(self.id).get_thick_polygon().unwrap())
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}
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fn contains_pt(&self, pt: Pt2D, map: &Map) -> bool {
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map.get_r(self.id)
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.get_thick_polygon()
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.unwrap()
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.contains_pt(pt)
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}
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fn get_zorder(&self) -> isize {
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@ -121,7 +121,7 @@ impl UI {
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if self.primary.current_selection == Some(obj.get_id()) {
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g.draw_polygon(
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self.cs.get_def("selected", Color::YELLOW.alpha(0.4)),
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self.cs.get_def("selected", Color::RED.alpha(0.7)),
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&obj.get_outline(&ctx.map),
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);
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}
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@ -59,6 +59,27 @@ impl PolyLine {
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pl.make_polygons(thickness)
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}
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pub fn to_thick_boundary(
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&self,
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self_width: Distance,
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boundary_width: Distance,
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) -> Option<Polygon> {
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assert!(self_width > boundary_width);
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if self.length() <= boundary_width {
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return None;
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}
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let slice = self.exact_slice(boundary_width / 2.0, self.length() - boundary_width / 2.0);
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let mut side1 = slice.shift_with_sharp_angles((self_width - boundary_width) / 2.0);
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let mut side2 = slice.shift_with_sharp_angles(-(self_width - boundary_width) / 2.0);
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side2.reverse();
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side1.extend(side2);
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side1.push(side1[0]);
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Some(PolyLine::make_polygons_for_boundary(
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Pt2D::approx_dedupe(side1, EPSILON_DIST),
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boundary_width,
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))
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}
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pub fn reversed(&self) -> PolyLine {
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let mut pts = self.pts.clone();
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pts.reverse();
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@ -291,21 +291,26 @@ impl Road {
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search.iter().find(|(_, t)| lt == *t).map(|(id, _)| *id)
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}
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pub fn get_thick_polygon(&self) -> Warn<Polygon> {
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pub fn get_thick_polyline(&self) -> Warn<(PolyLine, Distance)> {
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let width_right = (self.children_forwards.len() as f64) * LANE_THICKNESS;
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let width_left = (self.children_backwards.len() as f64) * LANE_THICKNESS;
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let total_width = width_right + width_left;
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if width_right >= width_left {
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self.center_pts
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.shift_right((width_right - width_left) / 2.0)
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.map(|pl| pl.make_polygons(total_width))
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.map(|pl| (pl, total_width))
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} else {
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self.center_pts
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.shift_left((width_left - width_right) / 2.0)
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.map(|pl| pl.make_polygons(total_width))
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.map(|pl| (pl, total_width))
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}
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}
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pub fn get_thick_polygon(&self) -> Warn<Polygon> {
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self.get_thick_polyline()
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.map(|(pl, width)| pl.make_polygons(width))
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}
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// Also returns width. The polyline points the correct direction. None if no lanes that
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// direction.
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pub fn get_center_for_side(&self, fwds: bool) -> Option<Warn<(PolyLine, Distance)>> {
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