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use std::collections::HashSet;
use std::fmt;
use serde::{Deserialize, Serialize};
use crate::{Distance, GPSBounds, Line, PolyLine, Polygon, Pt2D};
#[derive(Clone, Debug, PartialEq, Serialize, Deserialize)]
pub struct Ring {
pts: Vec<Pt2D>,
}
impl Ring {
pub fn new(pts: Vec<Pt2D>) -> Result<Ring, String> {
if pts.len() < 3 {
return Err(format!("Can't make a ring with < 3 points"));
}
if pts[0] != *pts.last().unwrap() {
return Err(format!(
"Can't make a ring with mismatching first/last points"
));
}
if pts.windows(2).any(|pair| pair[0] == pair[1]) {
return Err(format!("Ring has ~dupe adjacent pts"));
}
let result = Ring { pts };
let mut seen_pts = HashSet::new();
for pt in result.pts.iter().skip(1) {
seen_pts.insert(pt.to_hashable());
}
if seen_pts.len() != result.pts.len() - 1 {
return Err(format!("Ring has repeat non-adjacent points"));
}
Ok(result)
}
pub fn must_new(pts: Vec<Pt2D>) -> Ring {
Ring::new(pts).unwrap()
}
pub fn to_outline(&self, thickness: Distance) -> Polygon {
PolyLine::unchecked_new(self.pts.clone()).make_polygons(thickness)
}
pub fn to_polygon(self) -> Polygon {
Polygon::with_holes(self, Vec::new())
}
pub fn points(&self) -> &Vec<Pt2D> {
&self.pts
}
pub fn into_points(self) -> Vec<Pt2D> {
self.pts
}
pub fn all_intersections(&self, other: &PolyLine) -> Vec<Pt2D> {
let mut hits = Vec::new();
let mut seen = HashSet::new();
for l1 in other.lines() {
for l2 in self
.pts
.windows(2)
.map(|pair| Line::must_new(pair[0], pair[1]))
{
if let Some(pt) = l1.intersection(&l2) {
if !seen.contains(&pt.to_hashable()) {
hits.push(pt);
seen.insert(pt.to_hashable());
}
}
}
}
hits
}
pub(crate) fn get_both_slices_btwn(
&self,
pt1: Pt2D,
pt2: Pt2D,
) -> Option<(PolyLine, PolyLine)> {
assert!(pt1 != pt2);
let pl = PolyLine::unchecked_new(self.pts.clone());
let mut dist1 = pl.dist_along_of_point(pt1)?.0;
let mut dist2 = pl.dist_along_of_point(pt2)?.0;
if dist1 > dist2 {
std::mem::swap(&mut dist1, &mut dist2);
}
if dist1 == dist2 {
return None;
}
let candidate1 = pl.maybe_exact_slice(dist1, dist2).ok()?;
let candidate2 = pl
.maybe_exact_slice(dist2, pl.length())
.ok()?
.must_extend(pl.maybe_exact_slice(Distance::ZERO, dist1).ok()?);
Some((candidate1, candidate2))
}
pub fn get_shorter_slice_btwn(&self, pt1: Pt2D, pt2: Pt2D) -> Option<PolyLine> {
let (candidate1, candidate2) = self.get_both_slices_btwn(pt1, pt2)?;
if candidate1.length() < candidate2.length() {
Some(candidate1)
} else {
Some(candidate2)
}
}
pub fn split_points(pts: &Vec<Pt2D>) -> Result<(Vec<PolyLine>, Vec<Ring>), String> {
let mut seen = HashSet::new();
let mut intersections = HashSet::new();
for pt in pts {
let pt = pt.to_hashable();
if seen.contains(&pt) {
intersections.insert(pt);
} else {
seen.insert(pt);
}
}
intersections.insert(pts[0].to_hashable());
intersections.insert(pts.last().unwrap().to_hashable());
let mut polylines = Vec::new();
let mut rings = Vec::new();
let mut current = Vec::new();
for pt in pts.iter().cloned() {
current.push(pt);
if intersections.contains(&pt.to_hashable()) && current.len() > 1 {
if current[0] == pt && current.len() >= 3 {
rings.push(Ring::must_new(current.drain(..).collect()));
} else {
polylines.push(PolyLine::new(current.drain(..).collect())?);
}
current.push(pt);
}
}
Ok((polylines, rings))
}
pub fn contains_pt(&self, pt: Pt2D) -> bool {
PolyLine::unchecked_new(self.pts.clone())
.dist_along_of_point(pt)
.is_some()
}
pub fn to_geojson(&self, gps: Option<&GPSBounds>) -> geojson::Geometry {
let mut pts = Vec::new();
if let Some(ref gps) = gps {
for pt in gps.convert_back(&self.pts) {
pts.push(vec![pt.x(), pt.y()]);
}
} else {
for pt in &self.pts {
pts.push(vec![pt.x(), pt.y()]);
}
}
geojson::Geometry::new(geojson::Value::Polygon(vec![pts]))
}
pub fn translate(mut self, dx: f64, dy: f64) -> Ring {
for pt in &mut self.pts {
*pt = pt.offset(dx, dy);
}
self
}
}
impl fmt::Display for Ring {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
writeln!(f, "Ring::new(vec![")?;
for pt in &self.pts {
writeln!(f, " Pt2D::new({}, {}),", pt.x(), pt.y())?;
}
write!(f, "])")
}
}