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use std::fmt;
use std::io::{BufRead, BufReader, Write};
use anyhow::Result;
use fs_err::File;
use geojson::{GeoJson, Value};
use ordered_float::NotNan;
use serde::{Deserialize, Serialize};
use crate::{Distance, GPSBounds, Pt2D};
#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Debug, Serialize, Deserialize)]
pub struct LonLat {
longitude: NotNan<f64>,
latitude: NotNan<f64>,
}
impl LonLat {
pub fn new(lon: f64, lat: f64) -> LonLat {
LonLat {
longitude: NotNan::new(lon).unwrap(),
latitude: NotNan::new(lat).unwrap(),
}
}
pub fn x(self) -> f64 {
self.longitude.into_inner()
}
pub fn y(self) -> f64 {
self.latitude.into_inner()
}
pub fn to_pt(self, b: &GPSBounds) -> Pt2D {
let (width, height) = {
let pt = b.get_max_world_pt();
(pt.x(), pt.y())
};
let x = (self.x() - b.min_lon) / (b.max_lon - b.min_lon) * width;
let y = height - ((self.y() - b.min_lat) / (b.max_lat - b.min_lat) * height);
Pt2D::new(x, y)
}
pub(crate) fn gps_dist(self, other: LonLat) -> Distance {
let earth_radius_m = 6_371_000.0;
let lon1 = self.x().to_radians();
let lon2 = other.x().to_radians();
let lat1 = self.y().to_radians();
let lat2 = other.y().to_radians();
let delta_lat = lat2 - lat1;
let delta_lon = lon2 - lon1;
let a = (delta_lat / 2.0).sin().powi(2)
+ (delta_lon / 2.0).sin().powi(2) * lat1.cos() * lat2.cos();
let c = 2.0 * a.sqrt().atan2((1.0 - a).sqrt());
Distance::meters(earth_radius_m * c)
}
pub fn fast_dist(self, other: LonLat) -> NotNan<f64> {
NotNan::new((self.x() - other.x()).powi(2) + (self.y() - other.y()).powi(2)).unwrap()
}
pub fn read_osmosis_polygon(path: &str) -> Result<Vec<LonLat>> {
let f = File::open(path)?;
let mut pts = Vec::new();
for (idx, line) in BufReader::new(f).lines().enumerate() {
if idx < 2 {
continue;
}
let line = line?;
if line == "END" {
break;
}
let parts = line.trim().split(" ").collect::<Vec<_>>();
pts.push(LonLat::new(
parts[0].parse::<f64>()?,
parts[1].parse::<f64>()?,
));
}
Ok(pts)
}
pub fn write_osmosis_polygon(path: &str, pts: &[LonLat]) -> Result<()> {
let mut f = File::create(path)?;
writeln!(f, "boundary")?;
writeln!(f, "1")?;
for pt in pts {
writeln!(f, " {} {}", pt.x(), pt.y())?;
}
writeln!(f, "END")?;
writeln!(f, "END")?;
Ok(())
}
pub fn center(pts: &[LonLat]) -> LonLat {
if pts.is_empty() {
panic!("Can't find center of 0 points");
}
let mut x = 0.0;
let mut y = 0.0;
for pt in pts {
x += pt.x();
y += pt.y();
}
let len = pts.len() as f64;
LonLat::new(x / len, y / len)
}
pub fn parse_wkt_linestring(raw: &str) -> Option<Vec<LonLat>> {
let mut pts = Vec::new();
for pair in raw
.strip_prefix("LINESTRING (")?
.strip_suffix(')')?
.split(", ")
{
let mut nums = Vec::new();
for x in pair.split(' ') {
nums.push(x.parse::<f64>().ok()?);
}
if nums.len() != 2 {
return None;
}
pts.push(LonLat::new(nums[0], nums[1]));
}
if pts.len() < 2 {
return None;
}
Some(pts)
}
pub fn parse_geojson_polygons(raw: String) -> Result<Vec<(Vec<LonLat>, Option<String>)>> {
let geojson = raw.parse::<GeoJson>()?;
let features = match geojson {
GeoJson::Feature(feature) => vec![feature],
GeoJson::FeatureCollection(feature_collection) => feature_collection.features,
_ => anyhow::bail!("Unexpected geojson: {:?}", geojson),
};
let mut polygons = Vec::new();
for mut feature in features {
let points = match feature.geometry.take().map(|g| g.value) {
Some(Value::MultiPolygon(multi_polygon)) => multi_polygon[0][0].clone(),
Some(Value::Polygon(polygon)) => polygon[0].clone(),
_ => {
anyhow::bail!("Unexpected feature: {:?}", feature);
}
};
let name = feature
.property("name")
.and_then(|value| value.as_str())
.map(|x| x.to_string());
polygons.push((
points
.into_iter()
.map(|pt| LonLat::new(pt[0], pt[1]))
.collect(),
name,
));
}
Ok(polygons)
}
}
impl fmt::Display for LonLat {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "LonLat({0}, {1})", self.x(), self.y())
}
}
impl From<LonLat> for geo::Point<f64> {
fn from(pt: LonLat) -> Self {
geo::Point::new(pt.x(), pt.y())
}
}