use crate::{CoordFloat, InterpolatePoint, Point, Rhumb};
use num_traits::FromPrimitive;
#[deprecated(
since = "0.29.0",
note = "Please use the `InterpolatePoint` trait instead"
)]
pub trait RhumbIntermediate<T: CoordFloat> {
#[deprecated(
since = "0.29.0",
note = "Please use `Rhumb.point_at_ratio_between` from the `InterpolatePoint` trait instead"
)]
fn rhumb_intermediate(&self, other: &Point<T>, f: T) -> Point<T>;
#[deprecated(
since = "0.29.0",
note = "Please use `Rhumb.points_along_line` from the `InterpolatePoint` trait instead"
)]
fn rhumb_intermediate_fill(
&self,
other: &Point<T>,
max_dist: T,
include_ends: bool,
) -> Vec<Point<T>>;
}
#[allow(deprecated)]
impl<T> RhumbIntermediate<T> for Point<T>
where
T: CoordFloat + FromPrimitive,
{
fn rhumb_intermediate(&self, other: &Point<T>, f: T) -> Point<T> {
Rhumb.point_at_ratio_between(*self, *other, f)
}
fn rhumb_intermediate_fill(
&self,
other: &Point<T>,
max_dist: T,
include_ends: bool,
) -> Vec<Point<T>> {
Rhumb
.points_along_line(*self, *other, max_dist, include_ends)
.collect()
}
}
#[cfg(test)]
mod test {
use super::*;
#[allow(deprecated)]
use crate::RhumbIntermediate;
#[test]
fn f_is_zero_or_one_test() {
let p1 = Point::new(10.0, 20.0);
let p2 = Point::new(15.0, 25.0);
#[allow(deprecated)]
let i0 = p1.rhumb_intermediate(&p2, 0.0);
#[allow(deprecated)]
let i100 = p1.rhumb_intermediate(&p2, 1.0);
assert_relative_eq!(i0.x(), p1.x(), epsilon = 1.0e-6);
assert_relative_eq!(i0.y(), p1.y(), epsilon = 1.0e-6);
assert_relative_eq!(i100.x(), p2.x(), epsilon = 1.0e-6);
assert_relative_eq!(i100.y(), p2.y(), epsilon = 1.0e-6);
}
#[test]
fn various_f_values_test() {
let p1 = Point::new(10.0, 20.0);
let p2 = Point::new(125.0, 25.0);
#[allow(deprecated)]
let i20 = p1.rhumb_intermediate(&p2, 0.2);
#[allow(deprecated)]
let i50 = p1.rhumb_intermediate(&p2, 0.5);
#[allow(deprecated)]
let i80 = p1.rhumb_intermediate(&p2, 0.8);
let i20_should = Point::new(32.6766, 21.0);
let i50_should = Point::new(66.9801, 22.5);
let i80_should = Point::new(101.6577, 24.0);
assert_relative_eq!(i20.x(), i20_should.x(), epsilon = 0.2);
assert_relative_eq!(i20.y(), i20_should.y(), epsilon = 0.2);
assert_relative_eq!(i50.x(), i50_should.x(), epsilon = 0.2);
assert_relative_eq!(i50.y(), i50_should.y(), epsilon = 0.2);
assert_relative_eq!(i80.x(), i80_should.x(), epsilon = 0.2);
assert_relative_eq!(i80.y(), i80_should.y(), epsilon = 0.2);
}
#[test]
fn should_be_straight_across_test() {
let p1 = Point::new(0.0, 10.0);
let p2 = Point::new(180.0, 10.0);
#[allow(deprecated)]
let i50 = p1.rhumb_intermediate(&p2, 0.5);
let i50_should = Point::new(90.0, 10.0);
assert_relative_eq!(i50.x(), i50_should.x(), epsilon = 1.0e-6);
assert_relative_eq!(i50.y(), i50_should.y(), epsilon = 1.0e-6);
}
#[test]
fn should_be_start_end_test() {
let p1 = Point::new(30.0, 40.0);
let p2 = Point::new(40.0, 50.0);
let max_dist = 1500000.0; let include_ends = true;
#[allow(deprecated)]
let route = p1.rhumb_intermediate_fill(&p2, max_dist, include_ends);
assert_eq!(route, vec![p1, p2]);
}
#[test]
fn should_add_i50_test() {
let p1 = Point::new(30.0, 40.0);
let p2 = Point::new(40.0, 50.0);
let max_dist = 1000000.0; let include_ends = true;
#[allow(deprecated)]
let i50 = p1.clone().rhumb_intermediate(&p2, 0.5);
#[allow(deprecated)]
let route = p1.rhumb_intermediate_fill(&p2, max_dist, include_ends);
assert_eq!(route, vec![p1, i50, p2]);
}
#[test]
fn should_add_i25_i50_i75_test() {
let p1 = Point::new(30.0, 40.0);
let p2 = Point::new(40.0, 50.0);
let max_dist = 400000.0; let include_ends = true;
#[allow(deprecated)]
let i25 = p1.clone().rhumb_intermediate(&p2, 0.25);
#[allow(deprecated)]
let i50 = p1.clone().rhumb_intermediate(&p2, 0.5);
#[allow(deprecated)]
let i75 = p1.clone().rhumb_intermediate(&p2, 0.75);
#[allow(deprecated)]
let route = p1.rhumb_intermediate_fill(&p2, max_dist, include_ends);
assert_eq!(route, vec![p1, i25, i50, i75, p2]);
}
}