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use std::cmp::{Eq, Ordering};
use std::hash::{Hash, Hasher};
use prelude::*;
use distances_2d::*;
#[derive (Debug, PartialEq, PartialOrd, Default, Clone)]
pub struct FilterBox2D {
center: Point2D,
size_x: Positive,
size_y: Positive
}
impl Eq for FilterBox2D {}
impl Ord for FilterBox2D {
fn cmp(&self, other: &Self) -> Ordering {
let origin = Point2D::default();
match sqr_dist_2d(&origin, &self.center).partial_cmp(&sqr_dist_2d(&origin, &other.center)) {
Some(x) => x,
None => match self.size_x.partial_cmp(&other.size_x) {
Some(x) => x,
None => self.size_y.partial_cmp(&other.size_y).unwrap_or(Ordering::Equal)
}
}
}
}
impl Hash for FilterBox2D {
fn hash<H: Hasher>(&self, state: &mut H) {
self.center.hash(state);
(self.size_x.get() as u64).hash(state);
(self.size_y.get() as u64).hash(state);
}
}
impl FilterBox2D {
pub fn new(center: Point2D, p_size_x: Positive, p_size_y: Positive) -> Self {
FilterBox2D {center: center, size_x: p_size_x, size_y: p_size_y}
}
}
impl IsND for FilterBox2D {
fn n_dimensions() -> usize {
2
}
fn get_position(&self, dimension: usize) -> Result<f64> {
self.center.get_position(dimension)
}
}
impl Is2D for FilterBox2D {
fn x(&self) -> f64 {
self.center.x()
}
fn y(&self) -> f64 {
self.center.y()
}
}
impl IsBuildableND for FilterBox2D {
fn new_nd(coords: &Vec<f64>) -> Result<Box<Self>> {
if coords.len() != 2 {
return Err(ErrorKind::DimensionsDontMatch);
}
Ok(Box::new(FilterBox2D::new(Point2D{x: coords[0], y: coords[1]}, Positive::one(), Positive::one())))
}
fn from_nd<P>(&mut self, other: P) -> Result<()> where
P: IsBuildableND {
if P::n_dimensions() != 2 {
return Err(ErrorKind::DimensionsDontMatch);
}
self.center.set_x(other.get_position(0)?);
self.center.set_y(other.get_position(1)?);
Ok(())
}
}
impl IsBuildable2D for FilterBox2D {
fn new(x: f64, y: f64) -> Box<Self> {
Box::new(FilterBox2D::new(Point2D{x: x, y: y}, Positive::one(), Positive::one()))
}
fn from<P>(&mut self, other: P) where
P: Is2D {
self.center.from(other)
}
}
impl IsEditableND for FilterBox2D {
fn set_position(&mut self, dimension: usize, val: f64) -> Result<()> {
match dimension {
0 => self.center.set_x(val),
1 => self.center.set_y(val),
_ => return Err(ErrorKind::DimensionsDontMatch),
}
Ok(())
}
}
impl IsEditable2D for FilterBox2D {
fn set_x(&mut self, val: f64) {
self.center.set_x(val);
}
fn set_y(&mut self, val: f64) {
self.center.set_y(val);
}
}
impl HasBoundingBox2D for FilterBox2D {
fn bounding_box(&self) -> Result<BoundingBox2D> {
let p_min = Point2D{x: self.center.x() - self.size_x.get() / 2.0, y: self.center.y() - self.size_y.get() / 2.0};
let p_max = Point2D{x: self.center.x() + self.size_x.get() / 2.0, y: self.center.y() + self.size_y.get() / 2.0};
BoundingBox2D::new(&p_min, &p_max)
}
}
impl<T> IsFilter<T> for FilterBox2D where
T: Is2D {
fn is_allowed(&self, p: &T) -> bool {
p.x() >= self.center.x() - self.size_x.get() / 2.0
&& p.x() <= self.center.x() + self.size_x.get() / 2.0
&& p.y() >= self.center.y() - self.size_y.get() / 2.0
&& p.y() <= self.center.y() + self.size_y.get() / 2.0
}
}
impl From<BoundingBox2D> for FilterBox2D {
fn from(x: BoundingBox2D) -> Self {
Self::new(x.center_bb(), x.size_x(), x.size_y())
}
}