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use super::{has_disjoint_bboxes, Intersects};
use crate::coordinate_position::CoordPos;
use crate::{BoundingRect, CoordinatePosition};
use crate::{
    Coord, CoordNum, GeoNum, Line, LineString, MultiLineString, MultiPolygon, Point, Polygon, Rect,
    Triangle,
};

impl<T> Intersects<Coord<T>> for Polygon<T>
where
    T: GeoNum,
{
    fn intersects(&self, p: &Coord<T>) -> bool {
        self.coordinate_position(p) != CoordPos::Outside
    }
}
symmetric_intersects_impl!(Coord<T>, Polygon<T>);
symmetric_intersects_impl!(Polygon<T>, Point<T>);

impl<T> Intersects<Line<T>> for Polygon<T>
where
    T: GeoNum,
{
    fn intersects(&self, line: &Line<T>) -> bool {
        self.exterior().intersects(line)
            || self.interiors().iter().any(|inner| inner.intersects(line))
            || self.intersects(&line.start)
            || self.intersects(&line.end)
    }
}
symmetric_intersects_impl!(Line<T>, Polygon<T>);
symmetric_intersects_impl!(Polygon<T>, LineString<T>);
symmetric_intersects_impl!(Polygon<T>, MultiLineString<T>);

impl<T> Intersects<Rect<T>> for Polygon<T>
where
    T: GeoNum,
{
    fn intersects(&self, rect: &Rect<T>) -> bool {
        self.intersects(&rect.to_polygon())
    }
}
symmetric_intersects_impl!(Rect<T>, Polygon<T>);

impl<T> Intersects<Triangle<T>> for Polygon<T>
where
    T: GeoNum,
{
    fn intersects(&self, rect: &Triangle<T>) -> bool {
        self.intersects(&rect.to_polygon())
    }
}
symmetric_intersects_impl!(Triangle<T>, Polygon<T>);

impl<T> Intersects<Polygon<T>> for Polygon<T>
where
    T: GeoNum,
{
    fn intersects(&self, polygon: &Polygon<T>) -> bool {
        if has_disjoint_bboxes(self, polygon) {
            return false;
        }

        // self intersects (or contains) any line in polygon
        self.intersects(polygon.exterior()) ||
            polygon.interiors().iter().any(|inner_line_string| self.intersects(inner_line_string)) ||
            // self is contained inside polygon
            polygon.intersects(self.exterior())
    }
}

// Implementations for MultiPolygon

impl<G, T> Intersects<G> for MultiPolygon<T>
where
    T: GeoNum,
    Polygon<T>: Intersects<G>,
    G: BoundingRect<T>,
{
    fn intersects(&self, rhs: &G) -> bool {
        if has_disjoint_bboxes(self, rhs) {
            return false;
        }
        self.iter().any(|p| p.intersects(rhs))
    }
}

symmetric_intersects_impl!(Point<T>, MultiPolygon<T>);
symmetric_intersects_impl!(Line<T>, MultiPolygon<T>);
symmetric_intersects_impl!(Rect<T>, MultiPolygon<T>);
symmetric_intersects_impl!(Triangle<T>, MultiPolygon<T>);
symmetric_intersects_impl!(Polygon<T>, MultiPolygon<T>);

#[cfg(test)]
mod tests {
    use crate::*;
    #[test]
    fn geom_intersects_geom() {
        let a = Geometry::<f64>::from(polygon![]);
        let b = Geometry::from(polygon![]);
        assert!(!a.intersects(&b));
    }
}