Struct geo::Triangle [−][src]
A bounded 2D area whose three vertices are defined by
Coordinate
s. The semantics and validity are that of
the equivalent Polygon
; in addition, the three
vertices must not be collinear and they must be distinct.
Implementations
impl<T> Triangle<T> where
T: CoordNum,
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T: CoordNum,
pub fn to_array(&self) -> [Coordinate<T>; 3]
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pub fn to_lines(&self) -> [Line<T>; 3]
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pub fn to_polygon(self) -> Polygon<T>
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Create a Polygon
from the Triangle
.
Examples
use geo_types::{Coordinate, Triangle, polygon}; let triangle = Triangle( Coordinate { x: 0., y: 0. }, Coordinate { x: 10., y: 20. }, Coordinate { x: 20., y: -10. }, ); assert_eq!( triangle.to_polygon(), polygon![ (x: 0., y: 0.), (x: 10., y: 20.), (x: 20., y: -10.), (x: 0., y: 0.), ], );
Trait Implementations
impl<T> Area<T> for Triangle<T> where
T: CoordFloat,
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T: CoordFloat,
fn signed_area(&self) -> T
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fn unsigned_area(&self) -> T
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impl<T> BoundingRect<T> for Triangle<T> where
T: CoordNum,
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T: CoordNum,
type Output = Rect<T>
fn bounding_rect(&self) -> Self::Output
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impl<T> Clone for Triangle<T> where
T: CoordNum + Clone,
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T: CoordNum + Clone,
impl<T> Contains<Coordinate<T>> for Triangle<T> where
T: GeoNum,
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T: GeoNum,
fn contains(&self, coord: &Coordinate<T>) -> bool
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impl<T> Contains<Point<T>> for Triangle<T> where
T: GeoNum,
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T: GeoNum,
impl<T> CoordinatePosition for Triangle<T> where
T: GeoNum,
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T: GeoNum,
type Scalar = T
fn calculate_coordinate_position(
&self,
coord: &Coordinate<T>,
is_inside: &mut bool,
boundary_count: &mut usize
)
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&self,
coord: &Coordinate<T>,
is_inside: &mut bool,
boundary_count: &mut usize
)
fn coordinate_position(&self, coord: &Coordinate<Self::Scalar>) -> CoordPos
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impl<'a, T: CoordNum + 'a> CoordsIter<'a> for Triangle<T>
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type Iter = Chain<Chain<Once<Coordinate<T>>, Once<Coordinate<T>>>, Once<Coordinate<T>>>
type ExteriorIter = Self::Iter
type Scalar = T
fn coords_iter(&'a self) -> Self::Iter
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fn coords_count(&'a self) -> usize
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Return the number of coordinates in the Triangle
.
fn exterior_coords_iter(&'a self) -> Self::ExteriorIter
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impl<T> Copy for Triangle<T> where
T: CoordNum + Copy,
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T: CoordNum + Copy,
impl<T> Debug for Triangle<T> where
T: CoordNum + Debug,
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T: CoordNum + Debug,
impl<T> Eq for Triangle<T> where
T: CoordNum + Eq,
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T: CoordNum + Eq,
impl<T> EuclideanDistance<T, Point<T>> for Triangle<T> where
T: GeoFloat,
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T: GeoFloat,
fn euclidean_distance(&self, point: &Point<T>) -> T
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impl<IC, T> From<[IC; 3]> for Triangle<T> where
T: CoordNum,
IC: Into<Coordinate<T>> + Copy,
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T: CoordNum,
IC: Into<Coordinate<T>> + Copy,
impl<T> From<Triangle<T>> for Polygon<T> where
T: CoordNum,
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T: CoordNum,
impl<T> From<Triangle<T>> for Geometry<T> where
T: CoordNum,
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T: CoordNum,
impl<C: CoordNum> HasDimensions for Triangle<C>
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fn is_empty(&self) -> bool
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fn dimensions(&self) -> Dimensions
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fn boundary_dimensions(&self) -> Dimensions
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impl<T> Hash for Triangle<T> where
T: CoordNum + Hash,
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T: CoordNum + Hash,
pub fn hash<__H>(&self, state: &mut __H) where
__H: Hasher,
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__H: Hasher,
pub fn hash_slice<H>(data: &[Self], state: &mut H) where
H: Hasher,
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H: Hasher,
impl<T, G> Intersects<G> for Triangle<T> where
T: CoordNum,
Polygon<T>: Intersects<G>,
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T: CoordNum,
Polygon<T>: Intersects<G>,
fn intersects(&self, rhs: &G) -> bool
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impl<T> Intersects<Triangle<T>> for Coordinate<T> where
Triangle<T>: Intersects<Coordinate<T>>,
T: CoordNum,
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Triangle<T>: Intersects<Coordinate<T>>,
T: CoordNum,
fn intersects(&self, rhs: &Triangle<T>) -> bool
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impl<T> Intersects<Triangle<T>> for Line<T> where
Triangle<T>: Intersects<Line<T>>,
T: CoordNum,
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Triangle<T>: Intersects<Line<T>>,
T: CoordNum,
fn intersects(&self, rhs: &Triangle<T>) -> bool
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impl<T> Intersects<Triangle<T>> for Rect<T> where
Triangle<T>: Intersects<Rect<T>>,
T: CoordNum,
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Triangle<T>: Intersects<Rect<T>>,
T: CoordNum,
fn intersects(&self, rhs: &Triangle<T>) -> bool
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impl<T> Intersects<Triangle<T>> for Polygon<T> where
Triangle<T>: Intersects<Polygon<T>>,
T: CoordNum,
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Triangle<T>: Intersects<Polygon<T>>,
T: CoordNum,
fn intersects(&self, rhs: &Triangle<T>) -> bool
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impl<T: CoordNum, NT: CoordNum> MapCoords<T, NT> for Triangle<T>
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type Output = Triangle<NT>
fn map_coords(&self, func: impl Fn(&(T, T)) -> (NT, NT) + Copy) -> Self::Output
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impl<T: CoordNum> MapCoordsInplace<T> for Triangle<T>
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impl<T> PartialEq<Triangle<T>> for Triangle<T> where
T: CoordNum + PartialEq<T>,
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T: CoordNum + PartialEq<T>,
pub fn eq(&self, other: &Triangle<T>) -> bool
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pub fn ne(&self, other: &Triangle<T>) -> bool
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impl<T> StructuralEq for Triangle<T> where
T: CoordNum,
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T: CoordNum,
impl<T> StructuralPartialEq for Triangle<T> where
T: CoordNum,
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T: CoordNum,
impl<T> TryFrom<Geometry<T>> for Triangle<T> where
T: CoordNum,
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T: CoordNum,
Convert a Geometry enum into its inner type.
Fails if the enum case does not match the type you are trying to convert it to.
type Error = Error
The type returned in the event of a conversion error.
pub fn try_from(
geom: Geometry<T>
) -> Result<Triangle<T>, <Triangle<T> as TryFrom<Geometry<T>>>::Error>
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geom: Geometry<T>
) -> Result<Triangle<T>, <Triangle<T> as TryFrom<Geometry<T>>>::Error>
impl<T: CoordNum, NT: CoordNum> TryMapCoords<T, NT> for Triangle<T>
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Auto Trait Implementations
impl<T> RefUnwindSafe for Triangle<T> where
T: RefUnwindSafe,
T: RefUnwindSafe,
impl<T> Send for Triangle<T> where
T: Send,
T: Send,
impl<T> Sync for Triangle<T> where
T: Sync,
T: Sync,
impl<T> Unpin for Triangle<T> where
T: Unpin,
T: Unpin,
impl<T> UnwindSafe for Triangle<T> where
T: UnwindSafe,
T: UnwindSafe,
Blanket Implementations
impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> Borrow<T> for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
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T: ?Sized,
pub fn borrow_mut(&mut self) -> &mut T
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impl<'a, T, G> Extremes<'a, T> for G where
T: CoordNum,
G: CoordsIter<'a, Scalar = T>,
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T: CoordNum,
G: CoordsIter<'a, Scalar = T>,
impl<T> From<T> for T
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impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<T, G> RotatePoint<T> for G where
T: CoordFloat,
G: MapCoords<T, T, Output = G>,
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T: CoordFloat,
G: MapCoords<T, T, Output = G>,
pub fn rotate_around_point(&Self, T, Point<T>) -> G
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impl<T> Same<T> for T
type Output = T
Should always be Self
impl<T> ToOwned for T where
T: Clone,
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T: Clone,
type Owned = T
The resulting type after obtaining ownership.
pub fn to_owned(&self) -> T
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pub fn clone_into(&self, target: &mut T)
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impl<T, G> Translate<T> for G where
T: CoordNum,
G: MapCoords<T, T, Output = G> + MapCoordsInplace<T>,
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T: CoordNum,
G: MapCoords<T, T, Output = G> + MapCoordsInplace<T>,
impl<T, U> TryFrom<U> for T where
U: Into<T>,
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U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
pub fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,