[−][src]Struct geo_types::Point
A single point in 2D space.
Points can be created using the new(x, y)
constructor, or from a Coordinate
or pair of points.
Examples
use geo_types::{Point, Coordinate}; let p1: Point<f64> = (0., 1.).into(); let c = Coordinate{ x: 10., y: 20.}; let p2: Point<f64> = c.into();
Methods
impl<T> Point<T> where
T: CoordinateType,
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T: CoordinateType,
pub fn new(x: T, y: T) -> Point<T>
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Creates a new point.
Examples
use geo_types::Point; let p = Point::new(1.234, 2.345); assert_eq!(p.x(), 1.234); assert_eq!(p.y(), 2.345);
pub fn x(self) -> T
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Returns the x/horizontal component of the point.
Examples
use geo_types::Point; let p = Point::new(1.234, 2.345); assert_eq!(p.x(), 1.234);
pub fn set_x(&mut self, x: T) -> &mut Point<T>
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Sets the x/horizontal component of the point.
Examples
use geo_types::Point; let mut p = Point::new(1.234, 2.345); p.set_x(9.876); assert_eq!(p.x(), 9.876);
pub fn y(self) -> T
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Returns the y/vertical component of the point.
Examples
use geo_types::Point; let p = Point::new(1.234, 2.345); assert_eq!(p.y(), 2.345);
pub fn set_y(&mut self, y: T) -> &mut Point<T>
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Sets the y/vertical component of the point.
Examples
use geo_types::Point; let mut p = Point::new(1.234, 2.345); p.set_y(9.876); assert_eq!(p.y(), 9.876);
pub fn x_y(self) -> (T, T)
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Returns a tuple that contains the x/horizontal & y/vertical component of the point.
Examples
use geo_types::Point; let mut p = Point::new(1.234, 2.345); let (x, y) = p.x_y(); assert_eq!(y, 2.345); assert_eq!(x, 1.234);
pub fn lng(self) -> T
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Returns the longitude/horizontal component of the point.
Examples
use geo_types::Point; let p = Point::new(1.234, 2.345); assert_eq!(p.lng(), 1.234);
pub fn set_lng(&mut self, lng: T) -> &mut Point<T>
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Sets the longitude/horizontal component of the point.
Examples
use geo_types::Point; let mut p = Point::new(1.234, 2.345); p.set_lng(9.876); assert_eq!(p.lng(), 9.876);
pub fn lat(self) -> T
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Returns the latitude/vertical component of the point.
Examples
use geo_types::Point; let p = Point::new(1.234, 2.345); assert_eq!(p.lat(), 2.345);
pub fn set_lat(&mut self, lat: T) -> &mut Point<T>
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Sets the latitude/vertical component of the point.
Examples
use geo_types::Point; let mut p = Point::new(1.234, 2.345); p.set_lat(9.876); assert_eq!(p.lat(), 9.876);
impl<T> Point<T> where
T: CoordinateType,
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T: CoordinateType,
pub fn dot(self, other: Point<T>) -> T
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Returns the dot product of the two points:
dot = x1 * x2 + y1 * y2
Examples
use geo_types::{Coordinate, Point}; let point = Point(Coordinate { x: 1.5, y: 0.5 }); let dot = point.dot(Point(Coordinate { x: 2.0, y: 4.5 })); assert_eq!(dot, 5.25);
pub fn cross_prod(self, point_b: Point<T>, point_c: Point<T>) -> T
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Returns the cross product of 3 points. A positive value implies
self
→ point_b
→ point_c
is counter-clockwise, negative implies
clockwise.
Examples
use geo_types::{Coordinate, Point}; let point_a = Point(Coordinate { x: 1., y: 2. }); let point_b = Point(Coordinate { x: 3., y: 5. }); let point_c = Point(Coordinate { x: 7., y: 12. }); let cross = point_a.cross_prod(point_b, point_c); assert_eq!(cross, 2.0)
impl<T> Point<T> where
T: CoordinateType + Float,
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T: CoordinateType + Float,
pub fn to_degrees(self) -> Point<T>
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Converts the (x,y) components of Point to degrees
Example
use geo_types::Point; let p = Point::new(1.234, 2.345); let (x,y): (f32, f32) = p.to_degrees().x_y(); assert_eq!(x.round(), 71.0); assert_eq!(y.round(), 134.0);
pub fn to_radians(self) -> Point<T>
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Converts the (x,y) components of Point to radians
Example
use geo_types::Point; let p = Point::new(180.0, 341.5); let (x,y): (f32, f32) = p.to_radians().x_y(); assert_eq!(x.round(), 3.0); assert_eq!(y.round(), 6.0);
Trait Implementations
impl<T: Clone> Clone for Point<T> where
T: CoordinateType,
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T: CoordinateType,
fn clone(&self) -> Point<T>
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fn clone_from(&mut self, source: &Self)
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Performs copy-assignment from source
. Read more
impl<T: PartialEq> PartialEq<Point<T>> for Point<T> where
T: CoordinateType,
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T: CoordinateType,
impl<T: CoordinateType> From<Point<T>> for Coordinate<T>
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impl<T: CoordinateType> From<Coordinate<T>> for Point<T>
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fn from(x: Coordinate<T>) -> Point<T>
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impl<T: CoordinateType> From<(T, T)> for Point<T>
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impl<T: CoordinateType> From<[T; 2]> for Point<T>
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impl<T: CoordinateType> From<Point<T>> for Geometry<T>
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impl<T: Copy> Copy for Point<T> where
T: CoordinateType,
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T: CoordinateType,
impl<T: Debug> Debug for Point<T> where
T: CoordinateType,
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T: CoordinateType,
impl<T> Add<Point<T>> for Point<T> where
T: CoordinateType,
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T: CoordinateType,
type Output = Point<T>
The resulting type after applying the +
operator.
fn add(self, rhs: Point<T>) -> Point<T>
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Add a point to the given point.
Examples
use geo_types::Point; let p = Point::new(1.25, 2.5) + Point::new(1.5, 2.5); assert_eq!(p.x(), 2.75); assert_eq!(p.y(), 5.0);
impl<T> Sub<Point<T>> for Point<T> where
T: CoordinateType,
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T: CoordinateType,
type Output = Point<T>
The resulting type after applying the -
operator.
fn sub(self, rhs: Point<T>) -> Point<T>
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Subtract a point from the given point.
Examples
use geo_types::Point; let p = Point::new(1.25, 3.0) - Point::new(1.5, 2.5); assert_eq!(p.x(), -0.25); assert_eq!(p.y(), 0.5);
impl<T> Neg for Point<T> where
T: CoordinateType + Neg<Output = T>,
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T: CoordinateType + Neg<Output = T>,
Auto Trait Implementations
Blanket Implementations
impl<T, U> Into for T where
U: From<T>,
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U: From<T>,
impl<T> From for T
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impl<T> ToOwned for T where
T: Clone,
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T: Clone,
impl<T, U> TryFrom for T where
U: Into<T>,
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U: Into<T>,
type Error = !
try_from
)The type returned in the event of a conversion error.
fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T> Borrow for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut for T where
T: ?Sized,
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T: ?Sized,
fn borrow_mut(&mut self) -> &mut T
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impl<T, U> TryInto for T where
U: TryFrom<T>,
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U: TryFrom<T>,
type Error = <U as TryFrom<T>>::Error
try_from
)The type returned in the event of a conversion error.
fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>
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impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,