pub trait EuclideanSpace: Copy + Clonewhere
    Self: Array<Element = Self::Scalar> + Add<Self::Diff, Output = Self> + Sub<Self::Diff, Output = Self> + Sub<Self, Output = Self::Diff> + Mul<Self::Scalar, Output = Self> + Div<Self::Scalar, Output = Self> + Rem<Self::Scalar, Output = Self>,{
    type Scalar: BaseNum;
    type Diff: VectorSpace<Scalar = Self::Scalar>;

    // Required methods
    fn origin() -> Self;
    fn from_vec(v: Self::Diff) -> Self;
    fn to_vec(self) -> Self::Diff;
    fn dot(self, v: Self::Diff) -> Self::Scalar;

    // Provided methods
    fn midpoint(self, other: Self) -> Self { ... }
    fn centroid(points: &[Self]) -> Self { ... }
}
Expand description

Points in a Euclidean space with an associated space of displacement vectors.

Point-Vector distinction

cgmath distinguishes between points and vectors in the following way:

  • Points are locations relative to an origin
  • Vectors are displacements between those points

For example, to find the midpoint between two points, you can write the following:

use cgmath::Point3;

let p0 = Point3::new(1.0, 2.0, 3.0);
let p1 = Point3::new(-3.0, 1.0, 2.0);
let midpoint: Point3<f32> = p0 + (p1 - p0) * 0.5;

Breaking the expression up, and adding explicit types makes it clearer to see what is going on:

let dv: Vector3<f32> = p1 - p0;
let half_dv: Vector3<f32> = dv * 0.5;
let midpoint: Point3<f32> = p0 + half_dv;

Converting between points and vectors

Points can be converted to and from displacement vectors using the EuclideanSpace::{from_vec, to_vec} methods. Note that under the hood these are implemented as inlined a type conversion, so should not have any performance implications.

References

Required Associated Types§

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type Scalar: BaseNum

The associated scalar over which the space is defined.

Due to the equality constraints demanded by Self::Diff, this is effectively just an alias to Self::Diff::Scalar.

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type Diff: VectorSpace<Scalar = Self::Scalar>

The associated space of displacement vectors.

Required Methods§

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fn origin() -> Self

The point at the origin of the Euclidean space.

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fn from_vec(v: Self::Diff) -> Self

Convert a displacement vector to a point.

This can be considered equivalent to the addition of the displacement vector v to to Self::origin().

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fn to_vec(self) -> Self::Diff

Convert a point to a displacement vector.

This can be seen as equivalent to the displacement vector from Self::origin() to self.

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fn dot(self, v: Self::Diff) -> Self::Scalar

This is a weird one, but its useful for plane calculations.

Provided Methods§

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fn midpoint(self, other: Self) -> Self

Returns the middle point between two other points.

use cgmath::prelude::*;
use cgmath::Point3;

let p = Point3::midpoint(
    Point3::new(1.0, 2.0, 3.0),
    Point3::new(3.0, 1.0, 2.0),
);
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fn centroid(points: &[Self]) -> Self

Returns the average position of all points in the slice.

use cgmath::prelude::*;
use cgmath::Point2;

let triangle = [
    Point2::new(1.0, 1.0),
    Point2::new(2.0, 3.0),
    Point2::new(3.0, 1.0),
];

let centroid = Point2::centroid(&triangle);

Implementors§

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impl<S: BaseNum> EuclideanSpace for Point1<S>

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type Scalar = S

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type Diff = Vector1<S>

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impl<S: BaseNum> EuclideanSpace for Point2<S>

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type Scalar = S

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type Diff = Vector2<S>

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impl<S: BaseNum> EuclideanSpace for Point3<S>

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type Scalar = S

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type Diff = Vector3<S>