Struct euclid::TypedVector2D

#[repr(C)]
pub struct TypedVector2D<T, U> {
    pub x: T,
    pub y: T,
    // some fields omitted
}

A 2d Vector tagged with a unit.

Fields

x: T

y: T

Methods

impl<T: Copy + Zero, U> TypedVector2D<T, U>

pub fn zero() -> Self

Constructor, setting all components to zero.

pub fn to_3d(&self) -> TypedVector3D<T, U>

Convert into a 3d vector.

impl<T, U> TypedVector2D<T, U>

pub fn new(x: T, y: T) -> Self

Constructor taking scalar values directly.

impl<T: Copy, U> TypedVector2D<T, U>

pub fn from_lengths(x: Length<T, U>, y: Length<T, U>) -> Self

Constructor taking properly typed Lengths instead of scalar values.

pub fn extend(&self, z: T) -> TypedVector3D<T, U>

Create a 3d vector from this one, using the specified z value.

pub fn to_point(&self) -> TypedPoint2D<T, U>

Cast this vector into a point.

Equivalent to adding this vector to the origin.

pub fn yx(&self) -> Self

Swap x and y.

pub fn to_size(&self) -> TypedSize2D<T, U>

Cast this vector into a size.

pub fn x_typed(&self) -> Length<T, U>

Returns self.x as a Length carrying the unit.

pub fn y_typed(&self) -> Length<T, U>

Returns self.y as a Length carrying the unit.

pub fn to_untyped(&self) -> Vector2D<T>

Drop the units, preserving only the numeric value.

pub fn from_untyped(p: &Vector2D<T>) -> Self

Tag a unit-less value with units.

pub fn cast_unit<V>(&self) -> TypedVector2D<T, V>

Cast the unit

pub fn to_array(&self) -> [T; 2]

pub fn to_tuple(&self) -> (T, T)

impl<T, U> TypedVector2D<T, U> where
    T: Copy + Clone + Add<T, Output = T> + Mul<T, Output = T> + Div<T, Output = T> + Sub<T, Output = T> + Trig + PartialOrd + One + Zero, 

pub fn to_transform(&self) -> TypedTransform2D<T, U, U>

impl<T, U> TypedVector2D<T, U> where
    T: Trig + Copy + Sub<T, Output = T>, 

pub fn angle_from_x_axis(&self) -> Angle<T>

Returns the angle between this vector and the x axis between -PI and PI.

impl<T, U> TypedVector2D<T, U> where
    T: Copy + Mul<T, Output = T> + Add<T, Output = T> + Sub<T, Output = T>, 

pub fn dot(self, other: Self) -> T

Dot product.

pub fn cross(self, other: Self) -> T

Returns the norm of the cross product [self.x, self.y, 0] x [other.x, other.y, 0]..

pub fn normalize(self) -> Self where
    T: Float, 

pub fn robust_normalize(self) -> Self where
    T: Float, 

Return the normalized vector even if the length is larger than the max value of Float.

pub fn square_length(&self) -> T

pub fn length(&self) -> T where
    T: Float, 

impl<T, U> TypedVector2D<T, U> where
    T: Copy + One + Add<Output = T> + Sub<Output = T> + Mul<Output = T>, 

pub fn lerp(&self, other: Self, t: T) -> Self

Linearly interpolate between this vector and another vector.

t is expected to be between zero and one.

impl<T: Float, U> TypedVector2D<T, U>

pub fn min(self, other: Self) -> Self

pub fn max(self, other: Self) -> Self

pub fn clamp(&self, start: Self, end: Self) -> Self

impl<T: Round, U> TypedVector2D<T, U>

pub fn round(&self) -> Self

Rounds each component to the nearest integer value.

This behavior is preserved for negative values (unlike the basic cast). For example { -0.1, -0.8 }.round() == { 0.0, -1.0 }.

impl<T: Ceil, U> TypedVector2D<T, U>

pub fn ceil(&self) -> Self

Rounds each component to the smallest integer equal or greater than the original value.

This behavior is preserved for negative values (unlike the basic cast). For example { -0.1, -0.8 }.ceil() == { 0.0, 0.0 }.

impl<T: Floor, U> TypedVector2D<T, U>

pub fn floor(&self) -> Self

Rounds each component to the biggest integer equal or lower than the original value.

This behavior is preserved for negative values (unlike the basic cast). For example { -0.1, -0.8 }.floor() == { -1.0, -1.0 }.

impl<T: NumCast + Copy, U> TypedVector2D<T, U>

pub fn cast<NewT: NumCast + Copy>(&self) -> TypedVector2D<NewT, U>

Cast from one numeric representation to another, preserving the units.

When casting from floating vector to integer coordinates, the decimals are truncated as one would expect from a simple cast, but this behavior does not always make sense geometrically. Consider using round(), ceil() or floor() before casting.

pub fn try_cast<NewT: NumCast + Copy>(&self) -> Option<TypedVector2D<NewT, U>>

Fallible cast from one numeric representation to another, preserving the units.

When casting from floating vector to integer coordinates, the decimals are truncated as one would expect from a simple cast, but this behavior does not always make sense geometrically. Consider using round(), ceil() or floor() before casting.

pub fn to_f32(&self) -> TypedVector2D<f32, U>

Cast into an f32 vector.

pub fn to_f64(&self) -> TypedVector2D<f64, U>

Cast into an f64 vector.

pub fn to_usize(&self) -> TypedVector2D<usize, U>

Cast into an usize vector, truncating decimals if any.

When casting from floating vector vectors, it is worth considering whether to round(), ceil() or floor() before the cast in order to obtain the desired conversion behavior.

pub fn to_u32(&self) -> TypedVector2D<u32, U>

Cast into an u32 vector, truncating decimals if any.

When casting from floating vector vectors, it is worth considering whether to round(), ceil() or floor() before the cast in order to obtain the desired conversion behavior.

pub fn to_i32(&self) -> TypedVector2D<i32, U>

Cast into an i32 vector, truncating decimals if any.

When casting from floating vector vectors, it is worth considering whether to round(), ceil() or floor() before the cast in order to obtain the desired conversion behavior.

pub fn to_i64(&self) -> TypedVector2D<i64, U>

Cast into an i64 vector, truncating decimals if any.

When casting from floating vector vectors, it is worth considering whether to round(), ceil() or floor() before the cast in order to obtain the desired conversion behavior.

impl<T, U> TypedVector2D<T, U> where
    T: Signed, 

pub fn abs(&self) -> Self

impl<T: PartialOrd, U> TypedVector2D<T, U>

pub fn greater_than(&self, other: &Self) -> BoolVector2D

pub fn lower_than(&self, other: &Self) -> BoolVector2D

impl<T: PartialEq, U> TypedVector2D<T, U>

pub fn equal(&self, other: &Self) -> BoolVector2D

pub fn not_equal(&self, other: &Self) -> BoolVector2D

Trait Implementations

impl<T: Copy + ApproxEq<T>, U> ApproxEq<TypedVector2D<T, U>> for TypedVector2D<T, U>

fn approx_epsilon() -> Self

fn approx_eq(&self, other: &Self) -> bool

fn approx_eq_eps(&self, other: &Self, eps: &Self) -> bool

impl<T, U> PartialEq<TypedVector2D<T, U>> for TypedVector2D<T, U> where
    T: PartialEq, 

fn eq(&self, other: &Self) -> bool

This method tests for self and other values to be equal, and is used by ==.

#[must_use] fn ne(&self, other: &Rhs) -> bool

This method tests for !=.

impl<T, U> Eq for TypedVector2D<T, U> where
    T: Eq, 

impl<T, U> Hash for TypedVector2D<T, U> where
    T: Hash, 

fn hash<H: Hasher>(&self, h: &mut H)

Feeds this value into the given [Hasher].

fn hash_slice<H>(data: &[Self], state: &mut H) where
    H: Hasher, 

Feeds a slice of this type into the given [Hasher].

impl<T: Display, U> Display for TypedVector2D<T, U>

fn fmt(&self, formatter: &mut Formatter) -> Result

Formats the value using the given formatter.

impl<T: Debug, U> Debug for TypedVector2D<T, U>

fn fmt(&self, f: &mut Formatter) -> Result

Formats the value using the given formatter.

impl<T: Copy + Add<T, Output = T>, U> Add<TypedVector2D<T, U>> for TypedPoint2D<T, U>

type Output = Self

The resulting type after applying the + operator.

fn add(self, other: TypedVector2D<T, U>) -> Self

Performs the + operation.

impl<T: Copy + Add<T, Output = T>, U> Add<TypedVector2D<T, U>> for TypedVector2D<T, U>

type Output = Self

The resulting type after applying the + operator.

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

Performs the + operation.

impl<T: Copy + Sub<T, Output = T>, U> Sub<TypedVector2D<T, U>> for TypedPoint2D<T, U>

type Output = Self

The resulting type after applying the - operator.

fn sub(self, other: TypedVector2D<T, U>) -> Self

Performs the - operation.

impl<T: Copy + Sub<T, Output = T>, U> Sub<TypedVector2D<T, U>> for TypedVector2D<T, U>

type Output = Self

The resulting type after applying the - operator.

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

Performs the - operation.

impl<T: Copy + Mul<T, Output = T>, U> Mul<T> for TypedVector2D<T, U>

type Output = Self

The resulting type after applying the * operator.

fn mul(self, scale: T) -> Self

Performs the * operation.

impl<T: Copy + Mul<T, Output = T>, U1, U2> Mul<TypedScale<T, U1, U2>> for TypedVector2D<T, U1>

type Output = TypedVector2D<T, U2>

The resulting type after applying the * operator.

fn mul(self, scale: TypedScale<T, U1, U2>) -> Self::Output

Performs the * operation.

impl<T: Copy + Div<T, Output = T>, U> Div<T> for TypedVector2D<T, U>

type Output = Self

The resulting type after applying the / operator.

fn div(self, scale: T) -> Self

Performs the / operation.

impl<T: Copy + Div<T, Output = T>, U1, U2> Div<TypedScale<T, U1, U2>> for TypedVector2D<T, U2>

type Output = TypedVector2D<T, U1>

The resulting type after applying the / operator.

fn div(self, scale: TypedScale<T, U1, U2>) -> Self::Output

Performs the / operation.

impl<T: Copy + Neg<Output = T>, U> Neg for TypedVector2D<T, U>

type Output = Self

The resulting type after applying the - operator.

fn neg(self) -> Self

Performs the unary - operation.

impl<T: Copy + Add<T, Output = T>, U> AddAssign<TypedVector2D<T, U>> for TypedPoint2D<T, U>

fn add_assign(&mut self, other: TypedVector2D<T, U>)

Performs the += operation.

impl<T: Copy + Add<T, Output = T>, U> AddAssign<TypedVector2D<T, U>> for TypedVector2D<T, U>

fn add_assign(&mut self, other: Self)

Performs the += operation.

impl<T: Copy + Sub<T, Output = T>, U> SubAssign<TypedVector2D<T, U>> for TypedPoint2D<T, U>

fn sub_assign(&mut self, other: TypedVector2D<T, U>)

Performs the -= operation.

impl<T: Copy + Sub<T, Output = T>, U> SubAssign<TypedVector2D<T, U>> for TypedVector2D<T, U>

fn sub_assign(&mut self, other: Self)

Performs the -= operation.

impl<T: Copy + Mul<T, Output = T>, U> MulAssign<T> for TypedVector2D<T, U>

fn mul_assign(&mut self, scale: T)

Performs the *= operation.

impl<T: Copy + Div<T, Output = T>, U> DivAssign<T> for TypedVector2D<T, U>

fn div_assign(&mut self, scale: T)

Performs the /= operation.

impl<T, U> Copy for TypedVector2D<T, U> where
    T: Copy, 

impl<T, Src, Dst> Into<TypedVector2D<T, Src>> for TypedTranslation2D<T, Src, Dst> where
    T: Copy, 

fn into(self) -> TypedVector2D<T, Src>

Performs the conversion.

impl<T: Copy, U> Into<[T; 2]> for TypedVector2D<T, U>

fn into(self) -> [T; 2]

Performs the conversion.

impl<T: Copy, U> Into<(T, T)> for TypedVector2D<T, U>

fn into(self) -> (T, T)

Performs the conversion.

impl<T: Zero, U> From<TypedVector2D<T, U>> for HomogeneousVector<T, U>

fn from(v: TypedVector2D<T, U>) -> Self

Performs the conversion.

impl<T, Src, Dst> From<TypedVector2D<T, Src>> for TypedTranslation2D<T, Src, Dst> where
    T: Copy, 

fn from(v: TypedVector2D<T, Src>) -> Self

Performs the conversion.

impl<T: Copy, U> From<[T; 2]> for TypedVector2D<T, U>

fn from(array: [T; 2]) -> Self

Performs the conversion.

impl<T: Copy, U> From<(T, T)> for TypedVector2D<T, U>

fn from(tuple: (T, T)) -> Self

Performs the conversion.

impl<T, U> Clone for TypedVector2D<T, U> where
    T: Clone, 

fn clone(&self) -> Self

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl<T: Default, U> Default for TypedVector2D<T, U>

fn default() -> Self

Returns the "default value" for a type.