Struct rerun::external::glam::f32::Affine2

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#[repr(C)]
pub struct Affine2 {
    pub matrix2: Mat2,
    pub translation: Vec2,
}
Expand description

A 2D affine transform, which can represent translation, rotation, scaling and shear.

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§matrix2: Mat2§translation: Vec2

Implementations§

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impl Affine2

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pub const ZERO: Affine2 = _

The degenerate zero transform.

This transforms any finite vector and point to zero. The zero transform is non-invertible.

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pub const IDENTITY: Affine2 = _

The identity transform.

Multiplying a vector with this returns the same vector.

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pub const NAN: Affine2 = _

All NAN:s.

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pub const fn from_cols(x_axis: Vec2, y_axis: Vec2, z_axis: Vec2) -> Affine2

Creates an affine transform from three column vectors.

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pub fn from_cols_array(m: &[f32; 6]) -> Affine2

Creates an affine transform from a [f32; 6] array stored in column major order.

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pub fn to_cols_array(&self) -> [f32; 6]

Creates a [f32; 6] array storing data in column major order.

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pub fn from_cols_array_2d(m: &[[f32; 2]; 3]) -> Affine2

Creates an affine transform from a [[f32; 2]; 3] 2D array stored in column major order. If your data is in row major order you will need to transpose the returned matrix.

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pub fn to_cols_array_2d(&self) -> [[f32; 2]; 3]

Creates a [[f32; 2]; 3] 2D array storing data in column major order. If you require data in row major order transpose the matrix first.

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pub fn from_cols_slice(slice: &[f32]) -> Affine2

Creates an affine transform from the first 6 values in slice.

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Panics if slice is less than 6 elements long.

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pub fn write_cols_to_slice(self, slice: &mut [f32])

Writes the columns of self to the first 6 elements in slice.

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Panics if slice is less than 6 elements long.

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pub fn from_scale(scale: Vec2) -> Affine2

Creates an affine transform that changes scale. Note that if any scale is zero the transform will be non-invertible.

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pub fn from_angle(angle: f32) -> Affine2

Creates an affine transform from the given rotation angle.

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pub fn from_translation(translation: Vec2) -> Affine2

Creates an affine transformation from the given 2D translation.

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pub fn from_mat2(matrix2: Mat2) -> Affine2

Creates an affine transform from a 2x2 matrix (expressing scale, shear and rotation)

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pub fn from_mat2_translation(matrix2: Mat2, translation: Vec2) -> Affine2

Creates an affine transform from a 2x2 matrix (expressing scale, shear and rotation) and a translation vector.

Equivalent to Affine2::from_translation(translation) * Affine2::from_mat2(mat2)

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pub fn from_scale_angle_translation( scale: Vec2, angle: f32, translation: Vec2 ) -> Affine2

Creates an affine transform from the given 2D scale, rotation angle (in radians) and translation.

Equivalent to Affine2::from_translation(translation) * Affine2::from_angle(angle) * Affine2::from_scale(scale)

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pub fn from_angle_translation(angle: f32, translation: Vec2) -> Affine2

Creates an affine transform from the given 2D rotation angle (in radians) and translation.

Equivalent to Affine2::from_translation(translation) * Affine2::from_angle(angle)

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pub fn from_mat3(m: Mat3) -> Affine2

The given Mat3 must be an affine transform,

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pub fn from_mat3a(m: Mat3A) -> Affine2

The given Mat3A must be an affine transform,

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pub fn to_scale_angle_translation(self) -> (Vec2, f32, Vec2)

Extracts scale, angle and translation from self.

The transform is expected to be non-degenerate and without shearing, or the output will be invalid.

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Will panic if the determinant self.matrix2 is zero or if the resulting scale vector contains any zero elements when glam_assert is enabled.

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pub fn transform_point2(&self, rhs: Vec2) -> Vec2

Transforms the given 2D point, applying shear, scale, rotation and translation.

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pub fn transform_vector2(&self, rhs: Vec2) -> Vec2

Transforms the given 2D vector, applying shear, scale and rotation (but NOT translation).

To also apply translation, use Self::transform_point2() instead.

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pub fn is_finite(&self) -> bool

Returns true if, and only if, all elements are finite.

If any element is either NaN, positive or negative infinity, this will return false.

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pub fn is_nan(&self) -> bool

Returns true if any elements are NaN.

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pub fn abs_diff_eq(&self, rhs: Affine2, max_abs_diff: f32) -> bool

Returns true if the absolute difference of all elements between self and rhs is less than or equal to max_abs_diff.

This can be used to compare if two 3x4 matrices contain similar elements. It works best when comparing with a known value. The max_abs_diff that should be used used depends on the values being compared against.

For more see comparing floating point numbers.

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pub fn inverse(&self) -> Affine2

Return the inverse of this transform.

Note that if the transform is not invertible the result will be invalid.

Trait Implementations§

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impl Clone for Affine2

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fn clone(&self) -> Affine2

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for Affine2

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fn fmt(&self, fmt: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter. Read more
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impl Default for Affine2

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fn default() -> Affine2

Returns the “default value” for a type. Read more
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impl Deref for Affine2

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type Target = Cols3<Vec2>

The resulting type after dereferencing.
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fn deref(&self) -> &<Affine2 as Deref>::Target

Dereferences the value.
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impl DerefMut for Affine2

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fn deref_mut(&mut self) -> &mut <Affine2 as Deref>::Target

Mutably dereferences the value.
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impl<'de> Deserialize<'de> for Affine2

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fn deserialize<D>( deserializer: D ) -> Result<Affine2, <D as Deserializer<'de>>::Error>
where D: Deserializer<'de>,

Deserialize this value from the given Serde deserializer. Read more
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impl Display for Affine2

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fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter. Read more
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impl From<Affine2> for Mat3

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fn from(m: Affine2) -> Mat3

Converts to this type from the input type.
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impl From<Affine2> for Mat3A

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fn from(m: Affine2) -> Mat3A

Converts to this type from the input type.
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impl Mul<Affine2> for Mat3

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type Output = Mat3

The resulting type after applying the * operator.
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fn mul(self, rhs: Affine2) -> <Mat3 as Mul<Affine2>>::Output

Performs the * operation. Read more
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impl Mul<Affine2> for Mat3A

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type Output = Mat3A

The resulting type after applying the * operator.
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fn mul(self, rhs: Affine2) -> <Mat3A as Mul<Affine2>>::Output

Performs the * operation. Read more
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impl Mul<Mat3> for Affine2

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type Output = Mat3

The resulting type after applying the * operator.
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fn mul(self, rhs: Mat3) -> <Affine2 as Mul<Mat3>>::Output

Performs the * operation. Read more
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impl Mul<Mat3A> for Affine2

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type Output = Mat3A

The resulting type after applying the * operator.
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fn mul(self, rhs: Mat3A) -> <Affine2 as Mul<Mat3A>>::Output

Performs the * operation. Read more
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impl Mul for Affine2

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type Output = Affine2

The resulting type after applying the * operator.
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fn mul(self, rhs: Affine2) -> <Affine2 as Mul>::Output

Performs the * operation. Read more
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impl MulAssign for Affine2

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fn mul_assign(&mut self, rhs: Affine2)

Performs the *= operation. Read more
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impl PartialEq for Affine2

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fn eq(&self, rhs: &Affine2) -> bool

This method tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl<'a> Product<&'a Affine2> for Affine2

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fn product<I>(iter: I) -> Affine2
where I: Iterator<Item = &'a Affine2>,

Method which takes an iterator and generates Self from the elements by multiplying the items.
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impl Serialize for Affine2

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fn serialize<S>( &self, serializer: S ) -> Result<<S as Serializer>::Ok, <S as Serializer>::Error>
where S: Serializer,

Serialize this value into the given Serde serializer. Read more
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impl Zeroable for Affine2

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fn zeroed() -> Self

Calls zeroed. Read more
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impl AnyBitPattern for Affine2

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impl Copy for Affine2

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