Module nalgebra::geometry

[Reexported at the root of this crate.] Data structures for points and usual transformations (rotations, isometries, etc.)

Structs

DualQuaternion	A dual quaternion.
Isometry	A direct isometry, i.e., a rotation followed by a translation (aka. a rigid-body motion).
Orthographic3	A 3D orthographic projection stored as a homogeneous 4x4 matrix.
Perspective3	A 3D perspective projection stored as a homogeneous 4x4 matrix.
Point	A point in an euclidean space.
Quaternion	A quaternion. See the type alias UnitQuaternion = Unit<Quaternion> for a quaternion that may be used as a rotation.
Reflection	A reflection wrt. a plane.
Rotation	A rotation matrix.
Similarity	A similarity, i.e., an uniform scaling, followed by a rotation, followed by a translation.
Transform	A transformation matrix in homogeneous coordinates.
Translation	A translation.

Enums

TAffine	Tag representing an affine Transform. Its bottom-row is equal to (0, 0 ... 0, 1).
TGeneral	Tag representing the most general (not necessarily inversible) Transform type.
TProjective	Tag representing the most general inversible Transform type.

Traits

AbstractRotation	Trait implemented by rotations that can be used inside of an Isometry or Similarity.
SubTCategoryOf	Indicates that Self is a more specific Transform category than Other.
SuperTCategoryOf	Indicates that Self is a more general Transform category than Other.
TCategory	Trait implemented by phantom types identifying the projective transformation type.
TCategoryMul	Traits that gives the Transform category that is compatible with the result of the multiplication of transformations with categories Self and Other.

Type Definitions

Affine2	A 2D affine transformation. Stored as a homogeneous 3x3 matrix.
Affine3	A 3D affine transformation. Stored as a homogeneous 4x4 matrix.
Isometry2	A 2-dimensional direct isometry using a unit complex number for its rotational part.
Isometry3	A 3-dimensional direct isometry using a unit quaternion for its rotational part.
IsometryMatrix2	A 2-dimensional direct isometry using a rotation matrix for its rotational part.
IsometryMatrix3	A 3-dimensional direct isometry using a rotation matrix for its rotational part.
Point1	A statically sized 1-dimensional column point.
Point2	A statically sized 2-dimensional column point.
Point3	A statically sized 3-dimensional column point.
Point4	A statically sized 4-dimensional column point.
Point5	A statically sized 5-dimensional column point.
Point6	A statically sized 6-dimensional column point.
Projective2	An invertible 2D general transformation. Stored as a homogeneous 3x3 matrix.
Projective3	An invertible 3D general transformation. Stored as a homogeneous 4x4 matrix.
Rotation2	A 2-dimensional rotation matrix.
Rotation3	A 3-dimensional rotation matrix.
Similarity2	A 2-dimensional similarity.
Similarity3	A 3-dimensional similarity.
SimilarityMatrix2	A 2-dimensional similarity using a rotation matrix for its rotation part.
SimilarityMatrix3	A 3-dimensional similarity using a rotation matrix for its rotation part.
Transform2	A 2D general transformation that may not be invertible. Stored as a homogeneous 3x3 matrix.
Transform3	A 3D general transformation that may not be inversible. Stored as a homogeneous 4x4 matrix.
Translation1	A 1-dimensional translation.
Translation2	A 2-dimensional translation.
Translation3	A 3-dimensional translation.
Translation4	A 4-dimensional translation.
Translation5	A 5-dimensional translation.
Translation6	A 6-dimensional translation.
UnitComplex	A 2D rotation represented as a complex number with magnitude 1.
UnitDualQuaternion	A unit quaternions. May be used to represent a rotation followed by a translation.
UnitQuaternion	A unit quaternions. May be used to represent a rotation.