[−][src]Crate cgmath
A low-dimensional linear algebra library, targeted at computer graphics.
Trait overview
In order to make a clean, composable API, we divide operations into traits that are roughly based on mathematical properties. The main ones that we concern ourselves with are listed below:
VectorSpace: Specifies the main operators for vectors, quaternions, and matrices.MetricSpace: For types that have a distance function implemented.InnerSpace: For types that have a dot (or inner) product - ie. vectors or quaternions. This also allows for the definition of operations that are based on the dot product, like finding the magnitude or normalizing.EuclideanSpace: Points in euclidean space, with an associated space of displacement vectors.Matrix: Common operations for matrices of arbitrary dimensions.SquareMatrix: A special trait for matrices where the number of columns equal the number of rows.
Other traits are included for practical convenience, for example:
Array: For contiguous, indexable arrays of elements, specifically vectors.ElementWise: For element-wise addition, subtraction, multiplication, division, and remainder operations.
The prelude
Importing each trait individually can become a chore, so we provide a
prelude module to allow you to import the main trait all at once. For
example:
use cgmath::prelude::*;
Re-exports
pub extern crate num_traits; |
Modules
| conv | Constrained conversion functions for assisting in situations where type inference is difficult. |
| prelude | This module contains the most common traits used in |
Macros
| abs_diff_eq | Approximate equality of using the absolute difference. |
| abs_diff_ne | Approximate inequality of using the absolute difference. |
| assert_abs_diff_eq | An assertion that delegates to |
| assert_abs_diff_ne | An assertion that delegates to |
| assert_relative_eq | An assertion that delegates to |
| assert_relative_ne | An assertion that delegates to |
| assert_ulps_eq | An assertion that delegates to |
| assert_ulps_ne | An assertion that delegates to |
| relative_eq | Approximate equality using both the absolute difference and relative based comparisons. |
| relative_ne | Approximate inequality using both the absolute difference and relative based comparisons. |
| ulps_eq | Approximate equality using both the absolute difference and ULPs (Units in Last Place). |
| ulps_ne | Approximate inequality using both the absolute difference and ULPs (Units in Last Place). |
Structs
| AbsDiff | The requisite parameters for testing for approximate equality using a absolute difference based comparison. |
| Basis2 | A two-dimensional rotation matrix. |
| Basis3 | A three-dimensional rotation matrix. |
| Decomposed | A generic transformation consisting of a rotation, displacement vector and scale amount. |
| Deg | An angle, in degrees. |
| Euler | A set of Euler angles representing a rotation in three-dimensional space. |
| Matrix2 | A 2 x 2, column major matrix |
| Matrix3 | A 3 x 3, column major matrix |
| Matrix4 | A 4 x 4, column major matrix |
| Ortho | An orthographic projection with arbitrary left/right/bottom/top distances |
| Perspective | A perspective projection with arbitrary left/right/bottom/top distances |
| PerspectiveFov | A perspective projection based on a vertical field-of-view angle. |
| Point1 | A point in 1-dimensional space. |
| Point2 | A point in 2-dimensional space. |
| Point3 | A point in 3-dimensional space. |
| Quaternion | A quaternion in scalar/vector form. |
| Rad | An angle, in radians. |
| Relative | The requisite parameters for testing for approximate equality using a relative based comparison. |
| Ulps | The requisite parameters for testing for approximate equality using an ULPs based comparison. |
| Vector1 | A 1-dimensional vector. |
| Vector2 | A 2-dimensional vector. |
| Vector3 | A 3-dimensional vector. |
| Vector4 | A 4-dimensional vector. |
Traits
| AbsDiffEq | Equality that is defined using the absolute difference of two numbers. |
| Angle | Angles and their associated trigonometric functions. |
| Array | An array containing elements of type |
| BaseFloat | Base floating point types |
| BaseNum | Base numeric types with partial ordering |
| Bounded | Numbers which have upper and lower bounds |
| ElementWise | Element-wise arithmetic operations. These are supplied for pragmatic reasons, but will usually fall outside of traditional algebraic properties. |
| EuclideanSpace | Points in a Euclidean space with an associated space of displacement vectors. |
| InnerSpace | |
| Matrix | A column-major matrix of arbitrary dimensions. |
| MetricSpace | A type with a distance function between values. |
| One | Defines a multiplicative identity element for |
| RelativeEq | Equality comparisons between two numbers using both the absolute difference and relative based comparisons. |
| Rotation | A trait for a generic rotation. A rotation is a transformation that creates a circular motion, and preserves at least one point in the space. |
| Rotation2 | A two-dimensional rotation. |
| Rotation3 | A three-dimensional rotation. |
| SquareMatrix | A column-major major matrix where the rows and column vectors are of the same dimensions. |
| Transform | A trait representing an affine transformation that can be applied to points or vectors. An affine transformation is one which |
| Transform2 | |
| Transform3 | |
| UlpsEq | Equality comparisons between two numbers using both the absolute difference and ULPs (Units in Last Place) based comparisons. |
| VectorSpace | Vectors that can be added together and multiplied by scalars. |
| Zero | Defines an additive identity element for |
Functions
| dot | Dot product of two vectors. |
| frustum | Create a perspective matrix from a view frustum. |
| ortho | Create an orthographic projection matrix. |
| perspective | Create a perspective projection matrix. |
| vec1 | The short constructor. |
| vec2 | The short constructor. |
| vec3 | The short constructor. |
| vec4 | The short constructor. |