Math.raycast
Available since: Gideros 2020.9
Class: math
Description
Returns collisions between a ray and a shape.
(table) = math.raycast(origin,direction,shape)
Shapes are tables which can have the following forms: - { x, y, z, radius }: Represent a sphere (3D) or a circle (2D) - { x, y, z, normal }: Represent a plane (3D) or a line (2D) - { x, y, z, normal, extent }: Represent a disk (3D) or a segment (2D) - { x, y, x2, y2 }: Represent a segment (2D) - { x, y, z, 1, 2, ... }: Represent a shape group
Each resulting collison contains the following fields: - point: collision point - distance: distance of the collision point from the origin - normal: normal vector of the shape surface at the collision point - reflect: reflection direction
Parameters
origin: (table) The origin of the ray
direction: (table) The direction of the ray
shape: (table) The shape to test against
Return values
Returns (table) A list of intersections
- Math
- Math.abs
- Math.acos
- Math.asin
- Math.atan
- Math.atan2
- Math.ceil
- Math.clamp
- Math.cos
- Math.cosh
- Math.cross
- Math.deg
- Math.distance
- Math.distances
- Math.dot
- Math.edge
- Math.exp
- Math.fft
- Math.floor
- Math.fmod
- Math.frexp
- Math.ifft
- Math.inside
- Math.ldexp
- Math.length
- Math.log
- Math.log10
- Math.max
- Math.min
- Math.modf
- Math.nearest
- Math.noise
- Math.normalize
- Math.pow
- Math.rad
- Math.random
- Math.randomseed
- Math.raycast
- Math.round
- Math.sign
- Math.sin
- Math.sinh
- Math.sqrt
- Math.tan
- Math.tanh