xy_rect {rayrender} | R Documentation |
Rectangular XY Plane Object
Description
Rectangular XY Plane Object
Usage
xy_rect(
x = 0,
y = 0,
z = 0,
xwidth = 1,
ywidth = 1,
material = diffuse(),
angle = c(0, 0, 0),
order_rotation = c(1, 2, 3),
flipped = FALSE,
scale = c(1, 1, 1)
)
Arguments
x |
Default '0'. x-coordinate of the center of the rectangle. |
y |
Default '0'. x-coordinate of the center of the rectangle. |
z |
Default '0'. z-coordinate of the center of the rectangle. |
xwidth |
Default '1'. x-width of the rectangle. |
ywidth |
Default '1'. y-width of the rectangle. |
material |
Default |
angle |
Default 'c(0, 0, 0)'. Angle of rotation around the x, y, and z axes, applied in the order specified in 'order_rotation'. |
order_rotation |
Default 'c(1, 2, 3)'. The order to apply the rotations, referring to "x", "y", and "z". |
flipped |
Default 'FALSE'. Whether to flip the normals. |
scale |
Default 'c(1, 1, 1)'. Scale transformation in the x, y, and z directions. If this is a single value, number, the object will be scaled uniformly. Note: emissive objects may not currently function correctly when scaled. |
Value
Single row of a tibble describing the XY plane in the scene.
Examples
#Generate a purple rectangle in the cornell box.
if(run_documentation()) {
generate_cornell() %>%
add_object(xy_rect(x = 555/2, y = 100, z = 555/2, xwidth = 200, ywidth = 200,
material = diffuse(color = "purple"))) %>%
render_scene(lookfrom = c(278, 278, -800), lookat = c(278, 278, 0), fov = 40,
ambient_light = FALSE, samples = 128, parallel = TRUE, clamp_value = 5)
}
#Generate a gold plane in the cornell box
if(run_documentation()) {
generate_cornell() %>%
add_object(xy_rect(x = 555/2, y = 100, z = 555/2,
xwidth = 200, ywidth = 200, angle = c(0, 30, 0),
material = metal(color = "gold"))) %>%
render_scene(lookfrom = c(278, 278, -800) ,lookat = c(278, 278, 0), fov = 40,
ambient_light = FALSE, samples = 128, parallel = TRUE, clamp_value = 5)
}