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3.6 KiB
3.6 KiB
does_it_fit
Instructions
Use the areas_volumes
module provided to create two functions.
Create area_fit
. It should return true
if the geometric shape can fit inside the rectangular area as many times as is indicated by times
.
x
andy
: length and width of the rectangular area.objects
: the type of geometric shape.times
: the number of geometric shapes to fit inside the rectangular area.a
: size of dimension for:side
of aSquare
base
of aTriangle
radius
of aCircle
side_a
of aRectangle
b
: size of dimension for:height
of aTriangle
side_b
of aRectangle
Create volume_fit
. It should return true
if the geometric volume can fit inside the box as many times as is indicated by times
.
x
,y
andz
: length, width and depth of the box.objects
: the type of geometric volume.times
: the number of geometric volumes to fit inside the box.a
: size of dimension for:side
of aCube
radius
of aSphere
base_area
of a triangularPyramid
side_a
of aParallelepiped
base_radius
of aCone
b
: size dimension for:height
of the triangularPyramid
side_b
of aParallelepiped
height
of theCone
c
: size dimension for:side_c
of aParallelepiped
Expected Functions
pub fn area_fit(
x: usize,
y: usize,
objects: areas_volumes::GeometricalShapes,
times: usize,
a: usize,
b: usize,
) -> bool {
}
pub fn volume_fit(
x: usize,
y: usize,
z: usize,
objects: areas_volumes::GeometricalVolumes,
times: usize,
a: usize,
b: usize,
c: usize,
) -> bool {
}
areas_volumes.rs
pub enum GeometricalShapes {
Square,
Circle,
Rectangle,
Triangle,
}
pub enum GeometricalVolumes {
Cube,
Sphere,
Cone,
Pyramid,
Parallelepiped,
}
pub fn square_area(side: usize) -> usize {
side.pow(2)
}
pub fn triangle_area(base: usize, height: usize) -> f64 {
(base as f64 * height as f64) / 2.0
}
pub fn circle_area(radius: usize) -> f64 {
std::f64::consts::PI * (radius.pow(2) as f64)
}
pub fn rectangle_area(side_a: usize, side_b: usize) -> usize {
side_a * side_b
}
pub fn cube_volume(side: usize) -> usize {
side.pow(3)
}
pub fn sphere_volume(radius: usize) -> f64 {
(4.0 / 3.0) * std::f64::consts::PI * (radius.pow(3) as f64)
}
pub fn triangular_pyramid_volume(base_area: f64, height: usize) -> f64 {
(base_area * height as f64) / 3.0
}
pub fn parallelepiped_volume(side_a: usize, side_b: usize, side_c: usize) -> usize {
side_a * side_b * side_c
}
pub fn cone_volume(base_radius: usize, height: usize) -> f64 {
(1.0 / 3.0) * std::f64::consts::PI * base_radius.pow(2) as f64 * height as f64
}
Usage
Here is a program to test your function:
use does_it_fit::*;
fn main() {
println!(
"Do 100 rectangles (2x1) fit in a 2 by 4 square? {}",
area_fit(2, 4, GeometricalShapes::Rectangle, 100, 2, 1)
);
println!(
"Do 3 triangles (5 base and 3 height) fit in a 5 by 5 square? {}",
area_fit(5, 5, GeometricalShapes::Triangle, 3, 5, 3)
);
println!(
"Do 3 spheres (2 radius) fit in a 5 by 5 by 5 box? {}",
volume_fit(5, 5, 5, GeometricalVolumes::Sphere, 3, 2, 0, 0)
);
println!(
"Does 1 parallelepiped (6 base, 7 height and depth 4) fit in a 5 by 7 by 5 parallelepiped? {}",
volume_fit(5, 7, 5, GeometricalVolumes::Parallelepiped, 1, 6, 7, 4)
);
}
And its output:
$ cargo run
Do 100 rectangles (2x1) fit in a 2 by 4 square? false
Do 3 triangles (5 base and 3 height) fit in a 5 by 5 square? true
Do 3 spheres (2 radius) fit in a 5 by 5 by 5 box? true
Does 1 parallelepiped (6 base, 7 height and depth 4) fit in a 5 by 7 by 5 parallelepiped? true
$