## drawing
### Instructions
The purpose of this exercise is to create an image like the example below:
![example ](image.png )
You will need to do the following:
- Copy the code in the [usage ](#usage ) to your `main.rs` .
- Create a module called `geometrical_shapes` in another file.
You'll define the logic for creating and working with shapes in `geometrical_shapes` . Create the following traits:
- `Drawable` which contains the methods `draw` and `color` .
- `Displayable` which contains the method `display` .
Define them according to the way they are called in the `main.rs` function.
In order to compile and run `main.rs` , you'll need to define some structures. You are free to implement all the shapes with whatever internal structure you see fit, but you must provide an associated function `new` for all the shapes, which will be described below:
- `Point` : a new point should be created from two `i32` values.
- `Line` : a new line should be created from references to two different points.
- `Triangle` : a new triangle should be created from references to three different points.
- `Rectangle` : a new rectangle should be created from references to two different points.
- `Circle` : a new circle should be created from a reference to a point representing the center, and an `i32` value representing the circle's radius.
You'll also need to create the associated function `random` for `Line` , `Point` and `Circle` . You should derive their signatures from the usage.
> Don't forget to add the dependencies in your Cargo.toml.
### Bonus
You may optionally implement the following shapes, including the structures and traits needed to draw them:
- `Pentagon`
- `Cube`
### Usage
```rust
mod geometrical_shapes;
use geometrical_shapes as gs;
use gs::{Displayable, Drawable};
use raster::{Color, Image};
fn main() {
let mut image = Image::blank(1000, 1000);
gs::Line::random(image.width, image.height).draw(& mut image);
gs::Point::random(image.width, image.height).draw(& mut image);
let rectangle = gs::Rectangle::new(& gs::Point::new(150, 150), & gs::Point::new(50, 50));
rectangle.draw(& mut image);
let triangle = gs::Triangle::new (
& gs::Point::new(500, 500),
& gs::Point::new(250, 700),
& gs::Point::new(700, 800),
);
triangle.draw(& mut image);
for _ in 1..50 {
gs::Circle::random(image.width, image.height).draw(& mut image);
}
raster::save(& image, "image.png").unwrap();
}
impl Displayable for Image {
fn display(& mut self, x: i32, y: i32, color: Color) {
if x >= 0 & & x < self.width & & y > = 0 & & y < self.height {
self.set_pixel(x, y, color).unwrap();
}
}
}
```
> The expected output is a png file: `image.png`
### Notions
- [Image processing library ](https://docs.rs/raster/0.2.0/raster/ )
- [Traits ](https://doc.rust-lang.org/stable/book/ch10-02-traits.html )