## drawing ### Instructions The purpose of this exercise is to create an image like the example bellow: ![example](image.png) For this exercise you will need to do the following: - Copy the code in [usage](#usage) to your `main.rs`. - Create a module called `geometrical_shapes` in another file. This module will keep all the logic for creating and operating with the different geometrical shapes. You need to define two traits, `Displayable` and `Drawable`. - `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 make the code in the `main.rs` compile and run, you have to define the following structures: - `Point` - `Circle` - `Line` - `Rectangle` - `Triangle` 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. Also it will define an associated function called `random`: - `random`: receives two arguments, the first is the `maximum x` value a point can have and the second is the `maximum y` value that a point can have. - `Triangle`: a new triangle should be created from references to three different points. - `Rectangle`: a new rectangle should be created from two references to different points. - `Circle`: a new circle should be created from a point representing the center and an `i32` value representing the radius for the circle. - The main function also requires a definition of an associated function called `random` for the types `Line`, `Point` and `Circle`. You should derive their signature from the usage. **Note**: Don't forget to add the dependencies in your Cargo.toml. #### Bonus - Implement the possibility of drawing a pentagon (implement the structure Pentagon, and the trait needed to draw in the image) - Implement the possibility of drawing a cube (implement the structure Cube, and the trait needed to draw in the image) ### 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(); } } } ``` **Note**: 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)