rustlings/exercises/14_generics/generics1.rs

// `Vec<T>` is generic over the type `T`. In most cases, the compiler is able to
// infer `T`, for example after pushing a value with a concrete type to the vector.
// But in this exercise, the compiler needs some help through a type annotation.

fn main() {
    // TODO: Fix the compiler error by annotating the type of the vector
    // `Vec<T>`. Choose `T` as some integer type that can be created from
    // `u8` and `i8`.
    let mut numbers = Vec::new();

    // Don't change the lines below.
    let n1: u8 = 42;
    numbers.push(n1.into());
    let n2: i8 = -1;
    numbers.push(n2.into());

    println!("{numbers:?}");
}
generics1 rewrite and solution 2024-06-26 20:00:08 -04:00			// `Vec<T>` is generic over the type `T`. In most cases, the compiler is able to
			// infer `T`, for example after pushing a value with a concrete type to the vector.
			`// But in this exercise, the compiler needs some help through a type annotation.`
fix: add hints to generics1 and generics2 exercises 2021-05-11 15:50:05 -04:00
feat: added new exercises for generics 2020-02-27 19:09:08 -05:00			`fn main() {`
generics1 rewrite and solution 2024-06-26 20:00:08 -04:00			`// TODO: Fix the compiler error by annotating the type of the vector`
			// `Vec<T>`. Choose `T` as some integer type that can be created from
			// `u8` and `i8`.
			`let mut numbers = Vec::new();`

			`// Don't change the lines below.`
			`let n1: u8 = 42;`
			`numbers.push(n1.into());`
			`let n2: i8 = -1;`
			`numbers.push(n2.into());`

			`println!("{numbers:?}");`
feat: added new exercises for generics 2020-02-27 19:09:08 -05:00			`}`