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Rust job interview handbook

A curated list of real Rust interview questions from personal experience

1. Whats the difference between String vs &str?

2. What is a borrow checker in Rust?

3. Does Rust have a standard async runtime?

4. Explain the following code:

#[stable(feature = "rust1", since = "1.0.0")]
pub fn spawn<F, T>(f: F) -> JoinHandle<T>
where
    F: FnOnce() -> T,
    F: Send + 'static,
    T: Send + 'static,
{
    Builder::new().spawn(f).expect("failed, cannot spawn the thread")
}

6. What can you do in unsafe block?

7. Dereference a raw pointer:

let original: u32 = 23;
let ptr = &original as *const u32;
// dereference a raw pointer on this line
println!("{value}");

8. Describe dynamic vs static dispatch

9. There have been deadlocks noticed in a component of a service. How would you reduce/remove the possibility of deadlock?

10. What are macros? What kind of macros are there and what are the differences?

11. Write a macro where it takes () and returns some number X

//Example
macro_rules! give_six {
    () => {
        6
    };
}

fn main() {
    let six = give_six!();
    println!("{}", six);
}

12. Can you create Macro with Arguments?

// A macro named `print_message`
macro_rules! print_message {
    // Match rule that takes an argument expression
    ($message:expr) => {
        println!("{}", $message)
    };
}

fn main() {
    // Call the macro with an argument
    print_message!("I am learning Rust!");
}

13. Is the following code safe? If not what would you change?

use bumpalo::Bump;

pub type TokenVec<'s> = Vec<Token, &'s Bump>;

// We want the [`Lexer`] to own the allocator because this is an internal
// design that should not be exposed to the users.
#[repr(C)]
pub struct Lexer<'s> {
    model: LexerModel<'s>,
    allocator: Bump,
}

impl<'s> Lexer<'s> {
    pub fn new(input: &'s str) -> Self {
        let capacity = input.len() / AVERAGE_TOKEN_LEN;
        let allocator = Bump::with_capacity(capacity);
        let allocator_ref: &Bump = unsafe { &*(&allocator as *const Bump) };
        let model = LexerModel::new(allocator_ref, &input);
        Self { allocator, model }
    }
}

pub struct LexerModel<'s> {
    pub input: &'s str,
    pub iterator: std::str::CharIndices<'s>,
    pub output: TokenVec<'s>,
    pub state: ModelState
}

impl<'s> LexerModel<'s> {
    pub fn new(allocator_ref: &'s Bump, input: &'s str) -> Self {
        let iterator = input.char_indices();
        let output = Vec::new_in(allocator_ref);
        let state = Default::default();
        Self {input, iterator, output, state}
    }
}

14. Describe the Send and Sync traits in Rust and explain their significance in concurrent programming.

15. How do you estimate coding tasks? What do you do if you misjudge your task and you are late?

16. What can you build with Tokio/Why would you use Tokio?

17. What is the difference between threads and async programming?

18. What's the difference between "impl Trait" vs "T: Trait" vs "Box" (in function return position)?

19. What happens if I run this code:

fn main() {
    let mut owned_string: String = "hello ".to_owned();
    let borrowed_string: &str = "world";

    owned_string.push_str(borrowed_string);
    println!("{}", owned_string);
}
So what can we say about the difference between String and Str?

22. Have you used Docker for development?

23. Write an example of struct, enum, impl, and trait

24. Can we println!("x={}", x); in this code:

fn main() {
    let x = String::from("Hi there! I'm irine");
    let y = x;

    println!...
}

25. What is the output of this code?

async fn say_world() {
    println!("world");
}

#[tokio::main]
async fn main() {
    let op = say_world();
    println!("hello");
    op.await;
}

26. What is serde?

27. Finish the commented section

use serde_json::{Result, Value};

fn untyped_example() -> Result<()> {
    // Some JSON input data as a &str. Maybe this comes from the user.
    let data = r#"
        {
            "name": "John Doe",
            "age": 43,
            "phones": [
                "+44 1234567",
                "+44 2345678"
            ]
        }"#;

    // Parse the string of data into serde_json::Value.

    // Access parts of the data by indexing with square brackets

}

28. Consider the following code:

// An empty generic representation of a struct. It represents a struct with no fields.
pub struct Empty;

// A generic representation of a struct with many fields. For example, a struct can be
// represented as `Field<usize, Field<String, Empty>>`.
pub struct Field<FirstField, RestOfFields>(pub FirstField, pub RestOfFields);

// Trait for any structure that can be converted to generic representation.
// For example, generic representation of `(usize, String)` is `Field<usize, Field<String, Empty>>`.
pub trait HasGenericRepr {
    type GenericRepr;
}

pub type GenericRepr<T> = <T as HasGenericRepr>::GenericRepr;

// Trait allowing converting any struct to its generic representation.
pub trait IntoGenericRepr: HasGenericRepr {
    fn into_generic_repr(self) -> GenericRepr<Self>;
}

Implement the following things: Ability to convert tuples of any types to their generic representation. Method first_field_ref which will return the reference to the first field of any generic representation and any structure that implements IntoGenericRepr. For example, it should be possible to call (1, "hello").first_field(), and Field(1, Field("hello", Empty)).first_field(), which should return &1. Method map which will allow mapping any function on all fields of a struct and return the struct itself. For example, it should be possible to call (1, "hello").map(...) with a function format!("{t}!") to get ("1!", "hello!"). How the function is passed to the map method is up to you (it can be passed as a closure, as a structure representing that function, etc.).

29. Explain the following code and explain what CORS are:

{
    let link_repository = LinksRepository {
        db_connection: db_conn.clone(),
    };

    let state = AppState { link_repository };

    HttpServer::new(move || {
        let cors = Cors::default()
            .allow_any_origin()
            .send_wildcard()
            .allowed_headers(vec!["content-type", "authorization"])
            .allowed_methods(vec!["GET", "POST", "PUT", "DELETE"])
            .max_age(3600);

        App::new()
            .app_data(Data::new(state.clone()))
            .wrap(cors)
            .wrap(Logger::default())
            .service(get_all)
            .service(save_link)
    })
    .bind(("127.0.0.0", 8080))?
    .run()
    .await
}