Dereferencing strings and HashMaps in Rust

Question

I'm trying to understand how HashMaps work in Rust and I have come up with this example.

use std::collections::HashMap;

fn main() {
    let mut roman2number: HashMap<&'static str, i32> = HashMap::new();
    roman2number.insert("X", 10);
    roman2number.insert("I", 1);

    let roman_num = "XXI".to_string();
    let r0 = roman_num.chars().take(1).collect::<String>();
    let r1: &str = &r0.to_string();
    println!("{:?}", roman2number.get(r1)); // This works

    // println!("{:?}", roman2number.get(&r0.to_string())); // This doesn't
}

When I try to compile the code with last line uncommented, I get the following error

error: the trait bound `&str: std::borrow::Borrow<std::string::String>` is not satisfied [E0277]
println!("{:?}", roman2number.get(&r0.to_string()));
                                            ^~~
note: in this expansion of format_args!
note: in this expansion of print! (defined in <std macros>)
note: in this expansion of println! (defined in <std macros>)
help: run `rustc --explain E0277` to see a detailed explanation

The Trait implementation section of the docs gives the dereferencing as fn deref(&self) -> &str

So what is happening here?

Answer 1

The error is caused by that generic function HashMap::get over String is selected by the compiler during type inference. But you want HashMap::get over str.

So just change

println!("{:?}", roman2number.get(&r0.to_string()));

to

println!("{:?}", roman2number.get::<str>(&r0.to_string()));

to make it explicit. This helps the compiler to select the right function.

Check out Playground here.

It looks to me that coercion Deref<Target> can only happen when we know the target type, so when compiler is trying to infer which HashMap::get to use, it sees &r0.to_string() as type &String but never &str. And &'static str does not implement Borrow<String>. This results a type error. When we specify HashMap::get::<str>, this function expects &str, when coercion can be applied to &String to get a matching &str.

You can check out Deref coercion and String Deref for more details.

Answer 2

The other answers are correct, but I wanted to point out that you have an unneeded to_string (you've already collected into a String) and an alternate way of coercing to a &str, using as:

let r0: String = roman_num.chars().take(1).collect();
println!("{:?}", roman2number.get(&r0 as &str));

In this case, I'd probably just rewrite the map to contain char as the key though:

use std::collections::HashMap;

fn main() {
    let mut roman2number = HashMap::new();
    roman2number.insert('X', 10);
    roman2number.insert('I', 1);

    let roman_num = "XXI";
    for c in roman_num.chars() {
        println!("{:?}", roman2number.get(&c));
    }
}

Note there's no need to have an explicit type for the map, it will be inferred.

Answer 3

The definition of the get method looks as follows

fn get<Q: ?Sized>(&self, k: &Q) -> Option<&V> where K: Borrow<Q>, Q: Hash + Eq

The first part is the type of object which you pass: Q. There are constraints on Q. The conditions on Q are that

1. the key-type K needs to implement the Borrow trait over Q
2. Q needs to implement the Hash and Eq traits.

Replacing this with your actual types means that the key-type &'static str needs to implement Borrow<String>. By the definition of Borrow, this means that a &'static str needs to be convertible to &String. But all the docs/texts I've read state that everywhere you'd use &String you should be using &str instead. So it makes little sense to offer a &str -> &String conversion, even if it would make life a little easier sometimes.

Since every reference type is borrowable as a shorter lived reference type.), you can pass a &str when a &'static str is the key-type, because &'static str implements Borrow<str>