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Consider this statement: From<T> for U implies Into<U> for T. source

let t="abc"; and note that t has type &str

Everyone has used: let s=String::from(t);

So that we have: From<&str> for String

According to the implication above we have:Into<String> for &str

However, the following does not work:

fn main(){
    let z="abc";
    let x = String::from(z);
    let s=&str::into(x);
}

What am I not understanding?

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5
  • 2
    Note that the existence of String::from does not imply that String implements the trait From.
    – jthulhu
    Aug 25 at 15:55
  • Do you mean let s = &str::into(z);?
    – LeopardShark
    Aug 25 at 15:59
  • Why do you believe "everyone is using String::from()"? I for one use .to_owned(), and I know plenty that use .to_string() or .into() (but <&str>::into() is rather uncommon, because why when you can use method syntax instead?)
    – Chayim Friedman
    Aug 26 at 18:40
  • @jthulhu Well, I'd say it would be unusual if it wouldn't.
    – Chayim Friedman
    Aug 26 at 18:41
  • @ChayimFriedman my point is that, as the OP may not know, implementing a trait does not work like interfaces (or duck typing) might work in other languages, where having the same methods as required in a trait is enough to implement the trait. My point was not that types that have a from associated function do not usually do so because they implement the From trait.
    – jthulhu
    Aug 26 at 19:11

2 Answers 2

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It works, except that &str::into(z) is understood as &(str::into(z)). If you want to call the associated function into for type &str, you must use a qualified name for that type:

fn main() {
    let z = "abc";
    let x = String::from(z);
    let s: String = <&str>::into(z);
}

Note that the type annotation String was added because otherwise Rust cannot know which type is the target of into.

Otherwise, you can also use the method syntax

    let s: String = z.into();

or the associated function of trait Into:

    let s: String = Into::into(z);
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  • Why is &str::into(z) understood as &(str::into(z)) ?
    – user22447547
    Aug 25 at 15:58
  • @Brett Its just the way operator precedence was designed. From the reference, paths (i.e. ::) has a higher precedence than unary operators (i.e. &). That and you can only use :: with identifiers (which &str is not, but str is) unless you do <...>::.
    – kmdreko
    Aug 25 at 16:04
  • @Brett additionally, & cannot be a part of a path. If you need to name a type that involves something other than an identifier, you need to wrap it with < and >.
    – jthulhu
    Aug 25 at 16:05
  • 1
    @jthulhu your main() does not compile.
    – user22447547
    Aug 25 at 16:18
  • @Brett Looks like a simple typo (they used x where they should've used z). I've corrected it.
    – cdhowie
    Aug 25 at 16:37
2

You got turned around there a bit. Happens to me a lot with the whole to and from ;)

Let's consider the types. x is String. So into(x) would attempt to turn a String into a &str, and you can't do that like this.

The fact that String implements From<&str> means that &str implements Into<String>, i.e., you can turn a &str into a String.

Here's what you really want:

fn main() {
    let x: &str = "abc";
    let z: String = String::from(x);
    
    let s: String = x.into();
}

No problem there!

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