1

I'm using Rust 0.13, and am rather new to Rust. I have a struct that would like to own a string input, but I have code that would like to work with slices of that string, work.

pub struct Lexer<'a> {
    input : Option<String>,
    work : &'a str,
    ...
}

My goal is to pass a string to the struct, have it create its own copy, then to create an initial slice pointing to that string. Ideally, I can now use this slice to manipulate it, as the memory backing the slice won't ever change.

pub fn input(&mut self, input : String) {
    self.input = Some(input.clone());
    self.work = self.input.unwrap().as_slice();
}

impl<'lex> Iterator<Token> for Lexer<'lex> {
    fn next(&mut self) -> Option<Token> {
        // ...Do work...
        match regex!("\\S").find(self.work) {
            Some((0, end)) => {
                // Cheap to move the view around
                self.work = self.work.slice_from(end);
            },
            _ => ()
        }
        // ... Do more work ...
    }
}

However, this doesn't work because the lifetime is too short:

error: borrowed value does not live long enough
    self.work = self.input.unwrap().as_slice();
                ^~~~~~~~~~~~~~~~~~~

I'm interpreting this to mean that self.input could change, invalidating self.work's view. Is this a reasonable interpretation?

Is there a way to specify that these fields are tied to each other somehow? I think if I could specify that Lexer.input is final this would work, but it doesn't look like Rust has a way to do this.

Edit: sample calling code

let mut lexer = lex::Lexer::new();

lexer.add("[0-9]+", Token::NUM);
lexer.add("\\+", Token::PLUS);

for line in io::stdin().lock().lines() {
    match line {
        Ok(input) => {
            lexer.input(input.as_slice());
            lexer.lex();
        },
        Err(e) => ()
    }
}
  • possible duplicate of How can I provide a reference to a struct that is a sibling? – Shepmaster Dec 29 '14 at 18:59
  • "if I could specify that Lexer.input is final" - if you want a string that can never change, than that sounds like a &str ^_^. – Shepmaster Dec 29 '14 at 19:03
  • I agree with that, but I'm not really sure how to handle the String backing input : &str. I found that doing it that way ended up tying my Lexer to the same lifetime as whatever gave it input, so I thought about how I'd do it in C and switched to this way. – Matt Bryant Dec 29 '14 at 19:09
  • "that way ended up tying my Lexer to the same lifetime" - yup, you want your Lexer to be tied to the same lifetime as the &str - that's the only way Rust can ensure that you don't lex a string that no longer exists and that it doesn't change underneath you. – Shepmaster Dec 29 '14 at 20:00
  • That's why I'm trying to move the input into the Lexer, to let me use the invariants Rust is trying to provide. For example, I might like to call Lexer.input() on multiple different inputs from stdin, but if I do this with &str I somehow need the strings from stdin to have the same scope as the lexer struct, which doesn't appear to be feasible or at all what I want in terms of memory usage. – Matt Bryant Dec 29 '14 at 20:15
2

I think your issue can be solved by adding one more layer. You can have one layer that collects the rules of your lexer, and then you create a new struct that actually does the lexing. This is parallel to how the iterators in Rust are implemented themselves!

struct MetaLexer<'a> {
    rules: Vec<(&'a str, u32)>,
}

impl<'a> MetaLexer<'a> {
    fn new() -> MetaLexer<'a> { MetaLexer { rules: Vec::new() } }

    fn add_rule(&mut self, name: &'a str, val: u32) {
        self.rules.push((name, val));
    }

    fn lex<'r, 's>(&'r self, s: &'s str) -> Lexer<'a, 's, 'r> {
        Lexer {
            rules: &self.rules,
            work: s,
        }
    }
}

struct Lexer<'a : 'r, 's, 'r> {
    rules: &'r [(&'a str, u32)],
    work: &'s str,
}

impl<'a, 's, 'r> Iterator for Lexer<'a, 's, 'r> {
    type Item = u32;

    fn next(&mut self) -> Option<u32> {
        for &(name, val) in self.rules.iter() {
            if self.work.starts_with(name) {
                self.work = &self.work[name.len()..];
                return Some(val);
            }
        }

        None
    }
}

fn main() {
    let mut ml = MetaLexer::new();
    ml.add_rule("hello", 10);
    ml.add_rule("world", 3);

    for input in ["hello", "world", "helloworld"].iter() {
        // So that we have an allocated string,
        // like io::stdin().lock().lines() might give us
        let input = input.to_string(); 

        println!("Input: '{}'", input);
        for token in ml.lex(&input) {
            println!("Token was: {}", token);
        }
    }
}

Really, you could rename MetaLexer -> Lexer and Lexer -> LexerItems, and then you'd really match the iterators in the standard lib.

If your question is really how do I keep references to the data read from stdin, that's a different question, and very far from your original statement.

  • So I'd essentially be using a factory to make the lifetimes work out properly. I like it. Do you know of a reference that talks about "how do I keep references to the data read from stdin"? I haven't noticed anything similar that was not referring to an obsolete version, though possibly I haven't applied .clone() creatively enough. – Matt Bryant Dec 30 '14 at 1:37
  • @MattBryant I don't have any straight up references, but I've a few ideas I could put on an answer to a new question. And then you'd get other people's ideas too. – Shepmaster Dec 30 '14 at 2:10

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