14

What is wrong with this:

fn main() {
    let word: &str = "lowks";
    assert_eq!(word.chars().rev(), "skwol");
}

I get an error like this:

error[E0369]: binary operation `==` cannot be applied to type `std::iter::Rev<std::str::Chars<'_>>`
 --> src/main.rs:4:5
  |
4 |     assert_eq!(word.chars().rev(), "skwol");
  |     ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
  |
  = note: an implementation of `std::cmp::PartialEq` might be missing for `std::iter::Rev<std::str::Chars<'_>>`
  = note: this error originates in a macro outside of the current crate

What is the correct way to do this?

23

The first, and most fundamental, problem is that this isn't how you reverse a Unicode string. You are reversing the order of the code points, where you want to reverse the order of graphemes. There may be other issues with this that I'm not aware of. Text is hard.

The second issue is pointed out by the compiler: you are trying to compare a string literal to a char iterator. chars and rev don't produce new strings, they produce lazy sequences, as with iterators in general. The following works:

/*!
Add the following to your `Cargo.toml`:

```cargo
[dependencies]
unicode-segmentation = "0.1.2"
```
*/
extern crate unicode_segmentation;
use unicode_segmentation::UnicodeSegmentation;

fn main() {
    let word: &str = "loẅks";
    let drow: String = word
        // Split the string into an Iterator of &strs, where each element is an
        // extended grapheme cluster.
        .graphemes(true)
        // Reverse the order of the grapheme iterator.
        .rev()
        // flat_map takes each element of an iterator, turns that element into
        // a new iterator, then outputs the elements of these sub-iterators as
        // one long chain.  In this case, we're turning each grapheme cluster
        // into an Iterator of code points, then yielding all those code points.
        // That is, this is now an Iterator of chars from the reversed grapheme
        // clusters.
        .flat_map(|g| g.chars())
        // Collect all the chars into a new owned String.
        .collect();

    assert_eq!(drow, "skẅol");

    // Print it out to be sure.
    println!("drow = `{}`", drow);
}

Note that graphemes used to be in the standard library as an unstable method, so the above will break with sufficiently old versions of Rust. In that case, you need to use UnicodeSegmentation::graphemes(s, true) instead.

  • 11
    I think you can just .rev().collect(), since String implements FromIterator<&str>. Also, fwiw, I think the actual most fundamental problem is misunderstanding iterators, strings and types in general (understandable, many languages aren't so "pedantic"), not the somewhat finer points of unicode correctness. – huon Jan 17 '15 at 7:55
  • 1
    @dbaupp: I'd argue a problem that is independent of the implementation language is more fundamental than one which is specific to a particular language. :D But it's nice to know String supports FromIterator<&str>. A slight pity it doesn't pre-allocate the storage, but you can't always get what you want... – DK. Jan 17 '15 at 8:54
  • 1
    Eh, the question is about why a certain piece of code doesn't compile in a particular language, not why it is giving unexpected output (i.e. a language-independent problem with the algorithm), so the fundamental problem for the question itself is the Rust-specific type errors. It's definitely good to mention that unicode is hard, though. – huon Jan 17 '15 at 9:22
33

Since, as @DK. suggested, .graphemes() isn't available on &str in stable, you might as well just do what @huon suggested in the comments:

fn main() {
    let foo = "palimpsest";
    println!("{}", foo.chars().rev().collect::<String>());
}

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