63

I'd like to capitalize the first letter of a &str. It's a simple problem and I hope for a simple solution. Intuition tells me to do something like this:

let mut s = "foobar";
s[0] = s[0].to_uppercase();

But &strs can't be indexed like this. The only way I've been able to do it seems overly convoluted. I convert the &str to an iterator, convert the iterator to a vector, upper case the first item in the vector, which creates an iterator, which I index into, creating an Option, which I unwrap to give me the upper-cased first letter. Then I convert the vector into an iterator, which I convert into a String, which I convert to a &str.

let s1 = "foobar";
let mut v: Vec<char> = s1.chars().collect();
v[0] = v[0].to_uppercase().nth(0).unwrap();
let s2: String = v.into_iter().collect();
let s3 = &s2;

Is there an easier way than this, and if so, what? If not, why is Rust designed this way?

Similar question

  • 34
    It's a simple problem — no, it's not. Please capitalize ß when interpreted as German. Hint: it's not a single character. Even the problem statement can be complicated. For example, it would be improper to capitalize the first character of the surname von Hagen. This is all an aspect of living in a global world that has had thousands of years of divergent cultures with different practices and we are trying to squash all those into 8 bits and 2 lines of code. – Shepmaster Jul 16 '16 at 1:13
  • 3
    What you pose seems to be a character encoding problem, not a data type problem. I presume char::to_uppercase already properly handles Unicode. My question is, why the need for all data type conversions? It seems indexing could return a multi-byte, Unicode character (not a single byte character, which would assume ascii only), and to_uppercase could return an upper case character in whatever language it's in, if one is available in said language. – marshallm Jul 16 '16 at 1:26
  • 2
    @marshallm char::to_uppercase indeed handles this problem, but you throw away its efforts by only taking the first code point (nth(0)) instead of all the code points that make up the capitalization – user395760 Jul 16 '16 at 9:26
  • Character encoding is not a straightforward process as pointed out by Joel on Software: Unicode. – Nathan Jul 19 '16 at 12:40
  • @Shepmaster, in general you are correct. It's a simple problem in English (the de facto standard base of programming languages and data formats). Yes there are scripts where "capitalization" is not even a concept, and others where it is very complicated. – Paul Draper Dec 4 '19 at 3:27
81

Why is it so convoluted?

Let's break it down, line-by-line

let s1 = "foobar";

We've created a literal string that is encoded in UTF-8. UTF-8 allows us to encode the 1,114,112 code points of Unicode in a manner that's pretty compact if you come from a region of the world that types in mostly characters found in ASCII, a standard created in 1963. UTF-8 is a variable length encoding, which means that a single code point might take from 1 to 4 bytes. The shorter encodings are reserved for ASCII, but many Kanji take 3 bytes in UTF-8.

let mut v: Vec<char> = s1.chars().collect();

This creates a vector of characters. A character is a 32-bit number that directly maps to a code point. If we started with ASCII-only text, we've quadrupled our memory requirements. If we had a bunch of characters from the astral plane, then maybe we haven't used that much more.

v[0] = v[0].to_uppercase().nth(0).unwrap();

This grabs the first code point and requests that it be converted to an uppercase variant. Unfortunately for those of us who grew up speaking English, there's not always a simple one-to-one mapping of a "small letter" to a "big letter". Side note: we call them upper- and lower-case because one box of letters was above the other box of letters back in the day.

This code will panic when a code point has no corresponding uppercase variant. I'm not sure if those exist, actually. It could also semantically fail when a code point has an uppercase variant that has multiple characters, such as the German ß. Note that ß may never actually be capitalized in The Real World, this is the just example I can always remember and search for. As of 2017-06-29, in fact, the official rules of German spelling have been updated so that both "ẞ" and "SS" are valid capitalizations!

let s2: String = v.into_iter().collect();

Here we convert the characters back into UTF-8 and require a new allocation to store them in, as the original variable was stored in constant memory so as to not take up memory at run time.

let s3 = &s2;

And now we take a reference to that String.

It's a simple problem

Unfortunately, this is not true. Perhaps we should endeavor to convert the world to Esperanto?

I presume char::to_uppercase already properly handles Unicode.

Yes, I certainly hope so. Unfortunately, Unicode isn't enough in all cases. Thanks to huon for pointing out the Turkish I, where both the upper (İ) and lower case (i) versions have a dot. That is, there is no one proper capitalization of the letter i; it depends on the locale of the the source text as well.

why the need for all data type conversions?

Because the data types you are working with are important when you are worried about correctness and performance. A char is 32-bits and a string is UTF-8 encoded. They are different things.

indexing could return a multi-byte, Unicode character

There may be some mismatched terminology here. A char is a multi-byte Unicode character.

Slicing a string is possible if you go byte-by-byte, but the standard library will panic if you are not on a character boundary.

One of the reasons that indexing a string to get a character was never implemented is because so many people misuse strings as arrays of ASCII characters. Indexing a string to set a character could never be efficient - you'd have to be able to replace 1-4 bytes with a value that is also 1-4 bytes, causing the rest of the string to bounce around quite a lot.

to_uppercase could return an upper case character

As mentioned above, ß is a single character that, when capitalized, becomes two characters.

Solutions

See also trentcl's answer which only uppercases ASCII characters.

Original

If I had to write the code, it'd look like:

fn some_kind_of_uppercase_first_letter(s: &str) -> String {
    let mut c = s.chars();
    match c.next() {
        None => String::new(),
        Some(f) => f.to_uppercase().chain(c).collect(),
    }
}

fn main() {
    println!("{}", some_kind_of_uppercase_first_letter("joe"));
    println!("{}", some_kind_of_uppercase_first_letter("jill"));
    println!("{}", some_kind_of_uppercase_first_letter("von Hagen"));
    println!("{}", some_kind_of_uppercase_first_letter("ß"));
}

But I'd probably search for uppercase or unicode on crates.io and let someone smarter than me handle it.

Improved

Speaking of "someone smarter than me", Veedrac points out that it's probably more efficient to convert the iterator back into a slice after the first capital codepoints are accessed. This allows for a memcpy of the rest of the bytes.

fn some_kind_of_uppercase_first_letter(s: &str) -> String {
    let mut c = s.chars();
    match c.next() {
        None => String::new(),
        Some(f) => f.to_uppercase().collect::<String>() + c.as_str(),
    }
}
  • 27
    After thinking about it a lot, I understand these design choices better. The standard library should choose the most versatile, performant, and safe trade-offs possible. Otherwise, it forces developers to make trade-offs that might not be appropriate for their application, architecture, or locale. Or it could lead to ambiguity and misunderstandings. If I prefer other trade-offs, I can choose a 3rd-party library or write it myself. – marshallm Jul 16 '16 at 3:56
  • 9
    @marshallm that's really great to hear! I fear that many newcomers to Rust misunderstand the decisions that the Rust designers have made and simply write them off as being too complicated for no benefit. By asking and answering questions here, I have gained an appreciation for the care that needs to go into such designs and hopefully become a better programmer. Keeping an open mind and being willing to learn more is a great trait to have as a programmer. – Shepmaster Jul 16 '16 at 13:50
  • 5
    The "Turkish i" is an example of locale dependence that is more directly relevant to this particular question than sorting. – huon Jul 18 '16 at 21:23
  • 5
    I'm surprised they have to_uppercase and to_lowercase but not to_titlecase. IIRC, some unicode characters actually have a special titlecase variant. – Tim Jul 18 '16 at 22:22
  • 5
    By the way, even a single code point may not be the right unit to convert. What if the first character is a grapheme cluster that should receive special handling when upper-casing? (It so happens that decomposed umlauts work if you just upper-case the base character, but I don't know if that is universally true.) – Sebastian Redl Jan 19 '18 at 13:40
18

Is there an easier way than this, and if so, what? If not, why is Rust designed this way?

Well, yes and no. Your code is, as the other answer pointed out, not correct, and will panic if you give it something like བོད་སྐད་ལ་. So doing this with Rust's standard library is even harder than you initially thought.

However, Rust is designed to encourage code reuse and make bringing in libraries easy. So the idiomatic way to capitalize a string is actually quite palatable:

extern crate inflector;
use inflector::Inflector;

let capitalized = "some string".to_title_case();
  • 2
    The question of the user sounds more like he would want .to_sentence_case(). – Christopher Oezbek Jun 15 '19 at 21:20
  • Sadly it doesn't help with naming things... This is awesome library and I never saw it before, but it's name is hard (for me) to remember and has functions that have hardly anything to do with actual inflection, one of them being your example. – Sahsahae Nov 28 '19 at 20:15
8

It's not especially convoluted if you are able to limit your input to ASCII-only strings.

Since Rust 1.23, str has a make_ascii_uppercase method (in older Rust versions, it was available through the AsciiExt trait). This means you can uppercase ASCII-only string slices with relative ease:

fn make_ascii_titlecase(s: &mut str) {
    if let Some(r) = s.get_mut(0..1) {
        r.make_ascii_uppercase();
    }
}

This will turn "taylor" into "Taylor", but it won't turn "édouard" into "Édouard". (playground)

Use with caution.

  • Help a Rust newbie out, why is r mutable? I see that s is a mutable str. Ohhhh ok: I have the answer for my own question: get_mut (called here w/ a range) explicitly returns Option<&mut>. – Steven Lu Apr 27 '19 at 17:25
-1

I agree with the question guy. So, I have made it by my own way:

fn capitalize(word: &str) -> String {
    let mut output = String::with_capacity(word.len());
    let (first, last) = word.split_at(1);
    let first_letter = format!("{}", first.to_uppercase());
    output.push_str(first_letter.as_str());
    output.push_str(last);
    output
}

fn main() {
    let input = "end";
    let ret = capitalize(input);
    println!("{} -> {}", input, ret);
}
  • 1
    This solution extraneously allocatesfirst_letter, and panics if the first code point is non-ASCII. You can avoid the unnecessary allocation with something like write!(&mut output, "{}{}", first.to_uppercase(), last), but you cannot avoid the panic, so you might as well just use make_ascii_uppercase as I suggest in my answer. – trentcl Nov 28 '19 at 4:26
-1

Here's a version that is a bit slower than @Shepmaster's improved version, but also more idiomatic:

fn capitalize_first(s: &str) -> String {
    let mut chars = s.chars();
    chars
        .next()
        .map(|first_letter| first_letter.to_uppercase())
        .into_iter()
        .flatten()
        .chain(chars)
        .collect()
}

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