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Merge pull request rust-lang#3348 from m-ou-se/c-str-literal
RFC: `c"…"` string literals
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- Feature Name: `c_str_literal` | ||
- Start Date: 2022-11-15 | ||
- RFC PR: [rust-lang/rfcs#3348](https://github.com/rust-lang/rfcs/pull/3348) | ||
- Rust Issue: [rust-lang/rust#105723](https://github.com/rust-lang/rust/issues/105723) | ||
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# Summary | ||
[summary]: #summary | ||
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`c"…"` string literals. | ||
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# Motivation | ||
[motivation]: #motivation | ||
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Looking at the [amount of `cstr!()` invocations just on GitHub](https://cs.github.com/?scopeName=All+repos&scope=&q=cstr%21+lang%3Arust) (about 3.2k files with matches) it seems like C string literals | ||
are a widely used feature. Implementing `cstr!()` as a `macro_rules` or `proc_macro` requires non-trivial code to get it completely right (e.g. refusing embedded nul bytes), | ||
and is still less flexible than it should be (e.g. in terms of accepted escape codes). | ||
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In Rust 2021, we reserved prefixes for (string) literals, so let's make use of that. | ||
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# Guide-level explanation | ||
[guide-level-explanation]: #guide-level-explanation | ||
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`c"abc"` is a [`&CStr`](https://doc.rust-lang.org/stable/core/ffi/struct.CStr.html). A nul byte (`b'\0'`) is appended to it in memory and the result is a `&CStr`. | ||
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All escape codes and characters accepted by `""` and `b""` literals are accepted, except nul bytes. | ||
So, both UTF-8 and non-UTF-8 data can co-exist in a C string. E.g. `c"hello\x80我叫\u{1F980}"`. | ||
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The raw string literal variant is prefixed with `cr`. For example, `cr"\"` and `cr##"Hello "world"!"##`. (Just like `r""` and `br""`.) | ||
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# Reference-level explanation | ||
[reference-level-explanation]: #reference-level-explanation | ||
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Two new [string literal types](https://doc.rust-lang.org/reference/tokens.html#characters-and-strings): `c"…"` and `cr#"…"#`. | ||
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Accepted escape codes: [Quote](https://doc.rust-lang.org/reference/tokens.html#quote-escapes) & [Unicode](https://doc.rust-lang.org/reference/tokens.html#unicode-escapes) & [Byte](https://doc.rust-lang.org/reference/tokens.html#byte-escapes). | ||
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Nul bytes are disallowed, whether as escape code or source character (e.g. `"\0"`, `"\x00"`, `"\u{0}"` or `"␀"`). | ||
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Unicode characters are accepted and encoded as UTF-8. That is, `c"🦀"`, `c"\u{1F980}"` and `c"\xf0\x9f\xa6\x80"` are all accepted and equivalent. | ||
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The type of the expression is [`&core::ffi::CStr`](https://doc.rust-lang.org/stable/core/ffi/struct.CStr.html). So, the `CStr` type will have to become a lang item. | ||
(`no_core` programs that don't use `c""` string literals won't need to define this lang item.) | ||
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Interactions with string related macros: | ||
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- The [`concat` macro](https://doc.rust-lang.org/stable/std/macro.concat.html) will _not_ accept these literals, just like it doesn't accept byte string literals. | ||
- The [`format_args` macro](https://doc.rust-lang.org/stable/std/macro.format_args.html) will _not_ accept such a literal as the format string, just like it doesn't accept a byte string literal. | ||
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(This might change in the future. E.g. `format_args!(c"…")` would be cool, but that would require generalizing the macro and `fmt::Arguments` to work for other kinds of strings. (Ideally also for `b"…"`.)) | ||
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# Rationale and alternatives | ||
[rationale-and-alternatives]: #rationale-and-alternatives | ||
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* No `c""` literal, but just a `cstr!()` macro. (Possibly as part of the standard library.) | ||
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This requires [complicated machinery](https://github.com/rust-lang/rust/pull/101607/files) to implement correctly. | ||
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The trivial implementation of using `concat!($s, "\0")` is problematic for several reasons, including non-string input and embedded nul bytes. | ||
(The unstable `concat_bytes!()` solves some of the problems.) | ||
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The popular [`cstr` crate](https://crates.io/crates/cstr) is a proc macro to work around the limiations of a `macro_rules` implementation, but that also has many downsides. | ||
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Even if we had the right language features for a trivial correct implementation, there are many code bases where C strings are the primary form of string, | ||
making `cstr!("..")` syntax quite cumbersome. | ||
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- No `c""` literal, but make it possible for `""` to implicitly become a `&CStr` through magic. | ||
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We already allow integer literals (e.g. `123`) to become one of many types, so perhaps we could do the same to string literals. | ||
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(It could be a built-in fixed set of types (e.g. just `str`, `[u8]`, and `CStr`), | ||
or it could be something extensible through something like a `const trait FromStringLiteral`. | ||
Not sure how that would exactly work, but it sounds cool.) | ||
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* Allowing only valid UTF-8 and unicode-oriented escape codes (like in `"…"`, e.g. `螃蟹` or `\u{1F980}` but not `\xff`). | ||
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For regular string literals, we have this restriction because `&str` is required to be valid UTF-8. | ||
However, C literals (and objects of our `&CStr` type) aren't necessarily valid UTF-8. | ||
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* Allowing only ASCII characters and byte-oriented escape codes (like in `b"…"`, e.g. `\xff` but not `螃蟹` or `\u{1F980}`). | ||
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While C literals (and `&CStr`) aren't necessarily valid UTF-8, they often do contain UTF-8 data. | ||
Refusing to put UTF-8 in it would make the feature less useful and would unnecessarily make it harder to use unicode in programs that mainly use C strings. | ||
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* Having separate `c"…"` and `bc"…"` string literal prefixes for UTF-8 and non-UTF8. | ||
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Both of those would be the same type (`&CStr`). Unless we add a special "always valid UTF-8 C string" type, there's not much use in separating them. | ||
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* Use `z` instead of `c` (`z"…"`), for "zero terminated" instead of "C string". | ||
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We already have a type called `CStr` for this, so `c` seems consistent. | ||
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- Also add `c'…'` as [`c_char`](https://doc.rust-lang.org/stable/core/ffi/type.c_char.html) literal. | ||
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It'd be identical to `b'…'`, except it'd be a `c_char` instead of `u8`. | ||
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This would easily lead to unportable code, since `c_char` is `i8` or `u8` depending on the platform. (Not a wrapper type, but a direct type alias.) | ||
E.g. `fn f(_: i8) {} f(c'a');` would compile only on some platforms. | ||
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An alternative is to allow `c'…'` to implicitly be either a `u8` or `i8`. (Just like integer literals can implicitly become one of many types.) | ||
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# Drawbacks | ||
[drawbacks]: #drawbacks | ||
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- The `CStr` type needs some work. `&CStr` is currently a wide pointer, but it's supposed to be a thin pointer. See https://doc.rust-lang.org/1.65.0/src/core/ffi/c_str.rs.html#87 | ||
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It's not a blocker, but we might want to try to fix that before stabilizing `c"…"`. | ||
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# Prior art | ||
[prior-art]: #prior-art | ||
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- C has C string literals (`"…"`). :) | ||
- Nim has `cstring"…"`. | ||
- COBOL has `Z"…"`. | ||
- Probably a lot more languages, but it's hard to search for. :) | ||
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# Unresolved questions | ||
[unresolved-questions]: #unresolved-questions | ||
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- Also add `c'…'` C character literals? (`u8`, `i8`, `c_char`, or something more flexible?) | ||
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- Should we make `&CStr` a thin pointer before stabilizing this? (If so, how?) | ||
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- Should the (unstable) [`concat_bytes` macro](https://github.com/rust-lang/rust/issues/87555) accept C string literals? (If so, should it evaluate to a C string or byte string?) | ||
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# Future possibilities | ||
[future-possibilities]: #future-possibilities | ||
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(These aren't necessarily all good ideas.) | ||
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- Make `concat!()` or `concat_bytes!()` work with `c"…"`. | ||
- Make `format_args!(c"…")` (and `format_args!(b"…")`) work. | ||
- Improve the `&CStr` type, and make it FFI safe. | ||
- Accept unicode characters and escape codes in `b""` literals too: [RFC 3349](https://github.com/rust-lang/rfcs/pull/3349). | ||
- More prefixes! `w""`, `os""`, `path""`, `utf16""`, `brokenutf16""`, `utf32""`, `wtf8""`, `ebcdic""`, … | ||
- No more prefixes! Have `let a: &CStr = "…";` work through magic, removing the need for prefixes. | ||
(That won't happen any time soon probably, so that shouldn't block `c"…"` now.) |