A persistent string type with the same API as a linked-list of characters.
The FiniteCharList
type is probably what you want to use. It behaves just like a linked list of characters but with better (TODO: verify) performance.
The CharList<Tail>
type allows customization of the data structure by allowing a custom tail. I'm using this to emulate Prolog's open-ended lists where the tail of the list may be an uninstantiated Prolog variable.
A FiniteCharList
is just a type alias for CharList<()>
.
Generic CharList
s have much fewer abilities provided by this crate because the nature of the tail is unknown. For instance, CharList<Tail>
does not implement AsRef<str>
or even PartialEq
!
The intention is that you will wrap a CharList<YourTail>
in a newtype and implement those traits if it makes sense for your problem space. For example, I (plan to) use a CharList<ast::Expression>
which will implement PartialEq
because I want syntactic equality.
See the docs for memory-layout diagrams and explanations of how it all works.
This crate is a work in progress. Specifically Not all uses of unsafe
have been validated! Please don't use this for anything serious yet.
Safety audits are welcome and appreciated! I'm still quite new to writing unsafe
code.
Also, this crate depends on front-vec
which is also badly in need of auditing.
use assert2::assert; // For nicer assertions.
let icon = FiniteCharList::from("icon");
let nomicon = icon.cons_str("nom");
let rustonomicon = nomicon.cons_str("rusto");
// Cloning requires
// 1) copying two words, and
// 2) performing one BTreeMap lookup.
let rustonomicon2 = rustonomicon.clone();
assert!(icon == "icon");
assert!(nomicon == "nomicon");
assert!(rustonomicon == "rustonomicon");
assert!(rustonomicon == rustonomicon2);
// No new allocations required (if underlying buffer capacity allows).
// Mutably prepends the `&str` to the buffer without shifting memory.
let the_book = rustonomicon.cons_str("the ");
assert!(the_book == "the rustonomicon");
// Drop to mutably resize underlying buffer and
drop(rustonomicon);
drop(the_book);
drop(rustonomicon2);
let janelle_monae = icon.cons('b'); // Duplication required now.
assert!(janelle_monae == "bicon");