X-Git-Url: https://git.ralfj.de/rust-101.git/blobdiff_plain/30fb994332d6d62ffd199e6e7b45b4a5c84abf83..bc7855f178471111de765ab46151e0b67e19a17d:/src/part14.rs diff --git a/src/part14.rs b/src/part14.rs index 3519d43..5c00905 100644 --- a/src/part14.rs +++ b/src/part14.rs @@ -15,8 +15,8 @@ //@ `[T]` is the type of an (unsized) *array*, with elements of type `T`. All this means is that there's a contiguous //@ region of memory, where a bunch of `T` are stored. How many? We can't tell! This is an unsized type. Just like for //@ trait objects, this means we can only operate on pointers to that type, and these pointers will carry the missing -//@ information - namely, the length. Such a pointer is called a *slice*. As we will see, a slice can be split. -//@ Our function can thus take a borrowed slice, and promise to sort all elements in there. +//@ information - namely, the length (they will be *fat pointers*). Such a reference to an array is called a *slice*. As we will see, a slice can be split. +//@ Our function can thus take a mutable slice, and promise to sort all elements in there. pub fn sort(data: &mut [T]) { if data.len() < 2 { return; } @@ -38,7 +38,7 @@ pub fn sort(data: &mut [T]) { // Finally, we split our slice to sort the two halves. The nice part about slices is that splitting them is cheap: //@ They are just a pointer to a start address, and a length. We can thus get two pointers, one at the beginning and //@ one in the middle, and set the lengths appropriately such that they don't overlap. This is what `split_at_mut` does. - //@ Since the two slices don't overlap, there is no aliasing and we can have them both mutably borrowed. + //@ Since the two slices don't overlap, there is no aliasing and we can have both of them as unique, mutable slices. let (part1, part2) = data.split_at_mut(lpos); //@ The index operation can not only be used to address certain elements, it can also be used for *slicing*: Giving a range //@ of indices, and obtaining an appropriate part of the slice we started with. Here, we remove the last element from @@ -131,8 +131,8 @@ Options: //@ encoded string, that is, a bunch of bytes in memory (`[u8]`) that are valid according of UTF-8. `str` is unsized. `&str` //@ stores the address of the character data, and their length. String literals like "this one" are //@ of type `&'static str`: They point right to the constant section of the binary, so - //@ the borrow is valid for the entire program. The bytes pointed to by `pattern`, on the other hand, are owned by someone else, - //@ so we call `to_string` on it to copy the string data into a buffer on the heap owned by a String we own. + //@ the reference is valid for the entire program. The bytes pointed to by `pattern`, on the other hand, are owned by someone else, + //@ and we call `to_string` on it to copy the string data into a buffer on the heap that we own. let mode = if count { OutputMode::Count } else if sort { @@ -159,4 +159,4 @@ Options: // the pattern to regular-expression mode, and change `filter_lines` to honor this option. The documentation of regex is available from its crates.io site. // (You won't be able to use the `regex!` macro if you are on the stable or beta channel of Rust. But it wouldn't help for our use-case anyway.) -//@ [index](main.html) | [previous](part13.html) | [raw source](https://www.ralfj.de/git/rust-101.git/blob_plain/HEAD:/workspace/src/part14.rs) | [next](part15.html) +//@ [index](main.html) | [previous](part13.html) | [raw source](workspace/src/part14.rs) | [next](part15.html)