X-Git-Url: https://git.ralfj.de/rust-101.git/blobdiff_plain/fff8ebeb3f0b84c71275cbb5adee0aad6114f79b..187609af5c0332a7fa027565425fcf0342db86f8:/src/part06.rs diff --git a/src/part06.rs b/src/part06.rs index 35cd5a9..b39a441 100644 --- a/src/part06.rs +++ b/src/part06.rs @@ -49,7 +49,7 @@ fn vec_min(v: &Vec) -> Option { //@ `e` is a `&BigInt`. Assigning `min = Some(*e)` works just like a function call: Ownership of the //@ underlying data is transferred from where `e` borrows from to `min`. But that's not allowed, since //@ we just borrowed `e`, so we cannot empty it! We can, however, call `clone()` on it. Then we own -//@ the copy that was created, and hence we can store it in `min`.
+//@ the copy that was created, and hence we can store it in `min`.
//@ Of course, making such a full copy is expensive, so we'd like to avoid it. We'll some to that in the next part. // ## `Copy` types @@ -78,7 +78,7 @@ impl Copy for SomethingOrNothing {} //@ ## An operational perspective //@ Instead of looking at what happens "at the surface" (i.e., visible in Rust), one can also explain -//@ ownership passing and how `Copy` and `Clone` fit in by looking at what happens on the machine.
+//@ ownership passing and how `Copy` and `Clone` fit in by looking at what happens on the machine.
//@ When Rust code is executed, passing a value (like `i32` or `Vec`) to a function will always //@ result in a shallow copy being performed: Rust just copies the bytes representing that value, and //@ considers itself done. That's just like the default copy constructor in C++. Rust, however, will