I think it helps to show that the variables introduced in match blocks are indeed independent from the matched variable `x` (especially when `x` is still reachable inside those blocks and might be useful), so this renames them accordingly. Maybe some linter (or language-level warning?) will eventually warn about shadowing `x` in such cases. ;)
I’m not super happy about the matching-on-range example, as it’s too contrived (`e` and `x` are exactly the same here), but I couldn’t come up with something both simple and non-redundant.
This commit enables implementations of IndexMut for a number of collections,
including Vec, RingBuf, SmallIntMap, TrieMap, TreeMap, and HashMap. At the same
time this deprecates the `get_mut` methods on vectors in favor of using the
indexing notation.
cc #18424
I just found this patch which at some point solved a problem I encountered. Unfortunately I apparently dropped it before I managed to write a test case. I'll try to dig up the code that triggered the issue.
The error messages still aren’t as good as they were before DST, but they better
describe the actual problem, not mentioning `Sized` at all (because that bound
is normally implied, not explicitly stated).
Closes#17567.
Closes#18040.
Closes#18159.
When building for multiple targets, the initial 'make' invocation
always fails. The missing build stamp causes clean-llvm to be
invoked, but clean-llvm cleans *all* llvm builds. So what happens
is that 1) all llvm's are cleaned (a no-op), 2) llvm-${target1}
builds, 3) all llvm's are cleaned (deleting llvm-${target1}),
4) llvm-${target2} is built, 5) the remaining build for ${target1}
fails because llvm does not exist.
This makes the clean operation only clean the correct llvm build.
Should greatly reduce bot failures.
When building for multiple targets, the initial 'make' invocation
always fails. The missing build stamp causes clean-llvm to be
invoked, but clean-llvm cleans *all* llvm builds. So what happens
is that 1) all llvm's are cleaned (a no-op), 2) llvm-${target1}
builds, 3) all llvm's are cleaned (deleting llvm-${target1}),
4) llvm-${target2} is built, 5) the remaining build for ${target1}
fails because llvm does not exist.
This makes the clean operation only clean the correct llvm build.
Should greatly reduce bot failures.
closes#17670
[breaking-change]
Traits must be object-safe if they are to be used in trait objects. This might require splitting a trait into object-safe and non-object-safe parts.
Some standard library traits in std::io have been split - Reader has new traits BytesReader (for the bytes method) and AsRefReader (for by_ref), Writer has new trait AsRefWriter (for by_ref). All these new traits have blanket impls, so any type which implements Reader or Writer (respectively) will have an implmentation of the new traits. To fix your code, you just need to `use` the new trait.