When it's a lifetime, a single quotation mark shouldn't have a matching
single quotation mark inserted after it, as delimitMate does by default.
Note that this is not without problems; a char literal coming after an
odd number of lifetime markers will have its quotation marks behave a
little strangely. That, however, is not my fault, but delimitMate's:
https://github.com/Raimondi/delimitMate/issues/135
cc #6004 and #3273
This is a rewrite of TLS to get towards not requiring `@` when using task local storage. Most of the rewrite is straightforward, although there are two caveats:
1. Changing `local_set` to not require `@` is blocked on #7673
2. The code in `local_pop` is some of the most unsafe code I've written. A second set of eyes should definitely scrutinize it...
The public-facing interface currently hasn't changed, although it will have to change because `local_data::get` cannot return `Option<T>`, nor can it return `Option<&T>` (the lifetime isn't known). This will have to be changed to be given a closure which yield `&T` (or as an Option). I didn't do this part of the api rewrite in this pull request as I figured that it could wait until when `@` is fully removed.
This also doesn't deal with the issue of using something other than functions as keys, but I'm looking into using static slices (as mentioned in the issues).
This patch is a step towards #6298. It extracts the graph abstraction from region inference into a library, and then ports the region inference to use it. It also adds a control-flow graph abstraction that will eventually be used by dataflow. The CFG code is not yet used, but I figured better to add it so as to make later rebasing etc easier.
00da76d r=cmr
6e75f2d r=cmr
This implements the trait for vector iterators, replacing the reverse
iterator types. The methods will stay, for implementing the future
reverse Iterable traits and convenience.
This can also be trivially implemented for circular buffers and other
variants of arrays like strings.
The `DoubleEndedIterator` trait will allow for implementing algorithms
like in-place reverse on generic mutable iterators.
The naming (`Range` vs. `Iterator`, `Bidirectional` vs. `DoubleEnded`)
can be bikeshedded in the future.
Indentation now works correctly on subsequent lines of a multi-line
comment, whether there are leaders (` * `) or not. (Formerly it was
incorrectly doing a two-space indent if there was no leader.)
By default, this no longer puts a ` * ` leader on `/*!` comments, as
that appears to be the current convention in the Rust source code, but
that can easily be re-enabled if desired:
let g:rust_bang_comment_leader = 1
This is a new doubly-linked list using owned nodes. In the forward direction, the list is linked with owned pointers, and the backwards direction is linked with &'static Node pointers.
This intends to replace the previous extra::DList that was using managed nodes and also featured freestanding nodes. The new List does not give access to the nodes, but means to implement all relevant linked-list methods.
The list supports pop_back, push_back, pop_front, push_front, front, back, iter, mut_iter, +more iterators, append, insert_ordered, and merge.
* Add a trait Deque for double ended sequences.
* Both List and Deque implement this trait. Rename Deque to ArrayDeque.
*The text has been updated to summarize resolved items*
## RFC Topics
### Resolved
* Should be in extra
* Representation for the backlinks
### Container Method Names and Trait Names and Type Names
* Location and name of trait `extra::collection::Deque`?
* Name of the ring buffer `extra::deque::ArrayDeque` ?
* Name of the doubly linked list `extra::dlist::List` ?
For container methods I think we have two options:
* Align with the existing methods on the vector. That would be `.push()`, `.pop()`, `.shift()`, `.unshift()`.
* Use the API described in https://github.com/mozilla/rust/wiki/Containers Obviously that's the way List is written right now.
Should we use `pop_front() -> Option<T>` or `pop_front() -> T` ?
### Benchmarks
Some basic bench numbers for List vs. Vec, Deque and *old DList*
This List implementation's performance is dominated by the allocation of Nodes required when pushing.
Iterate (by-ref) collection of 128 elements
test test_bench::bench_iter ... bench: 198 ns/iter (+/- 0)
test test_bench::bench_iter_mut ... bench: 294 ns/iter (+/- 0)
test test_bench::bench_iter_rev ... bench: 198 ns/iter (+/- 0)
test test_bench::bench_iter_mut_rev ... bench: 198 ns/iter (+/- 3)
test test_bench::bench_iter_vec ... bench: 101 ns/iter (+/- 0)
test test_bench::bench_iter_deque ... bench: 581 ns/iter (+/- 0)
test test_bench::bench_iter_dlist ... bench: 9262 ns/iter (+/- 273)
Sequence of `.push(elt)`, `.pop()` or equivalent at the tail end
test test_bench::bench_push_back_pop_back ... bench: 72 ns/iter (+/- 0)
test test_bench::bench_push_back_pop_back_vec ... bench: 5 ns/iter (+/- 0)
test test_bench::bench_push_back_pop_back_deque ... bench: 15 ns/iter (+/- 0)
test test_bench::bench_push_back_pop_back_dlist ... bench: 234 ns/iter (+/- 0)
Moves multibyte code to it's own function to make char_range_at
easier to inline, and faster for single and multibyte chars.
Benchmarked reading example.json 100 times, 1.18s before, 1.08s
after.
Currently, immediate values are copied into an alloca only to have an
addressable storage so that it can be used with memcpy. Obviously we
can skip the memcpy in this case.