- Convert the formatting traits to `&self` rather than `_: &Self`
- Rejig `syntax::ext::{format,deriving}` a little in preparation
- Implement `#[deriving(Show)]`
The transmute was unsound.
There are many instances of .unwrap_or('\x00') for "ignoring" EOF which
either do not make the situation worse than it was (well, actually make
it better, since it's easy to grep for places that don't handle EOF) or
can never ever be read.
Fixes#8971.
This also drops support for the managed pointer POISON_ON_FREE feature
as it's not worth adding back the support for it. After a snapshot, the
leftovers can be removed.
This pull request:
1) Changes the initial insertion sort to be in-place, and defers allocation of working set until merge is needed.
2) Increases the increases the maximum run length to use insertion sort for from 8 to 32 elements. This increases the size of vectors that will not allocate, and reduces the number of merge passes by two. It seemed to be the sweet spot in the benchmarks that I ran.
Here are the results of some benchmarks. Note that they are sorting u64s, so types that are more expensive to compare or copy may have different behaviors.
Before changes:
```
test vec::bench::sort_random_large bench: 719753 ns/iter (+/- 130173) = 111 MB/s
test vec::bench::sort_random_medium bench: 4726 ns/iter (+/- 742) = 169 MB/s
test vec::bench::sort_random_small bench: 344 ns/iter (+/- 76) = 116 MB/s
test vec::bench::sort_sorted bench: 437244 ns/iter (+/- 70043) = 182 MB/s
```
Deferred allocation (8 element insertion sort):
```
test vec::bench::sort_random_large bench: 702630 ns/iter (+/- 88158) = 113 MB/s
test vec::bench::sort_random_medium bench: 4529 ns/iter (+/- 497) = 176 MB/s
test vec::bench::sort_random_small bench: 185 ns/iter (+/- 49) = 216 MB/s
test vec::bench::sort_sorted bench: 425853 ns/iter (+/- 60907) = 187 MB/s
```
Deferred allocation (16 element insertion sort):
```
test vec::bench::sort_random_large bench: 692783 ns/iter (+/- 165837) = 115 MB/s
test vec::bench::sort_random_medium bench: 4434 ns/iter (+/- 722) = 180 MB/s
test vec::bench::sort_random_small bench: 187 ns/iter (+/- 38) = 213 MB/s
test vec::bench::sort_sorted bench: 393783 ns/iter (+/- 85548) = 203 MB/s
```
Deferred allocation (32 element insertion sort):
```
test vec::bench::sort_random_large bench: 682556 ns/iter (+/- 131008) = 117 MB/s
test vec::bench::sort_random_medium bench: 4370 ns/iter (+/- 1369) = 183 MB/s
test vec::bench::sort_random_small bench: 179 ns/iter (+/- 32) = 223 MB/s
test vec::bench::sort_sorted bench: 358353 ns/iter (+/- 65423) = 223 MB/s
```
Deferred allocation (64 element insertion sort):
```
test vec::bench::sort_random_large bench: 712040 ns/iter (+/- 132454) = 112 MB/s
test vec::bench::sort_random_medium bench: 4425 ns/iter (+/- 784) = 180 MB/s
test vec::bench::sort_random_small bench: 179 ns/iter (+/- 81) = 223 MB/s
test vec::bench::sort_sorted bench: 317812 ns/iter (+/- 62675) = 251 MB/s
```
This is the best I could manage with the basic merge sort while keeping the invariant that the original vector must contain each element exactly once when the comparison function is called. If one is not married to a stable sort, an in-place n*log(n) sorting algorithm may have better performance in some cases.
for #12011
cc @huonw
Added a seperate in-place insertion sort for short vectors.
Increased threshold for insertion short for 8 to 32 elements
for small types and 16 for larger types. Added benchmarks
for sorting larger types.
This PR extends the tidy formatting check to rust files in the test folder. To facilitate this, a few flags were added to tidy:
* `xfail-tidy-cr` - Disables the check for CR characters for all following lines in the file
* `xfail-tidy-tab` - Disables the check for tab characters for all following lines in the file
* `xfail-tidy-linelength` - Disables the line length check for all following lines in the file
Checks should not have to be disabled often. I disabled line length checks in `debug-info` tests that use `debugger:` checks, but aside from that, there were relatively few exclusions. Running tidy on all the tests does slow down the formatting check, so it may be worth investigating further optimization.
cc #4534
`from_utf8_lossy()` takes a byte vector and produces a `~str`, converting
any invalid UTF-8 sequence into the U+FFFD REPLACEMENT CHARACTER.
The replacement follows the guidelines in §5.22 Best Practice for U+FFFD
Substitution from the Unicode Standard (Version 6.2)[1], which also
matches the WHATWG rules for utf-8 decoding[2].
[1]: http://www.unicode.org/versions/Unicode6.2.0/ch05.pdf
[2]: http://encoding.spec.whatwg.org/#utf-8Closes#9516.
Part of #8784
Changes:
- Everything labeled under collections in libextra has been moved into a new crate 'libcollection'.
- Renamed container.rs to deque.rs, since it was no longer 'container traits for extra', just a deque trait.
- Crates that depend on the collections have been updated and dependencies sorted.
- I think I changed all the imports in the tests to make sure it works. I'm not entirely sure, as near the end of the tests there was yet another `use` that I forgot to change, and when I went to try again, it started rebuilding everything, which I don't currently have time for.
There will probably be incompatibility between this and the other pull requests that are splitting up libextra. I'm happy to rebase once those have been merged.
The tests I didn't get to run should pass. But I can redo them another time if they don't.
from_utf8_lossy() takes a byte vector and produces a ~str, converting
any invalid UTF-8 sequence into the U+FFFD REPLACEMENT CHARACTER.
The replacement follows the guidelines in §5.22 Best Practice for U+FFFD
Substitution from the Unicode Standard (Version 6.2)[1], which also
matches the WHATWG rules for utf-8 decoding[2].
[1]: http://www.unicode.org/versions/Unicode6.2.0/ch05.pdf
[2]: http://encoding.spec.whatwg.org/#utf-8