Auto merge of #30740 - bluss:ascii-is-the-best, r=brson

Add fast path for ASCII in UTF-8 validation

This speeds up the ASCII case (and long stretches of ASCII in otherwise
mixed UTF-8 data) when checking UTF-8 validity.

Benchmark results suggest that on purely ASCII input, we can improve
throughput (megabytes verified / second) by a factor of 13 to 14 (smallish input).
On XML and mostly English language input (en.wikipedia XML dump),
throughput improves by a factor 7 (large input).

On mostly non-ASCII input, performance increases slightly or is the
same.

The UTF-8 validation is rewritten to use indexed access; since all
access is preceded by a (mandatory for validation) length check, bounds
checks are statically elided by LLVM and this formulation is in fact the best
for performance. A previous version had losses due to slice to iterator
conversions.

A large credit to Björn Steinbrink who improved this patch immensely,
writing this second version.

Benchmark results on x86-64 (Sandy Bridge) compiled with -C opt-level=3.

Old code is `regular`, this PR is called `fast`.

Datasets:

- `ascii` is just ASCII (2.5 kB)
- `cyr` is cyrillic script with ascii spaces (5 kB)
- `dewik10` is 10MB of a de.wikipedia XML dump
- `enwik8` is 100MB of an en.wikipedia XML dump
- `jawik10` is 10MB of a ja.wikipedia XML dump

```
test from_utf8_ascii_fast        ... bench:         140 ns/iter (+/- 4) = 18221 MB/s
test from_utf8_ascii_regular     ... bench:       1,932 ns/iter (+/- 19) = 1320 MB/s
test from_utf8_cyr_fast          ... bench:      10,025 ns/iter (+/- 245) = 511 MB/s
test from_utf8_cyr_regular       ... bench:      10,944 ns/iter (+/- 795) = 468 MB/s
test from_utf8_dewik10_fast      ... bench:   6,017,909 ns/iter (+/- 105,755) = 1740 MB/s
test from_utf8_dewik10_regular   ... bench:  11,669,493 ns/iter (+/- 264,045) = 891 MB/s
test from_utf8_enwik8_fast       ... bench:  14,085,692 ns/iter (+/- 1,643,316) = 7000 MB/s
test from_utf8_enwik8_regular    ... bench:  93,657,410 ns/iter (+/- 5,353,353) = 1000 MB/s
test from_utf8_jawik10_fast      ... bench:  29,154,073 ns/iter (+/- 4,659,534) = 340 MB/s
test from_utf8_jawik10_regular   ... bench:  29,112,917 ns/iter (+/- 2,475,123) = 340 MB/s
```

Co-authored-by: Björn Steinbrink <bsteinbr@gmail.com>
This commit is contained in:
bors 2016-01-16 01:18:48 +00:00
commit e7e4ecc522
2 changed files with 72 additions and 27 deletions

View File

@ -479,6 +479,18 @@ fn test_is_utf8() {
assert!(from_utf8(&[0xF4, 0x8F, 0xBF, 0xBF]).is_ok());
}
#[test]
fn from_utf8_mostly_ascii() {
// deny invalid bytes embedded in long stretches of ascii
for i in 32..64 {
let mut data = [0; 128];
data[i] = 0xC0;
assert!(from_utf8(&data).is_err());
data[i] = 0xC2;
assert!(from_utf8(&data).is_err());
}
}
#[test]
fn test_is_utf16() {
use rustc_unicode::str::is_utf16;

View File

@ -32,6 +32,7 @@ use option::Option::{self, None, Some};
use raw::{Repr, Slice};
use result::Result::{self, Ok, Err};
use slice::{self, SliceExt};
use usize;
pub mod pattern;
@ -240,7 +241,7 @@ impl Utf8Error {
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn from_utf8(v: &[u8]) -> Result<&str, Utf8Error> {
try!(run_utf8_validation_iterator(&mut v.iter()));
try!(run_utf8_validation(v));
Ok(unsafe { from_utf8_unchecked(v) })
}
@ -1074,46 +1075,44 @@ unsafe fn cmp_slice(a: &str, b: &str, len: usize) -> i32 {
}
/*
Section: Misc
Section: UTF-8 validation
*/
// use truncation to fit u64 into usize
const NONASCII_MASK: usize = 0x80808080_80808080u64 as usize;
/// Return `true` if any byte in the word `x` is nonascii (>= 128).
#[inline]
fn contains_nonascii(x: usize) -> bool {
(x & NONASCII_MASK) != 0
}
/// Walk through `iter` checking that it's a valid UTF-8 sequence,
/// returning `true` in that case, or, if it is invalid, `false` with
/// `iter` reset such that it is pointing at the first byte in the
/// invalid sequence.
#[inline(always)]
fn run_utf8_validation_iterator(iter: &mut slice::Iter<u8>)
-> Result<(), Utf8Error> {
let whole = iter.as_slice();
loop {
// save the current thing we're pointing at.
let old = iter.clone();
// restore the iterator we had at the start of this codepoint.
fn run_utf8_validation(v: &[u8]) -> Result<(), Utf8Error> {
let mut offset = 0;
let len = v.len();
while offset < len {
let old_offset = offset;
macro_rules! err { () => {{
*iter = old.clone();
return Err(Utf8Error {
valid_up_to: whole.len() - iter.as_slice().len()
valid_up_to: old_offset
})
}}}
macro_rules! next { () => {
match iter.next() {
Some(a) => *a,
macro_rules! next { () => {{
offset += 1;
// we needed data, but there was none: error!
None => err!(),
if offset >= len {
err!()
}
}}
v[offset]
}}}
let first = match iter.next() {
Some(&b) => b,
// we're at the end of the iterator and a codepoint
// boundary at the same time, so this string is valid.
None => return Ok(())
};
// ASCII characters are always valid, so only large
// bytes need more examination.
let first = v[offset];
if first >= 128 {
let w = UTF8_CHAR_WIDTH[first as usize];
let second = next!();
@ -1156,8 +1155,42 @@ fn run_utf8_validation_iterator(iter: &mut slice::Iter<u8>)
}
_ => err!()
}
offset += 1;
} else {
// Ascii case, try to skip forward quickly.
// When the pointer is aligned, read 2 words of data per iteration
// until we find a word containing a non-ascii byte.
const BYTES_PER_ITERATION: usize = 2 * usize::BYTES;
let ptr = v.as_ptr();
let align = (ptr as usize + offset) & (usize::BYTES - 1);
if align == 0 {
if len >= BYTES_PER_ITERATION {
while offset <= len - BYTES_PER_ITERATION {
unsafe {
let u = *(ptr.offset(offset as isize) as *const usize);
let v = *(ptr.offset((offset + usize::BYTES) as isize) as *const usize);
// break if there is a nonascii byte
let zu = contains_nonascii(u);
let zv = contains_nonascii(v);
if zu || zv {
break;
}
}
offset += BYTES_PER_ITERATION;
}
}
// step from the point where the wordwise loop stopped
while offset < len && v[offset] < 128 {
offset += 1;
}
} else {
offset += 1;
}
}
}
Ok(())
}
// https://tools.ietf.org/html/rfc3629