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Rollup merge of rust-lang#72407 - Lucretiel:ipv6-display, r=Mark-Simu…
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…lacrum

Various minor improvements to Ipv6Addr::Display

Cleaned up `Ipv6Addr::Display`, especially with an eye towards simplifying and reducing duplicated logic. Also added a fast-path optimization, similar to rust-lang#72399 and rust-lang#72398.

- Defer to `Ipv4Addr::fmt` when printing an Ipv4 address
- Fast path: write directly to `f` without an intermediary buffer when there are no alignment options
- Simplify finding the inner zeroes-span
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@Dylan-DPC
Dylan-DPC committed May 28, 2020
2 parents 0b58a2a + 44ca3da commit e1df552
Showing 1 changed file with 78 additions and 80 deletions.
158 changes: 78 additions & 80 deletions src/libstd/net/ip.rs
View file
Original file line number Diff line number Diff line change
Expand Up @@ -7,9 +7,9 @@
)]

use crate::cmp::Ordering;
use crate::fmt;
use crate::fmt::{self, Write as FmtWrite};
use crate::hash;
use crate::io::Write;
use crate::io::Write as IoWrite;
use crate::sys::net::netc as c;
use crate::sys_common::{AsInner, FromInner};

Expand Down Expand Up @@ -1532,102 +1532,100 @@ impl Ipv6Addr {
}
}

/// Write an Ipv6Addr, conforming to the canonical style described by
/// [RFC 5952](https://tools.ietf.org/html/rfc5952).
#[stable(feature = "rust1", since = "1.0.0")]
impl fmt::Display for Ipv6Addr {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
// Note: The calls to write should never fail, hence the unwraps in the function
// Long enough for the longest possible IPv6: 39
const IPV6_BUF_LEN: usize = 39;
let mut buf = [0u8; IPV6_BUF_LEN];
let mut buf_slice = &mut buf[..];
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
// If there are no alignment requirements, write out the IP address to
// f. Otherwise, write it to a local buffer, then use f.pad.
if f.precision().is_none() && f.width().is_none() {
let segments = self.segments();

// Special case for :: and ::1; otherwise they get written with the
// IPv4 formatter
if self.is_unspecified() {
f.write_str("::")
} else if self.is_loopback() {
f.write_str("::1")
} else if let Some(ipv4) = self.to_ipv4() {
match segments[5] {
// IPv4 Compatible address
0 => write!(f, "::{}", ipv4),
// IPv4 Mapped address
0xffff => write!(f, "::ffff:{}", ipv4),
_ => unreachable!(),
}
} else {
#[derive(Copy, Clone, Default)]
struct Span {
start: usize,
len: usize,
}

match self.segments() {
// We need special cases for :: and ::1, otherwise they're formatted
// as ::0.0.0.[01]
[0, 0, 0, 0, 0, 0, 0, 0] => write!(buf_slice, "::").unwrap(),
[0, 0, 0, 0, 0, 0, 0, 1] => write!(buf_slice, "::1").unwrap(),
// Ipv4 Compatible address
[0, 0, 0, 0, 0, 0, g, h] => {
write!(
buf_slice,
"::{}.{}.{}.{}",
(g >> 8) as u8,
g as u8,
(h >> 8) as u8,
h as u8
)
.unwrap();
}
// Ipv4-Mapped address
[0, 0, 0, 0, 0, 0xffff, g, h] => {
write!(
buf_slice,
"::ffff:{}.{}.{}.{}",
(g >> 8) as u8,
g as u8,
(h >> 8) as u8,
h as u8
)
.unwrap();
}
_ => {
fn find_zero_slice(segments: &[u16; 8]) -> (usize, usize) {
let mut longest_span_len = 0;
let mut longest_span_at = 0;
let mut cur_span_len = 0;
let mut cur_span_at = 0;

for i in 0..8 {
if segments[i] == 0 {
if cur_span_len == 0 {
cur_span_at = i;
// Find the inner 0 span
let zeroes = {
let mut longest = Span::default();
let mut current = Span::default();

for (i, &segment) in segments.iter().enumerate() {
if segment == 0 {
if current.len == 0 {
current.start = i;
}

cur_span_len += 1;
current.len += 1;

if cur_span_len > longest_span_len {
longest_span_len = cur_span_len;
longest_span_at = cur_span_at;
if current.len > longest.len {
longest = current;
}
} else {
cur_span_len = 0;
cur_span_at = 0;
current = Span::default();
}
}

(longest_span_at, longest_span_len)
}

let (zeros_at, zeros_len) = find_zero_slice(&self.segments());

if zeros_len > 1 {
fn fmt_subslice(segments: &[u16], buf: &mut &mut [u8]) {
if !segments.is_empty() {
write!(*buf, "{:x}", segments[0]).unwrap();
for &seg in &segments[1..] {
write!(*buf, ":{:x}", seg).unwrap();
}
longest
};

/// Write a colon-separated part of the address
#[inline]
fn fmt_subslice(f: &mut fmt::Formatter<'_>, chunk: &[u16]) -> fmt::Result {
if let Some(first) = chunk.first() {
fmt::LowerHex::fmt(first, f)?;
for segment in &chunk[1..] {
f.write_char(':')?;
fmt::LowerHex::fmt(segment, f)?;
}
}
Ok(())
}

fmt_subslice(&self.segments()[..zeros_at], &mut buf_slice);
write!(buf_slice, "::").unwrap();
fmt_subslice(&self.segments()[zeros_at + zeros_len..], &mut buf_slice);
if zeroes.len > 1 {
fmt_subslice(f, &segments[..zeroes.start])?;
f.write_str("::")?;
fmt_subslice(f, &segments[zeroes.start + zeroes.len..])
} else {
let &[a, b, c, d, e, f, g, h] = &self.segments();
write!(
buf_slice,
"{:x}:{:x}:{:x}:{:x}:{:x}:{:x}:{:x}:{:x}",
a, b, c, d, e, f, g, h
)
.unwrap();
fmt_subslice(f, &segments)
}
}
} else {
// Slow path: write the address to a local buffer, the use f.pad.
// Defined recursively by using the fast path to write to the
// buffer.

// This is the largest possible size of an IPv6 address
const IPV6_BUF_LEN: usize = (4 * 8) + 7;
let mut buf = [0u8; IPV6_BUF_LEN];
let mut buf_slice = &mut buf[..];

// Note: This call to write should never fail, so unwrap is okay.
write!(buf_slice, "{}", self).unwrap();
let len = IPV6_BUF_LEN - buf_slice.len();

// This is safe because we know exactly what can be in this buffer
let buf = unsafe { crate::str::from_utf8_unchecked(&buf[..len]) };
f.pad(buf)
}
let len = IPV6_BUF_LEN - buf_slice.len();
// This is safe because we know exactly what can be in this buffer
let buf = unsafe { crate::str::from_utf8_unchecked(&buf[..len]) };
fmt.pad(buf)
}
}

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