2015-12-12 16:38:03 -06:00
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// Copyright 2015 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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//
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// Original implementation taken from rust-memchr
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// Copyright 2015 Andrew Gallant, bluss and Nicolas Koch
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/// A safe interface to `memchr`.
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///
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/// Returns the index corresponding to the first occurrence of `needle` in
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/// `haystack`, or `None` if one is not found.
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///
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/// memchr reduces to super-optimized machine code at around an order of
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/// magnitude faster than `haystack.iter().position(|&b| b == needle)`.
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/// (See benchmarks.)
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///
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/// # Example
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///
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/// This shows how to find the first position of a byte in a byte string.
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///
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2015-12-17 17:36:38 -06:00
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/// ```rust,ignore
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2015-12-12 16:38:03 -06:00
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/// use memchr::memchr;
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///
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/// let haystack = b"the quick brown fox";
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/// assert_eq!(memchr(b'k', haystack), Some(8));
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/// ```
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pub fn memchr(needle: u8, haystack: &[u8]) -> Option<usize> {
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// libc memchr
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2015-12-17 17:36:38 -06:00
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#[cfg(not(target_os = "windows"))]
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2015-12-12 16:38:03 -06:00
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fn memchr_specific(needle: u8, haystack: &[u8]) -> Option<usize> {
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2015-12-17 17:36:38 -06:00
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use libc;
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2015-12-12 16:38:03 -06:00
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let p = unsafe {
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2015-12-17 17:36:38 -06:00
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libc::memchr(
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haystack.as_ptr() as *const libc::c_void,
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needle as libc::c_int,
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haystack.len() as libc::size_t)
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2015-12-12 16:38:03 -06:00
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};
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if p.is_null() {
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None
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} else {
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Some(p as usize - (haystack.as_ptr() as usize))
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}
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}
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// use fallback on windows, since it's faster
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2015-12-17 17:36:38 -06:00
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#[cfg(target_os = "windows")]
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2015-12-12 16:38:03 -06:00
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fn memchr_specific(needle: u8, haystack: &[u8]) -> Option<usize> {
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fallback::memchr(needle, haystack)
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}
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memchr_specific(needle, haystack)
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}
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/// A safe interface to `memrchr`.
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///
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/// Returns the index corresponding to the last occurrence of `needle` in
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/// `haystack`, or `None` if one is not found.
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///
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/// # Example
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///
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/// This shows how to find the last position of a byte in a byte string.
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///
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2015-12-17 17:36:38 -06:00
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/// ```rust,ignore
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2015-12-12 16:38:03 -06:00
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/// use memchr::memrchr;
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///
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/// let haystack = b"the quick brown fox";
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/// assert_eq!(memrchr(b'o', haystack), Some(17));
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/// ```
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pub fn memrchr(needle: u8, haystack: &[u8]) -> Option<usize> {
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#[cfg(target_os = "linux")]
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fn memrchr_specific(needle: u8, haystack: &[u8]) -> Option<usize> {
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use libc;
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// GNU's memrchr() will - unlike memchr() - error if haystack is empty.
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if haystack.is_empty() {return None}
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let p = unsafe {
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libc::memrchr(
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haystack.as_ptr() as *const libc::c_void,
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needle as libc::c_int,
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haystack.len() as libc::size_t)
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2015-12-12 16:38:03 -06:00
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};
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if p.is_null() {
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None
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} else {
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Some(p as usize - (haystack.as_ptr() as usize))
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}
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}
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2015-12-17 17:36:38 -06:00
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#[cfg(not(target_os = "linux"))]
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fn memrchr_specific(needle: u8, haystack: &[u8]) -> Option<usize> {
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haystack.iter().rposition(|&b| b == needle)
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}
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memrchr_specific(needle, haystack)
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}
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#[allow(dead_code)]
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mod fallback {
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use cmp;
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use usize;
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const LO_U64: u64 = 0x0101010101010101;
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const HI_U64: u64 = 0x8080808080808080;
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// use truncation
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const LO_USIZE: usize = LO_U64 as usize;
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const HI_USIZE: usize = HI_U64 as usize;
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/// Return `true` if `x` contains any zero byte.
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///
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/// From *Matters Computational*, J. Arndt
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///
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/// "The idea is to subtract one from each of the bytes and then look for
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/// bytes where the borrow propagated all the way to the most significant
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/// bit."
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#[inline]
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fn contains_zero_byte(x: usize) -> bool {
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x.wrapping_sub(LO_USIZE) & !x & HI_USIZE != 0
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}
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#[cfg(target_pointer_width = "32")]
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#[inline]
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fn repeat_byte(b: u8) -> usize {
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let mut rep = (b as usize) << 8 | b as usize;
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rep = rep << 16 | rep;
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rep
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}
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#[cfg(target_pointer_width = "64")]
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#[inline]
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fn repeat_byte(b: u8) -> usize {
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let mut rep = (b as usize) << 8 | b as usize;
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rep = rep << 16 | rep;
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rep = rep << 32 | rep;
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rep
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}
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/// Return the first index matching the byte `a` in `text`.
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pub fn memchr(x: u8, text: &[u8]) -> Option<usize> {
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// Scan for a single byte value by reading two `usize` words at a time.
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//
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// Split `text` in three parts
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// - unaligned inital part, before the first word aligned address in text
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// - body, scan by 2 words at a time
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// - the last remaining part, < 2 word size
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let len = text.len();
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let ptr = text.as_ptr();
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// search up to an aligned boundary
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let align = (ptr as usize) & (usize::BYTES- 1);
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let mut offset;
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if align > 0 {
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offset = cmp::min(usize::BYTES - align, len);
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if let Some(index) = text[..offset].iter().position(|elt| *elt == x) {
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return Some(index);
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}
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} else {
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offset = 0;
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}
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// search the body of the text
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let repeated_x = repeat_byte(x);
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if len >= 2 * usize::BYTES {
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while offset <= len - 2 * usize::BYTES {
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unsafe {
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let u = *(ptr.offset(offset as isize) as *const usize);
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let v = *(ptr.offset((offset + usize::BYTES) as isize) as *const usize);
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// break if there is a matching byte
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let zu = contains_zero_byte(u ^ repeated_x);
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let zv = contains_zero_byte(v ^ repeated_x);
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if zu || zv {
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break;
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}
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}
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offset += usize::BYTES * 2;
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}
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}
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// find the byte after the point the body loop stopped
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text[offset..].iter().position(|elt| *elt == x).map(|i| offset + i)
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}
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/// Return the last index matching the byte `a` in `text`.
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pub fn memrchr(x: u8, text: &[u8]) -> Option<usize> {
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// Scan for a single byte value by reading two `usize` words at a time.
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//
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// Split `text` in three parts
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// - unaligned tail, after the last word aligned address in text
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// - body, scan by 2 words at a time
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// - the first remaining bytes, < 2 word size
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let len = text.len();
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let ptr = text.as_ptr();
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// search to an aligned boundary
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let end_align = (ptr as usize + len) & (usize::BYTES - 1);
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let mut offset;
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if end_align > 0 {
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offset = len - cmp::min(usize::BYTES - end_align, len);
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if let Some(index) = text[offset..].iter().rposition(|elt| *elt == x) {
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return Some(offset + index);
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}
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} else {
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offset = len;
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}
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// search the body of the text
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let repeated_x = repeat_byte(x);
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while offset >= 2 * usize::BYTES {
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unsafe {
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let u = *(ptr.offset(offset as isize - 2 * usize::BYTES as isize) as *const usize);
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let v = *(ptr.offset(offset as isize - usize::BYTES as isize) as *const usize);
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// break if there is a matching byte
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let zu = contains_zero_byte(u ^ repeated_x);
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let zv = contains_zero_byte(v ^ repeated_x);
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if zu || zv {
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break;
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}
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}
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offset -= 2 * usize::BYTES;
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}
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// find the byte before the point the body loop stopped
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text[..offset].iter().rposition(|elt| *elt == x)
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}
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// test fallback implementations on all plattforms
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#[test]
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fn matches_one() {
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assert_eq!(Some(0), memchr(b'a', b"a"));
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}
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#[test]
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fn matches_begin() {
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assert_eq!(Some(0), memchr(b'a', b"aaaa"));
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}
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#[test]
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fn matches_end() {
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assert_eq!(Some(4), memchr(b'z', b"aaaaz"));
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}
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#[test]
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fn matches_nul() {
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assert_eq!(Some(4), memchr(b'\x00', b"aaaa\x00"));
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}
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#[test]
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fn matches_past_nul() {
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assert_eq!(Some(5), memchr(b'z', b"aaaa\x00z"));
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}
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#[test]
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fn no_match_empty() {
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assert_eq!(None, memchr(b'a', b""));
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}
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#[test]
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fn no_match() {
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assert_eq!(None, memchr(b'a', b"xyz"));
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}
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#[test]
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fn matches_one_reversed() {
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assert_eq!(Some(0), memrchr(b'a', b"a"));
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}
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#[test]
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fn matches_begin_reversed() {
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assert_eq!(Some(3), memrchr(b'a', b"aaaa"));
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}
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#[test]
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fn matches_end_reversed() {
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assert_eq!(Some(0), memrchr(b'z', b"zaaaa"));
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}
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#[test]
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fn matches_nul_reversed() {
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assert_eq!(Some(4), memrchr(b'\x00', b"aaaa\x00"));
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}
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#[test]
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fn matches_past_nul_reversed() {
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assert_eq!(Some(0), memrchr(b'z', b"z\x00aaaa"));
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}
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#[test]
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fn no_match_empty_reversed() {
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assert_eq!(None, memrchr(b'a', b""));
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}
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#[test]
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fn no_match_reversed() {
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assert_eq!(None, memrchr(b'a', b"xyz"));
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}
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}
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#[cfg(test)]
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mod tests {
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// test the implementations for the current plattform
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use super::{memchr, memrchr};
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#[test]
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fn matches_one() {
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assert_eq!(Some(0), memchr(b'a', b"a"));
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}
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#[test]
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fn matches_begin() {
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assert_eq!(Some(0), memchr(b'a', b"aaaa"));
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}
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#[test]
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fn matches_end() {
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assert_eq!(Some(4), memchr(b'z', b"aaaaz"));
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}
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#[test]
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fn matches_nul() {
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assert_eq!(Some(4), memchr(b'\x00', b"aaaa\x00"));
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}
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#[test]
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fn matches_past_nul() {
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assert_eq!(Some(5), memchr(b'z', b"aaaa\x00z"));
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}
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#[test]
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fn no_match_empty() {
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assert_eq!(None, memchr(b'a', b""));
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}
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#[test]
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fn no_match() {
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assert_eq!(None, memchr(b'a', b"xyz"));
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}
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#[test]
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fn matches_one_reversed() {
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assert_eq!(Some(0), memrchr(b'a', b"a"));
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}
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#[test]
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fn matches_begin_reversed() {
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assert_eq!(Some(3), memrchr(b'a', b"aaaa"));
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}
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#[test]
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fn matches_end_reversed() {
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assert_eq!(Some(0), memrchr(b'z', b"zaaaa"));
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}
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#[test]
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fn matches_nul_reversed() {
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assert_eq!(Some(4), memrchr(b'\x00', b"aaaa\x00"));
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}
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#[test]
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fn matches_past_nul_reversed() {
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|
assert_eq!(Some(0), memrchr(b'z', b"z\x00aaaa"));
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|
}
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#[test]
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|
|
fn no_match_empty_reversed() {
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|
|
|
assert_eq!(None, memrchr(b'a', b""));
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|
|
|
}
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|
#[test]
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|
|
|
fn no_match_reversed() {
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|
|
assert_eq!(None, memrchr(b'a', b"xyz"));
|
|
|
|
}
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|
|
|
}
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