x86_64/usr/lib/rustlib/src/rust/library/core/benches/ascii/is_ascii.rs - manifest_repos/toolchain - Git at Google

 use super::{LONG, MEDIUM, SHORT};
 use test::black_box;
 use test::Bencher;

 macro_rules! benches {
     ($( fn $name: ident($arg: ident: &[u8]) $body: block )+) => {
         benches!(mod short SHORT[..] $($name $arg $body)+);
         benches!(mod medium MEDIUM[..] $($name $arg $body)+);
         benches!(mod long LONG[..] $($name $arg $body)+);
         // Ensure we benchmark cases where the functions are called with strings
         // that are not perfectly aligned or have a length which is not a
         // multiple of size_of::<usize>() (or both)
         benches!(mod unaligned_head MEDIUM[1..] $($name $arg $body)+);
         benches!(mod unaligned_tail MEDIUM[..(MEDIUM.len() - 1)] $($name $arg $body)+);
         benches!(mod unaligned_both MEDIUM[1..(MEDIUM.len() - 1)] $($name $arg $body)+);
     };

     (mod $mod_name: ident $input: ident [$range: expr] $($name: ident $arg: ident $body: block)+) => {
         mod $mod_name {
             use super::*;
             $(
                 #[bench]
                 fn $name(bencher: &mut Bencher) {
                     bencher.bytes = $input[$range].len() as u64;
                     let mut vec = $input.as_bytes().to_vec();
                     bencher.iter(|| {
                         let $arg: &[u8] = &black_box(&mut vec)[$range];
                         black_box($body)
                     })
                 }
             )+
         }
     };
 }

 benches! {
     fn case00_libcore(bytes: &[u8]) {
         bytes.is_ascii()
     }

     fn case01_iter_all(bytes: &[u8]) {
         bytes.iter().all(|b| b.is_ascii())
     }

     fn case02_align_to(bytes: &[u8]) {
         is_ascii_align_to(bytes)
     }

     fn case03_align_to_unrolled(bytes: &[u8]) {
         is_ascii_align_to_unrolled(bytes)
     }
 }

 // These are separate since it's easier to debug errors if they don't go through
 // macro expansion first.
 fn is_ascii_align_to(bytes: &[u8]) -> bool {
     if bytes.len() < core::mem::size_of::<usize>() {
         return bytes.iter().all(|b| b.is_ascii());
     }
     // SAFETY: transmuting a sequence of `u8` to `usize` is always fine
     let (head, body, tail) = unsafe { bytes.align_to::<usize>() };
     head.iter().all(|b| b.is_ascii())
         && body.iter().all(|w| !contains_nonascii(*w))
         && tail.iter().all(|b| b.is_ascii())
 }

 fn is_ascii_align_to_unrolled(bytes: &[u8]) -> bool {
     if bytes.len() < core::mem::size_of::<usize>() {
         return bytes.iter().all(|b| b.is_ascii());
     }
     // SAFETY: transmuting a sequence of `u8` to `[usize; 2]` is always fine
     let (head, body, tail) = unsafe { bytes.align_to::<[usize; 2]>() };
     head.iter().all(|b| b.is_ascii())
         && body.iter().all(|w| !contains_nonascii(w[0] | w[1]))
         && tail.iter().all(|b| b.is_ascii())
 }

 #[inline]
 fn contains_nonascii(v: usize) -> bool {
     const NONASCII_MASK: usize = usize::from_ne_bytes([0x80; core::mem::size_of::<usize>()]);
     (NONASCII_MASK & v) != 0
 }
	use super::{LONG, MEDIUM, SHORT};
	use test::black_box;
	use test::Bencher;

	macro_rules! benches {
	($( fn $name: ident($arg: ident: &[u8]) $body: block )+) => {
	benches!(mod short SHORT[..] $($name $arg $body)+);
	benches!(mod medium MEDIUM[..] $($name $arg $body)+);
	benches!(mod long LONG[..] $($name $arg $body)+);
	// Ensure we benchmark cases where the functions are called with strings
	// that are not perfectly aligned or have a length which is not a
	// multiple of size_of::<usize>() (or both)
	benches!(mod unaligned_head MEDIUM[1..] $($name $arg $body)+);
	benches!(mod unaligned_tail MEDIUM[..(MEDIUM.len() - 1)] $($name $arg $body)+);
	benches!(mod unaligned_both MEDIUM[1..(MEDIUM.len() - 1)] $($name $arg $body)+);
	};

	(mod $mod_name: ident $input: ident [$range: expr] $($name: ident $arg: ident $body: block)+) => {
	mod $mod_name {
	use super::*;
	$(
	#[bench]
	fn $name(bencher: &mut Bencher) {
	bencher.bytes = $input[$range].len() as u64;
	let mut vec = $input.as_bytes().to_vec();
	bencher.iter(\|\| {
	let $arg: &[u8] = &black_box(&mut vec)[$range];
	black_box($body)
	})
	}
	)+
	}
	};
	}

	benches! {
	fn case00_libcore(bytes: &[u8]) {
	bytes.is_ascii()
	}

	fn case01_iter_all(bytes: &[u8]) {
	bytes.iter().all(\|b\| b.is_ascii())
	}

	fn case02_align_to(bytes: &[u8]) {
	is_ascii_align_to(bytes)
	}

	fn case03_align_to_unrolled(bytes: &[u8]) {
	is_ascii_align_to_unrolled(bytes)
	}
	}

	// These are separate since it's easier to debug errors if they don't go through
	// macro expansion first.
	fn is_ascii_align_to(bytes: &[u8]) -> bool {
	if bytes.len() < core::mem::size_of::<usize>() {
	return bytes.iter().all(\|b\| b.is_ascii());
	}
	// SAFETY: transmuting a sequence of `u8` to `usize` is always fine
	let (head, body, tail) = unsafe { bytes.align_to::<usize>() };
	head.iter().all(\|b\| b.is_ascii())
	&& body.iter().all(\|w\| !contains_nonascii(*w))
	&& tail.iter().all(\|b\| b.is_ascii())
	}

	fn is_ascii_align_to_unrolled(bytes: &[u8]) -> bool {
	if bytes.len() < core::mem::size_of::<usize>() {
	return bytes.iter().all(\|b\| b.is_ascii());
	}
	// SAFETY: transmuting a sequence of `u8` to `[usize; 2]` is always fine
	let (head, body, tail) = unsafe { bytes.align_to::<[usize; 2]>() };
	head.iter().all(\|b\| b.is_ascii())
	&& body.iter().all(\|w\| !contains_nonascii(w[0] \| w[1]))
	&& tail.iter().all(\|b\| b.is_ascii())
	}

	#[inline]
	fn contains_nonascii(v: usize) -> bool {
	const NONASCII_MASK: usize = usize::from_ne_bytes([0x80; core::mem::size_of::<usize>()]);
	(NONASCII_MASK & v) != 0
	}