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AVX2

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nora 2023-12-02 22:01:39 +01:00
parent 267b9e8c3d
commit d5b8c4ed21
3 changed files with 155 additions and 1 deletions
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2
2023/day1/src/main.rs
View file

@ -3,6 +3,7 @@ use std::mem::MaybeUninit;
mod branchless;
mod naive;
mod no_lines;
mod vectorized;
mod zero_alloc;
fn main() {
@ -24,6 +25,7 @@ fn main() {
"zero_alloc" => zero_alloc::part2(&input),
"branchless" => unsafe { branchless::part2(&input) },
"no_lines" => unsafe { no_lines::part2(&input) },
"vectorized" => unsafe { vectorized::part2(&input) },
_ => {
eprintln!("error: invalid mode, must be part1,naive,zero_alloc,branchless");
std::process::exit(1);

7
2023/day1/src/no_lines.rs
View file

@ -14,7 +14,12 @@ pub unsafe fn part2(input: &str) {
// in the integer bytes:
// X X X X X e n o
// this out of bounds read is UB under SB, but fine under models that don't do provenance narrowing with slices. i dont care enough to fix it.
let block = bytes.as_ptr().add(byte_idx).cast::<u64>().read_unaligned().to_le();
let block = bytes
.as_ptr()
.add(byte_idx)
.cast::<u64>()
.read_unaligned()
.to_le();
let one = (block & ((1 << (8 * 1)) - 1)) as u8;
let three = block & ((1 << (8 * 3)) - 1);

147
2023/day1/src/vectorized.rs Normal file
View file

@ -0,0 +1,147 @@
pub unsafe fn part2(input: &str) {
let mut sum = 0;
let bytes = input.as_bytes();
let mut digits = [0_u8; 128];
let mut byte_idx = 0;
let mut line_idx = 0;
#[cfg(target_arch = "x86_64")]
let avx2 = std::arch::is_x86_feature_detected!("avx2");
#[cfg(not(target_arch = "x86_64"))]
let avx2 = false;
while byte_idx < bytes.len() {
// in memory:
// o n e X X X X X
// in the integer bytes:
// X X X X X e n o
// this out of bounds read is UB under SB, but fine under models that don't do provenance narrowing with slices. i dont care enough to fix it.
let block = bytes
.as_ptr()
.add(byte_idx)
.cast::<u64>()
.read_unaligned()
.to_le();
let one = (block & ((1 << (8 * 1)) - 1)) as u8;
let three = block & ((1 << (8 * 3)) - 1);
let four = block & ((1 << (8 * 4)) - 1);
let five = block & ((1 << (8 * 5)) - 1);
if one == b'\n' {
let first = digits[..line_idx].iter().find(|&&d| d > b'0').unwrap();
let last = digits[..line_idx]
.iter()
.rev()
.find(|&&d| d > b'0')
.unwrap();
let first = (first - b'0') as u64;
let last = (last - b'0') as u64;
sum += first * 10 + last;
digits = [0_u8; 128];
line_idx = 0;
byte_idx += 1;
continue;
}
const fn gorble(s: &[u8]) -> u64 {
let mut bytes = [0; 8];
let mut i = 0;
while i < s.len() {
bytes[7 - i] = s[i];
i += 1;
}
// like: u64::from_be_bytes([0, 0, 0, b't', b'h', b'g', b'i', b'e'])
u64::from_be_bytes(bytes)
}
let mut acc = 0;
acc |= if one >= b'0' && one <= b'9' { one } else { 0 };
#[cfg(all(target_arch = "x86_64"))]
if avx2 {
use std::arch::x86_64;
unsafe fn round(input: u64, compare: [u64; 4], then: [u64; 4]) -> x86_64::__m256i {
// YYYYYYYY|AAAAAAAA|XXXXXXXX|BBBBBBBB|
let fives = unsafe { std::mem::transmute::<_, x86_64::__m256i>(compare) };
// 000000EE|000000ZZ|000000XX|000000FF|
let then = unsafe { std::mem::transmute::<_, x86_64::__m256i>(then) };
// XXXXXXXX|XXXXXXXX|XXXXXXXX|XXXXXXXX|
let actual = x86_64::_mm256_set1_epi64x(input as i64);
// 00000000|00000000|11111111|00000000|
let mask = x86_64::_mm256_cmpeq_epi64(fives, actual);
// 00000000|00000000|0000000X|00000000|
let result = x86_64::_mm256_and_si256(then, mask);
// we can also pretend that it's this as only the lowest byte is set in each lane
// 0000/0000|0000/0000|0000/000X|0000/0000|
result
}
let fives = round(
five,
[gorble(b"eight"), gorble(b"seven"), gorble(b"three"), 0],
[b'8' as _, b'7' as _, b'3' as _, 0],
);
let fours = round(
four,
[gorble(b"five"), gorble(b"four"), gorble(b"nine"), 0],
[b'5' as _, b'4' as _, b'9' as _, 0],
);
let threes = round(
three,
[gorble(b"six"), gorble(b"two"), gorble(b"one"), 0],
[b'6' as _, b'2' as _, b'1' as _, 0],
);
let result = x86_64::_mm256_or_pd(std::mem::transmute(fives), std::mem::transmute(fours));
let result = x86_64::_mm256_or_pd(result, std::mem::transmute(threes));
let low = x86_64::_mm256_extractf128_pd(result, 0);
let high = x86_64::_mm256_extractf128_pd(result, 1);
let result = x86_64::_mm_or_pd(low, high);
let result = std::mem::transmute::<_, x86_64::__m128i>(result);
let low = x86_64::_mm_extract_epi64(result, 0);
let high = x86_64::_mm_extract_epi64(result, 1);
let result = low | high;
debug_assert!(result < 128);
digits[line_idx] = acc | result as u8;
}
if !avx2 {
macro_rules! check {
($const:ident $len:ident == $str:expr => $value:expr) => {
const $const: u64 = gorble($str);
acc |= (if $len == $const { $value } else { 0 });
};
}
check!(EIGHT five == b"eight" => b'8');
check!(SEVEN five == b"seven" => b'7');
check!(THREE five == b"three" => b'3');
check!(FIVE four == b"five" => b'5');
check!(FOUR four == b"four" => b'4');
check!(NINE four == b"nine" => b'9');
check!(SIX three == b"six" => b'6');
check!(TWO three == b"two" => b'2');
check!(ONE three == b"one" => b'1');
digits[line_idx] = acc;
}
byte_idx += 1;
line_idx += 1;
}
println!("part2: {sum}");
}