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bun.sh/src/wyhash.zig
dave caruso 688ddbda74 feat(bundler): implement enum inlining / more constant folding (#12144) 
Co-authored-by: paperdave <paperdave@users.noreply.github.com>
Co-authored-by: Jarred Sumner <jarred@jarredsumner.com>
Co-authored-by: Jarred-Sumner <Jarred-Sumner@users.noreply.github.com>
2024-07-03 04:23:17 -07:00

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//
// this file is a copy of Wyhash from the zig standard library, version v0.11.0-dev.2609+5e19250a1
//
const assert = if (@hasDecl(@import("root"), "bun")) (@import("root").bun).assert else @import("std").debug.assert;
const std = @import("std");
const mem = std.mem;
const primes = [_]u64{
0xa0761d6478bd642f,
0xe7037ed1a0b428db,
0x8ebc6af09c88c6e3,
0x589965cc75374cc3,
0x1d8e4e27c47d124f,
};
fn read_bytes(comptime bytes: u8, data: []const u8) u64 {
const T = std.meta.Int(.unsigned, 8 * bytes);
return mem.readInt(T, data[0..bytes], .little);
}
fn read_8bytes_swapped(data: []const u8) u64 {
return (read_bytes(4, data) << 32 | read_bytes(4, data[4..]));
}
fn mum(a: u64, b: u64) u64 {
var r = std.math.mulWide(u64, a, b);
r = (r >> 64) ^ r;
return @as(u64, @truncate(r));
}
fn mix0(a: u64, b: u64, seed: u64) u64 {
return mum(a ^ seed ^ primes[0], b ^ seed ^ primes[1]);
}
fn mix1(a: u64, b: u64, seed: u64) u64 {
return mum(a ^ seed ^ primes[2], b ^ seed ^ primes[3]);
}
// Wyhash version which does not store internal state for handling partial buffers.
// This is needed so that we can maximize the speed for the short key case, which will
// use the non-iterative api which the public Wyhash exposes.
const WyhashStateless = struct {
seed: u64,
msg_len: usize,
pub fn init(seed: u64) WyhashStateless {
return WyhashStateless{
.seed = seed,
.msg_len = 0,
};
}
inline fn round(self: *WyhashStateless, b: []const u8) void {
assert(b.len == 32);
self.seed = mix0(
read_bytes(8, b[0..]),
read_bytes(8, b[8..]),
self.seed,
) ^ mix1(
read_bytes(8, b[16..]),
read_bytes(8, b[24..]),
self.seed,
);
}
pub inline fn update(self: *WyhashStateless, b: []const u8) void {
assert(b.len % 32 == 0);
var off: usize = 0;
while (off < b.len) : (off += 32) {
self.round(b[off .. off + 32]);
// @call(bun.callmod_inline, self.round, .{b[off .. off + 32]});
}
self.msg_len += b.len;
}
pub inline fn final(self: *WyhashStateless, b: []const u8) u64 {
assert(b.len < 32);
const seed = self.seed;
const rem_len = @as(u5, @intCast(b.len));
const rem_key = b[0..rem_len];
self.seed = switch (rem_len) {
0 => seed,
1 => mix0(read_bytes(1, rem_key), primes[4], seed),
2 => mix0(read_bytes(2, rem_key), primes[4], seed),
3 => mix0((read_bytes(2, rem_key) << 8) | read_bytes(1, rem_key[2..]), primes[4], seed),
4 => mix0(read_bytes(4, rem_key), primes[4], seed),
5 => mix0((read_bytes(4, rem_key) << 8) | read_bytes(1, rem_key[4..]), primes[4], seed),
6 => mix0((read_bytes(4, rem_key) << 16) | read_bytes(2, rem_key[4..]), primes[4], seed),
7 => mix0((read_bytes(4, rem_key) << 24) | (read_bytes(2, rem_key[4..]) << 8) | read_bytes(1, rem_key[6..]), primes[4], seed),
8 => mix0(read_8bytes_swapped(rem_key), primes[4], seed),
9 => mix0(read_8bytes_swapped(rem_key), read_bytes(1, rem_key[8..]), seed),
10 => mix0(read_8bytes_swapped(rem_key), read_bytes(2, rem_key[8..]), seed),
11 => mix0(read_8bytes_swapped(rem_key), (read_bytes(2, rem_key[8..]) << 8) | read_bytes(1, rem_key[10..]), seed),
12 => mix0(read_8bytes_swapped(rem_key), read_bytes(4, rem_key[8..]), seed),
13 => mix0(read_8bytes_swapped(rem_key), (read_bytes(4, rem_key[8..]) << 8) | read_bytes(1, rem_key[12..]), seed),
14 => mix0(read_8bytes_swapped(rem_key), (read_bytes(4, rem_key[8..]) << 16) | read_bytes(2, rem_key[12..]), seed),
15 => mix0(read_8bytes_swapped(rem_key), (read_bytes(4, rem_key[8..]) << 24) | (read_bytes(2, rem_key[12..]) << 8) | read_bytes(1, rem_key[14..]), seed),
16 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed),
17 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_bytes(1, rem_key[16..]), primes[4], seed),
18 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_bytes(2, rem_key[16..]), primes[4], seed),
19 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1((read_bytes(2, rem_key[16..]) << 8) | read_bytes(1, rem_key[18..]), primes[4], seed),
20 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_bytes(4, rem_key[16..]), primes[4], seed),
21 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1((read_bytes(4, rem_key[16..]) << 8) | read_bytes(1, rem_key[20..]), primes[4], seed),
22 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1((read_bytes(4, rem_key[16..]) << 16) | read_bytes(2, rem_key[20..]), primes[4], seed),
23 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1((read_bytes(4, rem_key[16..]) << 24) | (read_bytes(2, rem_key[20..]) << 8) | read_bytes(1, rem_key[22..]), primes[4], seed),
24 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_8bytes_swapped(rem_key[16..]), primes[4], seed),
25 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_8bytes_swapped(rem_key[16..]), read_bytes(1, rem_key[24..]), seed),
26 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_8bytes_swapped(rem_key[16..]), read_bytes(2, rem_key[24..]), seed),
27 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_8bytes_swapped(rem_key[16..]), (read_bytes(2, rem_key[24..]) << 8) | read_bytes(1, rem_key[26..]), seed),
28 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_8bytes_swapped(rem_key[16..]), read_bytes(4, rem_key[24..]), seed),
29 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_8bytes_swapped(rem_key[16..]), (read_bytes(4, rem_key[24..]) << 8) | read_bytes(1, rem_key[28..]), seed),
30 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_8bytes_swapped(rem_key[16..]), (read_bytes(4, rem_key[24..]) << 16) | read_bytes(2, rem_key[28..]), seed),
31 => mix0(read_8bytes_swapped(rem_key), read_8bytes_swapped(rem_key[8..]), seed) ^ mix1(read_8bytes_swapped(rem_key[16..]), (read_bytes(4, rem_key[24..]) << 24) | (read_bytes(2, rem_key[28..]) << 8) | read_bytes(1, rem_key[30..]), seed),
};
self.msg_len += b.len;
return mum(self.seed ^ self.msg_len, primes[4]);
}
pub fn hash(seed: u64, input: []const u8) u64 {
const aligned_len = input.len - (input.len % 32);
var c = WyhashStateless.init(seed);
c.update(input[0..aligned_len]);
// @call(bun.callmod_inline, c.update, .{input[0..aligned_len]});
return c.final(input[aligned_len..]);
// return @call(bun.callmod_inline, c.final, .{input[aligned_len..]});
}
};
/// Fast non-cryptographic 64bit hash function.
/// See https://github.com/wangyi-fudan/wyhash
pub const Wyhash11 = struct {
state: WyhashStateless,
buf: [32]u8,
buf_len: usize,
pub fn init(seed: u64) Wyhash11 {
return Wyhash11{
.state = WyhashStateless.init(seed),
.buf = undefined,
.buf_len = 0,
};
}
pub fn update(self: *Wyhash11, b: []const u8) void {
var off: usize = 0;
if (self.buf_len != 0 and self.buf_len + b.len >= 32) {
off += 32 - self.buf_len;
mem.copyForwards(u8, self.buf[self.buf_len..], b[0..off]);
self.state.update(self.buf[0..]);
self.buf_len = 0;
}
const remain_len = b.len - off;
const aligned_len = remain_len - (remain_len % 32);
self.state.update(b[off .. off + aligned_len]);
mem.copyForwards(u8, self.buf[self.buf_len..], b[off + aligned_len ..]);
self.buf_len += @as(u8, @intCast(b[off + aligned_len ..].len));
}
pub fn final(self: *Wyhash11) u64 {
const rem_key = self.buf[0..self.buf_len];
return self.state.final(rem_key);
}
pub fn hash(seed: u64, input: []const u8) u64 {
return WyhashStateless.hash(seed, input);
}
};
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