// Copyright 2023 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. //go:build purego package maphash import ( "crypto/rand" "internal/byteorder" "math/bits" "reflect" ) var hashkey [4]uint64 func init() { for i := range hashkey { hashkey[i] = randUint64() } } func rthash(buf []byte, seed uint64) uint64 { if len(buf) == 0 { return seed } return wyhash(buf, seed, uint64(len(buf))) } func rthashString(s string, state uint64) uint64 { return rthash([]byte(s), state) } func randUint64() uint64 { buf := make([]byte, 8) _, _ = rand.Read(buf) return byteorder.LeUint64(buf) } // This is a port of wyhash implementation in runtime/hash64.go, // without using unsafe for purego. const m5 = 0x1d8e4e27c47d124f func wyhash(key []byte, seed, len uint64) uint64 { p := key i := len var a, b uint64 seed ^= hashkey[0] if i > 16 { if i > 48 { seed1 := seed seed2 := seed for ; i > 48; i -= 48 { seed = mix(r8(p)^hashkey[1], r8(p[8:])^seed) seed1 = mix(r8(p[16:])^hashkey[2], r8(p[24:])^seed1) seed2 = mix(r8(p[32:])^hashkey[3], r8(p[40:])^seed2) p = p[48:] } seed ^= seed1 ^ seed2 } for ; i > 16; i -= 16 { seed = mix(r8(p)^hashkey[1], r8(p[8:])^seed) p = p[16:] } } switch { case i == 0: return seed case i < 4: a = r3(p, i) default: n := (i >> 3) << 2 a = r4(p)<<32 | r4(p[n:]) b = r4(p[i-4:])<<32 | r4(p[i-4-n:]) } return mix(m5^len, mix(a^hashkey[1], b^seed)) } func r3(p []byte, k uint64) uint64 { return (uint64(p[0]) << 16) | (uint64(p[k>>1]) << 8) | uint64(p[k-1]) } func r4(p []byte) uint64 { return uint64(byteorder.LeUint32(p)) } func r8(p []byte) uint64 { return byteorder.LeUint64(p) } func mix(a, b uint64) uint64 { hi, lo := bits.Mul64(a, b) return hi ^ lo } func comparableF[T comparable](h *Hash, v T) { vv := reflect.ValueOf(v) appendT(h, vv) }