portable-devtools / go /src /hash /maphash /maphash_purego.go
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// 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"
"errors"
"internal/byteorder"
"math"
"math/bits"
"reflect"
)
const purego = true
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 comparableHash[T comparable](v T, seed Seed) uint64 {
var h Hash
h.SetSeed(seed)
writeComparable(&h, v)
return h.Sum64()
}
func writeComparable[T comparable](h *Hash, v T) {
vv := reflect.ValueOf(v)
appendT(h, vv)
}
// appendT hash a value.
func appendT(h *Hash, v reflect.Value) {
h.WriteString(v.Type().String())
switch v.Kind() {
case reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64, reflect.Int:
var buf [8]byte
byteorder.LEPutUint64(buf[:], uint64(v.Int()))
h.Write(buf[:])
return
case reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uint, reflect.Uintptr:
var buf [8]byte
byteorder.LEPutUint64(buf[:], v.Uint())
h.Write(buf[:])
return
case reflect.Array:
var buf [8]byte
for i := range uint64(v.Len()) {
byteorder.LEPutUint64(buf[:], i)
// do not want to hash to the same value,
// [2]string{"foo", ""} and [2]string{"", "foo"}.
h.Write(buf[:])
appendT(h, v.Index(int(i)))
}
return
case reflect.String:
h.WriteString(v.String())
return
case reflect.Struct:
var buf [8]byte
for i := range v.NumField() {
f := v.Field(i)
byteorder.LEPutUint64(buf[:], uint64(i))
// do not want to hash to the same value,
// struct{a,b string}{"foo",""} and
// struct{a,b string}{"","foo"}.
h.Write(buf[:])
appendT(h, f)
}
return
case reflect.Complex64, reflect.Complex128:
c := v.Complex()
h.float64(real(c))
h.float64(imag(c))
return
case reflect.Float32, reflect.Float64:
h.float64(v.Float())
return
case reflect.Bool:
h.WriteByte(btoi(v.Bool()))
return
case reflect.UnsafePointer, reflect.Pointer, reflect.Chan:
var buf [8]byte
// because pointing to the abi.Escape call in comparableReady,
// So this is ok to hash pointer,
// this way because we know their target won't be moved.
byteorder.LEPutUint64(buf[:], uint64(v.Pointer()))
h.Write(buf[:])
return
case reflect.Interface:
appendT(h, v.Elem())
return
}
panic(errors.New("maphash: hash of unhashable type " + v.Type().String()))
}
func (h *Hash) float64(f float64) {
if f == 0 {
h.WriteByte(0)
return
}
var buf [8]byte
if f != f {
byteorder.LEPutUint64(buf[:], randUint64())
h.Write(buf[:])
return
}
byteorder.LEPutUint64(buf[:], math.Float64bits(f))
h.Write(buf[:])
}
func btoi(b bool) byte {
if b {
return 1
}
return 0
}