src/runtime/hash32.go - go - Git at Google

 // Copyright 2014 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.

 // Hashing algorithm inspired by
 //   xxhash: https://code.google.com/p/xxhash/
 // cityhash: https://code.google.com/p/cityhash/

 // +build 386 arm mips mipsle

 package runtime

 import "unsafe"

 const (
 	// Constants for multiplication: four random odd 32-bit numbers.
 	m1 = 3168982561
 	m2 = 3339683297
 	m3 = 832293441
 	m4 = 2336365089
 )

 func memhashFallback(p unsafe.Pointer, seed, s uintptr) uintptr {
 	h := uint32(seed + s*hashkey[0])
 tail:
 	switch {
 	case s == 0:
 	case s < 4:
 		h ^= uint32(*(*byte)(p))
 		h ^= uint32(*(*byte)(add(p, s>>1))) << 8
 		h ^= uint32(*(*byte)(add(p, s-1))) << 16
 		h = rotl_15(h*m1) * m2
 	case s == 4:
 		h ^= readUnaligned32(p)
 		h = rotl_15(h*m1) * m2
 	case s <= 8:
 		h ^= readUnaligned32(p)
 		h = rotl_15(h*m1) * m2
 		h ^= readUnaligned32(add(p, s-4))
 		h = rotl_15(h*m1) * m2
 	case s <= 16:
 		h ^= readUnaligned32(p)
 		h = rotl_15(h*m1) * m2
 		h ^= readUnaligned32(add(p, 4))
 		h = rotl_15(h*m1) * m2
 		h ^= readUnaligned32(add(p, s-8))
 		h = rotl_15(h*m1) * m2
 		h ^= readUnaligned32(add(p, s-4))
 		h = rotl_15(h*m1) * m2
 	default:
 		v1 := h
 		v2 := uint32(seed * hashkey[1])
 		v3 := uint32(seed * hashkey[2])
 		v4 := uint32(seed * hashkey[3])
 		for s >= 16 {
 			v1 ^= readUnaligned32(p)
 			v1 = rotl_15(v1*m1) * m2
 			p = add(p, 4)
 			v2 ^= readUnaligned32(p)
 			v2 = rotl_15(v2*m2) * m3
 			p = add(p, 4)
 			v3 ^= readUnaligned32(p)
 			v3 = rotl_15(v3*m3) * m4
 			p = add(p, 4)
 			v4 ^= readUnaligned32(p)
 			v4 = rotl_15(v4*m4) * m1
 			p = add(p, 4)
 			s -= 16
 		}
 		h = v1 ^ v2 ^ v3 ^ v4
 		goto tail
 	}
 	h ^= h >> 17
 	h *= m3
 	h ^= h >> 13
 	h *= m4
 	h ^= h >> 16
 	return uintptr(h)
 }

 func memhash32Fallback(p unsafe.Pointer, seed uintptr) uintptr {
 	h := uint32(seed + 4*hashkey[0])
 	h ^= readUnaligned32(p)
 	h = rotl_15(h*m1) * m2
 	h ^= h >> 17
 	h *= m3
 	h ^= h >> 13
 	h *= m4
 	h ^= h >> 16
 	return uintptr(h)
 }

 func memhash64Fallback(p unsafe.Pointer, seed uintptr) uintptr {
 	h := uint32(seed + 8*hashkey[0])
 	h ^= readUnaligned32(p)
 	h = rotl_15(h*m1) * m2
 	h ^= readUnaligned32(add(p, 4))
 	h = rotl_15(h*m1) * m2
 	h ^= h >> 17
 	h *= m3
 	h ^= h >> 13
 	h *= m4
 	h ^= h >> 16
 	return uintptr(h)
 }

 // Note: in order to get the compiler to issue rotl instructions, we
 // need to constant fold the shift amount by hand.
 // TODO: convince the compiler to issue rotl instructions after inlining.
 func rotl_15(x uint32) uint32 {
 	return (x << 15) | (x >> (32 - 15))
 }
	// Copyright 2014 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.

	// Hashing algorithm inspired by
	// xxhash: https://code.google.com/p/xxhash/
	// cityhash: https://code.google.com/p/cityhash/

	// +build 386 arm mips mipsle

	package runtime

	import "unsafe"

	const (
	// Constants for multiplication: four random odd 32-bit numbers.
	m1 = 3168982561
	m2 = 3339683297
	m3 = 832293441
	m4 = 2336365089
	)

	func memhashFallback(p unsafe.Pointer, seed, s uintptr) uintptr {
	h := uint32(seed + s*hashkey[0])
	tail:
	switch {
	case s == 0:
	case s < 4:
	h ^= uint32((byte)(p))
	h ^= uint32((byte)(add(p, s>>1))) << 8
	h ^= uint32((byte)(add(p, s-1))) << 16
	h = rotl_15(hm1) m2
	case s == 4:
	h ^= readUnaligned32(p)
	h = rotl_15(hm1) m2
	case s <= 8:
	h ^= readUnaligned32(p)
	h = rotl_15(hm1) m2
	h ^= readUnaligned32(add(p, s-4))
	h = rotl_15(hm1) m2
	case s <= 16:
	h ^= readUnaligned32(p)
	h = rotl_15(hm1) m2
	h ^= readUnaligned32(add(p, 4))
	h = rotl_15(hm1) m2
	h ^= readUnaligned32(add(p, s-8))
	h = rotl_15(hm1) m2
	h ^= readUnaligned32(add(p, s-4))
	h = rotl_15(hm1) m2
	default:
	v1 := h
	v2 := uint32(seed * hashkey[1])
	v3 := uint32(seed * hashkey[2])
	v4 := uint32(seed * hashkey[3])
	for s >= 16 {
	v1 ^= readUnaligned32(p)
	v1 = rotl_15(v1m1) m2
	p = add(p, 4)
	v2 ^= readUnaligned32(p)
	v2 = rotl_15(v2m2) m3
	p = add(p, 4)
	v3 ^= readUnaligned32(p)
	v3 = rotl_15(v3m3) m4
	p = add(p, 4)
	v4 ^= readUnaligned32(p)
	v4 = rotl_15(v4m4) m1
	p = add(p, 4)
	s -= 16
	}
	h = v1 ^ v2 ^ v3 ^ v4
	goto tail
	}
	h ^= h >> 17
	h *= m3
	h ^= h >> 13
	h *= m4
	h ^= h >> 16
	return uintptr(h)
	}

	func memhash32Fallback(p unsafe.Pointer, seed uintptr) uintptr {
	h := uint32(seed + 4*hashkey[0])
	h ^= readUnaligned32(p)
	h = rotl_15(hm1) m2
	h ^= h >> 17
	h *= m3
	h ^= h >> 13
	h *= m4
	h ^= h >> 16
	return uintptr(h)
	}

	func memhash64Fallback(p unsafe.Pointer, seed uintptr) uintptr {
	h := uint32(seed + 8*hashkey[0])
	h ^= readUnaligned32(p)
	h = rotl_15(hm1) m2
	h ^= readUnaligned32(add(p, 4))
	h = rotl_15(hm1) m2
	h ^= h >> 17
	h *= m3
	h ^= h >> 13
	h *= m4
	h ^= h >> 16
	return uintptr(h)
	}

	// Note: in order to get the compiler to issue rotl instructions, we
	// need to constant fold the shift amount by hand.
	// TODO: convince the compiler to issue rotl instructions after inlining.
	func rotl_15(x uint32) uint32 {
	return (x << 15) \| (x >> (32 - 15))
	}