k3s/vendor/go.starlark.net/starlark/hashtable.go

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// Copyright 2017 The Bazel Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package starlark
import (
"fmt"
_ "unsafe" // for go:linkname hack
)
// hashtable is used to represent Starlark dict and set values.
// It is a hash table whose key/value entries form a doubly-linked list
// in the order the entries were inserted.
type hashtable struct {
table []bucket // len is zero or a power of two
bucket0 [1]bucket // inline allocation for small maps.
len uint32
itercount uint32 // number of active iterators (ignored if frozen)
head *entry // insertion order doubly-linked list; may be nil
tailLink **entry // address of nil link at end of list (perhaps &head)
frozen bool
}
const bucketSize = 8
type bucket struct {
entries [bucketSize]entry
next *bucket // linked list of buckets
}
type entry struct {
hash uint32 // nonzero => in use
key, value Value
next *entry // insertion order doubly-linked list; may be nil
prevLink **entry // address of link to this entry (perhaps &head)
}
func (ht *hashtable) init(size int) {
if size < 0 {
panic("size < 0")
}
nb := 1
for overloaded(size, nb) {
nb = nb << 1
}
if nb < 2 {
ht.table = ht.bucket0[:1]
} else {
ht.table = make([]bucket, nb)
}
ht.tailLink = &ht.head
}
func (ht *hashtable) freeze() {
if !ht.frozen {
ht.frozen = true
for i := range ht.table {
for p := &ht.table[i]; p != nil; p = p.next {
for i := range p.entries {
e := &p.entries[i]
if e.hash != 0 {
e.key.Freeze()
e.value.Freeze()
}
}
}
}
}
}
func (ht *hashtable) insert(k, v Value) error {
if ht.frozen {
return fmt.Errorf("cannot insert into frozen hash table")
}
if ht.itercount > 0 {
return fmt.Errorf("cannot insert into hash table during iteration")
}
if ht.table == nil {
ht.init(1)
}
h, err := k.Hash()
if err != nil {
return err
}
if h == 0 {
h = 1 // zero is reserved
}
retry:
var insert *entry
// Inspect each bucket in the bucket list.
p := &ht.table[h&(uint32(len(ht.table)-1))]
for {
for i := range p.entries {
e := &p.entries[i]
if e.hash != h {
if e.hash == 0 {
// Found empty entry; make a note.
insert = e
}
continue
}
if eq, err := Equal(k, e.key); err != nil {
return err // e.g. excessively recursive tuple
} else if !eq {
continue
}
// Key already present; update value.
e.value = v
return nil
}
if p.next == nil {
break
}
p = p.next
}
// Key not found. p points to the last bucket.
// Does the number of elements exceed the buckets' load factor?
if overloaded(int(ht.len), len(ht.table)) {
ht.grow()
goto retry
}
if insert == nil {
// No space in existing buckets. Add a new one to the bucket list.
b := new(bucket)
p.next = b
insert = &b.entries[0]
}
// Insert key/value pair.
insert.hash = h
insert.key = k
insert.value = v
// Append entry to doubly-linked list.
insert.prevLink = ht.tailLink
*ht.tailLink = insert
ht.tailLink = &insert.next
ht.len++
return nil
}
func overloaded(elems, buckets int) bool {
const loadFactor = 6.5 // just a guess
return elems >= bucketSize && float64(elems) >= loadFactor*float64(buckets)
}
func (ht *hashtable) grow() {
// Double the number of buckets and rehash.
// TODO(adonovan): opt:
// - avoid reentrant calls to ht.insert, and specialize it.
// e.g. we know the calls to Equals will return false since
// there are no duplicates among the old keys.
// - saving the entire hash in the bucket would avoid the need to
// recompute the hash.
// - save the old buckets on a free list.
ht.table = make([]bucket, len(ht.table)<<1)
oldhead := ht.head
ht.head = nil
ht.tailLink = &ht.head
ht.len = 0
for e := oldhead; e != nil; e = e.next {
ht.insert(e.key, e.value)
}
ht.bucket0[0] = bucket{} // clear out unused initial bucket
}
func (ht *hashtable) lookup(k Value) (v Value, found bool, err error) {
h, err := k.Hash()
if err != nil {
return nil, false, err // unhashable
}
if h == 0 {
h = 1 // zero is reserved
}
if ht.table == nil {
return None, false, nil // empty
}
// Inspect each bucket in the bucket list.
for p := &ht.table[h&(uint32(len(ht.table)-1))]; p != nil; p = p.next {
for i := range p.entries {
e := &p.entries[i]
if e.hash == h {
if eq, err := Equal(k, e.key); err != nil {
return nil, false, err // e.g. excessively recursive tuple
} else if eq {
return e.value, true, nil // found
}
}
}
}
return None, false, nil // not found
}
// Items returns all the items in the map (as key/value pairs) in insertion order.
func (ht *hashtable) items() []Tuple {
items := make([]Tuple, 0, ht.len)
array := make([]Value, ht.len*2) // allocate a single backing array
for e := ht.head; e != nil; e = e.next {
pair := Tuple(array[:2:2])
array = array[2:]
pair[0] = e.key
pair[1] = e.value
items = append(items, pair)
}
return items
}
func (ht *hashtable) first() (Value, bool) {
if ht.head != nil {
return ht.head.key, true
}
return None, false
}
func (ht *hashtable) keys() []Value {
keys := make([]Value, 0, ht.len)
for e := ht.head; e != nil; e = e.next {
keys = append(keys, e.key)
}
return keys
}
func (ht *hashtable) delete(k Value) (v Value, found bool, err error) {
if ht.frozen {
return nil, false, fmt.Errorf("cannot delete from frozen hash table")
}
if ht.itercount > 0 {
return nil, false, fmt.Errorf("cannot delete from hash table during iteration")
}
if ht.table == nil {
return None, false, nil // empty
}
h, err := k.Hash()
if err != nil {
return nil, false, err // unhashable
}
if h == 0 {
h = 1 // zero is reserved
}
// Inspect each bucket in the bucket list.
for p := &ht.table[h&(uint32(len(ht.table)-1))]; p != nil; p = p.next {
for i := range p.entries {
e := &p.entries[i]
if e.hash == h {
if eq, err := Equal(k, e.key); err != nil {
return nil, false, err
} else if eq {
// Remove e from doubly-linked list.
*e.prevLink = e.next
if e.next == nil {
ht.tailLink = e.prevLink // deletion of last entry
} else {
e.next.prevLink = e.prevLink
}
v := e.value
*e = entry{}
ht.len--
return v, true, nil // found
}
}
}
}
// TODO(adonovan): opt: remove completely empty bucket from bucket list.
return None, false, nil // not found
}
func (ht *hashtable) clear() error {
if ht.frozen {
return fmt.Errorf("cannot clear frozen hash table")
}
if ht.itercount > 0 {
return fmt.Errorf("cannot clear hash table during iteration")
}
if ht.table != nil {
for i := range ht.table {
ht.table[i] = bucket{}
}
}
ht.head = nil
ht.tailLink = &ht.head
ht.len = 0
return nil
}
// dump is provided as an aid to debugging.
func (ht *hashtable) dump() {
fmt.Printf("hashtable %p len=%d head=%p tailLink=%p",
ht, ht.len, ht.head, ht.tailLink)
if ht.tailLink != nil {
fmt.Printf(" *tailLink=%p", *ht.tailLink)
}
fmt.Println()
for j := range ht.table {
fmt.Printf("bucket chain %d\n", j)
for p := &ht.table[j]; p != nil; p = p.next {
fmt.Printf("bucket %p\n", p)
for i := range p.entries {
e := &p.entries[i]
fmt.Printf("\tentry %d @ %p hash=%d key=%v value=%v\n",
i, e, e.hash, e.key, e.value)
fmt.Printf("\t\tnext=%p &next=%p prev=%p",
e.next, &e.next, e.prevLink)
if e.prevLink != nil {
fmt.Printf(" *prev=%p", *e.prevLink)
}
fmt.Println()
}
}
}
}
func (ht *hashtable) iterate() *keyIterator {
if !ht.frozen {
ht.itercount++
}
return &keyIterator{ht: ht, e: ht.head}
}
type keyIterator struct {
ht *hashtable
e *entry
}
func (it *keyIterator) Next(k *Value) bool {
if it.e != nil {
*k = it.e.key
it.e = it.e.next
return true
}
return false
}
func (it *keyIterator) Done() {
if !it.ht.frozen {
it.ht.itercount--
}
}
// hashString computes the hash of s.
func hashString(s string) uint32 {
if len(s) >= 12 {
// Call the Go runtime's optimized hash implementation,
// which uses the AESENC instruction on amd64 machines.
return uint32(goStringHash(s, 0))
}
return softHashString(s)
}
//go:linkname goStringHash runtime.stringHash
func goStringHash(s string, seed uintptr) uintptr
// softHashString computes the FNV hash of s in software.
func softHashString(s string) uint32 {
var h uint32
for i := 0; i < len(s); i++ {
h ^= uint32(s[i])
h *= 16777619
}
return h
}