k3s/vendor/github.com/tchap/go-patricia/patricia/children.go

364 lines
7.2 KiB
Go

// Copyright (c) 2014 The go-patricia AUTHORS
//
// Use of this source code is governed by The MIT License
// that can be found in the LICENSE file.
package patricia
import (
"fmt"
"io"
"sort"
)
type childList interface {
length() int
head() *Trie
add(child *Trie) childList
remove(b byte)
replace(b byte, child *Trie)
next(b byte) *Trie
walk(prefix *Prefix, visitor VisitorFunc) error
print(w io.Writer, indent int)
clone() childList
total() int
}
type tries []*Trie
func (t tries) Len() int {
return len(t)
}
func (t tries) Less(i, j int) bool {
strings := sort.StringSlice{string(t[i].prefix), string(t[j].prefix)}
return strings.Less(0, 1)
}
func (t tries) Swap(i, j int) {
t[i], t[j] = t[j], t[i]
}
type sparseChildList struct {
children tries
}
func newSparseChildList(maxChildrenPerSparseNode int) childList {
return &sparseChildList{
children: make(tries, 0, maxChildrenPerSparseNode),
}
}
func (list *sparseChildList) length() int {
return len(list.children)
}
func (list *sparseChildList) head() *Trie {
return list.children[0]
}
func (list *sparseChildList) add(child *Trie) childList {
// Search for an empty spot and insert the child if possible.
if len(list.children) != cap(list.children) {
list.children = append(list.children, child)
return list
}
// Otherwise we have to transform to the dense list type.
return newDenseChildList(list, child)
}
func (list *sparseChildList) remove(b byte) {
for i, node := range list.children {
if node.prefix[0] == b {
list.children[i] = list.children[len(list.children)-1]
list.children[len(list.children)-1] = nil
list.children = list.children[:len(list.children)-1]
return
}
}
// This is not supposed to be reached.
panic("removing non-existent child")
}
func (list *sparseChildList) replace(b byte, child *Trie) {
// Make a consistency check.
if p0 := child.prefix[0]; p0 != b {
panic(fmt.Errorf("child prefix mismatch: %v != %v", p0, b))
}
// Seek the child and replace it.
for i, node := range list.children {
if node.prefix[0] == b {
list.children[i] = child
return
}
}
}
func (list *sparseChildList) next(b byte) *Trie {
for _, child := range list.children {
if child.prefix[0] == b {
return child
}
}
return nil
}
func (list *sparseChildList) walk(prefix *Prefix, visitor VisitorFunc) error {
sort.Sort(list.children)
for _, child := range list.children {
*prefix = append(*prefix, child.prefix...)
if child.item != nil {
err := visitor(*prefix, child.item)
if err != nil {
if err == SkipSubtree {
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
continue
}
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
return err
}
}
err := child.children.walk(prefix, visitor)
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
if err != nil {
return err
}
}
return nil
}
func (list *sparseChildList) total() int {
tot := 0
for _, child := range list.children {
if child != nil {
tot = tot + child.total()
}
}
return tot
}
func (list *sparseChildList) clone() childList {
clones := make(tries, len(list.children), cap(list.children))
for i, child := range list.children {
clones[i] = child.Clone()
}
return &sparseChildList{
children: clones,
}
}
func (list *sparseChildList) print(w io.Writer, indent int) {
for _, child := range list.children {
if child != nil {
child.print(w, indent)
}
}
}
type denseChildList struct {
min int
max int
numChildren int
headIndex int
children []*Trie
}
func newDenseChildList(list *sparseChildList, child *Trie) childList {
var (
min int = 255
max int = 0
)
for _, child := range list.children {
b := int(child.prefix[0])
if b < min {
min = b
}
if b > max {
max = b
}
}
b := int(child.prefix[0])
if b < min {
min = b
}
if b > max {
max = b
}
children := make([]*Trie, max-min+1)
for _, child := range list.children {
children[int(child.prefix[0])-min] = child
}
children[int(child.prefix[0])-min] = child
return &denseChildList{
min: min,
max: max,
numChildren: list.length() + 1,
headIndex: 0,
children: children,
}
}
func (list *denseChildList) length() int {
return list.numChildren
}
func (list *denseChildList) head() *Trie {
return list.children[list.headIndex]
}
func (list *denseChildList) add(child *Trie) childList {
b := int(child.prefix[0])
var i int
switch {
case list.min <= b && b <= list.max:
if list.children[b-list.min] != nil {
panic("dense child list collision detected")
}
i = b - list.min
list.children[i] = child
case b < list.min:
children := make([]*Trie, list.max-b+1)
i = 0
children[i] = child
copy(children[list.min-b:], list.children)
list.children = children
list.min = b
default: // b > list.max
children := make([]*Trie, b-list.min+1)
i = b - list.min
children[i] = child
copy(children, list.children)
list.children = children
list.max = b
}
list.numChildren++
if i < list.headIndex {
list.headIndex = i
}
return list
}
func (list *denseChildList) remove(b byte) {
i := int(b) - list.min
if list.children[i] == nil {
// This is not supposed to be reached.
panic("removing non-existent child")
}
list.numChildren--
list.children[i] = nil
// Update head index.
if i == list.headIndex {
for ; i < len(list.children); i++ {
if list.children[i] != nil {
list.headIndex = i
return
}
}
}
}
func (list *denseChildList) replace(b byte, child *Trie) {
// Make a consistency check.
if p0 := child.prefix[0]; p0 != b {
panic(fmt.Errorf("child prefix mismatch: %v != %v", p0, b))
}
// Replace the child.
list.children[int(b)-list.min] = child
}
func (list *denseChildList) next(b byte) *Trie {
i := int(b)
if i < list.min || list.max < i {
return nil
}
return list.children[i-list.min]
}
func (list *denseChildList) walk(prefix *Prefix, visitor VisitorFunc) error {
for _, child := range list.children {
if child == nil {
continue
}
*prefix = append(*prefix, child.prefix...)
if child.item != nil {
if err := visitor(*prefix, child.item); err != nil {
if err == SkipSubtree {
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
continue
}
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
return err
}
}
err := child.children.walk(prefix, visitor)
*prefix = (*prefix)[:len(*prefix)-len(child.prefix)]
if err != nil {
return err
}
}
return nil
}
func (list *denseChildList) print(w io.Writer, indent int) {
for _, child := range list.children {
if child != nil {
child.print(w, indent)
}
}
}
func (list *denseChildList) clone() childList {
clones := make(tries, cap(list.children))
if list.numChildren != 0 {
clonedCount := 0
for i := list.headIndex; i < len(list.children); i++ {
child := list.children[i]
if child != nil {
clones[i] = child.Clone()
clonedCount++
if clonedCount == list.numChildren {
break
}
}
}
}
return &denseChildList{
min: list.min,
max: list.max,
numChildren: list.numChildren,
headIndex: list.headIndex,
children: clones,
}
}
func (list *denseChildList) total() int {
tot := 0
for _, child := range list.children {
if child != nil {
tot = tot + child.total()
}
}
return tot
}