go/trie/trie.go - buildbot - Git at Google

 package trie

 import (
 	"fmt"
 	"sort"

 	"go.skia.org/infra/go/util"
 )

 // Trie is a struct used for efficient searching on sets of strings.
 type Trie struct {
 	root *trieNode
 }

 // New returns a Trie instance.
 func New() *Trie {
 	return &Trie{
 		root: newTrieNode(),
 	}
 }

 func sorted(s []string) []string {
 	cpy := make([]string, len(s))
 	copy(cpy, s)
 	sort.Strings(cpy)
 	return cpy
 }

 // Insert inserts the data into the trie with the given string keys.
 func (t *Trie) Insert(strs []string, data interface{}) {
 	t.root.Insert(sorted(strs), data)
 }

 // Delete removes the data from the trie.
 func (t *Trie) Delete(strs []string, data interface{}) {
 	t.root.Delete(sorted(strs), data)
 }

 // Search returns all inserted data which exactly matches the given string keys.
 func (t *Trie) Search(strs []string) []interface{} {
 	return t.root.Search(sorted(strs))
 }

 type searchContext struct {
 	count int
 	data  [][]interface{}
 }

 // SearchSubset returns all inserted data which matches a subset of the given
 // string keys.
 func (t *Trie) SearchSubset(strs []string) []interface{} {
 	keys := make(map[string]bool, len(strs))
 	for _, k := range strs {
 		keys[k] = true
 	}
 	ctx := searchContext{
 		count: 0,
 		data:  [][]interface{}{},
 	}
 	t.root.SearchSubset(keys, &ctx)
 	rv := make([]interface{}, ctx.count)
 	idx := 0
 	for _, d := range ctx.data {
 		copy(rv[idx:idx+len(d)], d)
 		idx += len(d)
 	}
 	return rv
 }

 // String returns a string representation of the Trie.
 func (t *Trie) String() string {
 	return fmt.Sprintf("Trie(%s)", t.root.String(0))
 }

 func (t *Trie) Len() int {
 	return t.root.Len()
 }

 type trieNode struct {
 	children map[string]*trieNode
 	data     []interface{}
 }

 func newTrieNode() *trieNode {
 	return &trieNode{
 		children: map[string]*trieNode{},
 		data:     []interface{}{},
 	}
 }

 func (n *trieNode) Insert(strs []string, data interface{}) {
 	if len(strs) == 0 {
 		n.data = append(n.data, data)
 	} else {
 		child, ok := n.children[strs[0]]
 		if !ok {
 			child = newTrieNode()
 			n.children[strs[0]] = child
 		}
 		child.Insert(strs[1:], data)
 	}
 }

 func (n *trieNode) Delete(strs []string, data interface{}) {
 	if len(strs) == 0 {
 		idx := -1
 		for i, v := range n.data {
 			if v == data {
 				idx = i
 			}
 		}
 		if idx == -1 {
 			return
 		}
 		n.data = append(n.data[:idx], n.data[idx+1:]...)
 	} else if child, ok := n.children[strs[0]]; ok {
 		child.Delete(strs[1:], data)
 	}
 }

 func (n *trieNode) Search(strs []string) []interface{} {
 	if len(strs) == 0 {
 		return n.data
 	} else {
 		if child, ok := n.children[strs[0]]; ok {
 			return child.Search(strs[1:])
 		} else {
 			return []interface{}{}
 		}
 	}
 }

 func (n *trieNode) SearchSubset(strs map[string]bool, ctx *searchContext) {
 	ctx.count += len(n.data)
 	ctx.data = append(ctx.data, n.data)
 	for k, c := range n.children {
 		if strs[k] {
 			c.SearchSubset(strs, ctx)
 		}
 	}
 }

 func (n *trieNode) String(indent int) string {
 	rv := fmt.Sprintf("Node(%v, {", n.data)
 	if len(n.children) == 0 {
 		return rv + "})"
 	}
 	rv += "\n"
 	childKeys := make([]string, 0, len(n.children))
 	for k := range n.children {
 		childKeys = append(childKeys, k)
 	}
 	sort.Strings(childKeys)
 	for _, k := range childKeys {
 		rv += fmt.Sprintf("%s\"%s\": %s,\n", util.RepeatJoin("  ", "", indent+1), k, n.children[k].String(indent+1))
 	}
 	rv += fmt.Sprintf("%s})", util.RepeatJoin("  ", "", indent))
 	return rv
 }

 func (n *trieNode) Len() int {
 	rv := len(n.data)
 	for _, child := range n.children {
 		rv += child.Len()
 	}
 	return rv
 }
	package trie

	import (
	"fmt"
	"sort"

	"go.skia.org/infra/go/util"
	)

	// Trie is a struct used for efficient searching on sets of strings.
	type Trie struct {
	root *trieNode
	}

	// New returns a Trie instance.
	func New() *Trie {
	return &Trie{
	root: newTrieNode(),
	}
	}

	func sorted(s []string) []string {
	cpy := make([]string, len(s))
	copy(cpy, s)
	sort.Strings(cpy)
	return cpy
	}

	// Insert inserts the data into the trie with the given string keys.
	func (t *Trie) Insert(strs []string, data interface{}) {
	t.root.Insert(sorted(strs), data)
	}

	// Delete removes the data from the trie.
	func (t *Trie) Delete(strs []string, data interface{}) {
	t.root.Delete(sorted(strs), data)
	}

	// Search returns all inserted data which exactly matches the given string keys.
	func (t *Trie) Search(strs []string) []interface{} {
	return t.root.Search(sorted(strs))
	}

	type searchContext struct {
	count int
	data [][]interface{}
	}

	// SearchSubset returns all inserted data which matches a subset of the given
	// string keys.
	func (t *Trie) SearchSubset(strs []string) []interface{} {
	keys := make(map[string]bool, len(strs))
	for _, k := range strs {
	keys[k] = true
	}
	ctx := searchContext{
	count: 0,
	data: [][]interface{}{},
	}
	t.root.SearchSubset(keys, &ctx)
	rv := make([]interface{}, ctx.count)
	idx := 0
	for _, d := range ctx.data {
	copy(rv[idx:idx+len(d)], d)
	idx += len(d)
	}
	return rv
	}

	// String returns a string representation of the Trie.
	func (t *Trie) String() string {
	return fmt.Sprintf("Trie(%s)", t.root.String(0))
	}

	func (t *Trie) Len() int {
	return t.root.Len()
	}

	type trieNode struct {
	children map[string]*trieNode
	data []interface{}
	}

	func newTrieNode() *trieNode {
	return &trieNode{
	children: map[string]*trieNode{},
	data: []interface{}{},
	}
	}

	func (n *trieNode) Insert(strs []string, data interface{}) {
	if len(strs) == 0 {
	n.data = append(n.data, data)
	} else {
	child, ok := n.children[strs[0]]
	if !ok {
	child = newTrieNode()
	n.children[strs[0]] = child
	}
	child.Insert(strs[1:], data)
	}
	}

	func (n *trieNode) Delete(strs []string, data interface{}) {
	if len(strs) == 0 {
	idx := -1
	for i, v := range n.data {
	if v == data {
	idx = i
	}
	}
	if idx == -1 {
	return
	}
	n.data = append(n.data[:idx], n.data[idx+1:]...)
	} else if child, ok := n.children[strs[0]]; ok {
	child.Delete(strs[1:], data)
	}
	}

	func (n *trieNode) Search(strs []string) []interface{} {
	if len(strs) == 0 {
	return n.data
	} else {
	if child, ok := n.children[strs[0]]; ok {
	return child.Search(strs[1:])
	} else {
	return []interface{}{}
	}
	}
	}

	func (n trieNode) SearchSubset(strs map[string]bool, ctx searchContext) {
	ctx.count += len(n.data)
	ctx.data = append(ctx.data, n.data)
	for k, c := range n.children {
	if strs[k] {
	c.SearchSubset(strs, ctx)
	}
	}
	}

	func (n *trieNode) String(indent int) string {
	rv := fmt.Sprintf("Node(%v, {", n.data)
	if len(n.children) == 0 {
	return rv + "})"
	}
	rv += "\n"
	childKeys := make([]string, 0, len(n.children))
	for k := range n.children {
	childKeys = append(childKeys, k)
	}
	sort.Strings(childKeys)
	for _, k := range childKeys {
	rv += fmt.Sprintf("%s\"%s\": %s,\n", util.RepeatJoin(" ", "", indent+1), k, n.children[k].String(indent+1))
	}
	rv += fmt.Sprintf("%s})", util.RepeatJoin(" ", "", indent))
	return rv
	}

	func (n *trieNode) Len() int {
	rv := len(n.data)
	for _, child := range n.children {
	rv += child.Len()
	}
	return rv
	}