package curl2info import "container/heap" // TrieWord Trie 需要的Word接口 type TrieWord interface { GetWord() string } // TrieStrWord 最简单的TrieWord 结构 type TrieStrWord string // GetWord 获取单词 func (tsw *TrieStrWord) GetWord() string { return (string)(*tsw) } // Trie 前缀树 type Trie struct { isWord bool value interface{} char byte prev *Trie next map[byte]*Trie } // NewTrie Initialize your data structure here. func NewTrie() *Trie { return &Trie{next: make(map[byte]*Trie)} } // Insert a word into the trie. func (trie *Trie) Insert(iword TrieWord) { cur := trie word := iword.GetWord() l := len(word) for i := 0; i < l; i++ { c := word[i] if next, ok := cur.next[c]; ok { cur = next } else { create := NewTrie() cur.next[c] = create create.char = c create.prev = cur cur = create } } cur.isWord = true cur.value = iword } // AllWords 所有单词 func (trie *Trie) AllWords() []string { var result []string for _, v := range trie.next { look(v, "", &result) } return result } func look(cur *Trie, content string, result *[]string) { content += string(cur.char) if cur.isWord { *result = append(*result, content) } for _, v := range cur.next { look(v, content, result) } } // Remove 移除单词 func (trie *Trie) Remove(word string) { cur := trie l := len(word) for i := 0; i < l; i++ { c := word[i] if next, ok := cur.next[c]; ok { cur = next } else { return } } if cur != nil { cur.isWord = false cur.value = nil lastchar := cur.char if len(cur.next) == 0 { for cur.isWord != true && cur.prev != nil { lastchar = cur.char cur = cur.prev if len(cur.next) > 1 { return } } delete(cur.next, lastchar) } } } // SearchMostPrefix Returns if the word is in the trie. func (trie *Trie) SearchMostPrefix(iword TrieWord) interface{} { cur := trie word := iword.GetWord() l := len(word) var result interface{} for i := 0; i < l; i++ { c := word[i] if next, ok := cur.next[c]; ok { cur = next if cur.isWord { result = cur.value } } else { return result } } return result } // Match Returns if the word is in the trie. func (trie *Trie) Match(iword TrieWord) interface{} { cur := trie word := iword.GetWord() l := len(word) for i := 0; i < l; i++ { c := word[i] if next, ok := cur.next[c]; ok { cur = next } else { return nil } } return cur.value } // StartsWith Returns if there is any word in the trie that starts with the given prefix. */ func (trie *Trie) StartsWith(prefix string) bool { cur := trie l := len(prefix) for i := 0; i < l; i++ { c := prefix[i] if next, ok := cur.next[c]; ok { cur = next } else { return false } } return true } // 优先队列 所在的域 // parseQueue for Heap, Container List type parseQueue []*parseFunction // parseFunction 优先执行参数 type parseFunction struct { ExecuteFunction func(u *CURL, soption string) ParamCURL *CURL ParamData string Priority int } // Execute 执行 函数 func (pf *parseFunction) Execute() { pf.ExecuteFunction(pf.ParamCURL, pf.ParamData) } // Swap 实现sort.Iterface func (nodes *parseQueue) Swap(i, j int) { ns := *nodes ns[i], ns[j] = ns[j], ns[i] } // Less Priority Want Less func (nodes *parseQueue) Less(i, j int) bool { ns := *nodes return ns[i].Priority < ns[j].Priority } // Push 实现heap.Interface接口定义的额外方法 func (nodes *parseQueue) Push(exec// func (pqe *pQueueExecute) String() string { // content := "" // for _, node := range pqe.nodes { // content += strconv.Itoa(node.Prioty) // content += " " // } // return content // } interface{}) { *nodes = append(*nodes, exec.(*parseFunction)) } // Pop 堆顶 func (nodes *parseQueue) Pop() (exec interface{}) { nlen := nodes.Len() exec = (*nodes)[nlen-1] // 返回删除的元素 *nodes = (*nodes)[:nlen-1] // [n:m]不包括下标为m的元素 return exec } // Len len(nodes) func (nodes *parseQueue) Len() int { return len(*nodes) } // pQueueExecute 优先函数队列 type pQueueExecute struct { nodes parseQueue } // newPQueueExecute Create A pQueueExecute func newPQueueExecute() *pQueueExecute { pe := &pQueueExecute{} pe.nodes = make(parseQueue, 0) heap.Init(&pe.nodes) return pe } // Push Create A pQueueExecute func (pqe *pQueueExecute) Push(exec *parseFunction) { heap.Push(&pqe.nodes, exec) } // Pop Create A pQueueExecute func (pqe *pQueueExecute) Pop() *parseFunction { return heap.Pop(&pqe.nodes).(*parseFunction) } // Len Create A pQueueExecute func (pqe *pQueueExecute) Len() int { return pqe.nodes.Len() } // func (pqe *pQueueExecute) String() string { // content := "" // for _, node := range pqe.nodes { // content += strconv.Itoa(node.Prioty) // content += " " // } // return content // }