C++實現LeetCode(211.添加和查找單詞-數據結構設計)

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[LeetCode] 211.Add and Search Word – Data structure design 添加和查找單詞-數據結構設計

Design a data structure that supports the following two operations:

void addWord(word)
bool search(word)

search(word) can search a literal word or a regular expression string containing only letters a-z or .. A . means it can represent any one letter.

For example:

addWord(“bad”)
addWord(“dad”)
addWord(“mad”)
search(“pad”) -> false
search(“bad”) -> true
search(“.ad”) -> true
search(“b..”) -> true

Note:
You may assume that all words are consist of lowercase letters a-z.

click to show hint.

You should be familiar with how a Trie works. If not, please work on this problem: Implement Trie (Prefix Tree) first.

LeetCode出新題的速度越來越快瞭,有點跟不上節奏的感覺瞭。這道題如果做過之前的那道 Implement Trie (Prefix Tree) 實現字典樹(前綴樹)的話就沒有太大的難度瞭,還是要用到字典樹的結構,唯一不同的地方就是search的函數需要重新寫一下,因為這道題裡面’.’可以代替任意字符,所以一旦有瞭’.’,就需要查找所有的子樹,隻要有一個返回true,整個search函數就返回true,典型的DFS的問題,其他部分跟上一道實現字典樹沒有太大區別,代碼如下:

class WordDictionary {
public:
    struct TrieNode {
    public:
        TrieNode *child[26];
        bool isWord;
        TrieNode() : isWord(false) {
            for (auto &a : child) a = NULL;
        }
    };
    
    WordDictionary() {
        root = new TrieNode();
    }
    
    // Adds a word into the data structure.
    void addWord(string word) {
        TrieNode *p = root;
        for (auto &a : word) {
            int i = a - 'a';
            if (!p->child[i]) p->child[i] = new TrieNode();
            p = p->child[i];
        }
        p->isWord = true;
    }

    // Returns if the word is in the data structure. A word could
    // contain the dot character '.' to represent any one letter.
    bool search(string word) {
        return searchWord(word, root, 0);
    }
    
    bool searchWord(string &word, TrieNode *p, int i) {
        if (i == word.size()) return p->isWord;
        if (word[i] == '.') {
            for (auto &a : p->child) {
                if (a && searchWord(word, a, i + 1)) return true;
            }
            return false;
        } else {
            return p->child[word[i] - 'a'] && searchWord(word, p->child[word[i] - 'a'], i + 1);
        }
    }
    
private:
    TrieNode *root;
};

// Your WordDictionary object will be instantiated and called as such:
// WordDictionary wordDictionary;
// wordDictionary.addWord("word");
// wordDictionary.search("pattern");

討論:這道題有個很好的Follow up,就是當搜索的單詞中存在星號怎麼搞,星號的定義和Wildcard Matching中一樣,可以代表任意的字符串,包括空字符串,請參見評論區1樓。

類似題目:

Implement Trie (Prefix Tree)

Wildcard Matching

參考資料:

https://leetcode.com/discuss/36246/my-java-trie-based-solution

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