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prefix-and-suffix-search.cpp
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prefix-and-suffix-search.cpp
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// Time: ctor: O(w * l^2), w is the number of words, l is the word length on average
// search: O(p + s) , p is the length of the prefix, s is the length of the suffix,
// Space: O(t), t is the number of trie nodes
class WordFilter {
public:
WordFilter(vector<string> words) {
for (int i = 0; i < words.size(); ++i) {
for (int j = 0; j <= words[i].length(); ++j) {
trie_.insert(words[i].substr(j) + SEPARATOR + words[i], i);
}
}
}
int f(string prefix, string suffix) {
return trie_.find(suffix + SEPARATOR + prefix);
}
private:
struct TrieNode {
int weight;
vector<TrieNode *> leaves;
TrieNode() : weight(0), leaves(27) {}
void insert(const string& s, const int weight) {
auto* p = this;
p->weight = weight;
for (const auto& c : s) {
if (!p->leaves[c - 'a']) {
p->leaves[c - 'a'] = new TrieNode;
}
p = p->leaves[c - 'a'];
p->weight = weight;
}
}
int find(const string& s) const {
auto* p = this;
for (const auto& c : s) {
if (!p->leaves[c - 'a']) {
return -1;
}
p = p->leaves[c - 'a'];
}
return p->weight;
}
~TrieNode() {
for (auto& node : leaves) {
if (node) {
delete node;
}
}
}
};
const string SEPARATOR = "{"; // ascii code of 'z' + 1
TrieNode trie_;
};
// Time: ctor: O(w * l), w is the number of words, l is the word length on average
// search: O(p + s + max(m, n)), p is the length of the prefix, s is the length of the suffix,
// m is the number of the prefix match, n is the number of the suffix match
// Space: O(w * l)
class WordFilter2 {
public:
WordFilter(vector<string> words) {
for (int i = words.size() - 1; i >= 0; --i) {
auto word = words[i];
prefix_trie_.insert(word, i);
reverse(word.begin(), word.end());
suffix_trie_.insert(word, i);
}
}
int f(string prefix, string suffix) {
const auto& prefix_match = prefix_trie_.find(prefix);
reverse(suffix.begin(), suffix.end());
const auto& suffix_match = suffix_trie_.find(suffix);
int i = 0, j = 0;
while (i != prefix_match.size() && j != suffix_match.size()) {
if (prefix_match[i] == suffix_match[j]) {
return prefix_match[i];
} else if (prefix_match[i] > suffix_match[j]) {
++i;
} else {
++j;
}
}
return -1;
}
private:
struct TrieNode {
vector<int> words; // index of words
vector<TrieNode *> leaves;
TrieNode() : leaves(26) {}
void insert(const string& s, const int i) {
auto* p = this;
p->words.emplace_back(i);
for (const auto& c : s) {
if (!p->leaves[c - 'a']) {
p->leaves[c - 'a'] = new TrieNode;
}
p = p->leaves[c - 'a'];
p->words.emplace_back(i);
}
}
const vector<int>& find(const string& s) const {
auto* p = this;
for (const auto& c : s) {
if (!p->leaves[c - 'a']) {
static const vector<int> empty;
return empty;
}
p = p->leaves[c - 'a'];
}
return p->words;
}
~TrieNode() {
for (auto& node : leaves) {
if (node) {
delete node;
}
}
}
};
TrieNode prefix_trie_, suffix_trie_;
};
/**
* Your WordFilter object will be instantiated and called as such:
* WordFilter obj = new WordFilter(words);
* int param_1 = obj.f(prefix,suffix);
*/