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design-search-autocomplete-system.cpp
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design-search-autocomplete-system.cpp
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// Time: O(p^2), p is the length of the prefix
// Space: O(p * t + s), t is the number of nodes of trie
// , s is the size of the sentences
class AutocompleteSystem {
public:
AutocompleteSystem(vector<string> sentences, vector<int> times) : cur_node_(&trie_) {
for (int i = 0; i < sentences.size(); ++i) {
sentence_to_count_[sentences[i]] = times[i];
trie_.insert(sentences[i], sentence_to_count_[sentences[i]]);
}
}
vector<string> input(char c) {
vector<string> result;
if (c == '#') {
++sentence_to_count_[search_];
trie_.insert(search_, sentence_to_count_[search_]);
cur_node_ = &trie_;
search_.clear();
} else {
search_.push_back(c);
if (cur_node_) {
if (!cur_node_->leaves_.count(c)) {
cur_node_ = nullptr;
return {};
}
cur_node_ = cur_node_->leaves_[c];
for (const auto& p : cur_node_->infos_) {
result.emplace_back(p.second);
}
}
}
return result;
}
private:
class TrieNode {
public:
static const int TOP_COUNT = 3;
~TrieNode() {
for (auto& kv : leaves_) {
if (kv.second) {
delete kv.second;
}
}
}
// Time: O(s)
void insert(const string& s, int times) {
auto* cur = this;
cur->add_info(s, times);
for (const auto& c : s) {
if (!cur->leaves_.count(c)) {
cur->leaves_[c] = new TrieNode;
}
cur = cur->leaves_[c];
cur->add_info(s, times);
}
}
// Time: O(1)
void add_info(const string& s, int times) {
auto it = find_if(infos_.begin(), infos_.end(),
[&s, ×](const pair<int, string>& p){ return p.second == s;} );
if (it != infos_.end()) {
it->first = -times;
} else {
infos_.emplace_back(-times, s);
}
sort(infos_.begin(), infos_.end());
if (infos_.size() > TOP_COUNT) {
infos_.pop_back();
}
}
vector<pair<int, string>> infos_;
unordered_map<char, TrieNode *> leaves_;
};
TrieNode trie_;
TrieNode *cur_node_;
string search_;
unordered_map<string, int> sentence_to_count_;
};
/**
* Your AutocompleteSystem object will be instantiated and called as such:
* AutocompleteSystem obj = new AutocompleteSystem(sentences, times);
* vector<string> param_1 = obj.input(c);
*/