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DesignSearchAutocompleteSystem642.java
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/**
* Design a search autocomplete system for a search engine. Users may input a
* sentence (at least one word and end with a special character '#'). For each
* character they type except '#', you need to return the top 3 historical hot
* sentences that have prefix the same as the part of sentence already typed.
* Here are the specific rules:
*
* The hot degree for a sentence is defined as the number of times a user typed
* the exactly same sentence before.
* The returned top 3 hot sentences should be sorted by hot degree (The first is
* the hottest one). If several sentences have the same degree of hot, you need
* to use ASCII-code order (smaller one appears first).
* If less than 3 hot sentences exist, then just return as many as you can.
* When the input is a special character, it means the sentence ends, and in this
* case, you need to return an empty list.
* Your job is to implement the following functions:
*
* The constructor function:
*
* AutocompleteSystem(String[] sentences, int[] times): This is the constructor.
* The input is historical data. Sentences is a string array consists of
* previously typed sentences. Times is the corresponding times a sentence
* has been typed. Your system should record these historical data.
*
* Now, the user wants to input a new sentence. The following function will
* provide the next character the user types:
*
* List<String> input(char c): The input c is the next character typed by the
* user. The character will only be lower-case letters ('a' to 'z'), blank
* space (' ') or a special character ('#'). Also, the previously typed
* sentence should be recorded in your system. The output will be the top 3
* historical hot sentences that have prefix the same as the part of sentence
* already typed.
*
* Example:
* Operation: AutocompleteSystem(["i love you", "island","ironman", "i love leetcode"], [5,3,2,2])
* The system have already tracked down the following sentences and their corresponding times:
* "i love you" : 5 times
* "island" : 3 times
* "ironman" : 2 times
* "i love leetcode" : 2 times
* Now, the user begins another search:
*
* Operation: input('i')
* Output: ["i love you", "island","i love leetcode"]
* Explanation:
* There are four sentences that have prefix "i". Among them, "ironman" and
* "i love leetcode" have same hot degree. Since ' ' has ASCII code 32 and 'r'
* has ASCII code 114, "i love leetcode" should be in front of "ironman". Also
* we only need to output top 3 hot sentences, so "ironman" will be ignored.
*
* Operation: input(' ')
* Output: ["i love you","i love leetcode"]
* Explanation:
* There are only two sentences that have prefix "i ".
*
* Operation: input('a')
* Output: []
* Explanation:
* There are no sentences that have prefix "i a".
*
* Operation: input('#')
* Output: []
* Explanation:
* The user finished the input, the sentence "i a" should be saved as a
* historical sentence in system. And the following input will be counted as a
* new search.
*
* Note:
* The input sentence will always start with a letter and end with '#', and
* only one blank space will exist between two words.
* The number of complete sentences that to be searched won't exceed 100. The
* length of each sentence including those in the historical data won't exceed
* 100.
* Please use double-quote instead of single-quote when you write test cases
* even for a character input.
* Please remember to RESET your class variables declared in class
* AutocompleteSystem, as static/class variables are persisted across multiple
* test cases. Please see here for more details.
*/
public class DesignSearchAutocompleteSystem642 {
// Trie
class AutocompleteSystem {
private Map<String, Integer> freq;
private StringBuilder currSent;
private Trie trie;
private Trie currTrie;
public AutocompleteSystem(String[] sentences, int[] times) {
this.freq = new HashMap<>();
this.trie = new Trie();
for (int i=0; i<sentences.length; i++) {
this.freq.put(sentences[i], times[i]);
this.trie.add(sentences[i]);
}
this.currTrie = this.trie;
this.currSent = new StringBuilder();
}
public List<String> input(char c) {
if (c == '#') {
String newSent = this.currSent.toString();
this.currSent = new StringBuilder();
this.freq.put(newSent, this.freq.getOrDefault(newSent, 0) + 1);
this.currTrie.sentence = newSent;
this.currTrie = this.trie;
return new ArrayList<>();
} else {
this.currSent.append(c);
int pos = charPos(c);
if (this.currTrie.children[pos] == null) {
this.currTrie.children[pos] = new Trie();
}
this.currTrie = this.currTrie.children[pos];
PriorityQueue<String> pq = new PriorityQueue<>(3, (s1, s2) -> {
int freqDiff = Integer.compare(this.freq.get(s1), this.freq.get(s2));
if (freqDiff != 0) return freqDiff;
return -asciiOrder(s1, s2);
});
getAllSents(this.currTrie, pq);
LinkedList<String> res = new LinkedList<>();
while (!pq.isEmpty()) {
res.addFirst(pq.poll());
}
return res;
}
}
private void getAllSents(Trie t, PriorityQueue<String> pq) {
if (t.sentence != null) {
pq.add(t.sentence);
if (pq.size() > 3) pq.poll();
}
for (Trie child: t.children) {
if (child != null) {
getAllSents(child, pq);
}
}
}
private int asciiOrder(String s1, String s2) {
int i = 0;
int len1 = s1.length();
int len2 = s2.length();
char[] chars1 = s1.toCharArray();
char[] chars2 = s2.toCharArray();
while (i < len1 && i < len2) {
if (chars1[i] == chars2[i]) {
i++;
continue;
}
return Integer.compare(chars1[i], chars2[i]);
}
return Integer.compare(len1, len2);
}
private int charPos(char ch) {
if (ch == ' ') return 26;
return ch - 'a';
}
class Trie {
Trie[] children = new Trie[27];
String sentence;
void add(String sen) {
add(sen.toCharArray(), 0);
}
void add(char[] chars, int i) {
if (i == chars.length) {
this.sentence = new String(chars);
return;
}
int pos = charPos(chars[i]);
if (this.children[pos] == null) {
this.children[pos] = new Trie();
}
this.children[pos].add(chars, i+1);
}
}
}
// Tenary Search Tree
class AutocompleteSystem2 {
private StringBuilder sb;
private Map<String, Integer> freq;
private Node root;
private Node currNode;
Comparator<String> comp = (s1, s2) -> {
int freqDiff = Integer.compare(this.freq.get(s1), this.freq.get(s2));
if (freqDiff != 0) return freqDiff;
return -s1.compareTo(s2);
};
public AutocompleteSystem2(String[] sentences, int[] times) {
int N = sentences.length;
this.freq = new HashMap<>();
for (int i=0; i<N; i++) {
this.freq.put(sentences[i], times[i]);
this.root = addNode(this.root, sentences[i]);
}
this.currNode = this.root;
this.sb = new StringBuilder();
}
private Node addNode(Node n, String s) {
return addNode(n, s.toCharArray(), 0);
}
private Node addNode(Node n, char[] chars, int i) {
if (i == chars.length) {
return n;
}
char ch = chars[i];
if (n == null) {
n = new Node(ch);
}
if (ch < n.ch) {
n.left = addNode(n.left, chars, i);
} else if (ch > n.ch) {
n.right = addNode(n.right, chars, i);
} else {
if (i+1 < chars.length) {
n.eq = addNode(n.eq, chars, i+1);
} else {
n.sent = new String(chars);
}
}
return n;
}
public List<String> input(char c) {
if (c == '#') {
String newSent = this.sb.toString();
this.sb = new StringBuilder();
this.freq.put(newSent, this.freq.getOrDefault(newSent, 0) + 1);
this.root = addNode(this.root, newSent);
this.currNode = this.root;
return new ArrayList<>();
} else {
this.sb.append(c);
if (this.currNode == null) {
return new ArrayList<>();
}
Node nn = next(this.currNode, c);
this.currNode = nn;
PriorityQueue<String> pq = new PriorityQueue<>(3, comp);
if (nn != null) {
this.currNode = nn.eq;
if (nn.sent != null) {
pq.add(nn.sent);
}
nn = nn.eq;
}
getAllSents(nn, pq);
LinkedList<String> res = new LinkedList<>();
while (!pq.isEmpty()) {
res.addFirst(pq.poll());
}
return res;
}
}
private Node next(Node n, char c) {
if (n == null) return null;
if (c < n.ch) {
return next(n.left, c);
} else if (c > n.ch) {
return next(n.right, c);
} else {
return n;
}
}
private void getAllSents(Node n, PriorityQueue<String> pq) {
if (n == null) return;
if (n.sent != null) {
pq.add(n.sent);
if (pq.size() > 3) pq.poll();
}
getAllSents(n.left, pq);
getAllSents(n.eq, pq);
getAllSents(n.right, pq);
}
class Node {
char ch;
Node left;
Node eq;
Node right;
String sent;
Node (char c) {
this.ch = c;
}
}
}
/**
* Your AutocompleteSystem object will be instantiated and called as such:
* AutocompleteSystem obj = new AutocompleteSystem(sentences, times);
* List<String> param_1 = obj.input(c);
*/
}