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设计一个支持下述操作的食物评分系统:
实现 FoodRatings
类:
FoodRatings(String[] foods, String[] cuisines, int[] ratings)
初始化系统。食物由 foods
、cuisines
和 ratings
描述,长度均为 n
。
foods[i]
是第 i
种食物的名字。cuisines[i]
是第 i
种食物的烹饪方式。ratings[i]
是第 i
种食物的最初评分。void changeRating(String food, int newRating)
修改名字为 food
的食物的评分。String highestRated(String cuisine)
返回指定烹饪方式 cuisine
下评分最高的食物的名字。如果存在并列,返回 字典序较小 的名字。注意,字符串 x
的字典序比字符串 y
更小的前提是:x
在字典中出现的位置在 y
之前,也就是说,要么 x
是 y
的前缀,或者在满足 x[i] != y[i]
的第一个位置 i
处,x[i]
在字母表中出现的位置在 y[i]
之前。
示例:
输入
["FoodRatings", "highestRated", "highestRated", "changeRating", "highestRated", "changeRating", "highestRated"]
[[["kimchi", "miso", "sushi", "moussaka", "ramen", "bulgogi"], ["korean", "japanese", "japanese", "greek", "japanese", "korean"], [9, 12, 8, 15, 14, 7]], ["korean"], ["japanese"], ["sushi", 16], ["japanese"], ["ramen", 16], ["japanese"]]
输出
[null, "kimchi", "ramen", null, "sushi", null, "ramen"]
解释
FoodRatings foodRatings = new FoodRatings(["kimchi", "miso", "sushi", "moussaka", "ramen", "bulgogi"], ["korean", "japanese", "japanese", "greek", "japanese", "korean"], [9, 12, 8, 15, 14, 7]);
foodRatings.highestRated("korean"); // 返回 "kimchi"
// "kimchi" 是分数最高的韩式料理,评分为 9 。
foodRatings.highestRated("japanese"); // 返回 "ramen"
// "ramen" 是分数最高的日式料理,评分为 14 。
foodRatings.changeRating("sushi", 16); // "sushi" 现在评分变更为 16 。
foodRatings.highestRated("japanese"); // 返回 "sushi"
// "sushi" 是分数最高的日式料理,评分为 16 。
foodRatings.changeRating("ramen", 16); // "ramen" 现在评分变更为 16 。
foodRatings.highestRated("japanese"); // 返回 "ramen"
// "sushi" 和 "ramen" 的评分都是 16 。
// 但是,"ramen" 的字典序比 "sushi" 更小。
提示:
1 <= n <= 2 * 10^4
n == foods.length == cuisines.length == ratings.length
1 <= foods[i].length, cuisines[i].length <= 10
foods[i]
、cuisines[i]
由小写英文字母组成1 <= ratings[i] <= 108
foods
中的所有字符串 互不相同changeRating
的所有调用中,food
是系统中食物的名字。highestRated
的所有调用中,cuisine
是系统中 至少一种 食物的烹饪方式。changeRating
和 highestRated
总计 2 * 10^4
次我们可以用一个哈希表 f s fs fs 记录每个食物名称、对应的食物评分和烹饪方式,另一个哈希表套平衡树 c s cs cs 记录每个烹饪方式、对应的食物评分和食物名称集合。
对于 changeRating
操作,先从 cs[fs[food].cuisine]
中删除旧数据,然后将 newRating
和 food
记录到 c s cs cs 和 f s fs fs 中:
// cpp
class FoodRatings {
private:
unordered_map<string, pair<int, string>> fs;
unordered_map<string, set<pair<int, string>>> cs;
public:
FoodRatings(vector<string>& foods, vector<string>& cuisines, vector<int>& ratings) {
for (int i = 0, n = foods.size(); i < n; ++i) {
auto &f = foods[i], &c = cuisines[i];
int r = ratings[i];
fs[f] = {r, c};
cs[c].emplace(-r, f);
}
}
void changeRating(string food, int newRating) {
auto &[r, c] = fs[food];
auto &s = cs[c];
s.erase({-r, food}); // 移除旧数据
s.emplace(-newRating, food); // 添加新数据
r = newRating;
}
string highestRated(string cuisine) {
return cs[cuisine].begin()->second;
}
};
// java
class FoodRatings {
Map<String, Pair<Integer, String>> fs = new HashMap<>();
Map<String, TreeSet<Pair<Integer, String>>> cs = new HashMap<>();
public FoodRatings(String[] foods, String[] cuisines, int[] ratings) {
for (var i = 0; i < foods.length; ++i) {
String f = foods[i], c = cuisines[i];
var r = ratings[i];
fs.put(f, new Pair<>(r, c));
cs.computeIfAbsent(c, k -> new TreeSet<>((a, b) ->
!Objects.equals(a.getKey(), b.getKey()) ?
b.getKey() - a.getKey() : // 逆序
a.getValue().compareTo(b.getValue())
)).add(new Pair<>(r, f));
}
}
public void changeRating(String food, int newRating) {
var e = fs.get(food);
var s = cs.get(e.getValue());
s.remove(new Pair<>(e.getKey(), food)); // 移除旧数据
s.add(new Pair<>(newRating, food)); // 添加新数据
fs.put(food, new Pair<>(newRating, e.getValue()));
}
public String highestRated(String cuisine) {
return cs.get(cuisine).first().getValue();
}
}
// python
from sortedcontainers import SortedSet
class FoodRatings:
def __init__(self, foods: List[str], cuisines: List[str], ratings: List[int]):
self.fs = {}
self.cs = defaultdict(SortedSet)
for f, c, r in zip(foods, cuisines, ratings):
self.fs[f] = [r, c]
self.cs[c].add((-r, f))
def changeRating(self, food: str, newRating: int) -> None:
r, c = self.fs[food]
s = self.cs[c]
s.remove((-r, food)) # 移除旧数据
s.add((-newRating, food)) # 添加新数据
self.fs[food][0] = newRating
def highestRated(self, cuisine: str) -> str:
return self.cs[cuisine][0][1]
另一种做法是用堆:
changeRating
操作,直接往 c s cs cs 中记录,不做任何删除操作;// cpp
class FoodRatings {
private:
unordered_map<string, pair<int, string>> fs;
unordered_map<string,
priority_queue<pair<int, string>, vector<pair<int, string>>, greater<>>> cs;
public:
FoodRatings(vector<string>& foods, vector<string>& cuisines, vector<int>& ratings) {
for (int i = 0, n = foods.size(); i < n; ++i) {
auto &f = foods[i], &c = cuisines[i];
int r = ratings[i];
fs[f] = {r, c};
cs[c].emplace(-r, f);
}
}
void changeRating(string food, int newRating) {
auto &[r, c] = fs[food];
cs[c].emplace(-newRating, food); // 直接添加新数据,后面 highestRated 再删除旧的
r = newRating;
}
string highestRated(string cuisine) {
auto &q = cs[cuisine];
while (-q.top().first != fs[q.top().second].first) // 堆顶的食物评分不等于其实际值
q.pop();
return q.top().second;
}
};
// java
class FoodRatings {
Map<String, Pair<Integer, String>> fs = new HashMap<>();
Map<String, Queue<Pair<Integer, String>>> cs = new HashMap<>();
public FoodRatings(String[] foods, String[] cuisines, int[] ratings) {
for (var i = 0; i < foods.length; ++i) {
String f = foods[i], c = cuisines[i];
var r = ratings[i];
fs.put(f, new Pair<>(r, c));
cs.computeIfAbsent(c, k -> new PriorityQueue<>((a, b) ->
!Objects.equals(a.getKey(), b.getKey()) ?
b.getKey() - a.getKey() : // 逆序
a.getValue().compareTo(b.getValue())
)).add(new Pair<>(r, f));
}
}
public void changeRating(String food, int newRating) {
var c = fs.get(food).getValue();
cs.get(c).offer(new Pair<>(newRating, food)); // 直接添加新数据,后面 highestRated 再删除旧的
fs.put(food, new Pair<>(newRating, c)); // 记录新评分
}
public String highestRated(String cuisine) {
var q = cs.get(cuisine);
while (!Objects.equals(q.peek().getKey(), fs.get(q.peek().getValue()).getKey()))
q.poll();
return q.peek().getValue();
}
}
// python
class FoodRatings:
def __init__(self, foods: List[str], cuisines: List[str], ratings: List[int]):
self.fs = {}
self.cs = defaultdict(list)
for f, c, r in zip(foods, cuisines, ratings):
self.fs[f] = [r, c]
heappush(self.cs[c], (-r, f))
def changeRating(self, food: str, newRating: int) -> None:
f = self.fs[food]
heappush(self.cs[f[1]], (-newRating, food)) # 直接添加新数据,后面highestRated再删除旧的
f[0] = newRating
def highestRated(self, cuisine: str) -> str:
h = self.cs[cuisine]
while -h[0][0] != self.fs[h[0][1]][0]: # 堆顶的食物评分!=实际值
heappop(h)
return h[0][1]