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Formatted question description: https://leetcode.ca/all/2052.html
2052. Minimum Cost to Separate Sentence Into Rows
Description
You are given a string sentence
containing words separated by spaces, and an integer k
. Your task is to separate sentence
into rows where the number of characters in each row is at most k
. You may assume that sentence
does not begin or end with a space, and the words in sentence
are separated by a single space.
You can split sentence
into rows by inserting line breaks between words in sentence
. A word cannot be split between two rows. Each word must be used exactly once, and the word order cannot be rearranged. Adjacent words in a row should be separated by a single space, and rows should not begin or end with spaces.
The cost of a row with length n
is (k - n)2
, and the total cost is the sum of the costs for all rows except the last one.
- For example if
sentence = "i love leetcode"
andk = 12
:- Separating
sentence
into"i"
,"love"
, and"leetcode"
has a cost of(12 - 1)2 + (12 - 4)2 = 185
. - Separating
sentence
into"i love"
, and"leetcode"
has a cost of(12 - 6)2 = 36
. - Separating
sentence
into"i"
, and"love leetcode"
is not possible because the length of"love leetcode"
is greater thank
.
- Separating
Return the minimum possible total cost of separating sentence
into rows.
Example 1:
Input: sentence = "i love leetcode", k = 12 Output: 36 Explanation: Separating sentence into "i", "love", and "leetcode" has a cost of (12 - 1)2 + (12 - 4)2 = 185. Separating sentence into "i love", and "leetcode" has a cost of (12 - 6)2 = 36. Separating sentence into "i", "love leetcode" is not possible because "love leetcode" has length 13. 36 is the minimum possible total cost so return it.
Example 2:
Input: sentence = "apples and bananas taste great", k = 7 Output: 21 Explanation Separating sentence into "apples", "and", "bananas", "taste", and "great" has a cost of (7 - 6)2 + (7 - 3)2 + (7 - 7)2 + (7 - 5)2 = 21. 21 is the minimum possible total cost so return it.
Example 3:
Input: sentence = "a", k = 5 Output: 0 Explanation: The cost of the last row is not included in the total cost, and since there is only one row, return 0.
Constraints:
1 <= sentence.length <= 5000
1 <= k <= 5000
- The length of each word in
sentence
is at mostk
. sentence
consists of only lowercase English letters and spaces.sentence
does not begin or end with a space.- Words in
sentence
are separated by a single space.
Solutions
-
class Solution { private static final int INF = Integer.MAX_VALUE; private int[] memo; private int[] s; private int n; public int minimumCost(String sentence, int k) { String[] words = sentence.split(" "); n = words.length; s = new int[n + 1]; for (int i = 0; i < n; ++i) { s[i + 1] = s[i] + words[i].length(); } memo = new int[n]; Arrays.fill(memo, INF); return dfs(0, k); } private int dfs(int i, int k) { if (memo[i] != INF) { return memo[i]; } if (s[n] - s[i] + n - i - 1 <= k) { memo[i] = 0; return 0; } int ans = INF; for (int j = i + 1; j < n; ++j) { int t = s[j] - s[i] + j - i - 1; if (t <= k) { ans = Math.min(ans, (k - t) * (k - t) + dfs(j, k)); } } memo[i] = ans; return ans; } }
-
class Solution { public: const int inf = INT_MAX; int n; int minimumCost(string sentence, int k) { istringstream is(sentence); vector<string> words; string word; while (is >> word) words.push_back(word); n = words.size(); vector<int> s(n + 1); for (int i = 0; i < n; ++i) s[i + 1] = s[i] + words[i].size(); vector<int> memo(n, inf); return dfs(0, k, s, memo); } int dfs(int i, int k, vector<int>& s, vector<int>& memo) { if (memo[i] != inf) return memo[i]; if (s[n] - s[i] + n - i - 1 <= k) { memo[i] = 0; return 0; } int ans = inf; for (int j = i + 1; j < n; ++j) { int t = s[j] - s[i] + j - i - 1; if (t <= k) ans = min(ans, (k - t) * (k - t) + dfs(j, k, s, memo)); } memo[i] = ans; return ans; } };
-
class Solution: def minimumCost(self, sentence: str, k: int) -> int: @cache def dfs(i): if s[-1] - s[i] + n - i - 1 <= k: return 0 ans, j = inf, i + 1 while j < n and (t := s[j] - s[i] + j - i - 1) <= k: ans = min(ans, (k - t) ** 2 + dfs(j)) j += 1 return ans t = [len(w) for w in sentence.split()] n = len(t) s = list(accumulate(t, initial=0)) return dfs(0)
-
func minimumCost(sentence string, k int) int { words := strings.Split(sentence, " ") n := len(words) inf := math.MaxInt32 s := make([]int, n+1) for i, word := range words { s[i+1] = s[i] + len(word) } memo := make([]int, n) for i := range memo { memo[i] = inf } var dfs func(int) int dfs = func(i int) int { if memo[i] != inf { return memo[i] } if s[n]-s[i]+n-i-1 <= k { memo[i] = 0 return 0 } ans := inf for j := i + 1; j < n; j++ { t := s[j] - s[i] + j - i - 1 if t <= k { ans = min(ans, (k-t)*(k-t)+dfs(j)) } } memo[i] = ans return ans } return dfs(0) } func min(a, b int) int { if a < b { return a } return b }