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★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★ We have a sequence of We want to place these books in order onto bookcase shelves that have total width We choose some of the books to place on this shelf (such that the sum of their thickness is Note again that at each step of the above process, the order of the books we place is the same order as the given sequence of books. For example, if we have an ordered list of 5 books, we might place the first and second book onto the first shelf, the third book on the second shelf, and the fourth and fifth book on the last shelf. Return the minimum possible height that the total bookshelf can be after placing shelves in this manner. Example 1: Input: books = [[1,1],[2,3],[2,3],[1,1],[1,1],[1,1],[1,2]], shelf_width = 4 Output: 6 Explanation: The sum of the heights of the 3 shelves are 1 + 3 + 2 = 6. Notice that book number 2 does not have to be on the first shelf. Constraints:
附近的家居城促销,你买回了一直心仪的可调节书架,打算把自己的书都整理到新的书架上。 你把要摆放的书 按顺序 将这些书摆放到总宽度为 先选几本书放在书架上(它们的厚度之和小于等于书架的宽度 需要注意的是,在上述过程的每个步骤中,摆放书的顺序与你整理好的顺序相同。 例如,如果这里有 5 本书,那么可能的一种摆放情况是:第一和第二本书放在第一层书架上,第三本书放在第二层书架上,第四和第五本书放在最后一层书架上。 每一层所摆放的书的最大高度就是这一层书架的层高,书架整体的高度为各层高之和。 以这种方式布置书架,返回书架整体可能的最小高度。 示例: 输入:books = [[1,1],[2,3],[2,3],[1,1],[1,1],[1,1],[1,2]], shelf_width = 4 输出:6 解释: 3 层书架的高度和为 1 + 3 + 2 = 6 。 第 2 本书不必放在第一层书架上。 提示:
20ms
1 class Solution { 2 func minHeightShelves(_ books: [[Int]], _ shelf_width: Int) -> Int { 3 return minHeightShelvesRecursionMain(books, shelf_width) 4 } 5 6 func minHeightShelvesRecursionMain(_ books: [[Int]], _ shelf_width: Int) -> Int { 7 guard !books.isEmpty else { return 0 } 8 9 var hash = [Int:Int]() 10 return minHeightShelvesRecursion(books, shelf_width, 0, &hash) 11 } 12 13 func minHeightShelvesRecursion(_ books: [[Int]], 14 _ shelf_width: Int, 15 _ bookIndex: Int, 16 _ hash: inout [Int:Int]) -> Int { 17 guard bookIndex < books.count else { return 0 } 18 19 if let result = hash[bookIndex] { return result } 20 21 var i = bookIndex 22 var width = 0 23 var height = 0 24 var result = Int.max 25 26 while i < books.count, width + books[i][0] <= shelf_width { 27 width += books[i][0] 28 height = max(height, books[i][1]) 29 30 let next = minHeightShelvesRecursion(books, shelf_width, i+1, &hash) 31 result = min(result, height + next) 32 33 i += 1 34 } 35 36 hash[bookIndex] = result 37 return result 38 } 39 } 24ms 1 class Solution { 2 func minHeightShelves(_ books: [[Int]], _ shelf_width: Int) -> Int { 3 // Initialize array of solutions for each book 4 let n = books.count 5 var leastHeight = [Int](repeating: 0, count: n + 1) 6 for i in (0 ..< n).reversed() { 7 var rowThickness = books[i][0] 8 var rowHeight = books[i][1] 9 leastHeight[i] = rowHeight + leastHeight[i + 1] 10 // Loop through all possible shelfmates 11 for k in i + 1 ..< n { 12 rowThickness += books[k][0] 13 if rowThickness > shelf_width { 14 break 15 } 16 rowHeight = max(rowHeight, books[k][1]) 17 leastHeight[i] = min(leastHeight[i], rowHeight + leastHeight[k + 1]) 18 } 19 } 20 return leastHeight[0] 21 } 22 } 28ms 1 class Solution { 2 func minHeightShelves(_ books: [[Int]], _ shelf_width: Int) -> Int { 3 var dp = [Int](repeating: 1000 * 1000, count: books.count+1) 4 dp[0] = 0 5 for i in 1...books.count { 6 var b = books[i-1] 7 var w = b[0] 8 var h = b[1] 9 dp[i] = dp[i-1] + h 10 for j in stride(from:i-1, to:0, by: -1) { 11 w += books[j-1][0] 12 h = max(h, books[j-1][1]) 13 if w > shelf_width { break } 14 dp[i] = min(dp[i], dp[j-1] + h) 15 } 16 } 17 return dp[books.count] 18 } 19 } 36ms 1 class Solution { 2 func minHeightShelves(_ books: [[Int]], _ shelf_width: Int) -> Int { 3 return minHeightShelvesRecursionMain(books, shelf_width) 4 } 5 6 func minHeightShelvesRecursionMain(_ books: [[Int]], _ shelf_width: Int) -> Int { 7 guard !books.isEmpty else { return 0 } 8 9 var hash = [Int:Int]() 10 return minHeightShelvesRecursion(books, shelf_width, 0, &hash) 11 } 12 13 func minHeightShelvesRecursion(_ books: [[Int]], 14 _ shelf_width: Int, 15 _ bookIndex: Int, 16 _ hash: inout [Int:Int]) -> Int { 17 guard bookIndex < books.count else { return 0 } 18 19 if let result = hash[bookIndex] { return result } 20 21 var i = bookIndex 22 var width = 0 23 var height = 0 24 var result = Int.max 25 26 while i < books.count, width + books[i][0] <= shelf_width { 27 width += books[i][0] 28 height = max(height, books[i][1]) 29 30 let next = minHeightShelvesRecursion(books, shelf_width, i+1, &hash) 31 32 if next != Int.max { 33 result = min(result, height + next) 34 } 35 36 i += 1 37 } 38 39 hash[bookIndex] = result 40 return result 41 } 42 } 44ms 1 class Solution { 2 func minHeightShelves(_ books: [[Int]], _ shelf_width: Int) -> Int { 3 // Initialize array of solutions for each book 4 let n = books.count 5 var leastHeight = [Int](repeating: 0, count: n + 1) 6 for i in (0 ..< n).reversed() { 7 var rowThickness = books[i][0] 8 var rowHeight = books[i][1] 9 leastHeight[i] = rowHeight + leastHeight[i + 1] 10 // Loop through all possible shelfmates 11 for k in i + 1 ..< n { 12 rowThickness += books[k][0] 13 guard rowThickness <= shelf_width else { break } 14 rowHeight = max(rowHeight, books[k][1]) 15 leastHeight[i] = min(leastHeight[i], rowHeight + leastHeight[k + 1]) 16 } 17 } 18 return leastHeight[0] 19 } 20 } Runtime: 64 ms
Memory Usage: 20.8 MB
1 class Solution { 2 let INF:Int = Int(1e9 + 5) 3 func minHeightShelves(_ books: [[Int]], _ shelf_width: Int) -> Int { 4 let n:Int = books.count 5 var dp:[Int] = [Int](repeating:INF,count:n + 1) 6 dp[0] = 0 7 8 for i in 0..<n 9 { 10 var width:Int = 0 11 var height:Int = 0 12 13 for j in i..<n 14 { 15 width += books[j][0] 16 height = max(height, books[j][1]) 17 18 if width <= shelf_width 19 { 20 dp[j + 1] = min(dp[j + 1], dp[i] + height) 21 } 22 } 23 } 24 return dp[n] 25 } 26 }
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