标签:lan 解题思路 call imp bsp app val int sel
题目如下:
You have an infinite number of stacks arranged in a row and numbered (left to right) from 0, each of the stacks has the same maximum
capacity
.Implement the
DinnerPlates
class:
DinnerPlates(int capacity)
Initializes the object with the maximumcapacity
of the stacks.void push(int val)
pushes the given positive integerval
into the leftmost stack with size less thancapacity
.int pop()
returns the value at the top of the rightmost non-empty stack and removes it from that stack, and returns-1
if all stacks are empty.int popAtStack(int index)
returns the value at the top of the stack with the givenindex
and removes it from that stack, and returns -1 if the stack with that givenindex
is empty.Example:
Input: ["DinnerPlates","push","push","push","push","push","popAtStack","push","push","popAtStack","popAtStack","pop","pop","pop","pop","pop"] [[2],[1],[2],[3],[4],[5],[0],[20],[21],[0],[2],[],[],[],[],[]] Output: [null,null,null,null,null,null,2,null,null,20,21,5,4,3,1,-1] Explanation: DinnerPlates D = DinnerPlates(2); // Initialize with capacity = 2 D.push(1); D.push(2); D.push(3); D.push(4); D.push(5); // The stacks are now: 2 4 1 3 5 ? ? ? D.popAtStack(0); // Returns 2. The stacks are now: 4 1 3 5 ? ? ? D.push(20); // The stacks are now: 20 4 1 3 5 ? ? ? D.push(21); // The stacks are now: 20 4 21 1 3 5 ? ? ? D.popAtStack(0); // Returns 20. The stacks are now: 4 21 1 3 5 ? ? ? D.popAtStack(2); // Returns 21. The stacks are now: 4 1 3 5 ? ? ? D.pop() // Returns 5. The stacks are now: 4 1 3 ? ? D.pop() // Returns 4. The stacks are now: 1 3 ? ? D.pop() // Returns 3. The stacks are now: 1 ? D.pop() // Returns 1. There are no stacks. D.pop() // Returns -1. There are still no stacks.
Constraints:
1 <= capacity <= 20000
1 <= val <= 20000
0 <= index <= 100000
- At most
200000
calls will be made topush
,pop
, andpopAtStack
.
解题思路:本题我用了三个list,一个是stack_list,保存所以的stack信息;一个是nonEmptyStack,记录当前不为空的stack的下标;还一个是availableStack,记录当前未满的stack的下标。在push的时候,只需要找出availableStack中所有下标的最小值,插入对应的stack即可,如果availableStack为空,新增一个stack,插入stack_list,同时更新availableStack和nonEmptyStack的状态;pop操作则是找出nonEmptyStack中下标的最大值,对其对应的stack做pop操作,而popAsStack的操作就更简单,可以直接用下标访问stack_list。需要注意的是,每次对stack有任何操作,都要同步更新availableStack和nonEmptyStack。因为是求availableStack和nonEmptyStack的最大或者最小值,只需要保证availableStack和nonEmptyStack中的元素有序即可,更新availableStack和nonEmptyStack则可以用二分查找法。
代码如下:
class DinnerPlates(object): def __init__(self, capacity): """ :type capacity: int """ self.stack_list = [] self.availableStack = [] self.capacity = capacity self.nonEmptyStack = [] def push(self, val): """ :type val: int :rtype: None """ if len(self.availableStack) == 0: inx = len(self.stack_list) #self.availableStack.append(len(self.stack_list)) self.stack_list.append([val]) if len(self.stack_list[inx]) < self.capacity: self.availableStack.append(inx) else: inx = self.availableStack[0] self.stack_list[inx].append(val) if len(self.stack_list[inx]) >= self.capacity: self.availableStack.pop(0) import bisect b_inx = bisect.bisect_left(self.nonEmptyStack,inx) if b_inx == -1 or b_inx == len(self.nonEmptyStack) or self.nonEmptyStack[b_inx] != inx: bisect.insort_left(self.nonEmptyStack,inx) def pop(self): """ :rtype: int """ if len(self.nonEmptyStack) == 0: return -1 inx = self.nonEmptyStack[-1] v = self.stack_list[inx].pop(-1) if len(self.stack_list[inx]) == 0: self.nonEmptyStack.pop(-1) return v def popAtStack(self, index): """ :type index: int :rtype: int """ import bisect b_inx = bisect.bisect_left(self.nonEmptyStack, index) if b_inx == -1 or b_inx == len(self.nonEmptyStack) or self.nonEmptyStack[b_inx] != index: return -1 v = self.stack_list[index].pop(-1) if len(self.stack_list[index]) == 0: del self.nonEmptyStack[b_inx] b_inx = bisect.bisect_left(self.availableStack, index) if b_inx == -1 or b_inx == len(self.availableStack) or self.availableStack[b_inx] != index: bisect.insort_left(self.availableStack,index) return v
【leetcode】1172. Dinner Plate Stacks
标签:lan 解题思路 call imp bsp app val int sel
原文地址:https://www.cnblogs.com/seyjs/p/11520402.html