LeetCode 0123. Best Time to Buy and Sell Stock III买卖股票的最佳时机 III【Hard】【Python】【动态规划】
Problem
Say you have an array for which the ith element is the price of a given stock on day i.
Design an algorithm to find the maximum profit. You may complete at most two transactions.
Note: You may not engage in multiple transactions at the same time (i.e., you must sell the stock before you buy again).
Example 1:
Input: [3,3,5,0,0,3,1,4]
Output: 6
Explanation: Buy on day 4 (price = 0) and sell on day 6 (price = 3), profit = 3-0 = 3.
Then buy on day 7 (price = 1) and sell on day 8 (price = 4), profit = 4-1 = 3.Example 2:
Input: [1,2,3,4,5]
Output: 4
Explanation: Buy on day 1 (price = 1) and sell on day 5 (price = 5), profit = 5-1 = 4.
Note that you cannot buy on day 1, buy on day 2 and sell them later, as you are
engaging multiple transactions at the same time. You must sell before buying again.Example 3:
Input: [7,6,4,3,1] Output: 0 Explanation: In this case, no transaction is done, i.e. max profit = 0.
问题
给定一个数组,它的第 i 个元素是一支给定的股票在第 i 天的价格。
设计一个算法来计算你所能获取的最大利润。你最多可以完成 两笔 交易。
注意: 你不能同时参与多笔交易(你必须在再次购买前出售掉之前的股票)。
示例 1:
输入: [3,3,5,0,0,3,1,4]
输出: 6
解释: 在第 4 天(股票价格 = 0)的时候买入,在第 6 天(股票价格 = 3)的时候卖出,这笔交易所能获得利润 = 3-0 = 3 。
随后,在第 7 天(股票价格 = 1)的时候买入,在第 8 天 (股票价格 = 4)的时候卖出,这笔交易所能获得利润 = 4-1 = 3 。示例 2:
输入: [1,2,3,4,5]
输出: 4
解释: 在第 1 天(股票价格 = 1)的时候买入,在第 5 天 (股票价格 = 5)的时候卖出, 这笔交易所能获得利润 = 5-1 = 4 。
注意你不能在第 1 天和第 2 天接连购买股票,之后再将它们卖出。
因为这样属于同时参与了多笔交易,你必须在再次购买前出售掉之前的股票。示例 3:
输入: [7,6,4,3,1] 输出: 0 解释: 在这个情况下, 没有交易完成, 所以最大利润为 0。
思路
动态规划
找到状态方程
dp[i][k][0] = max(dp[i-1][k][0], dp[i-1][k][1] + prices[i])
解释:昨天没有股票,昨天有股票今天卖出
dp[i][k][1] = max(dp[i-1][k][1], dp[i-1][k][0] - prices[i])
解释:昨天有股票,昨天没有股票今天买入
base case:
dp[-1][k][0] = dp[i][k][0] = 0
dp[-1][k][1] = dp[i][k][1] = -inf
k = 2
因为 k 为 2,所以要对 k 进行穷举。
dp[i][2][0] = max(dp[i-1][2][0], dp[i-1][2][1] + prices[i])
dp[i][2][1] = max(dp[i-1][2][1], dp[i-1][1][0] - prices[i])
dp[i][1][0] = max(dp[i-1][1][0], dp[i-1][1][1] + prices[i])
dp[i][1][1] = max(dp[i-1][1][1], -prices[i])
i = 0 时,dp[i-1] 不合法。
dp[0][1][0] = max(dp[-1][1][0], dp[-1][1][1] + prices[i])
= max(0, -infinity + prices[i])
= 0
dp[0][1][1] = max(dp[-1][1][1], dp[-1][1][0] - prices[i])
= max(-infinity, 0 - prices[i])
= -prices[i]
dp[0][2][0] = max(dp[-1][2][0], dp[-1][2][1] + prices[i])
= max(0, -infinity + prices[i])
= 0
dp[0][2][1] = max(dp[-1][2][1], dp[-1][2][0] - prices[i])
= max(-infinity, 0 - prices[i])
= -prices[i]空间复杂度: O(1)
Python3代码
class Solution:
def maxProfit(self, prices: List[int]) -> int:
dp_i_2_0, dp_i_1_0 = 0, 0
# dp_i_2_1, dp_i_1_1 = -prices[0], -prices[0] # 会报错:list index out of range
dp_i_2_1, dp_i_1_1 = float('-inf'), float('-inf') # 负无穷
for i in range(len(prices)):
# 昨天没有股票,昨天有股票今天卖出
dp_i_2_0 = max(dp_i_2_0, dp_i_2_1 + prices[i])
# 昨天有股票,昨天没有股票今天买入
dp_i_2_1 = max(dp_i_2_1, dp_i_1_0 - prices[i])
# 昨天没有股票,昨天有股票今天卖出
dp_i_1_0 = max(dp_i_1_0, dp_i_1_1 + prices[i])
# 昨天有股票,昨天没有股票今天买入
dp_i_1_1 = max(dp_i_1_1, -prices[i])
return dp_i_2_0 
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