力扣链接:85. 最大矩形 - 力扣（LeetCode）

给定一个仅包含 0 和 1 、大小为 rows x cols 的二维二进制矩阵，找出只包含 1 的最大矩形，并返回其面积。

输入：matrix = [["1","0","1","0","0"],["1","0","1","1","1"],["1","1","1","1","1"],["1","0","0","1","0"]]
输出：6
解释：最大矩形如上图所示。

输入：matrix = [["0"]]
输出：0

输入：matrix = [["1"]]
输出：1

"""
思路:
此题和84题思路一样,只是增加的条件,我们可以把他看成多层叠加的
我们可以把二维数组转换成1维的高度数组
[["1","0","1","0","0"],["1","0","1","1","1"],["1","1","1","1","1"],["1","0","0","1","0"]
]
我们可以看成4个一维的高度数组,高度就是当前行的位置1增加,如果当前行的位置为0则高度就是0第1行为底的柱子:["1","0","1","0","0"]  max = 1
第2行为底的柱子:["2","0","2","1","1"]  max = 3
第3行为底的柱子:["3","1","3","2","2"]  max = 6
第4行为底的柱子:["4","0","0","3","0"]  max = 4"""
from platform import mac_verdef maximalRectangle(matrix):m = len(matrix)n = len(matrix[0])heights_list = []heights = [0] * n# 遍历每一行for i in range(m):for j in range(n):# 如果当前位置是 '1'，则增加高度，否则高度为 0if matrix[i][j] == '1':heights[j] = heights[j] + 1else:heights[j] = 0# heights_list.append(heights[:])   # 此处有坑,heights[:]等于copy,不然append的都是最后一个 heightsheights_list.append(heights.copy())# 这里就可以调用84题的方法来处理def largestRectangleArea(heights):max_area = 0  # 记录最大值for i in range(len(heights)):  # 循环遍历每一个索引位置p = i  # 初始p为当前的i的位置while p < len(heights):  # p到达数组末尾,结束循环if heights[p] == 0:  # 当p位置的值是0的时候,直接跳出循环,因为0高度,不能构成矩形breakw = p - i + 1  # 计算当前p位置到i位置的宽度cur_value = w * min(heights[i:p + 1])  # 高取当前i和p位置数组中的最小的值,矩形面积是有最矮的构成的来决定的max_area = max(max_area, cur_value)  # 更新最大面积的值p = p + 1  # 指针右移动return max_areamax_area = 0for heights in heights_list:value = largestRectangleArea(heights)max_area = max(max_area, value)return max_areaprint(maximalRectangle([["1", "0", "1", "0", "0"], ["1", "0", "1", "1", "1"], ["1", "1", "1", "1", "1"], ["1", "0", "0", "1", "0"]]))
print(maximalRectangle([["1"]]))
print(maximalRectangle([["0"]]))