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projection-area-of-3d-shapes.py
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projection-area-of-3d-shapes.py
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# Time: O(n^2)
# Space: O(1)
# On a N * N grid, we place some 1 * 1 * 1 cubes
# that are axis-aligned with the x, y, and z axes.
#
# Each value v = grid[i][j] represents a tower of
# v cubes placed on top of grid cell (i, j).
#
# Now we view the projection of these cubes onto
# the xy, yz, and zx planes.
#
# A projection is like a shadow, that maps our
# 3 dimensional figure to a 2 dimensional plane.
#
# Here, we are viewing the "shadow" when looking at the cubes
# from the top, the front, and the side.
#
# Return the total area of all three projections.
#
# Example 1:
#
# Input: [[2]]
# Output: 5
# Example 2:
#
# Input: [[1,2],[3,4]]
# Output: 17
# Explanation:
# Here are the three projections ("shadows") of
# the shape made with each axis-aligned plane.
#
# Example 3:
#
# Input: [[1,0],[0,2]]
# Output: 8
# Example 4:
#
# Input: [[1,1,1],[1,0,1],[1,1,1]]
# Output: 14
# Example 5:
#
# Input: [[2,2,2],[2,1,2],[2,2,2]]
# Output: 21
#
# Note:
# - 1 <= grid.length = grid[0].length <= 50
# - 0 <= grid[i][j] <= 50
class Solution(object):
def projectionArea(self, grid):
"""
:type grid: List[List[int]]
:rtype: int
"""
result = 0
for i in xrange(len(grid)):
max_row, max_col = 0, 0
for j in xrange(len(grid)):
if grid[i][j]:
result += 1
max_row = max(max_row, grid[i][j])
max_col = max(max_col, grid[j][i])
result += max_row + max_col
return result