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asteroid-collision.py
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asteroid-collision.py
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# Time: O(n)
# Space: O(n)
# We are given an array asteroids of integers representing asteroids
# in a row.
#
# For each asteroid, the absolute value represents its size,
# and the sign represents its direction (positive meaning right,
# negative meaning left).
# Each asteroid moves at the same speed.
#
# Find out the state of the asteroids after all collisions.
# If two asteroids meet, the smaller one will explode.
# If both are the same size, both will explode.
# Two asteroids moving in the same direction will never meet.
#
# Example 1:
# Input:
# asteroids = [5, 10, -5]
# Output: [5, 10]
# Explanation:
# The 10 and -5 collide resulting in 10. The 5 and 10 never collide.
# Example 2:
# Input:
# asteroids = [8, -8]
# Output: []
# Explanation:
# The 8 and -8 collide exploding each other.
# Example 3:
# Input:
# asteroids = [10, 2, -5]
# Output: [10]
# Explanation:
# The 2 and -5 collide resulting in -5. The 10 and -5 collide resulting in 10.
# Example 4:
# Input:
# asteroids = [-2, -1, 1, 2]
# Output: [-2, -1, 1, 2]
# Explanation:
# The -2 and -1 are moving left, while the 1 and 2 are moving right.
# Asteroids moving the same direction never meet,
# so no asteroids will meet each other.
#
# Note:
# - The length of asteroids will be at most 10000.
# - Each asteroid will be a non-zero integer in the range [-1000, 1000].
try:
xrange # Python 2
except NameError:
xrange = range # Python 3
class Solution(object):
def asteroidCollision(self, asteroids):
"""
:type asteroids: List[int]
:rtype: List[int]
"""
result = []
for asteroid in asteroids:
while result and asteroid < 0 < result[-1]:
if result[-1] < -asteroid:
result.pop()
continue
elif result[-1] == -asteroid:
result.pop()
break
else:
result.append(asteroid)
return result