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maximize-the-distance-between-points-on-a-square.py
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# Time: O(nlogn + nlogs), s = side
# Space: O(n)
# sort, binary search, greedy, two pointers, sliding window
class Solution(object):
def maxDistance(self, side, points, k):
"""
:type side: int
:type points: List[List[int]]
:type k: int
:rtype: int
"""
def binary_search_right(left, right, check):
while left <= right:
mid = left + (right-left)//2
if not check(mid):
right = mid-1
else:
left = mid+1
return right
def check(d):
intervals = [(0, 0, 1)]
i = 0
for right in xrange(1, len(p)):
left, cnt = right, 1
while i < len(intervals):
l, r, c = intervals[i]
if p[right]-p[r] < d:
break
if (p[l]+4*side)-p[right] >= d:
if c+1 >= cnt:
cnt = c+1
left = l
i += 1
intervals.append((left, right, cnt))
return max(x[2] for x in intervals) >= k
p = []
for x, y in points:
if x == 0:
p.append(0*side+y)
elif y == side:
p.append(1*side+x)
elif x == side:
p.append(2*side+(side-y))
else:
p.append(3*side+(side-x))
p.sort()
return binary_search_right(1, 4*side//k, check)
# Time: O(nlogn + nlogs), s = side
# Space: O(n)
# sort, binary search, greedy, two pointers, sliding window
class Solution2(object):
def maxDistance(self, side, points, k):
"""
:type side: int
:type points: List[List[int]]
:type k: int
:rtype: int
"""
def binary_search_right(left, right, check):
while left <= right:
mid = left + (right-left)//2
if not check(mid):
right = mid-1
else:
left = mid+1
return right
def check(d):
intervals = [(0, 0, 1)]
i = 0
for right in xrange(1, len(sorted_points)):
left, cnt = right, 1
while i < len(intervals):
l, r, c = intervals[i]
if abs(sorted_points[right][0]-sorted_points[r][0])+abs(sorted_points[right][1]-sorted_points[r][1]) < d:
break
if abs(sorted_points[right][0]-sorted_points[l][0])+abs(sorted_points[right][1]-sorted_points[l][1]) >= d:
if c+1 >= cnt:
cnt = c+1
left = l
i += 1
intervals.append((left, right, cnt))
return max(x[2] for x in intervals) >= k
p = [[] for _ in xrange(4)]
for x, y in points:
if x == 0:
p[0].append((x, y))
elif y == side:
p[1].append((x, y))
elif x == side:
p[2].append((x, y))
else:
p[3].append((x, y))
p[0].sort()
p[1].sort()
p[2].sort(reverse=True)
p[3].sort(reverse=True)
sorted_points = [x for i in xrange(4) for x in p[i]]
return binary_search_right(1, 4*side//k, check)
# Time: O(nlogn + n * (k * logn) * logs), s = side
# Space: O(n)
import bisect
# sort, binary search, greedy
class Solution3(object):
def maxDistance(self, side, points, k):
"""
:type side: int
:type points: List[List[int]]
:type k: int
:rtype: int
"""
def binary_search_right(left, right, check):
while left <= right:
mid = left + (right-left)//2
if not check(mid):
right = mid-1
else:
left = mid+1
return right
def check(i, d):
j = i
for _ in xrange(k-1):
j = bisect.bisect_left(p, p[j]+d, lo=j+1)
if j == len(p):
return False
return (p[i]+4*side)-p[j] >= d
p = []
for x, y in points:
if x == 0:
p.append(0*side+y)
elif y == side:
p.append(1*side+x)
elif x == side:
p.append(2*side+(side-y))
else:
p.append(3*side+(side-x))
p.sort()
result = 1
for i in xrange(len(p)-k+1):
if p[-1]-p[i] <= result*(k-1): # to speed up
break
result = binary_search_right(result+1, 4*side//k, lambda x: check(i, x))
return result
# Time: O(nlogn + (n * k * logn) * logs), s = side
# Space: O(n)
import bisect
# sort, binary search, greedy
class Solution4(object):
def maxDistance(self, side, points, k):
"""
:type side: int
:type points: List[List[int]]
:type k: int
:rtype: int
"""
def binary_search_right(left, right, check):
while left <= right:
mid = left + (right-left)//2
if not check(mid):
right = mid-1
else:
left = mid+1
return right
def check(d):
for i in xrange(len(points)):
j = i
for _ in xrange(k-1):
j = bisect.bisect_left(p, p[j]+d, lo=j+1, hi=i+len(points))
if j == i+len(points):
break
else:
if p[i+len(points)]-p[j] >= d:
return True
return False
p = []
for x, y in points:
if x == 0:
p.append(0*side+y)
elif y == side:
p.append(1*side+x)
elif x == side:
p.append(2*side+(side-y))
else:
p.append(3*side+(side-x))
p.sort()
p += [x+4*side for x in p]
return binary_search_right(1, 4*side//k, check)