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table_flipping2.py
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# Copyright (c) 2021 kamyu. All rights reserved.
#
# Facebook Hacker Cup 2021 Final Round - Problem F. Table Flipping
# https://www.facebook.com/codingcompetitions/hacker-cup/2021/final-round/problems/F
#
# Time: O(NlogN), pass in PyPy2 but Python2
# Space: O(NlogN)
#
from itertools import izip
class Node(object):
def __init__(self, l=-1, r=-1):
self.l = l
self.r = r
def has_no_cycle(adj):
WHITE, GRAY, BLACK = range(3)
def iter_dfs(i, lookup):
if lookup[i] == BLACK:
return True
stk = [(1, i)]
while stk:
step, u = stk.pop()
if step == 1:
lookup[u] = GRAY
stk.append((2, u))
for v in adj[u]:
if lookup[v] == BLACK:
continue
if lookup[v] == GRAY:
return False
stk.append((1, v))
elif step == 2:
lookup[u] = BLACK
return True
lookup = [WHITE]*len(adj)
for i in xrange(len(adj)):
if not iter_dfs(i, lookup):
return False
return True
def table_flipping():
def add_edge(u, v):
if u == -1 or v == -1:
return
adj[u].append(v)
def update(k, v, L, R, l, r, x):
if r <= L or l >= R:
return v
u = len(tree)
tree.append(Node())
adj.append([])
node = tree[-1]
if L <= l <= r <= R:
if x == -1:
return -1
if v != -1:
has_no_overlap[0] = False
if k == 0:
add_edge(u, x)
else:
add_edge(x, u)
return u
if v != -1 and tree[v].l == tree[v].r == -1 and x != -1:
has_no_overlap[0] = False
mid = l+(r-l)//2
node.l = update(k, tree[v].l if v != -1 else -1, L, R, l, mid, x)
node.r = update(k, tree[v].r if v != -1 else -1, L, R, mid, r, x)
if node.l == node.r == -1:
return -1
if k == 0:
add_edge(u, node.l)
add_edge(u, node.r)
else:
add_edge(node.l, u)
add_edge(node.r, u)
return u
def add_edges(k, v, L, R, l, r, x):
if v == -1 or r <= L or l >= R :
return
if L <= l <= r <= R:
if k == 0:
add_edge(x, v)
else:
add_edge(v, x)
return
if tree[v].l == tree[v].r == -1:
if k == 0:
add_edge(x, v)
else:
add_edge(v, x)
return
mid = l+(r-l)//2
add_edges(k, tree[v].l if v != -1 else -1, L, R, l, mid, x)
add_edges(k, tree[v].r if v != -1 else -1, L, R, mid, r, x)
N = input()
A, B = [[None]*N for _ in xrange(2)]
x_set, y_set = set(), set()
for i in xrange(N):
X, Y, W, H, D = raw_input().strip().split()
X, Y, W, H = int(X), int(Y), int(W), int(H)
A[i] = (X, Y, X+W, Y+H)
if D == 'U':
B[i] = (X, Y+H, X+W, (Y+H)+H)
elif D == 'D':
B[i] = (X, Y-H, X+W, (Y+H)-H)
elif D == 'R':
B[i] = (X+W, Y, (X+W)+W, Y+H)
elif D == 'L':
B[i] = (X-W, Y, (X+W)-W, Y+H)
x_set.add(A[i][X0]), y_set.add(A[i][Y0]), x_set.add(A[i][X1]), y_set.add(A[i][Y1])
x_set.add(B[i][X0]), y_set.add(B[i][Y0]), x_set.add(B[i][X1]), y_set.add(B[i][Y1])
sorted_x = sorted(x_set)
sorted_y = sorted(y_set)
x_to_idx = {x:i for i, x in enumerate(sorted_x)} # coordinate compression
y_to_idx = {x:i for i, x in enumerate(sorted_y)} # coordinate compression
for i, ((a_x0, a_y0, a_x1, a_y1), (b_x0, b_y0, b_x1, b_y1)) in enumerate(izip(A, B)):
A[i] = (x_to_idx[a_x0], y_to_idx[a_y0], x_to_idx[a_x1], y_to_idx[a_y1])
B[i] = (x_to_idx[b_x0], y_to_idx[b_y0], x_to_idx[b_x1], y_to_idx[b_y1])
events = []
for t, X in enumerate([A, B], 1):
for i, (x0, y0, x1, y1) in enumerate(X):
events.append((y0, t, x0, x1, i))
events.append((y1, -t, x0, x1, i))
events.sort()
tree, adj = [None]*N, [[] for _ in xrange(N)]
has_no_overlap = [True]
r0 = r1 = -1
for _, t, l, r, i in events:
if t == 2:
add_edges(0, r0, l, r, 0, len(x_set)-1, i)
r1 = update(1, r1, l, r, 0, len(x_set)-1, i)
elif t == 1:
add_edges(1, r1, l, r, 0, len(x_set)-1, i)
r0 = update(0, r0, l, r, 0, len(x_set)-1, i)
elif t == -1:
r0 = update(0, r0, l, r, 0, len(x_set)-1, -1)
elif t == -2:
r1 = update(1, r1, l, r, 0, len(x_set)-1, -1)
if not has_no_overlap[0]:
return "NO"
return "YES" if has_no_cycle(adj) else "NO"
X0, Y0, X1, Y1 = range(4)
for case in xrange(input()):
print 'Case #%d: %s' % (case+1, table_flipping())