class RMQ:
def __init__(self):
pass
def preprocess(self, A):
n = len(A)
self.tree = BinaryTree() # cartesian tree
# the preprocessing constructs a cartesian tree for the sequence
last_at_right = self.tree.add_node(0, A[0])
self.tree.set_root(0)
for i in xrange(1, n):
to_fix = self.tree.add_node(i, A[i])
while True:
if last_at_right is None or last_at_right < to_fix:
break
last_at_right = last_at_right.parent
if last_at_right is None:
self.tree.add_left_edge(to_fix._id, self.tree.get_root()._id)
self.tree.set_root(to_fix._id)
else:
if last_at_right.right:
self.tree.add_left_edge(to_fix._id,
last_at_right.right._id)
self.tree.add_right_edge(last_at_right._id, to_fix._id)
last_at_right = to_fix
self.lca = LCA()
self.lca.preprocess(self.tree)
def query(self, i, j):
return self.lca.query(i, j)
class RMQLinear: def __init__(self): pass def preprocess(self, A): n = len(A) self.tree = BinaryTree() # cartesian tree # the preprocessing constructs a cartesian tree for the sequence last_at_right = self.tree.add_node(0, A[0]) self.tree.set_root(0) for i in xrange(1, n): to_fix = self.tree.add_node(i, A[i]) while True: if last_at_right is None or last_at_right < to_fix: break last_at_right = last_at_right.parent if last_at_right is None: self.tree.add_left_edge(to_fix._id, self.tree.get_root()._id) self.tree.set_root(to_fix._id) else: if last_at_right.right: self.tree.add_left_edge(to_fix._id, last_at_right.right._id) self.tree.add_right_edge(last_at_right._id, to_fix._id) last_at_right = to_fix self.lca = LCA() self.lca.preprocess(self.tree) def query(self, i, j): return self.lca.query(i, j)
def setUp(self): self.tree = Tree() self.lca = LCA()
class TestLCA(unittest.TestCase): def setUp(self): self.tree = Tree() self.lca = LCA() def test_one_edge(self): self.tree.add_edge(10, 1) self.assertFalse(self.lca.preprocess(self.tree), False) self.tree.set_root(10) self.assertTrue(self.lca.preprocess(self.tree), True) self.assertEqual(self.lca.query(1, 10), 10) self.assertEqual(self.lca.query(10, 1), 10) def test_tree_with_3_nodes(self): self.tree.add_edge(1, 7) self.tree.add_edge(1, 3) self.tree.set_root(1) self.assertTrue(self.lca.preprocess(self.tree), True) self.assertEqual(self.lca.query(1, 7), 1) self.assertEqual(self.lca.query(3, 1), 1) self.assertEqual(self.lca.query(3, 7), 1) def test_tree_with_4_nodes(self): self.tree.add_edge(1, 7) self.tree.add_edge(1, 3) self.tree.add_edge(3, 13) self.tree.set_root(1) self.assertEqual(self.tree.size(), 4) self.assertTrue(self.lca.preprocess(self.tree), True) self.assertEqual(self.lca.query(1, 7), 1) self.assertEqual(self.lca.query(3, 1), 1) self.assertEqual(self.lca.query(3, 7), 1) self.assertEqual(self.lca.query(3, 13), 3) self.assertEqual(self.lca.query(7, 13), 1) self.assertEqual(self.lca.query(1, 13), 1) def test_tree_with_5_nodes(self): self.tree.add_edge(1, 7) self.tree.add_edge(1, 3) self.tree.add_edge(3, 13) self.tree.add_edge(7, 16) self.tree.set_root(1) self.assertTrue(self.lca.preprocess(self.tree), True) self.assertEqual(self.lca.query(1, 7), 1) self.assertEqual(self.lca.query(3, 1), 1) self.assertEqual(self.lca.query(3, 7), 1) self.assertEqual(self.lca.query(3, 13), 3) self.assertEqual(self.lca.query(7, 13), 1) self.assertEqual(self.lca.query(1, 13), 1) self.assertEqual(self.lca.query(7, 16), 7) self.assertEqual(self.lca.query(13, 16), 1) self.assertEqual(self.lca.query(3, 16), 1) self.assertEqual(self.lca.query(1, 16), 1) def dfs(self, where, u, parent): if where._id == u: return (True, [u]) for child in where.children: if parent is not None and child == parent: continue ans_child = self.dfs(child, u, where) if ans_child[0]: return (True, ans_child[1] + [where._id] ) return (False, []) def brute_lca(self, u, v): root = self.tree.get_root() path_to_u = self.dfs(root, u, None) path_to_v = self.dfs(root, v, None) self.assertTrue(path_to_u[0]) self.assertTrue(path_to_v[0]) path_to_u = path_to_u[1] path_to_v = set(path_to_v[1]) for x in path_to_u: if x in path_to_v: return x def test_random_tree(self): import random for test in xrange(50): self.tree = Tree() n = random.randint(2, 50) root = random.randint(1, 10000) saw = [root] saw_set = set(saw) for i in xrange(n - 1): u = saw[random.randint(0, len(saw) - 1)] while True: v = random.randint(1, 10000) if v not in saw_set: saw_set.add(v) saw += [v] self.tree.add_edge(u, v) break self.assertEqual(self.tree.size(), n) self.tree.set_root(root) self.assertTrue(self.lca.preprocess(self.tree)) for i in xrange(len(saw)): for j in xrange(i, len(saw)): u, v = saw[i], saw[j] self.assertEqual(self.brute_lca(u, v), self.lca.query(u, v))
def setUp(self):
self.tree = Tree()
self.lca = LCA()
class TestLCA(unittest.TestCase):
def setUp(self):
self.tree = Tree()
self.lca = LCA()
def test_one_edge(self):
self.tree.add_edge(10, 1)
self.assertFalse(self.lca.preprocess(self.tree), False)
self.tree.set_root(10)
self.assertTrue(self.lca.preprocess(self.tree), True)
self.assertEqual(self.lca.query(1, 10), 10)
self.assertEqual(self.lca.query(10, 1), 10)
def test_tree_with_3_nodes(self):
self.tree.add_edge(1, 7)
self.tree.add_edge(1, 3)
self.tree.set_root(1)
self.assertTrue(self.lca.preprocess(self.tree), True)
self.assertEqual(self.lca.query(1, 7), 1)
self.assertEqual(self.lca.query(3, 1), 1)
self.assertEqual(self.lca.query(3, 7), 1)
def test_tree_with_4_nodes(self):
self.tree.add_edge(1, 7)
self.tree.add_edge(1, 3)
self.tree.add_edge(3, 13)
self.tree.set_root(1)
self.assertEqual(self.tree.size(), 4)
self.assertTrue(self.lca.preprocess(self.tree), True)
self.assertEqual(self.lca.query(1, 7), 1)
self.assertEqual(self.lca.query(3, 1), 1)
self.assertEqual(self.lca.query(3, 7), 1)
self.assertEqual(self.lca.query(3, 13), 3)
self.assertEqual(self.lca.query(7, 13), 1)
self.assertEqual(self.lca.query(1, 13), 1)
def test_tree_with_5_nodes(self):
self.tree.add_edge(1, 7)
self.tree.add_edge(1, 3)
self.tree.add_edge(3, 13)
self.tree.add_edge(7, 16)
self.tree.set_root(1)
self.assertTrue(self.lca.preprocess(self.tree), True)
self.assertEqual(self.lca.query(1, 7), 1)
self.assertEqual(self.lca.query(3, 1), 1)
self.assertEqual(self.lca.query(3, 7), 1)
self.assertEqual(self.lca.query(3, 13), 3)
self.assertEqual(self.lca.query(7, 13), 1)
self.assertEqual(self.lca.query(1, 13), 1)
self.assertEqual(self.lca.query(7, 16), 7)
self.assertEqual(self.lca.query(13, 16), 1)
self.assertEqual(self.lca.query(3, 16), 1)
self.assertEqual(self.lca.query(1, 16), 1)
def dfs(self, where, u, parent):
if where._id == u:
return (True, [u])
for child in where.children:
if parent is not None and child == parent:
continue
ans_child = self.dfs(child, u, where)
if ans_child[0]:
return (True, ans_child[1] + [where._id])
return (False, [])
def brute_lca(self, u, v):
root = self.tree.get_root()
path_to_u = self.dfs(root, u, None)
path_to_v = self.dfs(root, v, None)
self.assertTrue(path_to_u[0])
self.assertTrue(path_to_v[0])
path_to_u = path_to_u[1]
path_to_v = set(path_to_v[1])
for x in path_to_u:
if x in path_to_v:
return x
def test_random_tree(self):
import random
for test in xrange(50):
self.tree = Tree()
n = random.randint(2, 50)
root = random.randint(1, 10000)
saw = [root]
saw_set = set(saw)
for i in xrange(n - 1):
u = saw[random.randint(0, len(saw) - 1)]
while True:
v = random.randint(1, 10000)
if v not in saw_set:
saw_set.add(v)
saw += [v]
self.tree.add_edge(u, v)
break
self.assertEqual(self.tree.size(), n)
self.tree.set_root(root)
self.assertTrue(self.lca.preprocess(self.tree))
for i in xrange(len(saw)):
for j in xrange(i, len(saw)):
u, v = saw[i], saw[j]
self.assertEqual(self.brute_lca(u, v),
self.lca.query(u, v))