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maximum-weight-matching/python/tests/test_datastruct.py

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"""Unit tests for data structures."""
import random
import unittest
from mwmatching.datastruct import ConcatenableQueue, PriorityQueue
class TestConcatenableQueue(unittest.TestCase):
"""Test ConcatenableQueue."""
def _check_tree(self, queue):
"""Check tree balancing rules and priority info."""
self.assertIsNone(queue.tree.parent)
self.assertIs(queue.tree.owner, queue)
nodes = [queue.tree]
while nodes:
node = nodes.pop()
if node is not queue.tree:
self.assertIsNone(node.owner)
if node.height == 0:
self.assertEqual(len(node.childs), 0)
self.assertIs(node.min_node, node)
else:
self.assertIn(len(node.childs), (2, 3))
best_node = set()
best_prio = None
for child in node.childs:
self.assertIs(child.parent, node)
self.assertEqual(child.height, node.height - 1)
nodes.append(child)
if ((best_prio is None)
or (child.min_node.prio < best_prio)):
best_node = {child.min_node}
best_prio = child.min_node.prio
elif child.min_node.prio == best_prio:
best_node.add(child.min_node)
self.assertEqual(node.min_node.prio, best_prio)
self.assertIn(node.min_node, best_node)
def test_single(self):
"""Single element."""
q = ConcatenableQueue("Q")
with self.assertRaises(Exception):
q.min_prio()
with self.assertRaises(Exception):
q.min_elem()
n = q.insert("a", 4)
self.assertIsInstance(n, ConcatenableQueue.Node)
self._check_tree(q)
self.assertEqual(n.find(), "Q")
self.assertEqual(q.min_prio(), 4)
self.assertEqual(q.min_elem(), "a")
with self.assertRaises(Exception):
q.insert("x", 1)
n.set_prio(8)
self._check_tree(q)
self.assertEqual(n.find(), "Q")
self.assertEqual(q.min_prio(), 8)
self.assertEqual(q.min_elem(), "a")
q.clear()
def test_simple(self):
"""Simple test, 5 elements."""
q1 = ConcatenableQueue("A")
n1 = q1.insert("a", 5)
q2 = ConcatenableQueue("B")
n2 = q2.insert("b", 6)
q3 = ConcatenableQueue("C")
n3 = q3.insert("c", 7)
q4 = ConcatenableQueue("D")
n4 = q4.insert("d", 4)
q5 = ConcatenableQueue("E")
n5 = q5.insert("e", 3)
q345 = ConcatenableQueue("P")
q345.merge([q3, q4, q5])
self._check_tree(q345)
self.assertEqual(n1.find(), "A")
self.assertEqual(n3.find(), "P")
self.assertEqual(n4.find(), "P")
self.assertEqual(n5.find(), "P")
self.assertEqual(q345.min_prio(), 3)
self.assertEqual(q345.min_elem(), "e")
with self.assertRaises(Exception):
q3.min_prio()
self._check_tree(q345)
n5.set_prio(6)
self._check_tree(q345)
self.assertEqual(q345.min_prio(), 4)
self.assertEqual(q345.min_elem(), "d")
q12 = ConcatenableQueue("Q")
q12.merge([q1, q2])
self._check_tree(q12)
self.assertEqual(n1.find(), "Q")
self.assertEqual(n2.find(), "Q")
self.assertEqual(q12.min_prio(), 5)
self.assertEqual(q12.min_elem(), "a")
q12345 = ConcatenableQueue("R")
q12345.merge([q12, q345])
self._check_tree(q12345)
self.assertEqual(n1.find(), "R")
self.assertEqual(n2.find(), "R")
self.assertEqual(n3.find(), "R")
self.assertEqual(n4.find(), "R")
self.assertEqual(n5.find(), "R")
self.assertEqual(q12345.min_prio(), 4)
self.assertEqual(q12345.min_elem(), "d")
n4.set_prio(8)
self._check_tree(q12345)
self.assertEqual(q12345.min_prio(), 5)
self.assertEqual(q12345.min_elem(), "a")
n3.set_prio(2)
self._check_tree(q12345)
self.assertEqual(q12345.min_prio(), 2)
self.assertEqual(q12345.min_elem(), "c")
q12345.split()
self._check_tree(q12)
self._check_tree(q345)
self.assertEqual(n1.find(), "Q")
self.assertEqual(n2.find(), "Q")
self.assertEqual(n3.find(), "P")
self.assertEqual(n4.find(), "P")
self.assertEqual(n5.find(), "P")
self.assertEqual(q12.min_prio(), 5)
self.assertEqual(q12.min_elem(), "a")
self.assertEqual(q345.min_prio(), 2)
self.assertEqual(q345.min_elem(), "c")
q12.split()
self._check_tree(q1)
self._check_tree(q2)
q345.split()
self._check_tree(q3)
self._check_tree(q4)
self._check_tree(q5)
self.assertEqual(n1.find(), "A")
self.assertEqual(n2.find(), "B")
self.assertEqual(n3.find(), "C")
self.assertEqual(n4.find(), "D")
self.assertEqual(n5.find(), "E")
self.assertEqual(q3.min_prio(), 2)
self.assertEqual(q3.min_elem(), "c")
q1.clear()
q2.clear()
q3.clear()
q4.clear()
q5.clear()
q12.clear()
q345.clear()
q12345.clear()
def test_medium(self):
"""Medium test, 14 elements."""
prios = [3, 8, 6, 2, 9, 4, 6, 8, 1, 5, 9, 4, 7, 8]
queues = []
nodes = []
for i in range(14):
q = ConcatenableQueue(chr(ord("A") + i))
n = q.insert(chr(ord("a") + i), prios[i])
queues.append(q)
nodes.append(n)
q = ConcatenableQueue("AB")
q.merge(queues[0:2])
queues.append(q)
self._check_tree(q)
self.assertEqual(q.min_prio(), min(prios[0:2]))
q = ConcatenableQueue("CDE")
q.merge(queues[2:5])
queues.append(q)
self._check_tree(q)
self.assertEqual(q.min_prio(), min(prios[2:5]))
q = ConcatenableQueue("FGHI")
q.merge(queues[5:9])
queues.append(q)
self._check_tree(q)
self.assertEqual(q.min_prio(), min(prios[5:9]))
q = ConcatenableQueue("JKLMN")
q.merge(queues[9:14])
queues.append(q)
self._check_tree(q)
self.assertEqual(q.min_prio(), min(prios[9:14]))
for i in range(0, 2):
self.assertEqual(nodes[i].find(), "AB")
for i in range(2, 5):
self.assertEqual(nodes[i].find(), "CDE")
for i in range(5, 9):
self.assertEqual(nodes[i].find(), "FGHI")
for i in range(9, 14):
self.assertEqual(nodes[i].find(), "JKLMN")
q = ConcatenableQueue("ALL")
q.merge(queues[14:18])
queues.append(q)
self._check_tree(q)
self.assertEqual(q.min_prio(), 1)
self.assertEqual(q.min_elem(), "i")
for i in range(14):
self.assertEqual(nodes[i].find(), "ALL")
prios[8] = 5
nodes[8].set_prio(prios[8])
self.assertEqual(q.min_prio(), 2)
self.assertEqual(q.min_elem(), "d")
q.split()
for i in range(0, 2):
self.assertEqual(nodes[i].find(), "AB")
for i in range(2, 5):
self.assertEqual(nodes[i].find(), "CDE")
for i in range(5, 9):
self.assertEqual(nodes[i].find(), "FGHI")
for i in range(9, 14):
self.assertEqual(nodes[i].find(), "JKLMN")
self.assertEqual(queues[14].min_prio(), min(prios[0:2]))
self.assertEqual(queues[15].min_prio(), min(prios[2:5]))
self.assertEqual(queues[16].min_prio(), min(prios[5:9]))
self.assertEqual(queues[17].min_prio(), min(prios[9:14]))
for q in queues[14:18]:
self._check_tree(q)
q.split()
for i in range(14):
self._check_tree(queues[i])
self.assertEqual(nodes[i].find(), chr(ord("A") + i))
self.assertEqual(queues[i].min_prio(), prios[i])
self.assertEqual(queues[i].min_elem(), chr(ord("a") + i))
for q in queues:
q.clear()
def test_random(self):
"""Pseudo-random test."""
rng = random.Random(23456)
nodes = []
prios = []
queues = {}
queue_nodes = {}
queue_subs = {}
live_queues = set()
live_merged_queues = set()
for i in range(4000):
name = f"q{i}"
q = ConcatenableQueue(name)
p = rng.random()
n = q.insert(f"n{i}", p)
nodes.append(n)
prios.append(p)
queues[name] = q
queue_nodes[name] = {i}
live_queues.add(name)
for i in range(2000):
for k in range(10):
t = rng.randint(0, len(nodes) - 1)
name = nodes[t].find()
self.assertIn(name, live_queues)
self.assertIn(t, queue_nodes[name])
p = rng.random()
prios[t] = p
nodes[t].set_prio(p)
pp = min(prios[tt] for tt in queue_nodes[name])
tt = prios.index(pp)
self.assertEqual(queues[name].min_prio(), pp)
self.assertEqual(queues[name].min_elem(), f"n{tt}")
k = rng.randint(2, max(2, len(live_queues) // 2 - 400))
subs = rng.sample(sorted(live_queues), k)
name = f"Q{i}"
q = ConcatenableQueue(name)
q.merge([queues[nn] for nn in subs])
self._check_tree(q)
queues[name] = q
queue_nodes[name] = set().union(*(queue_nodes[nn] for nn in subs))
queue_subs[name] = set(subs)
live_queues.difference_update(subs)
live_merged_queues.difference_update(subs)
live_queues.add(name)
live_merged_queues.add(name)
pp = min(prios[tt] for tt in queue_nodes[name])
tt = prios.index(pp)
self.assertEqual(q.min_prio(), pp)
self.assertEqual(q.min_elem(), f"n{tt}")
if len(live_merged_queues) >= 100:
name = rng.choice(sorted(live_merged_queues))
queues[name].split()
for nn in queue_subs[name]:
self._check_tree(queues[nn])
pp = min(prios[tt] for tt in queue_nodes[nn])
tt = prios.index(pp)
self.assertEqual(queues[nn].min_prio(), pp)
self.assertEqual(queues[nn].min_elem(), f"n{tt}")
live_queues.add(nn)
if nn in queue_subs:
live_merged_queues.add(nn)
live_merged_queues.remove(name)
live_queues.remove(name)
del queues[name]
del queue_nodes[name]
del queue_subs[name]
for q in queues.values():
q.clear()
class TestPriorityQueue(unittest.TestCase):
"""Test PriorityQueue."""
def test_empty(self):
"""Empty queue."""
q = PriorityQueue()
self.assertTrue(q.empty())
with self.assertRaises(IndexError):
q.find_min()
def test_single(self):
"""Single element."""
q = PriorityQueue()
n1 = q.insert(5, "a")
self.assertEqual(n1.prio, 5)
self.assertEqual(n1.data, "a")
self.assertFalse(q.empty())
self.assertIs(q.find_min(), n1)
q.decrease_prio(n1, 3)
self.assertEqual(n1.prio, 3)
self.assertIs(q.find_min(), n1)
q.delete(n1)
self.assertTrue(q.empty())
def test_simple(self):
"""A few elements."""
prios = [9, 4, 7, 5, 8, 6, 4, 5, 2, 6]
labels = "abcdefghij"
q = PriorityQueue()
elems = [q.insert(prio, data) for (prio, data) in zip(prios, labels)]
for (n, prio, data) in zip(elems, prios, labels):
self.assertEqual(n.prio, prio)
self.assertEqual(n.data, data)
self.assertIs(q.find_min(), elems[8])
q.decrease_prio(elems[2], 1)
self.assertIs(q.find_min(), elems[2])
q.decrease_prio(elems[4], 3)
self.assertIs(q.find_min(), elems[2])
q.delete(elems[2])
self.assertIs(q.find_min(), elems[8])
q.delete(elems[8])
self.assertIs(q.find_min(), elems[4])
q.delete(elems[4])
q.delete(elems[1])
self.assertIs(q.find_min(), elems[6])
q.delete(elems[3])
q.delete(elems[9])
self.assertIs(q.find_min(), elems[6])
q.delete(elems[6])
self.assertIs(q.find_min(), elems[7])
q.delete(elems[7])
self.assertIs(q.find_min(), elems[5])
self.assertFalse(q.empty())
q.clear()
self.assertTrue(q.empty())
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def test_increase_prio(self):
"""Increase priority of existing element."""
q = PriorityQueue()
n1 = q.insert(5, "a")
q.increase_prio(n1, 8)
self.assertEqual(n1.prio, 8)
self.assertIs(q.find_min(), n1)
q = PriorityQueue()
n1 = q.insert(9, "a")
n2 = q.insert(4, "b")
n3 = q.insert(7, "c")
n4 = q.insert(5, "d")
self.assertIs(q.find_min(), n2)
q.increase_prio(n2, 8)
self.assertEqual(n2.prio, 8)
self.assertIs(q.find_min(), n4)
q.increase_prio(n3, 10)
self.assertEqual(n3.prio, 10)
self.assertIs(q.find_min(), n4)
q.delete(n4)
self.assertIs(q.find_min(), n2)
q.delete(n2)
self.assertIs(q.find_min(), n1)
q.delete(n1)
self.assertIs(q.find_min(), n3)
self.assertEqual(n3.prio, 10)
q.delete(n3)
self.assertTrue(q.empty())
def test_random(self):
"""Pseudo-random test."""
rng = random.Random(34567)
num_elem = 1000
seq = 0
elems = []
q = PriorityQueue()
def check():
min_prio = min(prio for (n, prio, data) in elems)
m = q.find_min()
self.assertIn((m, m.prio, m.data), elems)
self.assertEqual(m.prio, min_prio)
for i in range(num_elem):
seq += 1
prio = rng.randint(0, 1000000)
elems.append((q.insert(prio, seq), prio, seq))
check()
for i in range(10000):
p = rng.randint(0, num_elem - 1)
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prio = rng.randint(0, 1000000)
if prio <= elems[p][1]:
q.decrease_prio(elems[p][0], prio)
else:
q.increase_prio(elems[p][0], prio)
elems[p] = (elems[p][0], prio, elems[p][2])
check()
p = rng.randint(0, num_elem - 1)
q.delete(elems[p][0])
elems.pop(p)
check()
seq += 1
prio = rng.randint(0, 1000000)
elems.append((q.insert(prio, seq), prio, seq))
check()
for i in range(num_elem):
p = rng.randint(0, num_elem - 1 - i)
q.delete(elems[p][0])
elems.pop(p)
if elems:
check()
self.assertTrue(q.empty())
if __name__ == "__main__":
unittest.main()