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Added quorum system tests + bug fix.

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I was computing uniform strategies wrong. Looks like adding tests cases
was the right move!
This commit is contained in:
Michael Whittaker 2021-01-31 17:47:06 -08:00
parent 6d1b865b67
commit 32f5bb2125
2 changed files with 134 additions and 2 deletions
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4
quorums/quorum_system.py
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@ -180,8 +180,8 @@ class QuorumSystem(Generic[T]):
read_quorums = self._minimize(read_quorums) read_quorums = self._minimize(read_quorums)
write_quorums = self._minimize(write_quorums) write_quorums = self._minimize(write_quorums)
sigma_r = {frozenset(rq): 1 / len(rq) for rq in read_quorums} sigma_r = {frozenset(q): 1 / len(read_quorums) for q in read_quorums}
sigma_w = {frozenset(wq): 1 / len(wq) for wq in write_quorums} sigma_w = {frozenset(q): 1 / len(write_quorums) for q in write_quorums}
return Strategy(self, sigma_r, sigma_w) return Strategy(self, sigma_r, sigma_w)
def strategy(self, def strategy(self,

132
tests/test_quorum_system.py Normal file
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@ -0,0 +1,132 @@
from quorums import *
from quorums.quorum_system import *
import unittest
class TestExpr(unittest.TestCase):
def test_init(self):
def quorums(e: Expr['str']) -> FrozenSet[FrozenSet[str]]:
return frozenset(frozenset(q) for q in e.quorums())
def assert_equal(x: Expr['str'], y: Expr['str']) -> None:
self.assertEqual(quorums(x), quorums(y))
a = Node('a')
b = Node('b')
c = Node('c')
d = Node('d')
# Specify reads.
qs = QuorumSystem(reads = a + b)
assert_equal(qs.reads, a + b)
assert_equal(qs.writes, a * b)
# Specify writes.
qs = QuorumSystem(writes = a + b)
assert_equal(qs.reads, a * b)
assert_equal(qs.writes, a + b)
# Specify neither.
with self.assertRaises(ValueError):
QuorumSystem()
# Specify both overlapping.
qs = QuorumSystem(reads=a+b, writes=a*b*c)
assert_equal(qs.reads, a+b)
assert_equal(qs.writes, a*b*c)
# Specify both not overlapping.
with self.assertRaises(ValueError):
QuorumSystem(reads=a+b, writes=a)
def test_uniform_strategy(self):
a = Node('a')
b = Node('b')
c = Node('c')
d = Node('d')
sigma = QuorumSystem(reads=a).uniform_strategy()
self.assertEqual(sigma.sigma_r, {
frozenset({'a'}): 1.0,
})
self.assertEqual(sigma.sigma_w, {
frozenset({'a'}): 1.0,
})
sigma = QuorumSystem(reads=a+a).uniform_strategy()
self.assertEqual(sigma.sigma_r, {
frozenset({'a'}): 1.0,
})
self.assertEqual(sigma.sigma_w, {
frozenset({'a'}): 1.0,
})
sigma = QuorumSystem(reads=a*a).uniform_strategy()
self.assertEqual(sigma.sigma_r, {
frozenset({'a'}): 1.0,
})
self.assertEqual(sigma.sigma_w, {
frozenset({'a'}): 1.0,
})
sigma = QuorumSystem(reads=a + a*b).uniform_strategy()
self.assertEqual(sigma.sigma_r, {
frozenset({'a'}): 1.0,
})
self.assertEqual(sigma.sigma_w, {
frozenset({'a'}): 1.0,
})
sigma = QuorumSystem(reads=a + a*b + a*c).uniform_strategy()
self.assertEqual(sigma.sigma_r, {
frozenset({'a'}): 1.0,
})
self.assertEqual(sigma.sigma_w, {
frozenset({'a'}): 1.0,
})
sigma = QuorumSystem(reads=a + b).uniform_strategy()
self.assertEqual(sigma.sigma_r, {
frozenset({'a'}): 1 / 2,
frozenset({'b'}): 1 / 2,
})
self.assertEqual(sigma.sigma_w, {
frozenset({'a', 'b'}): 1.0,
})
sigma = QuorumSystem(reads=a + b + c).uniform_strategy()
self.assertEqual(sigma.sigma_r, {
frozenset({'a'}): 1 / 3,
frozenset({'b'}): 1 / 3,
frozenset({'c'}): 1 / 3,
})
self.assertEqual(sigma.sigma_w, {
frozenset({'a', 'b', 'c'}): 1.0,
})
sigma = QuorumSystem(reads=(a*b)+(c*d)).uniform_strategy()
self.assertEqual(sigma.sigma_r, {
frozenset({'a', 'b'}): 1 / 2,
frozenset({'c', 'd'}): 1 / 2,
})
self.assertEqual(sigma.sigma_w, {
frozenset({'a', 'c'}): 1 / 4,
frozenset({'a', 'd'}): 1 / 4,
frozenset({'b', 'c'}): 1 / 4,
frozenset({'b', 'd'}): 1 / 4,
})
sigma = QuorumSystem(reads=(a*b)+(c*d)+(a*b)+(a*b*c)).uniform_strategy()
self.assertEqual(sigma.sigma_r, {
frozenset({'a', 'b'}): 1 / 2,
frozenset({'c', 'd'}): 1 / 2,
})
self.assertEqual(sigma.sigma_w, {
frozenset({'a', 'c'}): 1 / 4,
frozenset({'a', 'd'}): 1 / 4,
frozenset({'b', 'c'}): 1 / 4,
frozenset({'b', 'd'}): 1 / 4,
})
def test_optimal_strategy(self):
# TODO(mwhittaker): Implement.
pass