def testOpCount(self):
totalOpCount = 0
results = [Results() for i in xrange(10)]
map(Results.startBenchmark, results)
for r in results:
for i in xrange(0, 5000):
txn = random.choice(self.txnNames)
id = r.startTransaction(txn)
assert id != None
ops = random.randint(1, 10)
r.stopTransaction(id, ops)
totalOpCount += ops
## FOR
## FOR
map(Results.stopBenchmark, results)
r = Results()
map(r.append, results)
self.assertEquals(totalOpCount, r.opCount)
def testPickle(self):
r = Results()
r.startBenchmark()
for i in xrange(0, 1000):
txn = random.choice(self.txnNames)
id = r.startTransaction(txn)
assert id != None
r.stopTransaction(id, 1)
## FOR
# Serialize
import pickle
p = pickle.dumps(r, -1)
assert p
# Deserialize
clone = pickle.loads(p)
assert clone
# Make sure the txn counts are equal
self.compareResults(r, clone)
def testPickle(self):
r = Results()
r.startBenchmark()
for i in xrange(0, 1000):
txn = random.choice(self.txnNames)
id = r.startTransaction(txn)
assert id != None
r.stopTransaction(id, 1)
## FOR
# Serialize
import pickle
p = pickle.dumps(r, -1)
assert p
# Deserialize
clone = pickle.loads(p)
assert clone
# Make sure the txn counts are equal
self.compareResults(r, clone)
def testAppend(self):
r1 = Results()
r1.startBenchmark()
for i in xrange(0, 5000):
txn = random.choice(self.txnNames)
id = r1.startTransaction(txn)
assert id != None
r1.stopTransaction(id, 1)
## FOR
r1.stopBenchmark()
print r1.show()
# Append the time and then make sure they're the same
r2 = Results()
r2.append(r1)
self.compareResults(r1, r2)
def testAppend(self):
r1 = Results()
r1.startBenchmark()
for i in xrange(0, 5000):
txn = random.choice(self.txnNames)
id = r1.startTransaction(txn)
assert id != None
r1.stopTransaction(id, 1)
## FOR
r1.stopBenchmark()
print r1.show()
# Append the time and then make sure they're the same
r2 = Results()
r2.append(r1)
self.compareResults(r1, r2)
