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from mpi4py import MPI
import mpiunittest as unittest
try:
_reduce = reduce
except NameError:
from functools import reduce as _reduce
cumsum = lambda seq: _reduce(lambda x, y: x+y, seq, 0)
cumprod = lambda seq: _reduce(lambda x, y: x*y, seq, 1)
_basic = [None,
True, False,
-7, 0, 7, 2**31,
-2**63, 2**63-1,
-2.17, 0.0, 3.14,
1+2j, 2-3j,
'mpi4py',
]
messages = _basic
messages += [ list(_basic),
tuple(_basic),
dict([('k%d' % key, val)
for key, val in enumerate(_basic)])
]
class BaseTestCCOObjInter(object):
BASECOMM = MPI.COMM_NULL
INTRACOMM = MPI.COMM_NULL
INTERCOMM = MPI.COMM_NULL
def setUp(self):
BASE_SIZE = self.BASECOMM.Get_size()
BASE_RANK = self.BASECOMM.Get_rank()
if BASE_SIZE < 2:
return
if BASE_RANK < BASE_SIZE // 2 :
self.COLOR = 0
self.LOCAL_LEADER = 0
self.REMOTE_LEADER = BASE_SIZE // 2
else:
self.COLOR = 1
self.LOCAL_LEADER = 0
self.REMOTE_LEADER = 0
self.INTRACOMM = self.BASECOMM.Split(self.COLOR, key=0)
self.INTERCOMM = self.INTRACOMM.Create_intercomm(self.LOCAL_LEADER,
self.BASECOMM,
self.REMOTE_LEADER)
def tearDown(self):
if self.INTRACOMM != MPI.COMM_NULL:
self.INTRACOMM.Free()
del self.INTRACOMM
if self.INTERCOMM != MPI.COMM_NULL:
self.INTERCOMM.Free()
del self.INTERCOMM
def testBarrier(self):
if self.INTRACOMM == MPI.COMM_NULL: return
if self.INTERCOMM == MPI.COMM_NULL: return
self.INTERCOMM.Barrier()
def testBcast(self):
if self.INTRACOMM == MPI.COMM_NULL: return
if self.INTERCOMM == MPI.COMM_NULL: return
rank = self.INTERCOMM.Get_rank()
size = self.INTERCOMM.Get_size()
rsize = self.INTERCOMM.Get_remote_size()
for smess in messages + [messages]:
for color in [0, 1]:
if self.COLOR == color:
for root in range(size):
if root == rank:
rmess = self.INTERCOMM.bcast(smess, root=MPI.ROOT)
else:
rmess = self.INTERCOMM.bcast(None, root=MPI.PROC_NULL)
self.assertEqual(rmess, None)
else:
for root in range(rsize):
rmess = self.INTERCOMM.bcast(None, root=root)
self.assertEqual(rmess, smess)
def testGather(self):
if self.INTRACOMM == MPI.COMM_NULL: return
if self.INTERCOMM == MPI.COMM_NULL: return
rank = self.INTERCOMM.Get_rank()
size = self.INTERCOMM.Get_size()
rsize = self.INTERCOMM.Get_remote_size()
for smess in messages + [messages]:
for color in [0, 1]:
if self.COLOR == color:
for root in range(size):
if root == rank:
rmess = self.INTERCOMM.gather(smess, root=MPI.ROOT)
self.assertEqual(rmess, [smess] * rsize)
else:
rmess = self.INTERCOMM.gather(None, root=MPI.PROC_NULL)
self.assertEqual(rmess, None)
else:
for root in range(rsize):
rmess = self.INTERCOMM.gather(smess, root=root)
self.assertEqual(rmess, None)
def testScatter(self):
if self.INTRACOMM == MPI.COMM_NULL: return
if self.INTERCOMM == MPI.COMM_NULL: return
rank = self.INTERCOMM.Get_rank()
size = self.INTERCOMM.Get_size()
rsize = self.INTERCOMM.Get_remote_size()
for smess in messages + [messages]:
for color in [0, 1]:
if self.COLOR == color:
for root in range(size):
if root == rank:
rmess = self.INTERCOMM.scatter([smess] * rsize, root=MPI.ROOT)
else:
rmess = self.INTERCOMM.scatter(None, root=MPI.PROC_NULL)
self.assertEqual(rmess, None)
else:
for root in range(rsize):
rmess = self.INTERCOMM.scatter(None, root=root)
self.assertEqual(rmess, smess)
def testAllgather(self):
if self.INTRACOMM == MPI.COMM_NULL: return
if self.INTERCOMM == MPI.COMM_NULL: return
rank = self.INTERCOMM.Get_rank()
size = self.INTERCOMM.Get_size()
rsize = self.INTERCOMM.Get_remote_size()
for smess in messages + [messages]:
rmess = self.INTERCOMM.allgather(smess)
self.assertEqual(rmess, [smess] * rsize)
def testAlltoall(self):
if self.INTRACOMM == MPI.COMM_NULL: return
if self.INTERCOMM == MPI.COMM_NULL: return
rank = self.INTERCOMM.Get_rank()
size = self.INTERCOMM.Get_size()
rsize = self.INTERCOMM.Get_remote_size()
for smess in messages + [messages]:
rmess = self.INTERCOMM.alltoall([smess] * rsize)
self.assertEqual(rmess, [smess] * rsize)
def testReduce(self):
if self.INTRACOMM == MPI.COMM_NULL: return
if self.INTERCOMM == MPI.COMM_NULL: return
rank = self.INTERCOMM.Get_rank()
size = self.INTERCOMM.Get_size()
rsize = self.INTERCOMM.Get_remote_size()
for op in (MPI.SUM, MPI.MAX, MPI.MIN, MPI.PROD):
for color in [0, 1]:
if self.COLOR == color:
for root in range(size):
if root == rank:
value = self.INTERCOMM.reduce(None, op=op, root=MPI.ROOT)
if op == MPI.SUM:
self.assertEqual(value, cumsum(range(rsize)))
elif op == MPI.PROD:
self.assertEqual(value, cumprod(range(rsize)))
elif op == MPI.MAX:
self.assertEqual(value, rsize-1)
elif op == MPI.MIN:
self.assertEqual(value, 0)
else:
value = self.INTERCOMM.reduce(None, op=op, root=MPI.PROC_NULL)
self.assertEqual(value, None)
else:
for root in range(rsize):
value = self.INTERCOMM.reduce(rank, op=op, root=root)
self.assertEqual(value, None)
def testAllreduce(self):
if self.INTRACOMM == MPI.COMM_NULL: return
if self.INTERCOMM == MPI.COMM_NULL: return
rank = self.INTERCOMM.Get_rank()
size = self.INTERCOMM.Get_size()
rsize = self.INTERCOMM.Get_remote_size()
for op in (MPI.SUM, MPI.MAX, MPI.MIN, MPI.PROD):
value = self.INTERCOMM.allreduce(rank, None, op)
if op == MPI.SUM:
self.assertEqual(value, cumsum(range(rsize)))
elif op == MPI.PROD:
self.assertEqual(value, cumprod(range(rsize)))
elif op == MPI.MAX:
self.assertEqual(value, rsize-1)
elif op == MPI.MIN:
self.assertEqual(value, 0)
class TestCCOObjInter(BaseTestCCOObjInter, unittest.TestCase):
BASECOMM = MPI.COMM_WORLD
class TestCCOObjInterDup(TestCCOObjInter):
def setUp(self):
self.BASECOMM = self.BASECOMM.Dup()
super(TestCCOObjInterDup, self).setUp()
def tearDown(self):
self.BASECOMM.Free()
del self.BASECOMM
super(TestCCOObjInterDup, self).tearDown()
class TestCCOObjInterDupDup(TestCCOObjInterDup):
BASECOMM = MPI.COMM_WORLD
INTERCOMM_ORIG = MPI.COMM_NULL
def setUp(self):
super(TestCCOObjInterDupDup, self).setUp()
if self.INTERCOMM == MPI.COMM_NULL: return
self.INTERCOMM_ORIG = self.INTERCOMM
self.INTERCOMM = self.INTERCOMM.Dup()
def tearDown(self):
super(TestCCOObjInterDupDup, self).tearDown()
if self.INTERCOMM_ORIG == MPI.COMM_NULL: return
self.INTERCOMM_ORIG.Free()
_name, _version = MPI.get_vendor()
if _name == 'Open MPI':
if _version < (1, 3, 0):
del TestCCOObjInter
del TestCCOObjInterDup
del TestCCOObjInterDupDup
elif _version < (1, 4, 0):
if MPI.Query_thread() > MPI.THREAD_SINGLE:
del TestCCOObjInter
del TestCCOObjInterDup
del TestCCOObjInterDupDup
elif _name == "MPICH2" or _name == "Microsoft MPI":
if _version <= (1, 0, 7):
def _SKIPPED(*args, **kwargs): pass
TestCCOObjInterDupDup.testBarrier = _SKIPPED
TestCCOObjInterDupDup.testAllgather = _SKIPPED
TestCCOObjInterDupDup.testAllreduce = _SKIPPED
elif _name == "DeinoMPI":
def _SKIPPED(*args, **kwargs): pass
TestCCOObjInterDupDup.testBarrier = _SKIPPED
TestCCOObjInterDupDup.testAllgather = _SKIPPED
TestCCOObjInterDupDup.testAllreduce = _SKIPPED
elif _name == "MPICH1":
del BaseTestCCOObjInter
del TestCCOObjInter
del TestCCOObjInterDup
del TestCCOObjInterDupDup
elif MPI.ROOT == MPI.PROC_NULL:
del BaseTestCCOObjInter
del TestCCOObjInter
del TestCCOObjInterDup
del TestCCOObjInterDupDup
if __name__ == '__main__':
unittest.main()
|
