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import unittest
import numpy as np
import caffe2.proto.caffe2_pb2 as caffe2_pb2
from caffe2.python import core, workspace, timeout_guard
@unittest.skipIf(not workspace.C.use_mkldnn, "No MKLDNN support.")
class BlobsQueueDBTest(unittest.TestCase):
def test_create_blobs_queue_db_string(self):
device_opt = core.DeviceOption(caffe2_pb2.IDEEP, 0)
with core.DeviceScope(device_opt):
def add_blobs(queue, num_samples):
blob = core.BlobReference("blob")
status = core.BlobReference("blob_status")
for i in range(num_samples):
self._add_blob_to_queue(
queue, self._create_test_tensor_protos(i), blob, status
)
self._test_create_blobs_queue_db(add_blobs)
def test_create_blobs_queue_db_tensor(self):
device_opt = core.DeviceOption(caffe2_pb2.IDEEP, 0)
with core.DeviceScope(device_opt):
def add_blobs(queue, num_samples):
blob = core.BlobReference("blob")
status = core.BlobReference("blob_status")
for i in range(num_samples):
data = self._create_test_tensor_protos(i)
data = np.array([data], dtype=str)
self._add_blob_to_queue(
queue, data, blob, status
)
self._test_create_blobs_queue_db(add_blobs)
def _test_create_blobs_queue_db(self, add_blobs_fun):
device_opt = core.DeviceOption(caffe2_pb2.IDEEP, 0)
with core.DeviceScope(device_opt):
num_samples = 10000
batch_size = 10
init_net = core.Net('init_net')
net = core.Net('test_create_blobs_queue_db')
queue = init_net.CreateBlobsQueue([], 'queue', capacity=num_samples)
reader = init_net.CreateBlobsQueueDB(
[queue],
'blobs_queue_db_reader',
value_blob_index=0,
timeout_secs=0.1,
)
workspace.RunNetOnce(init_net)
add_blobs_fun(queue, num_samples)
net.TensorProtosDBInput(
[reader],
['image', 'label'],
batch_size=batch_size
)
workspace.CreateNet(net)
close_net = core.Net('close_net')
close_net.CloseBlobsQueue([queue], [])
for i in range(int(num_samples / batch_size)):
with timeout_guard.CompleteInTimeOrDie(2.0):
workspace.RunNet(net)
images = workspace.FetchBlob('image')
labels = workspace.FetchBlob('label')
self.assertEqual(batch_size, len(images))
self.assertEqual(batch_size, len(labels))
for idx, item in enumerate(images):
self.assertEqual(
"foo{}".format(i * batch_size + idx).encode('utf-8'), item
)
for item in labels:
self.assertEqual(1, item)
workspace.RunNetOnce(close_net)
def _add_blob_to_queue(self, queue, data, blob, status):
device_opt = core.DeviceOption(caffe2_pb2.IDEEP, 0)
with core.DeviceScope(device_opt):
workspace.FeedBlob(blob, data, core.DeviceOption(caffe2_pb2.CPU, 0))
op = core.CreateOperator(
"SafeEnqueueBlobs",
[queue, blob],
[blob, status],
)
workspace.RunOperatorOnce(op)
def _create_test_tensor_protos(self, idx):
item = caffe2_pb2.TensorProtos()
data = item.protos.add()
data.data_type = core.DataType.STRING
data.string_data.append("foo{}".format(idx).encode('utf-8'))
label = item.protos.add()
label.data_type = core.DataType.INT32
label.int32_data.append(1)
return item.SerializeToString()
if __name__ == "__main__":
import unittest
unittest.main()