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Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/gcloud/monitoring/test_timeseries.py

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# Copyright 2016 Google Inc. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import unittest2
METRIC_TYPE = 'compute.googleapis.com/instance/uptime'
METRIC_LABELS = {'instance_name': 'instance-1'}
RESOURCE_TYPE = 'gce_instance'
RESOURCE_LABELS = {
'project_id': 'my-project',
'zone': 'us-east1-a',
'instance_id': '1234567890123456789',
}
METRIC_KIND = 'DELTA'
VALUE_TYPE = 'DOUBLE'
TS0 = '2016-04-06T22:05:00.042Z'
TS1 = '2016-04-06T22:05:01.042Z'
TS2 = '2016-04-06T22:05:02.042Z'
class TestTimeSeries(unittest2.TestCase):
def _getTargetClass(self):
from gcloud.monitoring.timeseries import TimeSeries
return TimeSeries
def _makeOne(self, *args, **kwargs):
return self._getTargetClass()(*args, **kwargs)
def test_constructor(self):
from gcloud.monitoring.metric import Metric
from gcloud.monitoring.resource import Resource
from gcloud.monitoring.timeseries import Point
VALUE = 60 # seconds
METRIC = Metric(type=METRIC_TYPE, labels=METRIC_LABELS)
RESOURCE = Resource(type=RESOURCE_TYPE, labels=RESOURCE_LABELS)
POINTS = [
Point(start_time=TS0, end_time=TS1, value=VALUE),
Point(start_time=TS1, end_time=TS2, value=VALUE),
]
series = self._makeOne(metric=METRIC,
resource=RESOURCE,
metric_kind=METRIC_KIND,
value_type=VALUE_TYPE,
points=POINTS)
self.assertEqual(series.metric, METRIC)
self.assertEqual(series.resource, RESOURCE)
self.assertEqual(series.metric_kind, METRIC_KIND)
self.assertEqual(series.value_type, VALUE_TYPE)
self.assertEqual(series.points, POINTS)
def test_from_dict(self):
VALUE = 60 # seconds
info = {
'metric': {'type': METRIC_TYPE, 'labels': METRIC_LABELS},
'resource': {'type': RESOURCE_TYPE, 'labels': RESOURCE_LABELS},
'metricKind': METRIC_KIND,
'valueType': VALUE_TYPE,
'points': [
{
'interval': {'startTime': TS0, 'endTime': TS1},
'value': {'doubleValue': VALUE},
},
{
'interval': {'startTime': TS1, 'endTime': TS2},
'value': {'doubleValue': VALUE},
},
],
}
series = self._getTargetClass()._from_dict(info)
self.assertEqual(series.metric.type, METRIC_TYPE)
self.assertEqual(series.metric.labels, METRIC_LABELS)
self.assertEqual(series.resource.type, RESOURCE_TYPE)
self.assertEqual(series.resource.labels, RESOURCE_LABELS)
self.assertEqual(series.metric_kind, METRIC_KIND)
self.assertEqual(series.value_type, VALUE_TYPE)
self.assertEqual(len(series.points), 2)
point1, point2 = series.points
self.assertEqual(point1.start_time, TS0)
self.assertEqual(point1.end_time, TS1)
self.assertEqual(point1.value, VALUE)
self.assertEqual(point2.start_time, TS1)
self.assertEqual(point2.end_time, TS2)
self.assertEqual(point2.value, VALUE)
def test_from_dict_no_points(self):
info = {
'metric': {'type': METRIC_TYPE, 'labels': METRIC_LABELS},
'resource': {'type': RESOURCE_TYPE, 'labels': RESOURCE_LABELS},
'metricKind': METRIC_KIND,
'valueType': VALUE_TYPE,
}
series = self._getTargetClass()._from_dict(info)
self.assertEqual(series.metric.type, METRIC_TYPE)
self.assertEqual(series.metric.labels, METRIC_LABELS)
self.assertEqual(series.resource.type, RESOURCE_TYPE)
self.assertEqual(series.resource.labels, RESOURCE_LABELS)
self.assertEqual(series.metric_kind, METRIC_KIND)
self.assertEqual(series.value_type, VALUE_TYPE)
self.assertEqual(series.points, [])
def test_labels(self):
info = {
'metric': {'type': METRIC_TYPE, 'labels': METRIC_LABELS},
'resource': {'type': RESOURCE_TYPE, 'labels': RESOURCE_LABELS},
'metricKind': METRIC_KIND,
'valueType': VALUE_TYPE,
}
series = self._getTargetClass()._from_dict(info)
labels = {'resource_type': RESOURCE_TYPE}
labels.update(RESOURCE_LABELS)
labels.update(METRIC_LABELS)
self.assertIsNone(series._labels)
self.assertEqual(series.labels, labels)
self.assertIsNotNone(series._labels)
self.assertEqual(series.labels, labels)
class TestPoint(unittest2.TestCase):
def _getTargetClass(self):
from gcloud.monitoring.timeseries import Point
return Point
def _makeOne(self, *args, **kwargs):
return self._getTargetClass()(*args, **kwargs)
def test_constructor(self):
VALUE = 3.14
point = self._makeOne(start_time=TS0, end_time=TS1, value=VALUE)
self.assertEqual(point.start_time, TS0)
self.assertEqual(point.end_time, TS1)
self.assertEqual(point.value, VALUE)
def test_from_dict(self):
VALUE = 3.14
info = {
'interval': {'startTime': TS0, 'endTime': TS1},
'value': {'doubleValue': VALUE},
}
point = self._getTargetClass()._from_dict(info)
self.assertEqual(point.start_time, TS0)
self.assertEqual(point.end_time, TS1)
self.assertEqual(point.value, VALUE)
def test_from_dict_defaults(self):
VALUE = 3.14
info = {
'interval': {'endTime': TS1},
'value': {'doubleValue': VALUE},
}
point = self._getTargetClass()._from_dict(info)
self.assertIsNone(point.start_time)
self.assertEqual(point.end_time, TS1)
self.assertEqual(point.value, VALUE)
def test_from_dict_int64(self):
VALUE = 2 ** 63 - 1
info = {
'interval': {'endTime': TS1},
'value': {'int64Value': str(VALUE)},
}
point = self._getTargetClass()._from_dict(info)
self.assertIsNone(point.start_time)
self.assertEqual(point.end_time, TS1)
self.assertEqual(point.value, VALUE)
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