def to_point(self, timestamp): """Get a Point conversion of this aggregation. This method creates a :class: `opencensus.metrics.export.point.Point` with a :class: `opencensus.metrics.export.value.ValueDistribution` value, and creates buckets and exemplars for that distribution from the appropriate classes in the `metrics` package. :type timestamp: :class: `datetime.datetime` :param timestamp: The time to report the point as having been recorded. :rtype: :class: `opencensus.metrics.export.point.Point` :return: a :class: `opencensus.metrics.export.value.ValueDistribution` -valued Point. """ buckets = [None] * len(self.counts_per_bucket) for ii, count in enumerate(self.counts_per_bucket): stat_ex = self.exemplars.get(ii, None) if stat_ex is not None: metric_ex = value.Exemplar(stat_ex.value, stat_ex.timestamp, copy.copy(stat_ex.attachments)) buckets[ii] = value.Bucket(count, metric_ex) else: buckets[ii] = value.Bucket(count) bucket_options = value.BucketOptions(value.Explicit(self.bounds)) return point.Point( value.ValueDistribution( count=self.count_data, sum_=self.sum, sum_of_squared_deviation=self.sum_of_sqd_deviations, bucket_options=bucket_options, buckets=buckets), timestamp)
def test_init_no_histogram(self): distribution = value_module.ValueDistribution( VD_COUNT, VD_SUM, VD_SUM_OF_SQUARED_DEVIATION, value_module.BucketOptions(), None) self.assertEqual(distribution.count, VD_COUNT) self.assertEqual(distribution.sum, VD_SUM) self.assertEqual(distribution.sum_of_squared_deviation, VD_SUM_OF_SQUARED_DEVIATION) self.assertIsNone(distribution.bucket_options.type_) self.assertEqual(distribution.buckets, None)
def _create_distribution_value(count=1, sum_=0, sum_of_squared_deviation=0, bounds=[], buckets=[]): return value.ValueDistribution( count=count, sum_=sum_, sum_of_squared_deviation=sum_of_squared_deviation, bucket_options=value.BucketOptions(type_=value.Explicit( bounds=bounds)), buckets=buckets)
def setUp(self): self.double_value = value_module.ValueDouble(55.5) self.long_value = value_module.ValueLong(9876543210) self.timestamp = '2018-10-06T17:57:57.936475Z' value_at_percentile = [summary_module.ValueAtPercentile(99.5, 10.2)] snapshot = summary_module.Snapshot(10, 87.07, value_at_percentile) self.summary = summary_module.Summary(10, 6.6, snapshot) self.summary_value = value_module.ValueSummary(self.summary) self.distribution_value = value_module.ValueDistribution( 100, 1000.0, 10.0, value_module.BucketOptions( value_module.Explicit(list(range(1, 10)))), [value_module.Bucket(10, None) for ii in range(10)], )
def test_init_bad_args(self): value_module.ValueDistribution(VD_COUNT, VD_SUM, VD_SUM_OF_SQUARED_DEVIATION, BUCKET_OPTIONS, BUCKETS) with self.assertRaises(ValueError): value_module.ValueDistribution(-1, VD_SUM, VD_SUM_OF_SQUARED_DEVIATION, BUCKET_OPTIONS, BUCKETS) with self.assertRaises(ValueError): value_module.ValueDistribution(0, VD_SUM, VD_SUM_OF_SQUARED_DEVIATION, BUCKET_OPTIONS, BUCKETS) with self.assertRaises(ValueError): value_module.ValueDistribution(0, 0, VD_SUM_OF_SQUARED_DEVIATION, BUCKET_OPTIONS, BUCKETS) with self.assertRaises(ValueError): value_module.ValueDistribution( VD_COUNT, VD_SUM, VD_SUM_OF_SQUARED_DEVIATION, None, BUCKETS) with self.assertRaises(ValueError): value_module.ValueDistribution(0, 0, 0, BUCKET_OPTIONS, BUCKETS) with self.assertRaises(ValueError): value_module.ValueDistribution(VD_COUNT - 1, VD_SUM, VD_SUM_OF_SQUARED_DEVIATION, BUCKET_OPTIONS, BUCKETS) with self.assertRaises(ValueError): value_module.ValueDistribution(VD_COUNT, VD_SUM, VD_SUM_OF_SQUARED_DEVIATION, value_module.BucketOptions(), BUCKETS) with self.assertRaises(ValueError): value_module.ValueDistribution(VD_COUNT, VD_SUM, VD_SUM_OF_SQUARED_DEVIATION, BUCKET_OPTIONS, BUCKETS[:-1])
value_at_percentile = [summary_module.ValueAtPercentile(99.5, 10.2)] snapshot = summary_module.Snapshot(10, 87.07, value_at_percentile) summary = summary_module.Summary(10, 6.6, snapshot) summary_value = value_module.Value.summary_value(summary) self.assertIsNotNone(summary_value) self.assertIsInstance(summary_value, value_module.ValueSummary) self.assertEqual(summary_value.value, summary) VD_COUNT = 100 VD_SUM = 1000.0 VD_SUM_OF_SQUARED_DEVIATION = 10.0 BOUNDS = list(range(1, 10)) BUCKET_OPTIONS = value_module.BucketOptions(value_module.Explicit(BOUNDS)) BUCKETS = [value_module.Bucket(10, None) for ii in range(10)] class TestValueDistribution(unittest.TestCase): def test_init(self): distribution = value_module.ValueDistribution( VD_COUNT, VD_SUM, VD_SUM_OF_SQUARED_DEVIATION, BUCKET_OPTIONS, BUCKETS) self.assertEqual(distribution.count, VD_COUNT) self.assertEqual(distribution.sum, VD_SUM) self.assertEqual(distribution.sum_of_squared_deviation, VD_SUM_OF_SQUARED_DEVIATION) self.assertEqual(distribution.bucket_options, BUCKET_OPTIONS) self.assertEqual(distribution.bucket_options.type_.bounds, BOUNDS) self.assertEqual(distribution.buckets, BUCKETS)