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/* =========================================================================================
* Copyright © 2013-2017 the kamon project <http://kamon.io/>
*
* 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.
* =========================================================================================
*/
package kamon.metric
import java.time.Duration
import kamon.util.MeasurementUnit
import org.scalatest.{Matchers, WordSpec}
case class TemporalBucket(value: Long, frequency: Long) extends Bucket
class MinMaxCounterSpec extends WordSpec with Matchers {
"a MinMaxCounter" should {
"track ascending tendencies" in {
val mmCounter = buildMinMaxCounter("track-ascending")
mmCounter.increment()
mmCounter.increment(3)
mmCounter.increment()
mmCounter.sample()
val snapshot = mmCounter.snapshot()
snapshot.distribution.min should be(0)
snapshot.distribution.max should be(5)
}
"track descending tendencies" in {
val mmCounter = buildMinMaxCounter("track-descending")
mmCounter.increment(5)
mmCounter.decrement()
mmCounter.decrement(3)
mmCounter.decrement()
mmCounter.sample()
val snapshot = mmCounter.snapshot()
snapshot.distribution.min should be(0)
snapshot.distribution.max should be(5)
}
"reset the min and max to the current value after taking a snapshot" in {
val mmCounter = buildMinMaxCounter("reset-min-max-to-current")
mmCounter.increment(5)
mmCounter.decrement(3)
mmCounter.sample()
val firstSnapshot = mmCounter.snapshot()
firstSnapshot.distribution.min should be(0)
firstSnapshot.distribution.max should be(5)
mmCounter.sample()
val secondSnapshot = mmCounter.snapshot()
secondSnapshot.distribution.min should be(2)
secondSnapshot.distribution.max should be(2)
}
"report zero as the min and current values if the current value fell bellow zero" in {
val mmCounter = buildMinMaxCounter("report-zero")
mmCounter.decrement(3)
mmCounter.sample()
val snapshot = mmCounter.snapshot()
snapshot.distribution.min should be(0)
snapshot.distribution.max should be(0)
}
}
def buildMinMaxCounter(name: String, tags: Map[String, String] = Map.empty, unit: MeasurementUnit = MeasurementUnit.none): SimpleMinMaxCounter =
new SimpleMinMaxCounter(name, tags, new AtomicHdrHistogram(name, tags, unit, dynamicRange = DynamicRange.Default), Duration.ofMillis(100))
}
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