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eclipse / app4mc / org.eclipse.app4mc / refs/tags/releases/0.9.8 / . / tests / org.eclipse.app4mc.amalthea.validations.tests / src / org / eclipse / app4mc / amalthea / validations / tests / BasicDistributionTests.xtend
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/**
********************************************************************************
* Copyright (c) 2016-2019 Vector Informatik GmbH and others.
*
* This program and the accompanying materials are made
* available under the terms of the Eclipse Public License 2.0
* which is available at https://www.eclipse.org/legal/epl-2.0/
*
* SPDX-License-Identifier: EPL-2.0
*
* Contributors:
* Vector Informatik GmbH - initial API and implementation
* *******************************************************************************
*/
package org.eclipse.app4mc.amalthea.validations.tests
import java.util.List
import org.eclipse.app4mc.amalthea.model.Amalthea
import org.eclipse.app4mc.amalthea.model.AmaltheaFactory
import org.eclipse.app4mc.amalthea.model.ContinuousValueBetaDistribution
import org.eclipse.app4mc.amalthea.model.ContinuousValueGaussDistribution
import org.eclipse.app4mc.amalthea.model.ContinuousValueStatistics
import org.eclipse.app4mc.amalthea.model.ContinuousValueUniformDistribution
import org.eclipse.app4mc.amalthea.model.ContinuousValueWeibullEstimatorsDistribution
import org.eclipse.app4mc.amalthea.model.DiscreteValueBetaDistribution
import org.eclipse.app4mc.amalthea.model.DiscreteValueGaussDistribution
import org.eclipse.app4mc.amalthea.model.DiscreteValueStatistics
import org.eclipse.app4mc.amalthea.model.DiscreteValueUniformDistribution
import org.eclipse.app4mc.amalthea.model.DiscreteValueWeibullEstimatorsDistribution
import org.eclipse.app4mc.amalthea.model.Time
import org.eclipse.app4mc.amalthea.model.TimeBetaDistribution
import org.eclipse.app4mc.amalthea.model.TimeGaussDistribution
import org.eclipse.app4mc.amalthea.model.TimeStatistics
import org.eclipse.app4mc.amalthea.model.TimeUniformDistribution
import org.eclipse.app4mc.amalthea.model.TimeWeibullEstimatorsDistribution
import org.eclipse.app4mc.amalthea.model.builder.AmaltheaBuilder
import org.eclipse.app4mc.amalthea.model.builder.SoftwareBuilder
import org.eclipse.app4mc.amalthea.model.builder.StimuliBuilder
import org.eclipse.app4mc.amalthea.validations.EMFProfile
import org.eclipse.app4mc.validation.core.Severity
import org.eclipse.app4mc.validation.core.ValidationDiagnostic
import org.eclipse.app4mc.validation.util.ValidationExecutor
import org.junit.Test
import static org.eclipse.app4mc.amalthea.model.util.FactoryUtil.*
import static org.junit.Assert.assertFalse
import static org.junit.Assert.assertTrue
class BasicDistributionTests {
extension AmaltheaBuilder b1 = new AmaltheaBuilder
extension StimuliBuilder b2 = new StimuliBuilder
extension SoftwareBuilder b3 = new SoftwareBuilder
val executor = new ValidationExecutor(EMFProfile)
def ContinuousValueBetaDistribution createCVBetaD(double alpha, double beta, double lower, double upper) {
val ret = AmaltheaFactory.eINSTANCE.createContinuousValueBetaDistribution
ret.alpha = alpha
ret.beta = beta
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def ContinuousValueGaussDistribution createCVGaussD(double mean, double sd, double lower, double upper) {
val ret = AmaltheaFactory.eINSTANCE.createContinuousValueGaussDistribution
ret.mean = mean
ret.sd = sd
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def ContinuousValueUniformDistribution createCVUniformD(double lower, double upper) {
val ret = AmaltheaFactory.eINSTANCE.createContinuousValueUniformDistribution
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def ContinuousValueStatistics createCVStatistics(double avg, double lower, double upper) {
val ret = AmaltheaFactory.eINSTANCE.createContinuousValueStatistics
ret.average = avg
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def ContinuousValueWeibullEstimatorsDistribution createCVWeibullED(double avg, double prp, double lower,
double upper) {
val ret = AmaltheaFactory.eINSTANCE.createContinuousValueWeibullEstimatorsDistribution
ret.average = avg
ret.PRemainPromille = prp
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def DiscreteValueBetaDistribution createDVBetaD(double alpha, double beta, long lower, long upper) {
val ret = AmaltheaFactory.eINSTANCE.createDiscreteValueBetaDistribution
ret.alpha = alpha
ret.beta = beta
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def DiscreteValueGaussDistribution createDVGaussD(double mean, double sd, long lower, long upper) {
val ret = AmaltheaFactory.eINSTANCE.createDiscreteValueGaussDistribution
ret.mean = mean
ret.sd = sd
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def DiscreteValueUniformDistribution createDVUniformD(long lower, long upper) {
val ret = AmaltheaFactory.eINSTANCE.createDiscreteValueUniformDistribution
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def DiscreteValueStatistics createDVStatistics(double avg, long lower, long upper) {
val ret = AmaltheaFactory.eINSTANCE.createDiscreteValueStatistics
ret.average = avg
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def DiscreteValueWeibullEstimatorsDistribution createDVWeibullED(double avg, double prp, long lower, long upper) {
val ret = AmaltheaFactory.eINSTANCE.createDiscreteValueWeibullEstimatorsDistribution
ret.average = avg
ret.PRemainPromille = prp
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def TimeBetaDistribution createTBetaD(double alpha, double beta, Time lower, Time upper) {
val ret = AmaltheaFactory.eINSTANCE.createTimeBetaDistribution
ret.alpha = alpha
ret.beta = beta
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def TimeGaussDistribution createTGaussD(Time mean, Time sd, Time lower, Time upper) {
val ret = AmaltheaFactory.eINSTANCE.createTimeGaussDistribution
ret.mean = mean
ret.sd = sd
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def TimeUniformDistribution createTUniformD(Time lower, Time upper) {
val ret = AmaltheaFactory.eINSTANCE.createTimeUniformDistribution
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def TimeStatistics createTStatistics(Time avg, Time lower, Time upper) {
val ret = AmaltheaFactory.eINSTANCE.createTimeStatistics
ret.average = avg
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def TimeWeibullEstimatorsDistribution createTWeibullED(Time avg, double prp, Time lower, Time upper) {
val ret = AmaltheaFactory.eINSTANCE.createTimeWeibullEstimatorsDistribution
ret.average = avg
ret.PRemainPromille = prp
ret.lowerBound = lower
ret.upperBound = upper
ret
}
def boolean containsAll(String str, String... args) {
for (String arg : args) {
if(!str.contains(arg)) return false
}
return true
}
def List<ValidationDiagnostic> validate(Amalthea model) {
executor.validate(model)
executor.results
}
@Test
def void test_BasicContinuousValueBetaDistribution() {
val model = amalthea [
stimuliModel[
variableRateStimulus[
name = "vrs_ok"
occurrencesPerStep = createCVBetaD(0.5d, 0.5d, 20d, 40d)
]
variableRateStimulus[
name = "vrs_alphaZero"
occurrencesPerStep = createCVBetaD(0d, 0.5d, 20d, 40d)
]
variableRateStimulus[
name = "vrs_betaZero"
occurrencesPerStep = createCVBetaD(0.5d, 0d, 20d, 40d)
]
variableRateStimulus[
name = "vrs_alphabetaZero"
occurrencesPerStep = createCVBetaD(0d, 0d, 20d, 40d)
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("The feature 'alpha' of 'ContinuousValueBetaDistribution' contains a bad value ( in Variable Rate Stimulus \"vrs_alphaZero\" ) => The value '0.0' must be greater than '0.0'"))
assertTrue(result.contains("The feature 'alpha' of 'ContinuousValueBetaDistribution' contains a bad value ( in Variable Rate Stimulus \"vrs_alphabetaZero\" ) => The value '0.0' must be greater than '0.0'"))
assertFalse(result.contains("The feature 'alpha' of 'ContinuousValueBetaDistribution' contains a bad value ( in Variable Rate Stimulus \"vrs_ok\" ) => The value '0.5' must be greater than '0.0'"))
assertTrue(result.contains("The feature 'beta' of 'ContinuousValueBetaDistribution' contains a bad value ( in Variable Rate Stimulus \"vrs_betaZero\" ) => The value '0.0' must be greater than '0.0'"))
assertTrue(result.contains("The feature 'beta' of 'ContinuousValueBetaDistribution' contains a bad value ( in Variable Rate Stimulus \"vrs_alphabetaZero\" ) => The value '0.0' must be greater than '0.0'"))
assertFalse(result.contains("The feature 'beta' of 'ContinuousValueBetaDistribution' contains a bad value ( in Variable Rate Stimulus \"vrs_ok\" ) => The value '0.5' must be greater than '0.0'"))
}
@Test
def void test_BasicContinuousValueInterval() {
val model = amalthea [
stimuliModel[
variableRateStimulus[
name = "vrs_ok"
occurrencesPerStep = createCVUniformD(20d, 40d)
]
variableRateStimulus[
name = "vrs_more"
occurrencesPerStep = createCVUniformD(20d, 10d)
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("ContinuousValueUniformDistribution: lower bound > upper bound ( in Variable Rate Stimulus \"vrs_more\" )"))
assertFalse(result.contains("ContinuousValueUniformDistribution: lower bound > upper bound ( in Variable Rate Stimulus \"vrs_ok\" )"))
}
@Test
def void test_BasicContinuousValueStatistics() {
val model = amalthea [
stimuliModel[
variableRateStimulus[
name = "vrs_ok"
occurrencesPerStep = createCVStatistics(30d, 20d, 40d)
]
variableRateStimulus[
name = "vrs_avgLess"
occurrencesPerStep = createCVStatistics(10d, 20d, 40d)
]
variableRateStimulus[
name = "vrs_avgMore"
occurrencesPerStep = createCVStatistics(50d, 20d, 40d)
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("ContinuousValueStatistics: lower bound > average ( in Variable Rate Stimulus \"vrs_avgLess\" )"))
assertTrue(result.contains("ContinuousValueStatistics: average > upper bound ( in Variable Rate Stimulus \"vrs_avgMore\" )"))
assertFalse(result.contains("ContinuousValueStatistics: lower bound > average ( in Variable Rate Stimulus \"vrs_ok\")"))
assertFalse(result.contains("ContinuousValueStatistics: average > upper bound ( in Variable Rate Stimulus \"vrs_ok\")"))
}
@Test
def void test_BasicContinuousValueWeibullEstimatorsDistribution() {
val model = amalthea [
stimuliModel[
variableRateStimulus[
name = "vrs_ok"
occurrencesPerStep = createCVWeibullED(30d, 1d, 20d, 40d)
]
variableRateStimulus[
name = "vrs_avgLess"
occurrencesPerStep = createCVWeibullED(10d, 1d, 20d, 40d)
]
variableRateStimulus[
name = "vrs_avgMore"
occurrencesPerStep = createCVWeibullED(50d, 1d, 20d, 40d)
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("ContinuousValueWeibullEstimatorsDistribution: lower bound > average ( in Variable Rate Stimulus \"vrs_avgLess\" )"))
assertTrue(result.contains("ContinuousValueWeibullEstimatorsDistribution: average > upper bound ( in Variable Rate Stimulus \"vrs_avgMore\" )"))
assertFalse(result.contains("ContinuousValueWeibullEstimatorsDistribution: lower bound > average ( in Variable Rate Stimulus \"vrs_ok\" )"))
assertFalse(result.contains("ContinuousValueWeibullEstimatorsDistribution: average > upper bound ( in Variable Rate Stimulus \"vrs_ok\" )"))
}
@Test
def void test_BasicTruncatedContinuousValueDistribution() {
val model = amalthea [
stimuliModel[
variableRateStimulus[
name = "vrs_ok"
occurrencesPerStep = createCVGaussD(30d, 10d, 20d, 40d)
]
variableRateStimulus[
name = "vrs_more"
occurrencesPerStep = createCVGaussD(30d, 10d, 20d, 10d)
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("ContinuousValueGaussDistribution: lower bound > upper bound ( in Variable Rate Stimulus \"vrs_more\" )"))
assertFalse(result.contains("ContinuousValueGaussDistribution: lower bound > upper bound ( in Variable Rate Stimulus \"vrs_ok\" )"))
}
@Test
def void test_BasicDiscreteValueBetaDistribution() {
val model = amalthea [
softwareModel [
runnable [
name = "r_ok"
activityGraph [ticks [^default = createDVBetaD(0.5d, 0.5d, 20l, 40l)]]
]
runnable [
name = "r_alphaZero"
activityGraph [ticks [^default = createDVBetaD(0d, 0.5d, 20l, 40l)]]
]
runnable [
name = "r_betaZero"
activityGraph [ticks [^default = createDVBetaD(0.5d, 0d, 20l, 40l)]]
]
runnable [
name = "r_alphabetaZero"
activityGraph [ticks [^default = createDVBetaD(0d, 0d, 20l, 40l)]]
]
]
]
val validationResult = validate(model)
val alpha = "feature 'alpha' of 'DiscreteValueBetaDistribution'"
val beta = "feature 'beta' of 'DiscreteValueBetaDistribution'"
val message = "value '0.0' must be greater than '0.0'"
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.exists[it.containsAll(alpha, message, "in Runnable \"r_alphaZero\"")])
assertTrue(result.exists[it.containsAll(alpha, message, "in Runnable \"r_alphabetaZero\"")])
assertFalse(result.exists[it.containsAll(alpha, message, "in Runnable \"r_ok\"")])
assertTrue(result.exists[it.containsAll(beta, message, "in Runnable \"r_betaZero\"")])
assertTrue(result.exists[it.containsAll(beta, message, "in Runnable \"r_alphabetaZero\"")])
assertFalse(result.exists[it.containsAll(beta, message, "in Runnable \"r_ok\"")])
}
@Test
def void test_BasicDiscreteValueInterval() {
val model = amalthea [
softwareModel[
runnable[
name = "r_ok"
activityGraph [ticks [^default = createDVUniformD(20, 40)]]
]
runnable[
name = "r_more"
activityGraph [ticks [^default = createDVUniformD(20, 10)]]
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("DiscreteValueUniformDistribution: lower bound > upper bound ( in Runnable \"r_more\" )"))
assertFalse(result.contains("DiscreteValueUniformDistribution: lower bound > upper bound ( in Runnable \"r_ok\" )"))
}
@Test
def void test_BasicDiscreteValueStatistics() {
val model = amalthea [
softwareModel[
runnable[
name = "r_ok"
activityGraph [ticks [^default = createDVStatistics(30d, 20, 40)]]
]
runnable[
name = "r_avgLess"
activityGraph [ticks [^default = createDVStatistics(10d, 20, 40)]]
]
runnable[
name = "r_avgMore"
activityGraph [ticks [^default = createDVStatistics(50d, 20, 40)]]
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("DiscreteValueStatistics: lower bound > average ( in Runnable \"r_avgLess\" )"))
assertTrue(result.contains("DiscreteValueStatistics: average > upper bound ( in Runnable \"r_avgMore\" )"))
assertFalse(result.contains("DiscreteValueStatistics: lower bound > average ( in Runnable \"r_ok\" )"))
assertFalse(result.contains("DiscreteValueStatistics: average > upper bound ( in Runnable \"r_ok\" )"))
}
@Test
def void test_BasicDiscreteValueWeibullEstimatorsDistribution() {
val model = amalthea [
softwareModel[
runnable[
name = "r_ok"
activityGraph [ticks [^default = createDVWeibullED(30d, 1d, 20, 40)]]
]
runnable[
name = "r_avgLess"
activityGraph [ticks [^default = createDVWeibullED(10d, 1d, 20, 40)]]
]
runnable[
name = "r_avgMore"
activityGraph [ticks [^default = createDVWeibullED(50d, 1d, 20, 40)]]
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("DiscreteValueWeibullEstimatorsDistribution: lower bound > average ( in Runnable \"r_avgLess\" )"))
assertTrue(result.contains("DiscreteValueWeibullEstimatorsDistribution: average > upper bound ( in Runnable \"r_avgMore\" )"))
assertFalse(result.contains("DiscreteValueWeibullEstimatorsDistribution: lower bound > average ( in Runnable \"r_ok\" )"))
assertFalse(result.contains("DiscreteValueWeibullEstimatorsDistribution: average > upper bound ( in Runnable \"r_ok\" )"))
}
@Test
def void test_BasicTruncatedDiscreteValueDistribution() {
val model = amalthea [
softwareModel[
runnable[
name = "r_ok"
activityGraph [ticks [^default = createDVGaussD(30d, 10d, 20, 40)]]
]
runnable[
name = "r_more"
activityGraph [ticks [^default = createDVGaussD(30d, 10d, 20, 10)]]
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("DiscreteValueGaussDistribution: lower bound > upper bound ( in Runnable \"r_more\" )"))
assertFalse(result.contains("DiscreteValueGaussDistribution: lower bound > upper bound ( in Runnable \"r_ok\" )"))
}
@Test
def void test_BasicTimeBetaDistribution() {
val model = amalthea [
stimuliModel[
periodicStimulus[
name = "ps_ok"
jitter = createTBetaD(0.5d, 0.5d, createTime(), createTime())
]
periodicStimulus[
name = "ps_alphaZero"
jitter = createTBetaD(0d, 0.5d, createTime(), createTime())
]
periodicStimulus[
name = "ps_betaZero"
jitter = createTBetaD(0.5d, 0d, createTime(), createTime())
]
periodicStimulus[
name = "ps_alphabetaZero"
jitter = createTBetaD(0d, 0d, createTime(), createTime())
]
]
]
val validationResult = validate(model)
val alpha = "feature 'alpha' of 'TimeBetaDistribution'"
val beta = "feature 'beta' of 'TimeBetaDistribution'"
val message = "value '0.0' must be greater than '0.0'"
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.exists[it.containsAll(alpha, message, "in Periodic Stimulus \"ps_alphaZero\"")])
assertTrue(result.exists[it.containsAll(alpha, message, "in Periodic Stimulus \"ps_alphabetaZero\"")])
assertFalse(result.exists[it.containsAll(alpha, message, "in Periodic Stimulus \"ps_ok\"")])
assertTrue(result.exists[it.containsAll(beta, message, "in Periodic Stimulus \"ps_betaZero\"")])
assertTrue(result.exists[it.containsAll(beta, message, "in Periodic Stimulus \"ps_alphabetaZero\"")])
assertFalse(result.exists[it.containsAll(beta, message, "in Periodic Stimulus \"ps_ok\"")])
}
@Test
def void test_BasicTimeInterval() {
val model = amalthea [
stimuliModel[
periodicStimulus[
name = "ps_ok"
jitter = createTUniformD(createTime(20, "ms"), createTime(40, "ms"))
]
periodicStimulus[
name = "ps_more"
jitter = createTUniformD(createTime(20, "ms"), createTime(10, "ms"))
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("TimeUniformDistribution: lower bound > upper bound ( in Periodic Stimulus \"ps_more\" )"))
assertFalse(result.contains("TimeUniformDistribution: lower bound > upper bound ( in Periodic Stimulus \"ps_ok\" )"))
}
@Test
def void test_BasicTimeStatistics() {
val model = amalthea [
stimuliModel[
periodicStimulus[
name = "ps_ok"
jitter = createTStatistics(createTime(30, "ms"), createTime(20, "ms"), createTime(40, "ms"))
]
periodicStimulus[
name = "ps_avgLess"
jitter = createTStatistics(createTime(10, "ms"), createTime(20, "ms"), createTime(40, "ms"))
]
periodicStimulus[
name = "ps_avgMore"
jitter = createTStatistics(createTime(50, "ms"), createTime(20, "ms"), createTime(40, "ms"))
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("TimeStatistics: lower bound > average ( in Periodic Stimulus \"ps_avgLess\" )"))
assertTrue(result.contains("TimeStatistics: average > upper bound ( in Periodic Stimulus \"ps_avgMore\" )"))
assertFalse(result.contains("TimeStatistics: lower bound > average ( in Periodic Stimulus \"ps_ok\" )"))
assertFalse(result.contains("TimeStatistics: average > upper bound ( in Periodic Stimulus \"ps_ok\" )"))
}
@Test
def void test_BasicTimeWeibullEstimatorsDistribution() {
val model = amalthea [
stimuliModel[
periodicStimulus[
name = "ps_ok"
jitter = createTWeibullED(createTime(30, "ms"), 1d, createTime(20, "ms"), createTime(40, "ms"))
]
periodicStimulus[
name = "ps_avgLess"
jitter = createTWeibullED(createTime(10, "ms"), 1d, createTime(20, "ms"), createTime(40, "ms"))
]
periodicStimulus[
name = "ps_avgMore"
jitter = createTWeibullED(createTime(50, "ms"), 1d, createTime(20, "ms"), createTime(40, "ms"))
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("TimeWeibullEstimatorsDistribution: lower bound > average ( in Periodic Stimulus \"ps_avgLess\" )"))
assertTrue(result.contains("TimeWeibullEstimatorsDistribution: average > upper bound ( in Periodic Stimulus \"ps_avgMore\" )"))
assertFalse(result.contains("TimeWeibullEstimatorsDistribution: lower bound > average ( in Periodic Stimulus \"ps_ok\" )"))
assertFalse(result.contains("TimeWeibullEstimatorsDistribution: average > upper bound ( in Periodic Stimulus \"ps_ok\" )"))
}
@Test
def void test_BasicTruncatedTimeDistribution() {
val model = amalthea [
stimuliModel[
periodicStimulus[
name = "ps_ok"
jitter = createTGaussD(createTime(30, "ms"), createTime(10, "ms"), createTime(20, "ms"),
createTime(40, "ms"))
]
periodicStimulus[
name = "ps_more"
jitter = createTGaussD(createTime(30, "ms"), createTime(10, "ms"), createTime(20, "ms"),
createTime(10, "ms"))
]
]
]
val validationResult = validate(model)
val result = validationResult.filter[it.severityLevel == Severity.ERROR].map[it.message].toList
assertTrue(result.contains("TimeGaussDistribution: lower bound > upper bound ( in Periodic Stimulus \"ps_more\" )"))
assertFalse(result.contains("TimeGaussDistribution: lower bound > upper bound ( in Periodic Stimulus \"ps_ok\" )"))
}
}