Java tutorial
/* * #%L * Eureka Services * %% * Copyright (C) 2012 - 2013 Emory University * %% * This program is dual licensed under the Apache 2 and GPLv3 licenses. * * Apache License, Version 2.0: * * 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. * * GNU General Public License version 3: * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as * published by the Free Software Foundation, either version 3 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this program. If not, see * <http://www.gnu.org/licenses/gpl-3.0.html>. * #L% */ package edu.emory.cci.aiw.cvrg.eureka.services.conversion; import edu.emory.cci.aiw.cvrg.eureka.common.entity.ExtendedPhenotype; import edu.emory.cci.aiw.cvrg.eureka.common.entity.FrequencyEntity; import edu.emory.cci.aiw.cvrg.eureka.common.entity.FrequencyType; import edu.emory.cci.aiw.cvrg.eureka.common.entity.SystemProposition; import java.math.BigDecimal; import java.util.ArrayList; import java.util.List; import org.apache.commons.lang3.StringUtils; import org.junit.Assert; import org.junit.Before; import org.junit.Test; import org.protempa.proposition.interval.Relation; import org.protempa.proposition.value.NumberValue; import edu.emory.cci.aiw.cvrg.eureka.common.entity.TimeUnit; import edu.emory.cci.aiw.cvrg.eureka.common.entity.ValueComparator; import edu.emory.cci.aiw.cvrg.eureka.common.entity.ValueThresholdEntity; import edu.emory.cci.aiw.cvrg.eureka.common.entity.ValueThresholdGroupEntity; import edu.emory.cci.aiw.cvrg.eureka.services.test.AbstractServiceTest; import org.eurekaclinical.eureka.client.comm.SystemType; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertTrue; import org.protempa.HighLevelAbstractionDefinition; import org.protempa.LowLevelAbstractionDefinition; import org.protempa.LowLevelAbstractionValueDefinition; import org.protempa.PropositionDefinition; import org.protempa.SimpleGapFunction; import org.protempa.TemporalExtendedPropositionDefinition; import org.protempa.proposition.value.Value; /** * */ public class FrequencyFirstConsecutiveValueThresholdConverterTest extends AbstractServiceTest { private List<PropositionDefinition> propDefs; private List<LowLevelAbstractionDefinition> llas; private LowLevelAbstractionDefinition llaDef; private String userConstraintName; private String compConstraintName; private HighLevelAbstractionDefinition hlad; private FrequencyEntity frequency; private TemporalExtendedPropositionDefinition tepd; private SimpleGapFunction gf; private String thresholdGroupKey; @Before public void setUp() { PropositionDefinitionConverterVisitor converterVisitor = this .getInstance(PropositionDefinitionConverterVisitor.class); FrequencyValueThresholdConverter converter = new FrequencyValueThresholdConverter(); converter.setConverterVisitor(converterVisitor); SystemProposition primParam = new SystemProposition(); primParam.setId(1L); primParam.setKey("test-primparam1"); primParam.setInSystem(true); primParam.setSystemType(SystemType.PRIMITIVE_PARAMETER); ValueThresholdGroupEntity thresholdGroup = new ValueThresholdGroupEntity(); thresholdGroup.setId(2L); thresholdGroup.setKey("test-valuethreshold"); thresholdGroupKey = thresholdGroup.getKey(); ValueComparator lt = new ValueComparator(); lt.setName("<"); ValueComparator gt = new ValueComparator(); gt.setName(">"); ValueComparator lte = new ValueComparator(); lte.setName("<="); ValueComparator gte = new ValueComparator(); gte.setName(">="); lt.setComplement(gte); gte.setComplement(lt); gt.setComplement(lte); lte.setComplement(gt); ValueThresholdEntity threshold = new ValueThresholdEntity(); threshold.setAbstractedFrom(primParam); threshold.setMinValueThreshold(BigDecimal.valueOf(100)); threshold.setMinValueComp(gt); threshold.setMaxValueThreshold(BigDecimal.valueOf(200)); threshold.setMaxValueComp(lt); threshold.setId(Long.valueOf(1)); List<ValueThresholdEntity> thresholds = new ArrayList<>(); thresholds.add(threshold); thresholdGroup.setValueThresholds(thresholds); TimeUnit dayUnit = new TimeUnit(); dayUnit.setName("day"); FrequencyType ft = new FrequencyType(); ft.setName("first"); frequency = new FrequencyEntity(); frequency.setId(3L); frequency.setKey("test-freqhla-key"); frequency.setCount(2); frequency.setWithinAtLeast(1); frequency.setWithinAtLeastUnits(dayUnit); frequency.setWithinAtMost(90); frequency.setWithinAtMostUnits(dayUnit); frequency.setFrequencyType(ft); frequency.setConsecutive(true); ExtendedPhenotype af = new ExtendedPhenotype(); af.setPhenotypeEntity(thresholdGroup); frequency.setExtendedProposition(af); propDefs = converter.convert(frequency); llas = new ArrayList<>(); for (PropositionDefinition propDef : propDefs) { if (propDef instanceof LowLevelAbstractionDefinition) { llas.add((LowLevelAbstractionDefinition) propDef); } } llaDef = llas.get(0); hlad = converter.getPrimaryPropositionDefinition(); userConstraintName = asValueString(thresholdGroupKey); compConstraintName = asValueCompString(thresholdGroupKey); tepd = (TemporalExtendedPropositionDefinition) hlad.getExtendedPropositionDefinitions().iterator().next(); gf = (SimpleGapFunction) hlad.getGapFunction(); } @Test public void testPrimaryPropositionId() { assertEquals("wrong primary proposition id", toPropositionId(frequency), hlad.getId()); } @Test public void testNumberOfPropositionDefinitionsCreated() { assertEquals("wrong number of proposition definitions created", 4, propDefs.size()); } @Test public void testNumberOfLLAsCreated() { assertEquals("wrong number of low-level abstractions created", 1, llas.size()); } @Test public void testLLAId() { assertEquals("wrong id", toPropositionId("test-valuethreshold"), llaDef.getId()); } @Test public void testAbstractedFromSize() { assertEquals("wrong abstracted from size", 1, llaDef.getAbstractedFrom().size()); } @Test public void testAbstractedFrom() { assertEquals("wrong abstracted from", "test-primparam1", llaDef.getAbstractedFrom().iterator().next()); } @Test public void testMinimumNumberOfValues() { assertEquals("wrong minimum number of values", 1, llaDef.getMinimumNumberOfValues()); } @Test public void testAlgorithm() { assertEquals("wrong algorithm", "stateDetector", llaDef.getAlgorithmId()); } @Test public void testNumberOfValueDefs() { assertEquals("wrong number of value definitions", 3, llaDef.getValueDefinitions().size()); } @Test public void testValueDefDoesNotExist() { List<String> vds = new ArrayList<>(); for (LowLevelAbstractionValueDefinition vd : llaDef.getValueDefinitions()) { vds.add(vd.getId()); } assertTrue("value def '" + userConstraintName + "' does not exist; what does exist? " + StringUtils.join(vds, ", "), llaDef.getValueDefinitions(userConstraintName) != null); } @Test public void testMinValueThresholdForValueDef() { assertEquals("wrong min value threshold for value def: '" + userConstraintName + "'", NumberValue.getInstance(100L), llaDef.getValueDefinitions(userConstraintName)[0].getParameterValue("minThreshold")); } @Test public void testMinValueGTForValueDef() { assertEquals("wrong min value comp for value def: '" + userConstraintName + "'", ">", userCompStringFor("minThreshold")); } @Test public void testMaxValueThresholdForValueDef() { assertEquals("wrong max value for value def: '" + userConstraintName + "'", NumberValue.getInstance(200L), llaDef.getValueDefinitions(userConstraintName)[0].getParameterValue("maxThreshold")); } @Test public void testMaxValueCompLTForValueDef() { assertEquals("wrong max value comp for value def: '" + userConstraintName + "'", "<", userCompStringFor("maxThreshold")); } @Test public void testValueDefDoesNotExistComp() { assertTrue("value def '" + compConstraintName + "' does not exist", llaDef.getValueDefinitions(compConstraintName) != null); } @Test public void testMinValueCompThresholdForValueDef() { assertEquals("wrong min value comp for value def: '" + compConstraintName + "'", NumberValue.getInstance(200L), valStringFor("minThreshold")); } @Test public void minValueCompGEForValueDef() { assertEquals("wrong min value comp for value def: '" + compConstraintName + "'", ">=", compStringFor("minThreshold")); } @Test public void testMaxValueCompThresholdForValueDef() { assertEquals("wrong max value for value def: '" + compConstraintName + "'", NumberValue.getInstance(100L), valStringFor("maxThreshold")); } @Test public void testMaxValueCompLEForValueDef() { assertEquals("wrong max value comp for value def: '" + compConstraintName + "'", "<=", compStringFor("maxThreshold")); } private Value valStringFor(String threshold) { for (LowLevelAbstractionValueDefinition valueDefinitions : llaDef.getValueDefinitions(compConstraintName)) { Value parameterValue = valueDefinitions.getParameterValue(threshold); if (parameterValue != null) { return parameterValue; } } return null; } private String compStringFor(String threshold) { for (LowLevelAbstractionValueDefinition valueDefinitions : llaDef.getValueDefinitions(compConstraintName)) { org.protempa.proposition.value.ValueComparator parameterComp = valueDefinitions .getParameterComp(threshold); if (parameterComp != null) { return parameterComp.getComparatorString(); } } return null; } private String userCompStringFor(String threshold) { for (LowLevelAbstractionValueDefinition valueDefinitions : llaDef.getValueDefinitions(userConstraintName)) { org.protempa.proposition.value.ValueComparator parameterComp = valueDefinitions .getParameterComp(threshold); if (parameterComp != null) { return parameterComp.getComparatorString(); } } return null; } @Test public void testHLAId() { String hladExpectedId = frequency.getKey() + ConversionUtil.PRIMARY_PROP_ID_SUFFIX; assertEquals("wrong id", hladExpectedId, hlad.getId()); } @Test public void testNumberOfExtendedPropositionDefinitions() { assertEquals("wrong number of extended proposition definitions", 1, hlad.getExtendedPropositionDefinitions().size()); } @Test public void testExtendedPropositionDefinitionPropositionId() { assertEquals("wrong extended proposition definition", frequency.getKey() + "_SUBSUB", tepd.getPropositionId()); } @Test public void testNumberOfRelations() { assertEquals("wrong number of relations defined", 1, hlad.getTemporalExtendedPropositionDefinitionPairs().size()); } @Test public void testRelationExists() { Relation relation = hlad.getRelation(tepd, tepd); Assert.assertNotNull("relation is null", relation); } @Test public void testGapFunctionExists() { Assert.assertNotNull("gap function is null", gf); } @Test public void testMaxGap() { //assertEquals("wrong max gap", Integer.valueOf(0), gf.getMaximumGap()); assertEquals("wrong max gap", null, gf.getMaximumGap()); } @Test public void testMaxGapUnit() { assertEquals("wrong max gap unit", null, gf.getMaximumGapUnit()); } }