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package ca.mcgill.ecse.dslreasoner.vampire.icse
import ca.mcgill.ecse.dslreasoner.vampire.queries.Patterns
import ca.mcgill.ecse.dslreasoner.vampire.reasoner.VampireSolver
import ca.mcgill.ecse.dslreasoner.vampire.reasoner.VampireSolverConfiguration
import ca.mcgill.ecse.dslreasoner.vampire.yakindumm.YakindummPackage
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VampireModel
import hu.bme.mit.inf.dslreasoner.ecore2logic.Ecore2Logic
import hu.bme.mit.inf.dslreasoner.ecore2logic.Ecore2LogicConfiguration
import hu.bme.mit.inf.dslreasoner.logic.model.builder.DocumentationLevel
import hu.bme.mit.inf.dslreasoner.logic.model.logicresult.LogicResult
import hu.bme.mit.inf.dslreasoner.logic.model.logicresult.ModelResult
import hu.bme.mit.inf.dslreasoner.logic2ecore.Logic2Ecore
import hu.bme.mit.inf.dslreasoner.viatra2logic.Viatra2Logic
import hu.bme.mit.inf.dslreasoner.viatra2logic.Viatra2LogicConfiguration
import hu.bme.mit.inf.dslreasoner.viatrasolver.partialinterpretation2logic.InstanceModel2Logic
import hu.bme.mit.inf.dslreasoner.workspace.FileSystemWorkspace
import java.io.PrintWriter
import java.text.SimpleDateFormat
import java.time.LocalDate
import java.util.Date
import org.eclipse.emf.ecore.resource.Resource
import org.eclipse.emf.ecore.xmi.impl.XMIResourceFactoryImpl
class YakinduTest {
def static void main(String[] args) {
val Ecore2Logic ecore2Logic = new Ecore2Logic
val Logic2Ecore logic2Ecore = new Logic2Ecore(ecore2Logic)
val Viatra2Logic viatra2Logic = new Viatra2Logic(ecore2Logic)
val InstanceModel2Logic instanceModel2Logic = new InstanceModel2Logic
// Workspace setup
val Date date = new Date(System.currentTimeMillis)
val SimpleDateFormat format = new SimpleDateFormat("MMdd-HHmmss");
val formattedDate = format.format(date)
val inputs = new FileSystemWorkspace('''initialModels/''', "")
val workspace = new FileSystemWorkspace('''output/YakinduTest/''' + formattedDate + '''/''', "")
workspace.initAndClear
// Logicproblem writing setup
val reg = Resource.Factory.Registry.INSTANCE
val map = reg.extensionToFactoryMap
map.put("logicproblem", new XMIResourceFactoryImpl)
println("Input and output workspaces are created")
val metamodel = GeneralTest.loadMetamodel(YakindummPackage.eINSTANCE)
val partialModel = GeneralTest.loadPartialModel(inputs, "yakindu/Yakindu.xmi")
val queries = GeneralTest.loadQueries(metamodel, Patterns.instance)
// val metamodel = GeneralTest.loadMetamodel(FunctionalarchitecturePackage.eINSTANCE)
// val partialModel = GeneralTest.loadPartialModel(inputs, "FAM/FaModel.xmi")
// val queries = GeneralTest.loadQueries(metamodel, FamPatterns.instance)
// val queries = null
println("DSL loaded")
var MAX = 150
var START = 10
var INC = 20
var REPS = 1
val EXACT = 50
if (EXACT != -1) {
MAX = EXACT
START = EXACT
INC = 1
REPS = 3
}
var writer = new PrintWriter(workspace.workspaceURI + "//_yakinduStats.csv")
writer.append("size,")
for (var x = 0; x < REPS; x++) {
writer.append("tTransf" + x + "," + "tSolv" + x + ",")
}
writer.append("medSolv,medTransf\n")
var solverTimes = newArrayList
var transformationTimes = newArrayList
var modelFound = true
var LogicResult solution = null
for (var i = START; i <= MAX; i += INC) {
val num = (i - START) / INC
print("Generation " + num + ": SIZE=" + i + " Attempt: ")
writer.append(i + ",")
solverTimes.clear
transformationTimes.clear
modelFound = true
for (var j = 0; j < REPS; j++) {
print(j)
val modelGenerationProblem = ecore2Logic.transformMetamodel(metamodel, new Ecore2LogicConfiguration())
var modelExtensionProblem = instanceModel2Logic.transform(modelGenerationProblem, partialModel)
var validModelExtensionProblem = viatra2Logic.transformQueries(queries, modelExtensionProblem,
new Viatra2LogicConfiguration)
var problem = validModelExtensionProblem.output
workspace.writeModel(problem, "Yakindu.logicproblem")
// println("Problem created")
// Start Time
var startTime = System.currentTimeMillis
var VampireSolver reasoner
// *
reasoner = new VampireSolver
// /////////////////////////////////////////////////////
// Minimum Scope
// val classMapMin = new HashMap<Class, Integer>
// classMapMin.put(Region, 1)
// classMapMin.put(Transition, 2)
// classMapMin.put(CompositeElement, 3)
// val typeMapMin = GeneralTest.getTypeMap(classMapMin, metamodel, ecore2Logic, modelGenerationProblem.trace)
// Maximum Scope
// val classMapMax = new HashMap<Class, Integer>
// classMapMax.put(Region, 5)
// classMapMax.put(Transition, 2)
// classMapMax.put(Synchronization, 4)
// val typeMapMax = GeneralTest.getTypeMap(classMapMax, metamodel, ecore2Logic, modelGenerationProblem.trace)
// Define Config File
val size = i
val inc = INC
val iter = j
val vampireConfig = new VampireSolverConfiguration => [
// add configuration things, in config file first
it.documentationLevel = DocumentationLevel::FULL
it.iteration = iter
it.typeScopes.minNewElements = size - inc
it.typeScopes.maxNewElements = size
// if(typeMapMin.size != 0) it.typeScopes.minNewElementsByType = typeMapMin
// if(typeMapMin.size != 0) it.typeScopes.maxNewElementsByType = typeMapMax
it.contCycleLevel = 5
it.uniquenessDuplicates = false
]
solution = reasoner.solve(problem, vampireConfig, workspace)
// print((solution as ModelResult).representation.get(0))
val soln = ((solution as ModelResult).representation.get(0) as VampireModel)
// println(soln.confirmations)
// println((solution as ModelResult).representation)
// modelFound = !soln.confirmations.filter [
// class == VLSFiniteModelImpl
// ].isEmpty
//
// if (modelFound) {
val tTime = solution.statistics.transformationTime / 1000.0
val sTime = solution.statistics.solverTime / 1000.0
writer.append(tTime + "," + sTime + ",")
print("(" + tTime + "/" + sTime + "s)..")
solverTimes.add(sTime)
transformationTimes.add(tTime)
// } else {
// writer.append("MNF" + ",")
//// print("MNF")
// }
// println("Problem solved")
// visualisation, see
// var interpretations = reasoner.getInterpretations(solution as ModelResult)
// for (interpretation : interpretations) {
// val model = logic2Ecore.transformInterpretation(interpretation, modelGenerationProblem.trace)
// workspace.writeModel(model, "model.xmi")
// }
// var totalTimeMin = (System.currentTimeMillis - startTime) / 60000
// var totalTimeSec = ((System.currentTimeMillis - startTime) / 1000) % 60
// println("Problem solved")
// println("Time was: " + totalTimeMin + ":" + totalTimeSec)
}
println()
var solverMed = solverTimes.sort.get(REPS/2)
var transformationMed = transformationTimes.sort.get(REPS/2)
writer.append(solverMed.toString + "," + transformationMed.toString)
writer.append("\n")
}
writer.close
}
}
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