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package hu.bme.mit.inf.dslreasoner.application.execution
import hu.bme.mit.inf.dlsreasoner.alloy.reasoner.AlloyBackendSolver
import hu.bme.mit.inf.dlsreasoner.alloy.reasoner.AlloySolver
import hu.bme.mit.inf.dlsreasoner.alloy.reasoner.AlloySolverConfiguration
import hu.bme.mit.inf.dslreasoner.application.applicationConfiguration.CostObjectiveFunction
import hu.bme.mit.inf.dslreasoner.application.applicationConfiguration.ObjectiveEntry
import hu.bme.mit.inf.dslreasoner.application.applicationConfiguration.OptimizationEntry
import hu.bme.mit.inf.dslreasoner.application.applicationConfiguration.Solver
import hu.bme.mit.inf.dslreasoner.application.applicationConfiguration.ThresholdEntry
import hu.bme.mit.inf.dslreasoner.logic.model.builder.LogicSolverConfiguration
import hu.bme.mit.inf.dslreasoner.smt.reasoner.SMTSolver
import hu.bme.mit.inf.dslreasoner.smt.reasoner.SmtSolverConfiguration
import hu.bme.mit.inf.dslreasoner.viatrasolver.logic2viatra.cardinality.PolyhedralScopePropagatorConstraints
import hu.bme.mit.inf.dslreasoner.viatrasolver.logic2viatra.cardinality.PolyhedralScopePropagatorSolver
import hu.bme.mit.inf.dslreasoner.viatrasolver.logic2viatra.cardinality.ScopePropagatorStrategy
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.CostObjectiveConfiguration
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.CostObjectiveElementConfiguration
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.DiversityDescriptor
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.ExplorationStrategy
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.NumericSolverSelection
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.PunishSizeStrategy
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.ViatraReasoner
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.ViatraReasonerConfiguration
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.optimization.ObjectiveKind
import hu.bme.mit.inf.dslreasoner.viatrasolver.reasoner.optimization.ObjectiveThreshold
import hu.bme.mit.inf.dslreasoner.visualisation.pi2graphviz.GraphvizVisualiser
import java.util.List
import java.util.Map
import java.util.Optional
import org.eclipse.viatra.query.patternlanguage.emf.vql.PatternModel
import org.eclipse.xtext.EcoreUtil2
import org.eclipse.xtext.xbase.lib.Functions.Function1
class SolverLoader {
def loadSolver(Solver solver, Map<String, String> config) {
switch (solver) {
case ALLOY_SOLVER: return new AlloySolver
case SMT_SOLVER: return new SMTSolver
case VIATRA_SOLVER: return new ViatraReasoner
}
}
private def <Type> Optional<Type> getAsType(Map<String, String> config, String key, ScriptConsole console,
Function1<String, Type> parser, Class<Type> requestedType) {
if (config.containsKey(key)) {
val stringValue = config.get(key)
try {
val parsedValue = parser.apply(stringValue)
return Optional.of(parsedValue)
} catch (Exception e) {
console.writeError('''Unable to parse configuration value for "«key»" to «requestedType.simpleName»!''')
return Optional::empty
}
} else {
return Optional::empty
}
}
private def getAsInteger(Map<String, String> config, String key, ScriptConsole console) {
return getAsType(config, key, console, [x|Integer.parseInt(x)], Integer)
}
private def getAsBoolean(Map<String, String> config, String key, ScriptConsole console) {
return getAsType(config, key, console, [x|Boolean.parseBoolean(x)], Boolean)
}
private def getAsDouble(Map<String, String> config, String key, ScriptConsole console) {
return getAsType(config, key, console, [x|Double.parseDouble(x)], Double)
}
def loadSolverConfig(Solver solver, Map<String, String> config, List<ObjectiveEntry> objectiveEntries,
ScriptConsole console) {
switch (solver) {
case ALLOY_SOLVER: {
if (!objectiveEntries.empty) {
throw new IllegalArgumentException("Objectives are not supported by Alloy.")
}
val c = new AlloySolverConfiguration
config.getAsInteger("symmetry", console).ifPresent[c.symmetry = it]
config.getAsType("solver",console,[x|AlloyBackendSolver::valueOf(x)],AlloyBackendSolver).ifPresent[c.solver = it]
c
}
case SMT_SOLVER: {
if (!objectiveEntries.empty) {
throw new IllegalArgumentException("Objectives are not supported by Z3.")
}
val c = new SmtSolverConfiguration
config.getAsBoolean("fixRandomSeed", console).ifPresent[c.fixRandomSeed = it]
config.getAsType("path", console, [it], String).ifPresent[c.solverPath = it]
c
}
case VIATRA_SOLVER: {
val c = new ViatraReasonerConfiguration
c.debugConfiguration.partialInterpretatioVisualiser = new GraphvizVisualiser
if (config.containsKey("diversity-range")) {
val stringValue = config.get("diversity-range")
try {
val range = Integer.parseInt(stringValue)
c.diversityRequirement = new DiversityDescriptor => [
it.ensureDiversity = true
it.range = range
]
} catch (NumberFormatException e) {
console.writeError('''Malformed number format: «e.message»''')
}
}
if (config.containsKey("numeric-solver-at-end")) {
val stringValue = config.get("numeric-solver-at-end")
if (stringValue.equals("true")) {
println("numeric-solver-at-end")
c.runIntermediateNumericalConsistencyChecks = false
}
}
if (config.containsKey("fitness-punishSize")) {
val stringValue = config.get("fitness-punishSize")
c.punishSize = switch (stringValue) {
case "false": PunishSizeStrategy.NONE
case "true": PunishSizeStrategy.SMALLER_IS_BETTER
case "inverse": PunishSizeStrategy.LARGER_IS_BETTER
default: throw new IllegalArgumentException("Unknown punish size strategy: " + stringValue)
}
}
if (config.containsKey("fitness-scope")) {
val stringValue = config.get("fitness-scope")
c.scopeWeight = Integer.parseInt(stringValue)
}
if (config.containsKey("fitness-missing-containment")) {
val stringValue = config.get("fitness-missing-containment")
c.conaintmentWeight = Integer.parseInt(stringValue)
}
if (config.containsKey("fitness-missing-noncontainment")) {
val stringValue = config.get("fitness-missing-noncontainment")
c.nonContainmentWeight = Integer.parseInt(stringValue)
}
if (config.containsKey("fitness-missing-wf")) {
val stringValue = config.get("fitness-missing-wf")
c.unfinishedWFWeight = Integer.parseInt(stringValue)
}
if (config.containsKey("fitness-objectCreationCosts")) {
val stringValue = config.get("fitness-objectCreationCosts")
c.calculateObjectCreationCosts = Boolean.parseBoolean(stringValue)
}
if (config.containsKey("numeric-solver")) {
val stringValue = config.get("numeric-solver")
c.numericSolverSelection = switch (stringValue) {
case "dreal-docker": NumericSolverSelection.DREAL_DOCKER
case "dreal-local": NumericSolverSelection.DREAL_LOCAL
case "z3": NumericSolverSelection.Z3
default: throw new IllegalArgumentException("Unknown numeric solver selection: " + stringValue)
}
}
if (config.containsKey("dreal-local-path")) {
val stringValue = config.get("dreal-local-path")
if (!stringValue.equals("")){
c.drealLocalPath = stringValue;
}
}
if (config.containsKey("dreal-timeout")) {
val stringValue = config.get("dreal-timeout")
c.drealTimeout = Integer.parseInt(stringValue)
}
if (config.containsKey("scopePropagator")) {
val stringValue = config.get("scopePropagator")
c.scopePropagatorStrategy = switch (stringValue) {
case "polyhedral": new ScopePropagatorStrategy.Polyhedral(
PolyhedralScopePropagatorConstraints.Relational, PolyhedralScopePropagatorSolver.Clp, true)
case "hybrid": new ScopePropagatorStrategy.Polyhedral(
PolyhedralScopePropagatorConstraints.Relational, PolyhedralScopePropagatorSolver.Clp, false)
case "typeHierarchy": ScopePropagatorStrategy.BasicTypeHierarchy
default: throw new IllegalArgumentException("Unknown scope propagator: " + stringValue)
}
}
if (config.containsKey("ignored-attributes")) {
val stringValue = config.get("ignored-attributes")
c.ignoredAttributesMap = parseIgnoredAttributes(stringValue)
}
if (config.containsKey("strategy")) {
val stringValue = config.get("strategy")
c.strategy = switch (stringValue) {
case "none": ExplorationStrategy.None
case "crossingScenario": ExplorationStrategy.CrossingScenario
case "cs-hacker": ExplorationStrategy.CSHacker
default: throw new IllegalArgumentException("Unknown strategy: " + stringValue)
}
}
for (objectiveEntry : objectiveEntries) {
val costObjectiveConfig = new CostObjectiveConfiguration
switch (objectiveEntry) {
OptimizationEntry: {
costObjectiveConfig.findExtremum = true
costObjectiveConfig.kind = switch (direction : objectiveEntry.direction) {
case MAXIMIZE:
ObjectiveKind.HIGHER_IS_BETTER
case MINIMIZE:
ObjectiveKind.LOWER_IS_BETTER
default:
throw new IllegalArgumentException("Unknown direction: " + direction)
}
costObjectiveConfig.threshold = ObjectiveThreshold.NO_THRESHOLD
}
ThresholdEntry: {
costObjectiveConfig.findExtremum = false
val threshold = objectiveEntry.threshold.doubleValue
switch (operator : objectiveEntry.operator) {
case LESS: {
costObjectiveConfig.kind = ObjectiveKind.LOWER_IS_BETTER
costObjectiveConfig.threshold = new ObjectiveThreshold.Exclusive(threshold)
}
case GREATER: {
costObjectiveConfig.kind = ObjectiveKind.HIGHER_IS_BETTER
costObjectiveConfig.threshold = new ObjectiveThreshold.Exclusive(threshold)
}
case LESS_EQUALS: {
costObjectiveConfig.kind = ObjectiveKind.LOWER_IS_BETTER
costObjectiveConfig.threshold = new ObjectiveThreshold.Exclusive(threshold)
}
case GREATER_EQUALS: {
costObjectiveConfig.kind = ObjectiveKind.HIGHER_IS_BETTER
costObjectiveConfig.threshold = new ObjectiveThreshold.Exclusive(threshold)
}
default:
throw new IllegalArgumentException("Unknown operator: " + operator)
}
}
}
val function = objectiveEntry.function
if (function instanceof CostObjectiveFunction) {
for (costEntry : function.entries) {
val element = new CostObjectiveElementConfiguration
val pattern = costEntry.patternElement.pattern
val packageName = costEntry.patternElement.package?.packageName ?:
EcoreUtil2.getContainerOfType(pattern, PatternModel)?.packageName
element.patternQualifiedName = if (packageName.nullOrEmpty) {
pattern.name
} else {
packageName + "." + pattern.name
}
element.weight = costEntry.weight
costObjectiveConfig.elements += element
}
} else {
throw new IllegalArgumentException("Only cost objectives are supported by VIATRA.")
}
c.costObjectives += costObjectiveConfig
}
c
}
default:
throw new UnsupportedOperationException('''Unknown solver: «solver»''')
}
}
def Map<String, Map<String, String>> parseIgnoredAttributes(String input) {
val Map<String, Map<String, String>> clAttVal = newHashMap
val List<String> entries = input.split(",")
//TODO add some validation here
for (entry : entries) {
val List<String> components = entry.split("=")
if (components.size != 2)
throw new IllegalArgumentException("Invalid ignoredAttributes Specification: \"" + entry + "\"")
val clAtt = components.get(0)
val List<String> clAttArray = clAtt.split("\\.")
if (clAttArray.size != 2)
throw new IllegalArgumentException("Invalid attribute specification : \"" + clAtt + "\"")
val c = clAttArray.get(0).strip
val a = clAttArray.get(1).strip
val v = components.get(1).strip
val clInMap = clAttVal.get(c)
if (clInMap === null) {
clAttVal.put(c, newHashMap(a -> v))
} else {
clInMap.put(a, v)
}
}
return clAttVal
}
def dispatch void setRunIndex(AlloySolverConfiguration config, Map<String, String> parameters, int runIndex,
ScriptConsole console) {
parameters.getAsBoolean("randomize", console).ifPresent [
if (it) {
config.randomise = runIndex - 1
}
]
}
def dispatch void setRunIndex(LogicSolverConfiguration config, Map<String, String> parameters, int runIndex,
ScriptConsole console) {
}
}
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