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package hu.bme.mit.inf.dslreasoner.viatrasolver.logic2viatra.rules
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.DefinedElement
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.LogiclanguageFactory
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.Relation
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.RelationDeclaration
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.Type
import hu.bme.mit.inf.dslreasoner.viatrasolver.logic2viatra.ModelGenerationStatistics
import hu.bme.mit.inf.dslreasoner.viatrasolver.logic2viatra.ScopePropagator
import hu.bme.mit.inf.dslreasoner.viatrasolver.logic2viatra.patterns.GeneratedPatterns
import hu.bme.mit.inf.dslreasoner.viatrasolver.logic2viatra.patterns.ObjectCreationPrecondition
import hu.bme.mit.inf.dslreasoner.viatrasolver.partialinterpretationlanguage.partialinterpretation.PartialComplexTypeInterpretation
import hu.bme.mit.inf.dslreasoner.viatrasolver.partialinterpretationlanguage.partialinterpretation.PartialInterpretation
import hu.bme.mit.inf.dslreasoner.viatrasolver.partialinterpretationlanguage.partialinterpretation.PartialRelationInterpretation
import hu.bme.mit.inf.dslreasoner.viatrasolver.partialinterpretationlanguage.partialinterpretation.PartialinterpretationFactory
import java.util.LinkedHashMap
import org.eclipse.viatra.query.runtime.api.GenericPatternMatch
import org.eclipse.viatra.query.runtime.api.IQuerySpecification
import org.eclipse.viatra.query.runtime.api.ViatraQueryMatcher
import org.eclipse.viatra.transformation.runtime.emf.rules.batch.BatchTransformationRule
import org.eclipse.viatra.transformation.runtime.emf.rules.batch.BatchTransformationRuleFactory
class RefinementRuleProvider {
private extension BatchTransformationRuleFactory factory = new BatchTransformationRuleFactory
private extension PartialinterpretationFactory factory2 = PartialinterpretationFactory.eINSTANCE
private extension LogiclanguageFactory factory3 = LogiclanguageFactory.eINSTANCE
def canonizeName(String name) {
return name.replace(' ','_')
}
def LinkedHashMap<ObjectCreationPrecondition, BatchTransformationRule<GenericPatternMatch, ViatraQueryMatcher<GenericPatternMatch>>>
createObjectRefinementRules(
GeneratedPatterns patterns,
ScopePropagator scopePropagator,
boolean nameNewElement,
ModelGenerationStatistics statistics
)
{
val res = new LinkedHashMap
for(LHSEntry: patterns.refineObjectQueries.entrySet) {
val containmentRelation = LHSEntry.key.containmentRelation
val inverseRelation = LHSEntry.key.inverseContainment
val type = LHSEntry.key.newType
val lhs = LHSEntry.value as IQuerySpecification<ViatraQueryMatcher<GenericPatternMatch>>
val rule = createObjectCreationRule(containmentRelation,inverseRelation,type,lhs,nameNewElement,scopePropagator,statistics)
res.put(LHSEntry.key,rule)
}
return res
}
def private createObjectCreationRule(
Relation containmentRelation,
Relation inverseRelation,
Type type,
IQuerySpecification<ViatraQueryMatcher<GenericPatternMatch>> lhs,
boolean nameNewElement,
ScopePropagator scopePropagator,
ModelGenerationStatistics statistics)
{
val name = '''addObject_«type.name.canonizeName»«
IF containmentRelation!=null»_by_«containmentRelation.name.canonizeName»«ENDIF»'''
//println("Rule created: " + name + "> " + lhs.fullyQualifiedName)
val ruleBuilder = factory.createRule
.name(name)
.precondition(lhs)
if(containmentRelation != null) {
if(inverseRelation!= null) {
ruleBuilder.action[match |
//println(name)
val startTime = System.nanoTime
//val problem = match.get(0) as LogicProblem
val interpretation = match.get(1) as PartialInterpretation
val relationInterpretation = match.get(2) as PartialRelationInterpretation
val inverseRelationInterpretation = match.get(3) as PartialRelationInterpretation
val typeInterpretation = match.get(4) as PartialComplexTypeInterpretation
val container = match.get(5) as DefinedElement
val newElement = createDefinedElement
if(nameNewElement) {
newElement.name = '''new «interpretation.newElements.size»'''
}
// Existence
interpretation.newElements+=newElement
/*interpretation.maxNewElements=interpretation.maxNewElements-1
if(interpretation.minNewElements > 0) {
interpretation.minNewElements=interpretation.minNewElements-1
}*/
// Types
typeInterpretation.elements += newElement
typeInterpretation.supertypeInterpretation.forEach[it.elements += newElement]
// ContainmentRelation
val newLink1 = factory2.createBinaryElementRelationLink => [it.param1 = container it.param2 = newElement]
relationInterpretation.relationlinks+=newLink1
// Inverse Containment
val newLink2 = factory2.createBinaryElementRelationLink => [it.param1 = newElement it.param2 = container]
inverseRelationInterpretation.relationlinks+=newLink2
// Scope propagation
scopePropagator.propagateAdditionToType(typeInterpretation)
statistics.addExecutionTime(System.nanoTime-startTime)
]
} else {
ruleBuilder.action[match |
//println(name)
val startTime = System.nanoTime
//val problem = match.get(0) as LogicProblem
val interpretation = match.get(1) as PartialInterpretation
val relationInterpretation = match.get(2) as PartialRelationInterpretation
val typeInterpretation = match.get(3) as PartialComplexTypeInterpretation
val container = match.get(4) as DefinedElement
val newElement = createDefinedElement
if(nameNewElement) {
newElement.name = '''new «interpretation.newElements.size»'''
}
// Existence
interpretation.newElements+=newElement
/*interpretation.maxNewElements=interpretation.maxNewElements-1
if(interpretation.minNewElements > 0) {
interpretation.minNewElements=interpretation.minNewElements-1
}*/
// Types
typeInterpretation.elements += newElement
typeInterpretation.supertypeInterpretation.forEach[it.elements += newElement]
// ContainmentRelation
val newLink = factory2.createBinaryElementRelationLink => [it.param1 = container it.param2 = newElement]
relationInterpretation.relationlinks+=newLink
// Scope propagation
scopePropagator.propagateAdditionToType(typeInterpretation)
statistics.addExecutionTime(System.nanoTime-startTime)
]
}
} else {
ruleBuilder.action[match |
val startTime = System.nanoTime
//val problem = match.get(0) as LogicProblem
val interpretation = match.get(1) as PartialInterpretation
val typeInterpretation = match.get(2) as PartialComplexTypeInterpretation
val newElement = createDefinedElement
if(nameNewElement) {
newElement.name = '''new «interpretation.newElements.size»'''
}
// Existence
interpretation.newElements+=newElement
/*
interpretation.maxNewElements=interpretation.maxNewElements-1
if(interpretation.minNewElements > 0) {
interpretation.minNewElements=interpretation.minNewElements-1
}*/
// Types
typeInterpretation.elements += newElement
typeInterpretation.supertypeInterpretation.forEach[it.elements += newElement]
// Scope propagation
scopePropagator.propagateAdditionToType(typeInterpretation)
statistics.addExecutionTime(System.nanoTime-startTime)
]
}
return ruleBuilder.build
}
def createRelationRefinementRules(GeneratedPatterns patterns, ModelGenerationStatistics statistics) {
val res = new LinkedHashMap
for(LHSEntry: patterns.refinerelationQueries.entrySet) {
val declaration = LHSEntry.key.key
val inverseReference = LHSEntry.key.value
val lhs = LHSEntry.value as IQuerySpecification<ViatraQueryMatcher<GenericPatternMatch>>
val rule = createRelationRefinementRule(declaration,inverseReference,lhs,statistics)
res.put(LHSEntry.key,rule)
}
return res
}
def private BatchTransformationRule<GenericPatternMatch, ViatraQueryMatcher<GenericPatternMatch>>
createRelationRefinementRule(RelationDeclaration declaration, Relation inverseRelation, IQuerySpecification<ViatraQueryMatcher<GenericPatternMatch>> lhs, ModelGenerationStatistics statistics)
{
val name = '''addRelation_«declaration.name.canonizeName»«IF inverseRelation != null»_and_«inverseRelation.name.canonizeName»«ENDIF»'''
val ruleBuilder = factory.createRule
.name(name)
.precondition(lhs)
if (inverseRelation == null) {
ruleBuilder.action [ match |
val startTime = System.nanoTime
//println(name)
// val problem = match.get(0) as LogicProblem
// val interpretation = match.get(1) as PartialInterpretation
val relationInterpretation = match.get(2) as PartialRelationInterpretation
val src = match.get(3) as DefinedElement
val trg = match.get(4) as DefinedElement
val link = createBinaryElementRelationLink => [it.param1 = src it.param2 = trg]
relationInterpretation.relationlinks += link
statistics.addExecutionTime(System.nanoTime-startTime)
]
} else {
ruleBuilder.action [ match |
val startTime = System.nanoTime
//println(name)
// val problem = match.get(0) as LogicProblem
// val interpretation = match.get(1) as PartialInterpretation
val relationInterpretation = match.get(2) as PartialRelationInterpretation
val inverseInterpretation = match.get(3) as PartialRelationInterpretation
val src = match.get(4) as DefinedElement
val trg = match.get(5) as DefinedElement
val link = createBinaryElementRelationLink => [it.param1 = src it.param2 = trg]
relationInterpretation.relationlinks += link
val inverseLink = createBinaryElementRelationLink => [it.param1 = trg it.param2 = src]
inverseInterpretation.relationlinks += inverseLink
statistics.addExecutionTime(System.nanoTime-startTime)
]
}
return ruleBuilder.build
}
}
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