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package ca.mcgill.ecse.dslreasoner.vampire.reasoner.builder
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSConstant
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSFunction
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSInequality
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSTerm
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSVariable
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VampireLanguageFactory
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.ComplexTypeReference
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.QuantifiedExpression
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.Term
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.Type
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.Variable
import java.util.ArrayList
import java.util.HashMap
import java.util.List
import java.util.Map
import org.eclipse.emf.common.util.EList
class Logic2VampireLanguageMapper_Support {
private val extension VampireLanguageFactory factory = VampireLanguageFactory.eINSTANCE
// ID Handler
def protected String toIDMultiple(String... ids) {
ids.map[it.split("\\s+").join("_")].join("_")
}
def protected String toID(String ids) {
ids.split("\\s+").join("_")
}
//Term Handling
//TODO Make more general
def protected VLSVariable duplicate(VLSVariable term) {
return createVLSVariable => [it.name = term.name]
}
def protected VLSFunction duplicate(VLSFunction term) {
return createVLSFunction => [
it.constant = term.constant
for ( v : term.terms){
it.terms += duplicate(v as VLSVariable)
}
]
}
def protected VLSFunction duplicate(VLSFunction term, VLSVariable v) {
return createVLSFunction => [
it.constant = term.constant
it.terms += duplicate(v)
]
}
def protected VLSFunction topLevelTypeFunc() {
return createVLSFunction => [
it.constant = "object"
it.terms += createVLSVariable => [
it.name = "A"
]
]
}
//TODO Make more general
def establishUniqueness(List<VLSConstant> terms) {
val List<VLSInequality> eqs = newArrayList
for (t1 : terms.subList(1, terms.length)){
for (t2 : terms.subList(0, terms.indexOf(t1))){
val eq = createVLSInequality => [
//TEMP
it.left = createVLSConstant => [it.name = t2.name]
it.right = createVLSConstant => [it.name = t1.name]
//TEMP
]
eqs.add(eq)
}
}
return unfoldAnd(eqs)
}
// Support Functions
// booleans
// AND and OR
def protected VLSTerm unfoldAnd(List<? extends VLSTerm> operands) {
if (operands.size == 1) {
return operands.head
} else if (operands.size > 1) {
return createVLSAnd => [
left = operands.head
right = operands.subList(1, operands.size).unfoldAnd
]
} else
throw new UnsupportedOperationException('''Logic operator with 0 operands!''')
}
def protected VLSTerm unfoldOr(List<? extends VLSTerm> operands) {
// if(operands.size == 0) {basically return true}
/*else*/ if (operands.size == 1) {
return operands.head
} else if (operands.size > 1) {
return createVLSOr => [
left = operands.head
right = operands.subList(1, operands.size).unfoldOr
]
} else
throw new UnsupportedOperationException('''Logic operator with 0 operands!''') // TEMP
}
def protected VLSTerm unfoldDistinctTerms(Logic2VampireLanguageMapper m, EList<Term> operands,
Logic2VampireLanguageMapperTrace trace, Map<Variable, VLSVariable> variables) {
if (operands.size == 1) {
return m.transformTerm(operands.head, trace, variables)
} else if (operands.size > 1) {
val notEquals = new ArrayList<VLSTerm>(operands.size * operands.size / 2)
for (i : 0 ..< operands.size) {
for (j : i + 1 ..< operands.size) {
notEquals += createVLSInequality => [
it.left = m.transformTerm(operands.get(i), trace, variables)
it.right = m.transformTerm(operands.get(j), trace, variables)
]
}
}
return notEquals.unfoldAnd
} else
throw new UnsupportedOperationException('''Logic operator with 0 operands!''')
}
// Symbolic
// def postprocessResultOfSymbolicReference(TypeReference type, VLSTerm term, Logic2VampireLanguageMapperTrace trace) {
// if(type instanceof BoolTypeReference) {
// return booleanToLogicValue(term ,trace)
// }
// else return term
// }
// def booleanToLogicValue(VLSTerm term, Logic2VampireLanguageMapperTrace trace) {
// throw new UnsupportedOperationException("TODO: auto-generated method stub")
// }
/*
* def protected String toID(List<String> ids) {
* ids.map[it.split("\\s+").join("'")].join("'")
* }
*/
// QUANTIFIERS + VARIABLES
def protected VLSTerm createUniversallyQuantifiedExpression(Logic2VampireLanguageMapper mapper,
QuantifiedExpression expression, Logic2VampireLanguageMapperTrace trace, Map<Variable, VLSVariable> variables) {
val variableMap = expression.quantifiedVariables.toInvertedMap [ v |
createVLSVariable => [it.name = toIDMultiple("Var", v.name)]
]
val typedefs = new ArrayList<VLSTerm>
for (variable : expression.quantifiedVariables) {
val eq = createVLSFunction => [
it.constant = toIDMultiple("t", (variable.range as ComplexTypeReference).referred.name)
it.terms += createVLSVariable => [
it.name = toIDMultiple("Var", variable.name)
]
]
typedefs.add(eq)
}
createVLSUniversalQuantifier => [
it.variables += variableMap.values
it.operand = createVLSImplies => [
it.left = unfoldAnd(typedefs)
it.right = mapper.transformTerm(expression.expression, trace, variables.withAddition(variableMap))
]
]
}
def protected VLSTerm createExistentiallyQuantifiedExpression(Logic2VampireLanguageMapper mapper,
QuantifiedExpression expression, Logic2VampireLanguageMapperTrace trace, Map<Variable, VLSVariable> variables) {
val variableMap = expression.quantifiedVariables.toInvertedMap [ v |
createVLSVariable => [it.name = toIDMultiple("Var", v.name)]
]
val typedefs = new ArrayList<VLSTerm>
for (variable : expression.quantifiedVariables) {
val eq = createVLSFunction => [
it.constant = toIDMultiple("t", (variable.range as ComplexTypeReference).referred.name)
it.terms += createVLSVariable => [
it.name = toIDMultiple("Var", variable.name)
]
]
typedefs.add(eq)
}
typedefs.add(mapper.transformTerm(expression.expression, trace, variables.withAddition(variableMap)))
createVLSExistentialQuantifier => [
it.variables += variableMap.values
it.operand = unfoldAnd(typedefs)
]
}
def protected boolean dfsSupertypeCheck(Type type, Type type2) {
// There is surely a better way to do this
if (type.supertypes.isEmpty)
return false
else {
if (type.supertypes.contains(type2))
return true
else {
for (supertype : type.supertypes) {
if(dfsSupertypeCheck(supertype, type2)) return true
}
}
}
}
def protected withAddition(Map<Variable, VLSVariable> map1, Map<Variable, VLSVariable> map2) {
new HashMap(map1) => [putAll(map2)]
}
}
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