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package ca.mcgill.ecse.dslreasoner.vampire.reasoner.builder;
import ca.mcgill.ecse.dslreasoner.vampire.reasoner.builder.Logic2VampireLanguageMapper;
import ca.mcgill.ecse.dslreasoner.vampire.reasoner.builder.Logic2VampireLanguageMapperTrace;
import ca.mcgill.ecse.dslreasoner.vampire.reasoner.builder.Logic2VampireLanguageMapper_Support;
import ca.mcgill.ecse.dslreasoner.vampire.reasoner.builder.Logic2VampireLanguageMapper_TypeMapper;
import ca.mcgill.ecse.dslreasoner.vampire.reasoner.builder.VampireModelInterpretation_TypeInterpretation;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSDoubleQuote;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSEquivalent;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSFofFormula;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSFunction;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSTerm;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSUnaryNegation;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSUniversalQuantifier;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSVariable;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VampireLanguageFactory;
import com.google.common.base.Objects;
import com.google.common.collect.Iterables;
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.DefinedElement;
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.Type;
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.TypeDefinition;
import hu.bme.mit.inf.dslreasoner.logic.model.logicproblem.LogicproblemPackage;
import hu.bme.mit.inf.dslreasoner.util.CollectionsUtil;
import java.util.ArrayList;
import java.util.Collection;
import java.util.List;
import org.eclipse.emf.common.util.EList;
import org.eclipse.xtext.xbase.lib.CollectionLiterals;
import org.eclipse.xtext.xbase.lib.Extension;
import org.eclipse.xtext.xbase.lib.Functions.Function1;
import org.eclipse.xtext.xbase.lib.IterableExtensions;
import org.eclipse.xtext.xbase.lib.ObjectExtensions;
import org.eclipse.xtext.xbase.lib.Procedures.Procedure1;
@SuppressWarnings("all")
public class Logic2VampireLanguageMapper_TypeMapper_FilteredTypes implements Logic2VampireLanguageMapper_TypeMapper {
private final Logic2VampireLanguageMapper_Support support = new Logic2VampireLanguageMapper_Support();
@Extension
private final VampireLanguageFactory factory = VampireLanguageFactory.eINSTANCE;
public Logic2VampireLanguageMapper_TypeMapper_FilteredTypes() {
LogicproblemPackage.eINSTANCE.getClass();
}
@Override
public void transformTypes(final Collection<Type> types, final Collection<DefinedElement> elements, final Logic2VampireLanguageMapper mapper, final Logic2VampireLanguageMapperTrace trace) {
VLSVariable _createVLSVariable = this.factory.createVLSVariable();
final Procedure1<VLSVariable> _function = (VLSVariable it) -> {
it.setName("A");
};
final VLSVariable variable = ObjectExtensions.<VLSVariable>operator_doubleArrow(_createVLSVariable, _function);
for (final Type type : types) {
{
VLSFunction _createVLSFunction = this.factory.createVLSFunction();
final Procedure1<VLSFunction> _function_1 = (VLSFunction it) -> {
it.setConstant(this.support.toIDMultiple("t", type.getName().split(" ")[0]));
EList<VLSTerm> _terms = it.getTerms();
VLSVariable _duplicate = this.support.duplicate(variable);
_terms.add(_duplicate);
};
final VLSFunction typePred = ObjectExtensions.<VLSFunction>operator_doubleArrow(_createVLSFunction, _function_1);
trace.type2Predicate.put(type, typePred);
}
}
Iterable<TypeDefinition> _filter = Iterables.<TypeDefinition>filter(types, TypeDefinition.class);
for (final TypeDefinition type_1 : _filter) {
{
final List<VLSFunction> orElems = CollectionLiterals.<VLSFunction>newArrayList();
EList<DefinedElement> _elements = type_1.getElements();
for (final DefinedElement e : _elements) {
{
VLSFunction _createVLSFunction = this.factory.createVLSFunction();
final Procedure1<VLSFunction> _function_1 = (VLSFunction it) -> {
it.setConstant(this.support.toIDMultiple("e", e.getName().split(" ")[0], e.getName().split(" ")[2]));
EList<VLSTerm> _terms = it.getTerms();
VLSVariable _duplicate = this.support.duplicate(variable);
_terms.add(_duplicate);
};
final VLSFunction enumElemPred = ObjectExtensions.<VLSFunction>operator_doubleArrow(_createVLSFunction, _function_1);
trace.element2Predicate.put(e, enumElemPred);
orElems.add(enumElemPred);
}
}
VLSFofFormula _createVLSFofFormula = this.factory.createVLSFofFormula();
final Procedure1<VLSFofFormula> _function_1 = (VLSFofFormula it) -> {
it.setName(this.support.toIDMultiple("typeDef", type_1.getName().split(" ")[0]));
it.setFofRole("axiom");
VLSUniversalQuantifier _createVLSUniversalQuantifier = this.factory.createVLSUniversalQuantifier();
final Procedure1<VLSUniversalQuantifier> _function_2 = (VLSUniversalQuantifier it_1) -> {
EList<VLSVariable> _variables = it_1.getVariables();
VLSVariable _duplicate = this.support.duplicate(variable);
_variables.add(_duplicate);
VLSEquivalent _createVLSEquivalent = this.factory.createVLSEquivalent();
final Procedure1<VLSEquivalent> _function_3 = (VLSEquivalent it_2) -> {
it_2.setLeft(CollectionsUtil.<TypeDefinition, VLSFunction>lookup(type_1, trace.type2Predicate));
it_2.setRight(this.support.unfoldOr(orElems));
};
VLSEquivalent _doubleArrow = ObjectExtensions.<VLSEquivalent>operator_doubleArrow(_createVLSEquivalent, _function_3);
it_1.setOperand(_doubleArrow);
};
VLSUniversalQuantifier _doubleArrow = ObjectExtensions.<VLSUniversalQuantifier>operator_doubleArrow(_createVLSUniversalQuantifier, _function_2);
it.setFofFormula(_doubleArrow);
};
final VLSFofFormula res = ObjectExtensions.<VLSFofFormula>operator_doubleArrow(_createVLSFofFormula, _function_1);
EList<VLSFofFormula> _formulas = trace.specification.getFormulas();
_formulas.add(res);
}
}
final Function1<Type, Boolean> _function_1 = (Type it) -> {
boolean _isIsAbstract = it.isIsAbstract();
return Boolean.valueOf((!_isIsAbstract));
};
Iterable<Type> _filter_1 = IterableExtensions.<Type>filter(types, _function_1);
for (final Type t1 : _filter_1) {
{
for (final Type t2 : types) {
if ((Objects.equal(t1, t2) || this.support.dfsSupertypeCheck(t1, t2))) {
trace.type2PossibleNot.put(t2, this.support.duplicate(CollectionsUtil.<Type, VLSFunction>lookup(t2, trace.type2Predicate)));
} else {
VLSUnaryNegation _createVLSUnaryNegation = this.factory.createVLSUnaryNegation();
final Procedure1<VLSUnaryNegation> _function_2 = (VLSUnaryNegation it) -> {
it.setOperand(this.support.duplicate(CollectionsUtil.<Type, VLSFunction>lookup(t2, trace.type2Predicate)));
};
VLSUnaryNegation _doubleArrow = ObjectExtensions.<VLSUnaryNegation>operator_doubleArrow(_createVLSUnaryNegation, _function_2);
trace.type2PossibleNot.put(t2, _doubleArrow);
}
}
Collection<VLSTerm> _values = trace.type2PossibleNot.values();
ArrayList<VLSTerm> _arrayList = new ArrayList<VLSTerm>(_values);
trace.type2And.put(t1, this.support.unfoldAnd(_arrayList));
trace.type2PossibleNot.clear();
}
}
VLSFofFormula _createVLSFofFormula = this.factory.createVLSFofFormula();
final Procedure1<VLSFofFormula> _function_2 = (VLSFofFormula it) -> {
it.setName("hierarchyHandler");
it.setFofRole("axiom");
VLSUniversalQuantifier _createVLSUniversalQuantifier = this.factory.createVLSUniversalQuantifier();
final Procedure1<VLSUniversalQuantifier> _function_3 = (VLSUniversalQuantifier it_1) -> {
EList<VLSVariable> _variables = it_1.getVariables();
VLSVariable _duplicate = this.support.duplicate(variable);
_variables.add(_duplicate);
VLSEquivalent _createVLSEquivalent = this.factory.createVLSEquivalent();
final Procedure1<VLSEquivalent> _function_4 = (VLSEquivalent it_2) -> {
it_2.setLeft(this.support.topLevelTypeFunc());
Collection<VLSTerm> _values = trace.type2And.values();
ArrayList<VLSTerm> _arrayList = new ArrayList<VLSTerm>(_values);
it_2.setRight(this.support.unfoldOr(_arrayList));
};
VLSEquivalent _doubleArrow = ObjectExtensions.<VLSEquivalent>operator_doubleArrow(_createVLSEquivalent, _function_4);
it_1.setOperand(_doubleArrow);
};
VLSUniversalQuantifier _doubleArrow = ObjectExtensions.<VLSUniversalQuantifier>operator_doubleArrow(_createVLSUniversalQuantifier, _function_3);
it.setFofFormula(_doubleArrow);
};
final VLSFofFormula hierarch = ObjectExtensions.<VLSFofFormula>operator_doubleArrow(_createVLSFofFormula, _function_2);
EList<VLSFofFormula> _formulas = trace.specification.getFormulas();
_formulas.add(hierarch);
}
@Override
public List<VLSTerm> transformTypeReference(final Type referred, final Logic2VampireLanguageMapper mapper, final Logic2VampireLanguageMapperTrace trace) {
throw new UnsupportedOperationException("TODO: auto-generated method stub");
}
@Override
public VLSTerm getUndefinedSupertype(final Logic2VampireLanguageMapperTrace trace) {
throw new UnsupportedOperationException("TODO: auto-generated method stub");
}
@Override
public int getUndefinedSupertypeScope(final int undefinedScope, final Logic2VampireLanguageMapperTrace trace) {
throw new UnsupportedOperationException("TODO: auto-generated method stub");
}
@Override
public VLSTerm transformReference(final DefinedElement referred, final Logic2VampireLanguageMapperTrace trace) {
VLSDoubleQuote _createVLSDoubleQuote = this.factory.createVLSDoubleQuote();
final Procedure1<VLSDoubleQuote> _function = (VLSDoubleQuote it) -> {
String _name = referred.getName();
String _plus = ("\"a" + _name);
String _plus_1 = (_plus + "\"");
it.setValue(_plus_1);
};
return ObjectExtensions.<VLSDoubleQuote>operator_doubleArrow(_createVLSDoubleQuote, _function);
}
@Override
public VampireModelInterpretation_TypeInterpretation getTypeInterpreter() {
throw new UnsupportedOperationException("TODO: auto-generated method stub");
}
}
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