path: root/Solvers/Vampire-Solver/ca.mcgill.ecse.dslreasoner.vampire.reasoner/xtend-gen/ca/mcgill/ecse/dslreasoner/vampire/reasoner/builder/Logic2VampireLanguageMapper_ScopeMapper.java

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.vampireLanguage.VLSConstant;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSEquality;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSFofFormula;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSImplies;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSTerm;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSUniversalQuantifier;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VLSVariable;
import ca.mcgill.ecse.dslreasoner.vampireLanguage.VampireLanguageFactory;
import hu.bme.mit.inf.dslreasoner.logic.model.builder.LogicSolverConfiguration;
import hu.bme.mit.inf.dslreasoner.logic.model.logiclanguage.Type;
import hu.bme.mit.inf.dslreasoner.util.CollectionsUtil;
import java.util.ArrayList;
import java.util.Set;
import org.eclipse.emf.common.util.EList;
import org.eclipse.xtext.xbase.lib.CollectionLiterals;
import org.eclipse.xtext.xbase.lib.Conversions;
import org.eclipse.xtext.xbase.lib.Extension;
import org.eclipse.xtext.xbase.lib.Functions.Function1;
import org.eclipse.xtext.xbase.lib.ListExtensions;
import org.eclipse.xtext.xbase.lib.ObjectExtensions;
import org.eclipse.xtext.xbase.lib.Procedures.Procedure1;

@SuppressWarnings("all")
public class Logic2VampireLanguageMapper_ScopeMapper {
  @Extension
  private final VampireLanguageFactory factory = VampireLanguageFactory.eINSTANCE;
  
  private final Logic2VampireLanguageMapper_Support support = new Logic2VampireLanguageMapper_Support();
  
  private final Logic2VampireLanguageMapper base;
  
  private final VLSVariable variable = ObjectExtensions.<VLSVariable>operator_doubleArrow(this.factory.createVLSVariable(), ((Procedure1<VLSVariable>) (VLSVariable it) -> {
    it.setName("A");
  }));
  
  public Logic2VampireLanguageMapper_ScopeMapper(final Logic2VampireLanguageMapper base) {
    this.base = base;
  }
  
  public void _transformScope(final LogicSolverConfiguration config, final Logic2VampireLanguageMapperTrace trace) {
    final int GLOBAL_MIN = config.typeScopes.minNewElements;
    final int GLOBAL_MAX = config.typeScopes.maxNewElements;
    final ArrayList<Object> localInstances = CollectionLiterals.<Object>newArrayList();
    if ((GLOBAL_MIN != 0)) {
      this.getInstanceConstants(GLOBAL_MIN, 0, localInstances, trace, false);
      this.makeFofFormula(localInstances, trace, true, "object");
    }
    if ((GLOBAL_MAX != 0)) {
      this.getInstanceConstants(GLOBAL_MAX, 0, localInstances, trace, true);
      this.makeFofFormula(localInstances, trace, false, "object");
    }
    int i = 0;
    int minNum = (-1);
    Set<Type> _keySet = config.typeScopes.minNewElementsByType.keySet();
    for (final Type t : _keySet) {
      {
        minNum = (CollectionsUtil.<Type, Integer>lookup(t, config.typeScopes.minNewElementsByType)).intValue();
        if ((minNum != 0)) {
          this.getInstanceConstants((i + minNum), i, localInstances, trace, false);
          int _i = i;
          i = (_i + minNum);
          this.makeFofFormula(localInstances, trace, true, t.toString());
        }
      }
    }
    Set<Type> _keySet_1 = config.typeScopes.maxNewElementsByType.keySet();
    for (final Type t_1 : _keySet_1) {
      {
        Integer maxNum = CollectionsUtil.<Type, Integer>lookup(t_1, config.typeScopes.maxNewElementsByType);
        minNum = (CollectionsUtil.<Type, Integer>lookup(t_1, config.typeScopes.minNewElementsByType)).intValue();
        if (((maxNum).intValue() != 0)) {
          int forLimit = Math.min(GLOBAL_MAX, ((i + (maxNum).intValue()) - minNum));
          this.getInstanceConstants(GLOBAL_MAX, i, localInstances, trace, false);
          this.makeFofFormula(localInstances, trace, false, t_1.toString());
        }
      }
    }
    int _length = ((Object[])Conversions.unwrapArray(trace.uniqueInstances, Object.class)).length;
    boolean _notEquals = (_length != 0);
    if (_notEquals) {
      VLSFofFormula _createVLSFofFormula = this.factory.createVLSFofFormula();
      final Procedure1<VLSFofFormula> _function = (VLSFofFormula it) -> {
        it.setName("typeUniqueness");
        it.setFofRole("axiom");
        it.setFofFormula(this.support.establishUniqueness(trace.uniqueInstances));
      };
      final VLSFofFormula uniqueness = ObjectExtensions.<VLSFofFormula>operator_doubleArrow(_createVLSFofFormula, _function);
      EList<VLSFofFormula> _formulas = trace.specification.getFormulas();
      _formulas.add(uniqueness);
    }
  }
  
  protected void getInstanceConstants(final int numElems, final int init, final ArrayList list, final Logic2VampireLanguageMapperTrace trace, final boolean addToTrace) {
    list.clear();
    for (int i = init; (i < numElems); i++) {
      {
        final int num = (i + 1);
        VLSConstant _createVLSConstant = this.factory.createVLSConstant();
        final Procedure1<VLSConstant> _function = (VLSConstant it) -> {
          it.setName(("o" + Integer.valueOf(num)));
        };
        final VLSConstant cst = ObjectExtensions.<VLSConstant>operator_doubleArrow(_createVLSConstant, _function);
        if (addToTrace) {
          trace.uniqueInstances.add(cst);
        }
        list.add(cst);
      }
    }
  }
  
  protected void makeFofFormula(final ArrayList list, final Logic2VampireLanguageMapperTrace trace, final boolean minimum, final String name) {
    VLSFofFormula _createVLSFofFormula = this.factory.createVLSFofFormula();
    final Procedure1<VLSFofFormula> _function = (VLSFofFormula it) -> {
      String _xifexpression = null;
      if (minimum) {
        _xifexpression = "min";
      } else {
        _xifexpression = "max";
      }
      it.setName(this.support.toIDMultiple("typeScope", _xifexpression, name));
      it.setFofRole("axiom");
      VLSUniversalQuantifier _createVLSUniversalQuantifier = this.factory.createVLSUniversalQuantifier();
      final Procedure1<VLSUniversalQuantifier> _function_1 = (VLSUniversalQuantifier it_1) -> {
        EList<VLSVariable> _variables = it_1.getVariables();
        VLSVariable _duplicate = this.support.duplicate(this.variable);
        _variables.add(_duplicate);
        VLSImplies _createVLSImplies = this.factory.createVLSImplies();
        final Procedure1<VLSImplies> _function_2 = (VLSImplies it_2) -> {
          if (minimum) {
            final Function1<VLSTerm, VLSEquality> _function_3 = (VLSTerm i) -> {
              VLSEquality _createVLSEquality = this.factory.createVLSEquality();
              final Procedure1<VLSEquality> _function_4 = (VLSEquality it_3) -> {
                VLSVariable _createVLSVariable = this.factory.createVLSVariable();
                final Procedure1<VLSVariable> _function_5 = (VLSVariable it_4) -> {
                  it_4.setName(this.variable.getName());
                };
                VLSVariable _doubleArrow = ObjectExtensions.<VLSVariable>operator_doubleArrow(_createVLSVariable, _function_5);
                it_3.setLeft(_doubleArrow);
                it_3.setRight(i);
              };
              return ObjectExtensions.<VLSEquality>operator_doubleArrow(_createVLSEquality, _function_4);
            };
            it_2.setLeft(this.support.unfoldOr(ListExtensions.<VLSTerm, VLSEquality>map(list, _function_3)));
            it_2.setRight(this.support.topLevelTypeFunc());
          } else {
            final Function1<VLSTerm, VLSEquality> _function_4 = (VLSTerm i) -> {
              VLSEquality _createVLSEquality = this.factory.createVLSEquality();
              final Procedure1<VLSEquality> _function_5 = (VLSEquality it_3) -> {
                VLSVariable _createVLSVariable = this.factory.createVLSVariable();
                final Procedure1<VLSVariable> _function_6 = (VLSVariable it_4) -> {
                  it_4.setName(this.variable.getName());
                };
                VLSVariable _doubleArrow = ObjectExtensions.<VLSVariable>operator_doubleArrow(_createVLSVariable, _function_6);
                it_3.setLeft(_doubleArrow);
                it_3.setRight(i);
              };
              return ObjectExtensions.<VLSEquality>operator_doubleArrow(_createVLSEquality, _function_5);
            };
            it_2.setRight(this.support.unfoldOr(ListExtensions.<VLSTerm, VLSEquality>map(list, _function_4)));
            it_2.setLeft(this.support.topLevelTypeFunc());
          }
        };
        VLSImplies _doubleArrow = ObjectExtensions.<VLSImplies>operator_doubleArrow(_createVLSImplies, _function_2);
        it_1.setOperand(_doubleArrow);
      };
      VLSUniversalQuantifier _doubleArrow = ObjectExtensions.<VLSUniversalQuantifier>operator_doubleArrow(_createVLSUniversalQuantifier, _function_1);
      it.setFofFormula(_doubleArrow);
    };
    final VLSFofFormula cstDec = ObjectExtensions.<VLSFofFormula>operator_doubleArrow(_createVLSFofFormula, _function);
    EList<VLSFofFormula> _formulas = trace.specification.getFormulas();
    _formulas.add(cstDec);
  }
  
  public void transformScope(final LogicSolverConfiguration config, final Logic2VampireLanguageMapperTrace trace) {
    _transformScope(config, trace);
    return;
  }
}