typeof_InIntervalExpression_InferenceRule.java

package jetbrains.mps.baseLanguage.math.typesystem;

/*Generated by MPS */

import jetbrains.mps.lang.typesystem.runtime.AbstractInferenceRule_Runtime;
import jetbrains.mps.lang.typesystem.runtime.InferenceRule_Runtime;
import org.jetbrains.mps.openapi.model.SNode;
import jetbrains.mps.typesystem.inference.TypeCheckingContext;
import jetbrains.mps.lang.typesystem.runtime.IsApplicableStatus;
import jetbrains.mps.lang.smodel.generator.smodelAdapter.SLinkOperations;
import jetbrains.mps.smodel.adapter.structure.MetaAdapterFactory;
import jetbrains.mps.typesystem.inference.EquationInfo;
import org.jetbrains.mps.openapi.language.SAbstractConcept;
import org.jetbrains.mps.openapi.persistence.PersistenceFacade;
import jetbrains.mps.smodel.SModelUtil_new;
import jetbrains.mps.lang.typesystem.runtime.HUtil;

public class typeof_InIntervalExpression_InferenceRule extends AbstractInferenceRule_Runtime implements InferenceRule_Runtime {
  public typeof_InIntervalExpression_InferenceRule() {
  }
  public void applyRule(final SNode expression, final TypeCheckingContext typeCheckingContext, IsApplicableStatus status) {
    final SNode elementType_typevar_1235747425227 = typeCheckingContext.createNewRuntimeTypesVariable();
    {
      SNode _nodeToCheck_1029348928467 = SLinkOperations.getTarget(expression, MetaAdapterFactory.getContainmentLink(0xf3061a5392264cc5L, 0xa443f952ceaf5816L, 0xfbdeb6fecfL, 0xfbdeb7a11bL, "rightExpression"));
      EquationInfo _info_12389875345 = new EquationInfo(_nodeToCheck_1029348928467, null, "r:47d0f24b-df34-4ea0-aa7e-7c2eb0f88f31(jetbrains.mps.baseLanguage.math.typesystem)", "1235747425228", 0, null);
      typeCheckingContext.createEquation((SNode) _quotation_createNode_ajlbhv_a0b0b(typeCheckingContext.getRepresentative(elementType_typevar_1235747425227)), (SNode) typeCheckingContext.typeOf(_nodeToCheck_1029348928467, "r:47d0f24b-df34-4ea0-aa7e-7c2eb0f88f31(jetbrains.mps.baseLanguage.math.typesystem)", "1235747425230", true), _info_12389875345);
    }
    {
      SNode _nodeToCheck_1029348928467 = SLinkOperations.getTarget(expression, MetaAdapterFactory.getContainmentLink(0xf3061a5392264cc5L, 0xa443f952ceaf5816L, 0xfbdeb6fecfL, 0xfbdeb7a11cL, "leftExpression"));
      EquationInfo _info_12389875345 = new EquationInfo(_nodeToCheck_1029348928467, null, "r:47d0f24b-df34-4ea0-aa7e-7c2eb0f88f31(jetbrains.mps.baseLanguage.math.typesystem)", "1235747425240", 0, null);
      typeCheckingContext.createLessThanInequality((SNode) typeCheckingContext.typeOf(_nodeToCheck_1029348928467, "r:47d0f24b-df34-4ea0-aa7e-7c2eb0f88f31(jetbrains.mps.baseLanguage.math.typesystem)", "1235747425244", true), (SNode) typeCheckingContext.getRepresentative(elementType_typevar_1235747425227), false, false, _info_12389875345);
    }
  }
  public SAbstractConcept getApplicableConcept() {
    return MetaAdapterFactory.getConcept(0x3304fc6e7c6b401eL, 0xa016b944934bb21fL, 0x11fb8483964L, "jetbrains.mps.baseLanguage.math.structure.InIntervalExpression");
  }
  public IsApplicableStatus isApplicableAndPattern(SNode argument) {
    return new IsApplicableStatus(argument.getConcept().isSubConceptOf(getApplicableConcept()), null);
  }
  public boolean overrides() {
    return true;
  }
  private static SNode _quotation_createNode_ajlbhv_a0b0b(Object parameter_1) {
    PersistenceFacade facade = PersistenceFacade.getInstance();
    SNode quotedNode_2 = null;
    SNode quotedNode_3 = null;
    quotedNode_2 = SModelUtil_new.instantiateConceptDeclaration(MetaAdapterFactory.getConcept(MetaAdapterFactory.getLanguage(0x3304fc6e7c6b401eL, 0xa016b944934bb21fL, "jetbrains.mps.baseLanguage.math"), 0x11fb8483972L, "IntervalType"), null, null, false);
    quotedNode_3 = (SNode) parameter_1;
    if (quotedNode_3 != null) {
      quotedNode_2.addChild(MetaAdapterFactory.getContainmentLink(0x3304fc6e7c6b401eL, 0xa016b944934bb21fL, 0x11fb8483972L, 0x11fb8483973L, "elementType"), HUtil.copyIfNecessary(quotedNode_3));
    }
    return quotedNode_2;
  }
}