iterator_subtypeOf_iterator_InequationReplacementRule.java

package jetbrains.mps.baseLanguage.collections.typesystem;

/*Generated by MPS */

import jetbrains.mps.lang.typesystem.runtime.AbstractInequationReplacementRule_Runtime;
import org.jetbrains.mps.openapi.model.SNode;
import jetbrains.mps.typesystem.inference.EquationInfo;
import jetbrains.mps.typesystem.inference.TypeCheckingContext;
import jetbrains.mps.lang.typesystem.runtime.IsApplicable2Status;
import jetbrains.mps.lang.smodel.generator.smodelAdapter.SConceptOperations;
import jetbrains.mps.lang.smodel.generator.smodelAdapter.SNodeOperations;
import jetbrains.mps.errors.messageTargets.MessageTarget;
import jetbrains.mps.errors.messageTargets.NodeMessageTarget;
import jetbrains.mps.errors.IErrorReporter;
import jetbrains.mps.lang.typesystem.runtime.HUtil;
import jetbrains.mps.lang.smodel.generator.smodelAdapter.SLinkOperations;
import jetbrains.mps.smodel.adapter.structure.MetaAdapterFactory;
import jetbrains.mps.typesystem.inference.TypeChecker;
import jetbrains.mps.lang.typesystem.runtime.IsApplicableStatus;
import org.jetbrains.mps.openapi.language.SAbstractConcept;

public class iterator_subtypeOf_iterator_InequationReplacementRule extends AbstractInequationReplacementRule_Runtime {
  public iterator_subtypeOf_iterator_InequationReplacementRule() {
  }
  public void processInequation(final SNode subtype, final SNode supertype, final EquationInfo equationInfo, final TypeCheckingContext typeCheckingContext, IsApplicable2Status status, final boolean inequalityIsWeak, final boolean inequalityIsLessThan) {
    if (!(SConceptOperations.isSubConceptOf(SNodeOperations.asSConcept(SNodeOperations.getConcept(subtype)), SNodeOperations.asSConcept(SNodeOperations.getConcept(supertype))))) {
      MessageTarget errorTarget = new NodeMessageTarget();
      IErrorReporter _reporter_2309309498 = typeCheckingContext.reportTypeError(equationInfo.getNodeWithError(), "Incompatible types", "r:00000000-0000-4000-0000-011c8959032b(jetbrains.mps.baseLanguage.collections.typesystem)", "1240153585729", null, errorTarget);
      HUtil.addAdditionalRuleIdsFromInfo(_reporter_2309309498, equationInfo);
    }
    {
      SNode _nodeToCheck_1029348928467 = equationInfo.getNodeWithError();
      EquationInfo _info_12389875345 = new EquationInfo(_nodeToCheck_1029348928467, null, "r:00000000-0000-4000-0000-011c8959032b(jetbrains.mps.baseLanguage.collections.typesystem)", "1237470147423", 0, null);
      _info_12389875345.getOuterRulesIdFromInfo(equationInfo);
      typeCheckingContext.createLessThanInequality((SNode) SLinkOperations.getTarget(subtype, MetaAdapterFactory.getContainmentLink(0x8388864671ce4f1cL, 0x9c53c54016f6ad4fL, 0x1201ed2b158L, 0x1201ed311a7L, "elementType")), (SNode) SLinkOperations.getTarget(supertype, MetaAdapterFactory.getContainmentLink(0x8388864671ce4f1cL, 0x9c53c54016f6ad4fL, 0x1201ed2b158L, 0x1201ed311a7L, "elementType")), false, true, inequalityIsLessThan, _info_12389875345);
    }
  }
  public boolean checkInequation(final SNode subtype, final SNode supertype, final EquationInfo equationInfo, IsApplicable2Status status, final boolean inequalityIsWeak, final boolean inequalityIsLessThan) {
    boolean result_14532009 = true;
    if (!(SConceptOperations.isSubConceptOf(SNodeOperations.asSConcept(SNodeOperations.getConcept(subtype)), SNodeOperations.asSConcept(SNodeOperations.getConcept(supertype))))) {
      result_14532009 = false;
    }
    result_14532009 = result_14532009 && TypeChecker.getInstance().getSubtypingManager().isSubtype((SNode) SLinkOperations.getTarget(subtype, MetaAdapterFactory.getContainmentLink(0x8388864671ce4f1cL, 0x9c53c54016f6ad4fL, 0x1201ed2b158L, 0x1201ed311a7L, "elementType")), (SNode) SLinkOperations.getTarget(supertype, MetaAdapterFactory.getContainmentLink(0x8388864671ce4f1cL, 0x9c53c54016f6ad4fL, 0x1201ed2b158L, 0x1201ed311a7L, "elementType")), true);
    return result_14532009;
  }
  public boolean isWeak() {
    return true;
  }
  public IsApplicableStatus isApplicableSubtypeAndPattern(SNode node) {
    return new IsApplicableStatus(node.getConcept().isSubConceptOf(getApplicableSubtypeConcept()), null);
  }
  public IsApplicableStatus isApplicableSupertypeAndPattern(SNode node) {
    return new IsApplicableStatus(node.getConcept().isSubConceptOf(getApplicableSupertypeConcept()), null);
  }

  public SAbstractConcept getApplicableSubtypeConcept() {
    return MetaAdapterFactory.getConcept(0x8388864671ce4f1cL, 0x9c53c54016f6ad4fL, 0x1201ed2b158L, "jetbrains.mps.baseLanguage.collections.structure.IteratorType");
  }
  public SAbstractConcept getApplicableSupertypeConcept() {
    return MetaAdapterFactory.getConcept(0x8388864671ce4f1cL, 0x9c53c54016f6ad4fL, 0x1201ed2b158L, "jetbrains.mps.baseLanguage.collections.structure.IteratorType");
  }
}