private static boolean isReturnVar(String var, FunctionExitNode functionExitNode) {
   return functionExitNode.getEntryNode().getReturnVariable().isPresent()
       && functionExitNode.getEntryNode().getReturnVariable().get().getQualifiedName().equals(var);
 }
  @Override
  public AbstractState rebuildStateAfterFunctionCall(
      AbstractState pRootState,
      AbstractState pEntryState,
      AbstractState pExpandedState,
      FunctionExitNode exitLocation) {
    final PredicateAbstractState rootState = (PredicateAbstractState) pRootState;
    final PredicateAbstractState entryState = (PredicateAbstractState) pEntryState;
    final PredicateAbstractState expandedState = (PredicateAbstractState) pExpandedState;
    final PersistentMap<CFANode, Integer> abstractionLocations =
        expandedState.getAbstractionLocationsOnPath();

    // TODO why did I copy the next if-statement? when is it used?
    if (!expandedState.isAbstractionState()) {
      return expandedState;
    }

    // we have:
    // - abstraction of rootState with ssa                --> use as it is
    // - callEdge-pathFormula with ssa (from rootState)   --> use as it is, with updated SSAMap
    // - abstraction of functioncall (expandedSSA)        --> instantiate, with updated SSAMap, so
    // that:
    //           - only param and return-var overlap to callEdge
    //           - all other vars are distinct
    final String calledFunction = exitLocation.getFunctionName();
    final PathFormula functionCall = entryState.getAbstractionFormula().getBlockFormula();
    final SSAMap entrySsaWithRet = functionCall.getSsa();
    final SSAMapBuilder entrySsaWithRetBuilder = entrySsaWithRet.builder();
    final SSAMapBuilder summSsa =
        rootState.getAbstractionFormula().getBlockFormula().getSsa().builder();

    final SSAMap expandedSSA = expandedState.getAbstractionFormula().getBlockFormula().getSsa();
    for (String var : expandedSSA.allVariables()) {
      final CType type = expandedSSA.getType(var);
      if (var.startsWith(calledFunction + "::") && var.endsWith(PARAM_VARIABLE_NAME)) {
        int newIndex = entrySsaWithRet.getIndex(var);
        assert entrySsaWithRet.containsVariable(var)
            : "param for function is not used in functioncall";
        entrySsaWithRetBuilder.setIndex(var, type, newIndex);
        setFreshValueBasis(summSsa, var, newIndex);

      } else if (exitLocation.getEntryNode().getReturnVariable().isPresent()
          && exitLocation.getEntryNode().getReturnVariable().get().getQualifiedName().equals(var)) {
        // var.startsWith(calledFunction + "::") && var.endsWith(RETURN_VARIABLE_NAME)
        final int newIndex =
            Math.max(expandedSSA.getIndex(var), entrySsaWithRetBuilder.getFreshIndex(var));
        entrySsaWithRetBuilder.setIndex(var, type, newIndex);
        summSsa.setIndex(var, type, newIndex);

      } else if (!entrySsaWithRet.containsVariable(var)) {
        // non-existent index for variable only used in functioncall, just copy
        final int newIndex = expandedSSA.getIndex(var);
        entrySsaWithRetBuilder.setIndex(var, type, newIndex);
        summSsa.setIndex(var, type, newIndex);

      } else {
        final int newIndex = entrySsaWithRetBuilder.getFreshIndex(var);
        entrySsaWithRetBuilder.setIndex(var, type, newIndex);
        setFreshValueBasis(summSsa, var, newIndex);
      }
    }

    final SSAMap newEntrySsaWithRet = entrySsaWithRetBuilder.build();
    final SSAMap newSummSsa = summSsa.build();

    // function-call needs have new retvars-indices.
    PathFormula functionCallWithSSA =
        new PathFormula(
            functionCall.getFormula(),
            newEntrySsaWithRet,
            functionCall.getPointerTargetSet(),
            functionCall.getLength());

    // concat function-call with function-summary,
    // function-summary will be instantiated with indices for params and retvars.
    PathFormula executedFunction =
        pmgr.makeAnd(functionCallWithSSA, expandedState.getAbstractionFormula().asFormula());

    // after function-execution we have to re-use the previous indices (fromouter scope),
    // thus lets change the SSAmap.
    PathFormula executedFunctionWithSSA =
        new PathFormula(
            executedFunction.getFormula(),
            newSummSsa,
            executedFunction.getPointerTargetSet(),
            executedFunction.getLength());

    // everything is prepared, so build a new AbstractionState.
    // we do this as 'future abstraction', because we do not have enough information
    // (necessary classes and managers) for the abstraction-process at this place.
    PredicateAbstractState rebuildState =
        new PredicateAbstractState.ComputeAbstractionState(
            executedFunctionWithSSA,
            rootState.getAbstractionFormula(),
            exitLocation,
            abstractionLocations);

    logger.log(
        Level.ALL,
        "\noldAbs: ",
        rootState.getAbstractionFormula().asInstantiatedFormula(),
        "\ncall: ",
        functionCallWithSSA,
        "\nsumm: ",
        expandedState.getAbstractionFormula().asFormula(),
        "\nexe: ",
        executedFunction,
        "\nentrySsaRet",
        newEntrySsaWithRet,
        "\nsummSsaRet",
        newSummSsa);

    return rebuildState;
  }