/**
   * Update the calculated person data. This method and updateCalculatedPersonOnDeleteOfSor need to
   * be generalized to handle recalculations.
   *
   * @param toPerson
   * @param fromPerson
   * @param sorPerson Adjust calculated roles... Point prc_role to prc_person receiving role Add the
   *     role to the set of roles in receiving prc_person Remove role from prc person losing role
   */
  protected void updateCalculatedPersonsOnMoveOfSor(
      final Person toPerson, final Person fromPerson, final SorPerson sorPerson) {
    Assert.notNull(toPerson, "toPerson cannot be null");
    Assert.notNull(fromPerson, "fromPerson cannot be null");
    logger.info("UpdateCalculated: recalculating person data for move.");

    final List<Role> rolesToDelete = new ArrayList<Role>();

    final List<SorRole> sorRoles = new ArrayList<SorRole>(sorPerson.getRoles());
    for (final SorRole sorRole : sorRoles) {
      for (final Role role : fromPerson.getRoles()) {
        if (sorRole.getId().equals(role.getSorRoleId())) {
          sorRoleElector.addSorRole(sorRole, toPerson);
          rolesToDelete.add(role);
        }
      }
    }
    for (final Role role : rolesToDelete) {
      sorRoleElector.removeCalculatedRole(
          fromPerson, role, this.personRepository.getSoRRecordsForPerson(fromPerson));
      fromPerson.getRoles().remove(role);
    }

    // TODO recalculate names for person receiving role? Anything else?
    // TODO recalculate names for person losing role? Anything else?
    //        this.personRepository.savePerson(fromPerson);
    //        this.personRepository.savePerson(toPerson);
  }
  public ServiceExecutionResult<SorRole> updateSorRole(
      final SorPerson sorPerson, final SorRole sorRole) {
    Assert.notNull(sorPerson, "sorPerson cannot be null.");
    Assert.notNull(sorRole, "sorRole cannot be null.");

    final Set validationErrors = this.validator.validate(sorRole);

    if (!validationErrors.isEmpty()) {
      // since because of existing design we cannot raise exception, we can only rollback the
      // transaction through code
      // OR-384
      if (TransactionAspectSupport.currentTransactionStatus() != null) {
        TransactionAspectSupport.currentTransactionStatus().setRollbackOnly();
      }

      return new GeneralServiceExecutionResult<SorRole>(validationErrors);
    }

    final SorRole savedSorRole = this.personRepository.saveSorRole(sorRole);

    final Person person = this.personRepository.findByInternalId(sorPerson.getPersonId());
    final Role role = person.findRoleBySoRRoleId(savedSorRole.getId());
    if (role != null) {
      // update calculated role only if that role was previously converted to calculated one by
      // sorRoleElector
      role.recalculate(savedSorRole);
      this.personRepository.savePerson(person);
    }
    // else //do nothing i.e. don't update the calculated role if SorRoleElector Previously decided
    // not to convert this sor role to calculated role

    return new GeneralServiceExecutionResult<SorRole>(savedSorRole);
  }
  @PreAuthorize("hasPermission(#sorRole, 'admin')")
  public ServiceExecutionResult<SorRole> validateAndSaveRoleForSorPerson(
      final SorPerson sorPerson, final SorRole sorRole) {
    logger.info(" validateAndSaveRoleForSorPerson start");
    Assert.notNull(sorPerson, "SorPerson cannot be null.");
    Assert.notNull(sorRole, "SorRole cannot be null.");

    // check if the SoR Role has an ID assigned to it already and assign source sor
    setRoleIdAndSource(sorRole, sorPerson.getSourceSor());

    final Set validationErrors = this.validator.validate(sorRole);

    if (!validationErrors.isEmpty()) {
      // since because of existing design we cannot raise exception, we can only rollback the
      // transaction through code
      // OR-384
      if (TransactionAspectSupport.currentTransactionStatus() != null) {
        TransactionAspectSupport.currentTransactionStatus().setRollbackOnly();
      }

      return new GeneralServiceExecutionResult<SorRole>(validationErrors);
    }

    final SorPerson newSorPerson = this.personRepository.saveSorPerson(sorPerson);
    Person person = this.personRepository.findByInternalId(newSorPerson.getPersonId());
    final SorRole newSorRole = newSorPerson.findSorRoleBySorRoleId(sorRole.getSorId());
    // let sor role elector decide if this new role can be converted to calculated one
    sorRoleElector.addSorRole(newSorRole, person);
    person = recalculatePersonBiodemInfo(person, newSorPerson, RecalculationType.UPDATE, false);
    this.personRepository.savePerson(person);
    logger.info("validateAndSaveRoleForSorPerson end");
    return new GeneralServiceExecutionResult<SorRole>(newSorRole);
  }
  /**
   * This does not explicitly delete the names because its assumed the recalculation will clean it
   * up.
   */
  public boolean deleteSystemOfRecordPerson(
      final SorPerson sorPerson, final boolean mistake, final String terminationTypes) {
    Assert.notNull(sorPerson, "sorPerson cannot be null.");
    final String terminationTypeToUse =
        terminationTypes != null ? terminationTypes : Type.TerminationTypes.UNSPECIFIED.name();

    final Person person = this.personRepository.findByInternalId(sorPerson.getPersonId());
    Assert.notNull(person, "person cannot be null.");

    if (mistake) {
      Set<Role> rolesToDelete = new HashSet<Role>();

      for (final SorRole sorRole : sorPerson.getRoles()) {
        for (final Role role : person.getRoles()) {
          if (sorRole.getId().equals(role.getSorRoleId())) {
            rolesToDelete.add(role);
          }
        }
      }

      for (final Role role : rolesToDelete) {
        // let sorRoleElector delete the role and add another role if required
        sorRoleElector.removeCalculatedRole(
            person, role, this.personRepository.getSoRRecordsForPerson(person));
      }

      final Number number = this.personRepository.getCountOfSoRRecordsForPerson(person);

      if (number.intValue() == 1) {
        this.personRepository.deletePerson(person);
      }

      this.personRepository.deleteSorPerson(sorPerson);
      return true;
    }

    // we do this explicitly here because once they're gone we can't re-calculate?  We might move to
    // this to the recalculateCalculatedPerson method.
    final Type terminationReason =
        this.referenceRepository.findType(Type.DataTypes.TERMINATION, terminationTypeToUse);

    for (final SorRole sorRole : sorPerson.getRoles()) {
      for (final Role role : person.getRoles()) {
        if (!role.isTerminated() && sorRole.getId().equals(role.getSorRoleId())) {
          role.expireNow(terminationReason, true);
        }
      }
    }

    this.personRepository.deleteSorPerson(sorPerson);
    this.personRepository.savePerson(person);

    Person p = recalculatePersonBiodemInfo(person, sorPerson, RecalculationType.DELETE, mistake);
    this.personRepository.savePerson(p);
    return true;
  }
  public boolean deleteSystemOfRecordPerson(
      final String sorSource,
      final String sorId,
      final boolean mistake,
      final String terminationTypes) {
    Assert.notNull(sorSource, "sorSource cannot be null.");
    Assert.notNull(sorId, "sorId cannot be null.");
    final SorPerson sorPerson =
        this.personRepository.findBySorIdentifierAndSource(sorSource, sorId);

    return sorPerson != null && deleteSystemOfRecordPerson(sorPerson, mistake, terminationTypes);
  }
  /**
   * Persists an SorPerson on update.
   *
   * @param sorPerson the person to update.
   * @return serviceExecutionResult.
   */
  public ServiceExecutionResult<SorPerson> updateSorPerson(final SorPerson sorPerson) {
    final Set validationErrors = this.validator.validate(sorPerson);

    if (!validationErrors.isEmpty()) {
      Iterator iter = validationErrors.iterator();
      while (iter.hasNext()) {
        logger.info("validation errors: " + iter.next());
      }
      // since because of existing design we cannot raise exception, we can only rollback the
      // transaction through code
      // OR-384
      if (TransactionAspectSupport.currentTransactionStatus() != null) {
        TransactionAspectSupport.currentTransactionStatus().setRollbackOnly();
      }

      return new GeneralServiceExecutionResult<SorPerson>(validationErrors);
    }

    // do reconciliationCheck to make sure that modifications do not cause person to reconcile to a
    // different person
    if (!this.reconciler.reconcilesToSamePerson(sorPerson)) {
      throw new IllegalStateException();
    }

    // Iterate over any sorRoles setting sorid and source id if not specified by SoR.
    for (final SorRole sorRole : sorPerson.getRoles()) {
      setRoleIdAndSource(sorRole, sorPerson.getSourceSor());
    }

    // Save Sor Person
    final SorPerson savedSorPerson = this.personRepository.saveSorPerson(sorPerson);

    Person person = this.findPersonById(savedSorPerson.getPersonId());

    Assert.notNull(person, "person cannot be null.");

    logger.info(
        "Verifying Number of calculated Roles before the calculate: " + person.getRoles().size());

    // Iterate over sorRoles. SorRoles may be new or updated.
    for (final SorRole savedSorRole : savedSorPerson.getRoles()) {
      logger.info(
          "DefaultPersonService: savedSorPersonRole Found, savedSorRoleID: "
              + savedSorRole.getId());
      logger.info("DefaultPersonService: savedSorPersonRole Found, Role Must be newly added.");
      // let sor role elector decide if this new role can be converted to calculated one
      sorRoleElector.addSorRole(savedSorRole, person);
      logger.info(
          "Verifying Number of calculated Roles after calculate: " + person.getRoles().size());
    }

    for (final IdentifierAssigner ia : this.identifierAssigners) {
      ia.addIdentifierTo(sorPerson, person);
    }

    person = recalculatePersonBiodemInfo(person, savedSorPerson, RecalculationType.UPDATE, false);
    person = this.personRepository.savePerson(person);

    return new GeneralServiceExecutionResult<SorPerson>(savedSorPerson);
  }
  public ServiceExecutionResult<ReconciliationResult> reconcile(
      final ReconciliationCriteria reconciliationCriteria) throws IllegalArgumentException {
    Assert.notNull(reconciliationCriteria, "reconciliationCriteria cannot be null");
    logger.info("reconcile start");
    final Set validationErrors = this.validator.validate(reconciliationCriteria);

    if (!validationErrors.isEmpty()) {
      Iterator iter = validationErrors.iterator();
      while (iter.hasNext()) {
        logger.info("validation errors: " + iter.next());
      }
      logger.info("reconcile start");
      // since because of existing design we cannot raise exception, we can only rollback the
      // transaction through code
      // OR-384
      if (TransactionAspectSupport.currentTransactionStatus() != null) {
        TransactionAspectSupport.currentTransactionStatus().setRollbackOnly();
      }

      return new GeneralServiceExecutionResult<ReconciliationResult>(validationErrors);
    }

    final ReconciliationResult result = this.reconciler.reconcile(reconciliationCriteria);
    // (reconciliationCriteria, result);
    return new GeneralServiceExecutionResult<ReconciliationResult>(result);
  }
  public ServiceExecutionResult<Person> addPersonAndLink(
      final ReconciliationCriteria reconciliationCriteria, final Person person)
      throws IllegalArgumentException, IllegalStateException, SorPersonAlreadyExistsException {
    Assert.notNull(reconciliationCriteria, "reconciliationCriteria cannot be null.");
    Assert.notNull(person, "person cannot be null.");
    logger.info(" addPersonAndLink start");
    final ReconciliationResult result = this.criteriaCache.get(reconciliationCriteria);

    if (result == null) {
      throw new IllegalStateException("No ReconciliationResult found for provided criteria.");
    }

    for (final PersonMatch personMatch : result.getMatches()) {
      if (personMatch.getPerson().getId().equals(person.getId())) {
        addSorPersonAndLink(reconciliationCriteria, person);
        final Person savedPerson = this.personRepository.findByInternalId(person.getId());
        return new GeneralServiceExecutionResult<Person>(savedPerson);
      }
    }
    logger.info("addPersonAndLink end");
    throw new IllegalStateException("Person not found in ReconciliationResult.");
  }
  public ServiceExecutionResult<Person> addPerson(
      final ReconciliationCriteria reconciliationCriteria)
      throws ReconciliationException, IllegalArgumentException, SorPersonAlreadyExistsException {
    Assert.notNull(reconciliationCriteria, "reconciliationCriteria cannot be null");
    logger.info("addPerson start");
    if (reconciliationCriteria.getSorPerson().getSorId() != null
        && this.findBySorIdentifierAndSource(
                reconciliationCriteria.getSorPerson().getSourceSor(),
                reconciliationCriteria.getSorPerson().getSorId())
            != null) {
      // throw new IllegalStateException("CANNOT ADD SAME SOR RECORD.");
      throw new SorPersonAlreadyExistsException(
          this.findBySorIdentifierAndSource(
              reconciliationCriteria.getSorPerson().getSourceSor(),
              reconciliationCriteria.getSorPerson().getSorId()));
    }

    final Set validationErrors = this.validator.validate(reconciliationCriteria);

    if (!validationErrors.isEmpty()) {
      Iterator iter = validationErrors.iterator();
      while (iter.hasNext()) {
        logger.info("validation errors: " + iter.next());
      }
      // since because of existing design we cannot raise exception, we can only rollback the
      // transaction through code
      // OR-384
      if (TransactionAspectSupport.currentTransactionStatus() != null) {
        TransactionAspectSupport.currentTransactionStatus().setRollbackOnly();
      }

      return new GeneralServiceExecutionResult<Person>(validationErrors);
    }

    final ReconciliationResult result = this.reconciler.reconcile(reconciliationCriteria);

    switch (result.getReconciliationType()) {
      case NONE:
        return new GeneralServiceExecutionResult<Person>(
            saveSorPersonAndConvertToCalculatedPerson(reconciliationCriteria));

      case EXACT:
        return new GeneralServiceExecutionResult<Person>(
            addNewSorPersonAndLinkWithMatchedCalculatedPerson(reconciliationCriteria, result));
    }

    this.criteriaCache.put(reconciliationCriteria, result);
    logger.info("addPerson start");
    throw new ReconciliationException(result);
  }
  protected Person addNewSorPersonAndLinkWithMatchedCalculatedPerson(
      final ReconciliationCriteria reconciliationCriteria, final ReconciliationResult result)
      throws SorPersonAlreadyExistsException {
    Assert.isTrue(
        result.getMatches().size() == 1,
        "ReconciliationResult should be 'EXACT' and there should only be one person.  The result is '"
            + result.getReconciliationType()
            + "' and the number of people is "
            + result.getMatches().size()
            + ".");

    final Person person = result.getMatches().iterator().next().getPerson();
    return addSorPersonAndLink(reconciliationCriteria, person);
  }
  public boolean deleteSystemOfRecordRole(
      final SorPerson sorPerson,
      final SorRole sorRole,
      final boolean mistake,
      final String terminationTypes)
      throws IllegalArgumentException {
    Assert.notNull(sorRole, "sorRole cannot be null.");
    Assert.notNull(sorPerson, "soPerson cannot be null.");
    final String terminationTypeToUse =
        terminationTypes != null ? terminationTypes : Type.TerminationTypes.UNSPECIFIED.name();

    final Person person = this.personRepository.findByInternalId(sorPerson.getPersonId());
    Assert.notNull(person, "person cannot be null.");

    final Role role = person.findRoleBySoRRoleId(sorRole.getId());
    // delete and expire role only if it exist at calculated level
    if (role != null)
      if (mistake) {

        // let SorRoleElector remove the role
        sorRoleElector.removeCalculatedRole(
            person, role, this.personRepository.getSoRRecordsForPerson(person));

      } else {
        final Type terminationReason =
            this.referenceRepository.findType(Type.DataTypes.TERMINATION, terminationTypeToUse);
        if (!role.isTerminated()) {
          role.expireNow(terminationReason, true);
        }
      }

    sorPerson.getRoles().remove(sorRole);
    this.personRepository.saveSorPerson(sorPerson);
    this.personRepository.savePerson(person);
    return true;
  }
  public ServiceExecutionResult<Person> forceAddPerson(
      final ReconciliationCriteria reconciliationCriteria)
      throws IllegalArgumentException, IllegalStateException {
    Assert.notNull(reconciliationCriteria, "reconciliationCriteria cannot be null.");
    logger.info("forceAddPerson start");
    final ReconciliationResult result = this.criteriaCache.get(reconciliationCriteria);

    if (result == null) {
      throw new IllegalStateException("No ReconciliationResult found for provided criteria.");
    }

    this.criteriaCache.remove(reconciliationCriteria);
    logger.info("forceAddPerson end");
    return new GeneralServiceExecutionResult<Person>(
        saveSorPersonAndConvertToCalculatedPerson(reconciliationCriteria));
  }
  /**
   * Generates views based on annotations found in a persistent class. Typically @DocumentReferences
   * annotations.
   *
   * @param persistentType
   * @return a Map with generated views.
   */
  public Map<String, DesignDocument.View> generateViewsFromPersistentType(
      final Class<?> persistentType) {
    Assert.notNull(persistentType, "persistentType may not be null");
    final Map<String, DesignDocument.View> views = new HashMap<String, DesignDocument.View>();

    createDeclaredViews(views, persistentType);

    eachField(
        persistentType,
        new Predicate<Field>() {
          public boolean apply(Field input) {
            if (hasAnnotation(input, DocumentReferences.class)) {
              generateView(views, input);
            }
            return false;
          }
        });
    return views;
  }
 @Override
 public List<SorPerson> getSorPersonsFor(final Person person) {
   Assert.notNull(person);
   return this.personRepository.getSoRRecordsForPerson(person);
 }