コード例 #1
0
    def __insert_di_act(
        self,
        event: Event,
        row: Series = pandas.Series(),
        authors: str = "",
        source_label: str = "",
        source_location_label: str = "",
        interpretation_date_text: Optional[str] = None,
    ):
        author_label = authors
        source_label = source_label
        source_location_label = source_location_label

        author = authors  # Author(self._graph, author_label)
        if not author:
            return None
        source_location = self.__get_source_location(source_label,
                                                     source_location_label)
        interpretation_date = interpretation_date_text

        comment = None
        if comment:
            event.add_comment(comment)
        Di_act(
            self._graph,
            event,
            author,
            source_location,
            interpretation_date,
        )
コード例 #2
0
 def __insert_di_act(
     self,
     event: Event,
     row: Series = pandas.Series(),
     author_label: str = "",
     source_label: str = "",
     source_location_label: str = "",
     interpretation_date_text: Optional[str] = None,
 ):
     source_label = row[
         Column.source] if Column.source in row else source_label
     source_location_label = (row[Column.source_location]
                              if Column.source_location in row else
                              source_location_label)
     source_location = self.__get_source_location(source_label,
                                                  source_location_label)
     interpretation_date = (row[Column.interpretation_date]
                            if Column.interpretation_date in row else
                            interpretation_date_text)
     comment = row[Column.comment] if Column.comment in row else None
     if comment:
         event.add_comment(comment)
     Di_act(
         self._graph,
         event,
         ["Patrick Fiska", "Irene Rabl"],
         source_location,
         interpretation_date,
     )
コード例 #3
0
def F():
    # FT FROM PROXEL EXAMPLE
    rel_exp_dist = ['EXP', 1 / 3]
    main_exp_dist = ['EXP', 1 / 2]
    lognorm_dist = ['LOGNORM', 2, 1]
    norm_dist = ['NORMAL', 4, 1]
    weibull = ['WEIBULL', 5, 2]
    top_event = Event("Top Event")
    and1 = Gate("AND", parent=top_event)
    intermediate_event_1 = Event("Intermediate Event 1", parent=and1)
    intermediate_event_2 = Event("Intermediate Event 2", parent=and1)
    voting2 = Gate("VOTING", parent=intermediate_event_1, k=2)
    basic_event_3 = Event("Basic Event 3",
                          norm_dist, ['LOGNORM', 4, 1],
                          parent=voting2)
    basic_event_4 = Event("Basic Event 4",
                          rel_exp_dist,
                          weibull,
                          parent=voting2)
    basic_event_5 = Event("Basic Event 5",
                          lognorm_dist,
                          main_exp_dist,
                          parent=voting2)
    or3 = Gate("OR", parent=intermediate_event_2)
    basic_event_1 = Event("Basic Event 1",
                          norm_dist,
                          main_exp_dist,
                          parent=or3)
    basic_event_2 = Event("Basic Event 2", ['EXP', 1 / 3],
                          norm_dist,
                          parent=or3)

    FT = FaultTree(top_event)

    return FT
コード例 #4
0
def B():
    topEvent = Event('Top Event')
    and1 = Gate('AND', parent=topEvent)
    basicEvent1 = Event('Basic Event 1',
                        rel_exp_dist,
                        main_exp_dist,
                        parent=and1)
    basicEvent2 = Event('Basic Event 2', ['EXP', 1 / 6],
                        main_exp_dist,
                        parent=and1)

    fault_tree = FaultTree(topEvent)

    return fault_tree
コード例 #5
0
def H():
    # SECOND PROXEL EXAMPLE
    rel_exp_dist = ['EXP', 1 / 3]
    main_exp_dist = ['EXP', 1 / 2]
    lognorm_dist = ['LOGNORM', 4, 1]
    norm_dist = ['NORMAL', 4, 1]
    weibull = ['WEIBULL', 5, 2]

    top_event = Event("Top Event")
    and1 = Gate("AND", parent=top_event)
    intermediate_event_1 = Event("Intermediate Event 1", parent=and1)
    intermediate_event_2 = Event("Intermediate Event 2", parent=and1)
    and2 = Gate("AND", parent=intermediate_event_1, k=2)
    basic_event_1 = Event("Basic Event 1",
                          norm_dist,
                          main_exp_dist,
                          parent=and2)
    basic_event_2 = Event("Basic Event 2", ['EXP', 1 / 10],
                          norm_dist,
                          parent=and2)
    or3 = Gate("OR", parent=intermediate_event_2)
    basic_event_3 = Event("Basic Event 3",
                          norm_dist,
                          main_exp_dist,
                          parent=or3)
    basic_event_4 = Event("Basic Event 4", lognorm_dist, weibull, parent=or3)
    fault_tree = FaultTree(top_event)

    return fault_tree
コード例 #6
0
def add_event():
    event_name = request.form["name"]
    event_date = request.form["date"]
    guest_num = request.form["guests"]
    event_room = request.form["room"]
    event_description = request.form["description"]
    new_event = Event(event_name, event_date, guest_num, event_room, event_description, False, False)
    add_new_event(new_event)
    return render_template("index.html", title = "Home", events = events)
コード例 #7
0
    def scheduleEvent(self, event: Event) -> None:
        """Programa o próximo evento

        Args:
            event (Event): Próximo evento
        """
        evtAux = self.first_event
        evtAnt = None

        while(evtAux != None):
            if(event.getTime() < evtAux.getTime()):
                break
            else:
                evtAnt = evtAux
                evtAux = evtAux.getNextEvent()
            
        event.setNextEvent(evtAux)
        if(evtAnt == None):
            self.first_event = event
        else:
            evtAnt.setNextEvent(event)
コード例 #8
0
   def __add_independent_titles(self):
       title_query = """
           PREFIX core: <http://purl.org/nampi/owl/core#>
           PREFIX mona: <http://purl.org/nampi/owl/monastic-life#>
           PREFIX rdfs: <http://www.w3.org/2000/01/rdf-schema#>
           SELECT ?text
           WHERE {{
 	            ?event a core:event ;
                   core:assigns_title/core:has_xsd_string ?text ;
                   core:assigns_title_to/rdfs:label "{}" .
           }}
       """
       for _, row in self.__sheet.get_table(Table.PERSONS).iterrows():
           religious_title = safe_str(row, Column.religious_title)
           person_label = safe_str(row, Column.name)
           if religious_title:
               has_existing_title = bool(
                   self._graph.graph.query(title_query.format(person_label)))
               if not has_existing_title:
                   person = self.__get_person(person_label)
                   if person:
                       assert person_label
                       event = Event(
                           self._graph,
                           person,
                           label="Assign religious title " + religious_title,
                           main_person_relationship=Nampi_type.Core.
                           has_main_participant,
                       )
                       title = Title(
                           self._graph,
                           religious_title,
                           Nampi_type.Mona.religious_title,
                       )
                       event.add_relationship(Nampi_type.Core.adds_aspect,
                                              title)
                       self.__insert_di_act(event, row)
                       logging.debug("Assigns title '{}' to '{}'".format(
                           religious_title, person_label))
       logging.info("Finish adding independent titles")
コード例 #9
0
    def createEvent(self,
                    titulo,
                    start="",
                    end="",
                    emails=[],
                    description="",
                    location=None):
        '''
        Método responsável por criar um evento.
        TODO: Implementar a passagem de parâmetros para poder criar os eventos reais.
        '''

        attendees = list(map(lambda x: {'email': x},
                             emails))  # Emails a serem convidados

        event = Event(titulo, location, description, start, end, attendees)

        event = self.service.events().insert(calendarId='primary',
                                             body=event.body).execute()
        print(
            'Evento criado com sucesso! Segue o link para vê-lo no seu Google Agenda: %s'
            % (event.get('htmlLink')))
コード例 #10
0
ファイル: app.py プロジェクト: sibikinkv/tg_notificator
def upload_event():
    try:
        data = {
            'author': request.args.get('app'),
            'level': request.args.get('level').upper(),
            'text': request.args.get('text').replace('_', ' ')
        }
    except AttributeError:
        return failure_response(
            'Usage: /upload_event?app=<app>&level=<level>&text=<your_text>')

    event = Event.from_json(data, host=request.remote_addr)

    return event.to_db()
コード例 #11
0
def add_event():
    print(request.form)
    date = request.form["name-of-event"]
    name = request.form["date"]
    number_of_guests = request.form["number-of-guests"]
    room_location = request.form["room-location"]
    description = request.form["description"]
    is_recurring = request.form.get("recurring")
    if is_recurring == None:
        is_recurring = False
    else:
        is_recurring = True

    new_event = Event(date, name, number_of_guests, room_location, description,
                      is_recurring)
    add_event_to_events(new_event)
    return render_template("index.html", title="title", events=events)
コード例 #12
0
 def merge_event():
     nonlocal event, main_person, definition
     if event:
         return event
     place = self.__get_place(safe_str(row, Column.event_place))
     assert main_person is not None
     event = Event(
         self._graph,
         main_person,
         place=place,
         earliest_date=safe_str(row, Column.earliest_date),
         exact_date=safe_str(row, Column.exact_date),
         latest_date=safe_str(row, Column.latest_date),
         label=str(definition),
         other_participants=other_participants,
     )
     return event
コード例 #13
0
def A():

    top_event = Event("Top Event")
    and1 = Gate("AND", parent=top_event)
    intermediate_event_1 = Event("Intermediate Event 1", parent=and1)
    intermediate_event_2 = Event("Intermediate Event 2", parent=and1)
    voting2 = Gate("VOTING", parent=intermediate_event_1, k=3)
    basic_event_4 = Event("Basic Event 4",
                          rel_exp_dist,
                          lognorm_dist,
                          parent=voting2)
    basic_event_5 = Event("Basic Event 5",
                          norm_dist,
                          main_exp_dist,
                          parent=voting2)
    basic_event_6 = Event("Basic Event 6",
                          lognorm_dist,
                          main_exp_dist,
                          parent=voting2)
    voting3 = Gate("VOTING", parent=intermediate_event_2, k=1)
    basic_event_1 = Event("Basic Event 1",
                          weibull_dist,
                          main_exp_dist,
                          parent=voting3)
    basic_event_2 = Event("Basic Event 2",
                          rel_exp_dist,
                          lognorm_dist,
                          parent=voting3)
    basic_event_3 = Event("Basic Event 3",
                          weibull_dist,
                          main_exp_dist,
                          parent=voting3)

    fault_tree = FaultTree(top_event)

    return fault_tree
コード例 #14
0
def E():
    topEvent = Event('Top Event')
    and1 = Gate('AND', parent=topEvent)
    intermediateEvent1 = Event('Intermediate Event 1', parent=and1)
    intermediateEvent2 = Event('Intermediate Event 2', parent=and1)
    and2 = Gate('AND', parent=intermediateEvent1)
    basicEvent1 = Event('Basic Event 1', ['EXP', 1 / 15], ['EXP', 1 / 5],
                        parent=and2)
    basicEvent2 = Event('Basic Event 2', ['NORMAL', 12, 2], ['NORMAL', 5, 1],
                        parent=and2)
    or3 = Gate('OR', parent=intermediateEvent2)
    basicEvent3 = Event('Basic Event 3', ['LOGNORM', 3, 1], ['LOGNORM', 2, 1],
                        parent=or3)
    basicEvent4 = Event('Basic Event 4', ['WEIBULL', 10, 8], ['WEIBULL', 5, 2],
                        parent=or3)

    fault_tree = FaultTree(topEvent)

    return fault_tree
コード例 #15
0
def D():
    topEvent = Event('Top Event')
    or1 = Gate('OR', parent=topEvent)
    intermediateEvent1 = Event('Intermediate Event 1', parent=or1)
    intermediateEvent2 = Event('Intermediate Event 2', parent=or1)
    vote2 = Gate('VOTING', parent=intermediateEvent1, k=2)
    basicEvent1 = Event('Basic Event 1', lognorm_dist, norm_dist, parent=vote2)
    basicEvent2 = Event('Basic Event 2', ['EXP', 1 / 10],
                        weibull_dist,
                        parent=vote2)
    basicEvent3 = Event('Basic Event 3',
                        rel_exp_dist,
                        main_exp_dist,
                        parent=vote2)
    and2 = Gate('AND', parent=intermediateEvent2)
    basicEvent4 = Event('Basic Event 4', norm_dist, main_exp_dist, parent=and2)
    basicEvent5 = Event('Basic Event 5', ['EXP', 1 / 10],
                        lognorm_dist,
                        parent=and2)

    fault_tree = FaultTree(topEvent)

    return fault_tree
コード例 #16
0
def G():
    topEvent = Event('Top Event')
    or1 = Gate('OR', parent=topEvent)
    intermediateEvent1 = Event('Intermediate Event 1', parent=or1)
    intermediateEvent2 = Event('Intermediate Event 2', parent=or1)
    or2 = Gate('OR', parent=intermediateEvent1)
    basicEvent1 = Event('Basic Event 1', lognorm_dist, norm_dist, parent=or2)
    basicEvent2 = Event('Basic Event 2',
                        rel_exp_dist,
                        weibull_dist,
                        parent=or2)
    or3 = Gate('OR', parent=intermediateEvent2)
    basicEvent3 = Event('Basic Event 3',
                        rel_exp_dist,
                        main_exp_dist,
                        parent=or3)
    basicEvent4 = Event('Basic Event 4', norm_dist, main_exp_dist, parent=or3)

    fault_tree = FaultTree(topEvent)

    return fault_tree
コード例 #17
0
from modules.event import Event

event_1 = Event("Danny's Birthday", "14-04-2021", 50, "Grand Ballroom", "An elegant birthday bash!", True, True)
event_2 = Event("Buff Bash", '15-09-2021', 35, 'Snug Bar', 'Nudist Party', False, False)
event_3 = Event("Summer Party", '20-07-2021', 60, 'Secret Garden', 'Celebration of Summer', False, False)

events = [event_1, event_2, event_3]

def add_new_event(event):
    events.append(event)
コード例 #18
0
from modules.gate import Gate
from modules.event import Event
from modules.faulttree import FaultTree

rel_exp_dist = ['EXP', 1 / 3]
main_exp_dist = ['EXP', 1 / 2]
lognorm_dist = ['LOGNORM', 2, 1]
norm_dist = ['NORMAL', 4, 1]
weibull = ['WEIBULL', 5, 2]
top_event = Event("Top Event")
and1 = Gate("AND", parent=top_event)
intermediate_event_1 = Event("Intermediate Event 1", parent=and1)
intermediate_event_2 = Event("Intermediate Event 2", parent=and1)
voting2 = Gate("VOTING", parent=intermediate_event_1, k=2)
basic_event_3 = Event("Basic Event 3",
                      norm_dist,
                      main_exp_dist,
                      parent=voting2)
basic_event_4 = Event("Basic Event 4", rel_exp_dist, weibull, parent=voting2)
basic_event_5 = Event("Basic Event 5",
                      lognorm_dist,
                      main_exp_dist,
                      parent=voting2)
or3 = Gate("OR", parent=intermediate_event_2)
basic_event_1 = Event("Basic Event 1", norm_dist, main_exp_dist, parent=or3)
basic_event_2 = Event("Basic Event 2", rel_exp_dist, norm_dist, parent=or3)

FT = FaultTree(top_event)

FT.generate_basic_event_time_series(4)
コード例 #19
0
main_exp_dist = ['EXP', 1 / 2]
'''
topEvent = Event('Top Event')
and1 = Gate('AND', parent=topEvent)
basicEvent1 = Event('Basic Event 1', rel_exp_dist, main_exp_dist, parent=and1)
basicEvent2 = Event('Basic Event 2', ['EXP', 1 / 100], main_exp_dist, parent=and1)

'''
'''
intermed = Event('Inter event ', parent=or1)
and1 = Gate('AND', parent=intermed)
basicEvent3 = Event('Basic Event 3', lognorm_dist, norm_dist, parent=and1)
basicEvent4 = Event('Basic Event 4', rel_exp_dist, main_exp_dist, parent=and1)
'''

topEvent = Event('Top Event')
and1 = Gate('AND', parent=topEvent)
intermediateEvent1 = Event('Intermediate Event 1', parent=and1)
intermediateEvent2 = Event('Intermediate Event 2', parent=and1)
vote2 = Gate('VOTING', parent=intermediateEvent1, k=2)
basicEvent1 = Event('Basic Event 1', rel_exp_dist, main_exp_dist, parent=vote2)
basicEvent2 = Event('Basic Event 2', rel_exp_dist, main_exp_dist, parent=vote2)
intermediateEvent3 = Event('Intermediate Event 3', parent=vote2)
and2 = Gate('AND', parent=intermediateEvent3)
basicEvent3 = Event('Basic Event 3', rel_exp_dist, main_exp_dist, parent=and2)
basicEvent4 = Event('Basic Event 4', rel_exp_dist, main_exp_dist,  parent=and2)
or1 = Gate('OR', parent=intermediateEvent2)
basicEvent5 = Event('Basic Event 5', rel_exp_dist, main_exp_dist, parent=or1)
intermediateEvent4 = Event('Intermediate Event 4', parent=or1)
and3 = Gate('AND', parent=intermediateEvent4)
basicEvent6 = Event('Basic Event 6', rel_exp_dist, main_exp_dist, parent=and3)
コード例 #20
0
 def __add_investiture_events_for_professions(self):
     """
     Add investiture events for persons that have specific profession events
     """
     professions_query = """
         PREFIX core: <http://purl.org/nampi/owl/core#>
         PREFIX mona: <http://purl.org/nampi/owl/monastic-life#>
         PREFIX rdfs: <http://www.w3.org/2000/01/rdf-schema#>
         SELECT ?author ?authoring_date ?source ?source_location ?group ?person_node ?person ?place ?exact_date ?earliest_date ?latest_date
         WHERE {
             ?event_node a core:event ;
                 rdfs:label ?event_label .
             ?dia_node core:has_interpretation ?event_node ;
                 core:is_authored_by/rdfs:label ?author ;
                 core:is_authored_on/core:has_date_time ?authoring_date ;
                 core:has_source_location ?source_node .
             ?source_node (core:has_source|core:has_online_source|mona:has_paged_source)/rdfs:label ?source ;
                 (core:has_value|core:has_text|core:has_url|mona:has_page_number) ?source_location .
             ?event_node core:changes_aspect_related_to/rdfs:label ?group ;
                 core:has_main_participant ?person_node .
             ?person_node rdfs:label ?person .
             OPTIONAL { ?event_node core:takes_place_at/rdfs:label ?place }
             OPTIONAL { ?event_node core:takes_place_on/core:has_date_time ?exact_date }
             OPTIONAL { ?event_node core:takes_place_not_later_than/core:has_date_time ?latest_date }
             OPTIONAL { ?event_node core:takes_place_not_earlier_than/core:has_date_time ?earliest_date }
             VALUES ?event_label { "Profession as choir monk in Astheim" "Profession as choir monk in Bistra" "Profession as choir monk in Gaming" "Profession as choir monk in Žiče" "Profession as choir nun in Imbach" "Profession as choir nun in St. Jakob" "Profession as converse in Gaming" "Profession as lay sister in Imbach" "Profession as priest monk in Gaming" "Profession as choir nun in St. Laurenz" "Profession as choir monk in Brno" "Second profession as choir nun in Imbach" "Secret profession as choir nun in Imbach" }
         }
     """
     has_investiture_event_query = """
         PREFIX core: <http://purl.org/nampi/owl/core#>
         PREFIX rdfs: <http://www.w3.org/2000/01/rdf-schema#>
         ASK WHERE {{
         ?event core:has_main_participant <{}> ;
                 rdfs:label ?label .
         FILTER ( CONTAINS(LCASE(?label), "investiture") )
         }}
     """
     for row in self._graph.graph.query(professions_query):
         has_investiture_event = bool(
             self._graph.graph.query(
                 has_investiture_event_query.format(row["person_node"])))
         if not has_investiture_event:
             person = self.__get_person(str(row["person"]))
             if not person:
                 continue
             status_type = self.__get_status_type(added_investiture_label)
             aspect = Aspect(self._graph, added_investiture_label,
                             status_type)
             author_label = str(row["author"])
             interpretation_date_text = str(
                 row["authoring_date"]).partition("T")[0]
             source_label = str(row["source"])
             source_location_label = str(row["source_location"])
             group = self.__get_group(str(row["group"]))
             assert group is not None
             place = self.__get_place(str(row["place"]))
             exact_date = (str(row["exact_date"]).partition("T")[0]
                           if row["exact_date"] else None)
             earliest_date = (str(row["earliest_date"]).partition("T")[0]
                              if row["earliest_date"] else None)
             latest_date = (str(row["latest_date"]).partition("T")[0]
                            if row["latest_date"] else None)
             dates_sorted_by_specificity = [
                 exact_date, latest_date, earliest_date
             ]
             most_specific_date = next(
                 (s for s in dates_sorted_by_specificity if s), None)
             event = Event(
                 self._graph,
                 person,
                 main_person_relationship=Nampi_type.Core.
                 has_main_participant,
                 place=place,
                 latest_date=most_specific_date,
                 label="Investiture in " + str(group.label),
             )
             event.add_relationship(
                 obj=group, pred=Nampi_type.Core.changes_aspect_related_to)
             event.add_relationship(obj=aspect,
                                    pred=Nampi_type.Core.adds_aspect)
             self.__insert_di_act(
                 event,
                 author_label=author_label,
                 source_label=source_label,
                 source_location_label=source_location_label,
                 interpretation_date_text=interpretation_date_text,
             )
             logging.debug(
                 "Added investiture event and interpretation for '{}'".
                 format(person.label))
     logging.info("Finished adding investiture events")
コード例 #21
0
 def test_trigger_units_of_example_1(self):
     polymer = 'dabAcCaCBAcCcaDA'
     result = Event().trigger_units_of(polymer)
     self.assertEqual(result, 'dabCBAcaDA')
コード例 #22
0
 def __add_persons(self):
     """
     Add all persons from the persons table not being added in birth events.
     """
     for _, row in self.__sheet.get_table(Table.PERSONS).iterrows():
         if not row[Column.source]:
             # Only use entries with source
             logging.warning(
                 "No source entry for 'person' table row '{}'".format(
                     row[Column.name]))
             continue
         person_label = safe_str(row, Column.name)
         has_birth_event = self.__sheet.table_has_value(
             Table.BIRTHS,
             Column.person,
             person_label,
         )
         person = self.__get_person(safe_str(row, Column.name))
         if not person:
             continue
         if not has_birth_event:
             # Get all family name variants from the person table
             family_names = [
                 safe_str(row, Column.family_name_with_group),
                 safe_str(row, Column.family_name_gender_neutral),
                 safe_str(row, Column.family_name),
             ]
             # Get the official family name by looking through the ordered family_names list and picking the first match
             family_group_name = next((s for s in family_names if s), None)
             # Add family name group membership
             if family_group_name:
                 family = Family(self._graph, family_group_name)
                 aspect = Aspect(self._graph, family_member_label)
                 become_member_event = Event(
                     self._graph,
                     person,
                     Nampi_type.Core.has_main_participant,
                     label="Become family member",
                 )
                 become_member_event.add_relationship(
                     Nampi_type.Core.adds_aspect, aspect)
                 become_member_event.add_relationship(
                     Nampi_type.Core.changes_aspect_related_to, family)
                 self.__insert_di_act(become_member_event, row=row)
                 logging.debug(
                     "Added 'membership' in family '{}' for birthless person '{}'"
                     .format(family.label, row[Column.name]))
             # Add names for persons that don't have birth events
             if family_names[2]:
                 # Add personal family name
                 fn_assignment = Appellation_assignment(
                     self._graph,
                     person,
                     family_names[2],
                     Appellation_type.FAMILY_NAME,
                 )
                 self.__insert_di_act(fn_assignment, row=row)
             if row[Column.given_name]:
                 # Add given name
                 gn_assignment = Appellation_assignment(
                     self._graph, person,
                     str(safe_str(row, Column.given_name)))
                 self.__insert_di_act(gn_assignment, row=row)
             logging.debug("Added 'names' for birthless person '{}'".format(
                 row[Column.name]))
     logging.info("Parsed the persons")
コード例 #23
0
from string import ascii_lowercase

from modules.event import Event

filename = 'input'
in_filepath = f'data/{filename}.plain'
polymer = open(in_filepath).read().split('\n')[0]

result = Event().trigger_units_of(polymer)

# print(f'result: {result}')

print('Part 1')

print(f'result: {len(result)}')

print('= = = = =')

print('Part 2')

min_len = len(polymer)

for c in ascii_lowercase:
    opposite_uniy_type = c.swapcase()
    processed_polymer = polymer.replace(c, '').replace(opposite_uniy_type, '')
    result = Event().trigger_units_of(processed_polymer)
    result_len = len(result)
    min_len = min(min_len, result_len)

print(f'min len: {min_len}')
コード例 #24
0
    def add_persons(self, persondata, birthdate="", birthplace="", ids=""):
        """
        Add all persons from the persons table not being added in birth events.
        """

        if not persondata:
            # Only use entries with source
            logging.warning("No source entry for 'person' ")
            return

        person_label = persondata.Name  # persondata.Forename + " " + persondata.Surname

        person = self.__get_person(persondata.Name)
        print("Person in Progress...{}")
        if person:

            # if not has_birth_event:
            #     # Get all family name variants from the person table
            family_names = persondata.Surname
            #                     safe_str(row, Column.family_name_gender_neutral), safe_str(row, Column.family_name)]
            #     # Get the official family name by looking through the ordered family_names list and picking the first match
            family_group_name = next((s for s in family_names if s), None)
            # Add family name group membership

            family = Family(self._graph, persondata.Surname)
            aspect = Aspect(self._graph, family_member_label)

            if len(family_names) != 0:
                become_member_event = Event(
                    self._graph,
                    person,
                    Nampi_type.Core.has_main_participant,
                    label="Become family member",
                )
                become_member_event.add_relationship(
                    Nampi_type.Core.adds_aspect, aspect)
                become_member_event.add_relationship(
                    Nampi_type.Core.changes_aspect_related_to, family)
                logging.debug("Added 'membership' in family ")
                self.__insert_di_act(
                    become_member_event,
                    (),
                    authors,
                    "ProDomo",
                    "https://prodomo.icar-us.eu/person/" + persondata.Id,
                    self._d1,
                )

            if len(persondata.Mother) != 0:
                mother = self.__get_person(persondata.Mother)
                become_member_event_mother = Event(
                    self._graph,
                    mother,
                    Nampi_type.Core.has_main_participant,
                    label="Become family member",
                )
                become_member_event_mother.add_relationship(
                    Nampi_type.Core.adds_aspect, aspect)
                become_member_event_mother.add_relationship(
                    Nampi_type.Core.changes_aspect_related_to, family)

                self.__insert_di_act(
                    become_member_event_mother,
                    (),
                    authors,
                    "ProDomo",
                    "https://prodomo.icar-us.eu/aspekt/" + ids["Mutter"],
                    self._d1,
                )

            if len(persondata.Father) != 0:
                father = self.__get_person(persondata.Father)
                become_member_event_father = Event(
                    self._graph,
                    father,
                    Nampi_type.Core.has_main_participant,
                    label="Become family member",
                )
                become_member_event_father.add_relationship(
                    Nampi_type.Core.adds_aspect, aspect)
                become_member_event_father.add_relationship(
                    Nampi_type.Core.changes_aspect_related_to, family)

                self.__insert_di_act(
                    become_member_event_father,
                    (),
                    authors,
                    "ProDomo",
                    "https://prodomo.icar-us.eu/aspekt/" + ids["Vater"],
                    self._d1,
                )

                # Add names for persons that don't have birth events
                # if family_names:
                # Add personal family name
                fn_assignment = Appellation_assignment(
                    self._graph,
                    person,
                    family_names,
                    Appellation_type.FAMILY_NAME,
                )
                self.__insert_di_act(
                    fn_assignment,
                    (),
                    authors,
                    "ProDomo",
                    "https://prodomo.icar-us.eu/person/" + persondata.Id,
                    self._d1,
                )

            if birthdate:
                self.__add_births(
                    birthdate,
                    person_label,
                    family_names,
                    birthplace,
                    ids["Geburt"],
                    persondata.Mother,
                    persondata.Father,
                )

        logging.info("Parsed the persons")
コード例 #25
0
    def add_investiture_events(self, person, invest_dates):
        # get Event label from dict
        # print(invest_date.SemanticStm)
        # print(Entities_dict.keys())
        if not isinstance(invest_dates, list):
            # If type is not list then make it list
            invest_dates = [invest_dates]

        for invest_date in invest_dates:
            if (invest_date.SemanticStm in Entities_dict
                    and Entities_dict[invest_date.SemanticStm] is not None):
                Monastery = Entities_dict[invest_date.SemanticStm]
            elif (invest_date.Reference in Entities_dict
                  and Entities_dict[invest_date.Reference] is not None):
                Monastery = Entities_dict[invest_date.Reference]
            else:
                Monastery = ""

            strPlace = ""

            if hasattr(Monastery, "Place_Label"):
                strPlace = Monastery.Place_Label
                Place = self.__get_place(strPlace, Monastery.GeoId)

            Person = self.__get_person(person.Name)

            Religious_Name = Appellation(self._graph, person.Forename,
                                         Appellation_type.RELIGIOUS_NAME)

            Novice = Aspect(self._graph, "Novice",
                            Nampi_type.Mona.member_of_a_religious_community)

            investiture = Event(
                self._graph,
                Person,
                Nampi_type.Core.has_main_participant,
                "Investiture in " + Monastery.Event,
                Nampi_type.Core.event,
                Place,
                invest_date.When,
            )

            if type(Monastery) is Entity_Importer:
                Kloster = self.__get_group(Monastery.Class, Monastery.Label,
                                           Monastery.Part_Of_Label)
                investiture.add_relationship(
                    Nampi_type.Core.changes_aspect_related_to, Kloster)

            investiture.add_relationship(Nampi_type.Core.adds_aspect,
                                         Religious_Name.node)
            investiture.add_relationship(Nampi_type.Core.adds_aspect, Novice)

            # investiture.add_relationship(Nampi_type.Core.changes_aspect_related_to, Group)
            self.__insert_di_act(
                investiture,
                (),
                authors,
                "ProDomo",
                "https://prodomo.icar-us.eu/aspect/" + invest_date.Id,
                self._d1,
            )
コード例 #26
0
    def add_other_events(
        self,
        person: Person,
        label: str,
        date: str,
        semantics: Optional[str],
        reference: Optional[str],
        aspect: Optional[str],
        aspectkey: Optional[str],
        occupationkey: Optional[str],
        aspectlabel,
        name: Optional[str],
        participant: Optional[str],
        id: Optional[str],
        place: Optional[str],
        datefrom: Optional[str],
        dateto: Optional[str],
    ):
        # get Event label from dict
        Monastery = None
        Kloster = None

        if semantics in Entities_dict and Entities_dict[semantics] is not None:
            Monastery = Entities_dict[semantics]
        elif reference in Entities_dict and Entities_dict[
                reference] is not None:
            Monastery = Entities_dict[reference]
        else:
            Monastery = ""

        if not person:
            # Only use entries with source
            logging.warning("No source entry for 'person' ")
            return

        Person = self.__get_person(person.Name)

        strPlace = ""
        Place = ""
        place = ""

        if hasattr(Monastery, "Place_Label"):
            strPlace = Monastery.Place_Label
            Place = self.__get_place(strPlace, Monastery.GeoId)
        elif place:
            Place = self.__get_place(place, "")

        # check date
        # if it contains 4 digits, make earliest and latest date

        dateearly = ""
        datelast = ""
        datetokens = ""
        if date:
            if len(date) == 4:
                dateearly = date + "-01-01"
                datelast = date + "-12-31"
                date = None

            elif len(date) == 7:
                datetokens = date.split("-")
                dateearly = date + "-01"
                datelast = (date + "-" + str(
                    calendar.monthrange(int(datetokens[0]), int(
                        datetokens[1]))[1]))
                date = None

        if datefrom:
            if (len(datefrom)) == 4:
                dateearly = datefrom + "-01-01"
            elif (len(datefrom)) == 7:
                dateearly = datefrom + "-01"
            else:
                dateearly = datefrom

        if dateto:

            if (len(dateto.strip())) == 4:
                datelast = dateto + "-12-31"
            elif (len(dateto.strip())) == 7:
                datetokens = dateto.split("-")
                datelast = (dateto + "-" + str(
                    calendar.monthrange(int(datetokens[0]), int(
                        datetokens[1]))[1]))
            else:
                datelast = dateto

        if dateearly == "0000-00-00":
            dateearly = ""

        if datelast == "0000-00-00":
            datelast = ""

        if dateearly.find("0000") > -1:
            dateearly = ""

        if datelast.find("0000") > -1:
            datelast = ""

        if len(dateearly) > 0:
            PlainEvent = Event(
                self._graph,
                Person,
                Nampi_type.Core.has_main_participant,
                label,
                Nampi_type.Core.event,
                Place,
                "",
                dateearly,
                datelast,
            )
        elif date:
            PlainEvent = Event(
                self._graph,
                Person,
                Nampi_type.Core.has_main_participant,
                label,
                Nampi_type.Core.event,
                Place,
                date,
            )
        else:
            PlainEvent = Event(
                self._graph,
                Person,
                Nampi_type.Core.has_main_participant,
                label,
                Nampi_type.Core.event,
                Place,
            )

        if type(Monastery) is Entity_Importer:
            Kloster = self.__get_group(Monastery.Class, Monastery.Label,
                                       Monastery.Part_Of_Label)
            PlainEvent.add_relationship(
                Nampi_type.Core.changes_aspect_related_to, Kloster)

        # get various type by key from dict
        # leave if not present; core:aspect will be set automatically
        types = []
        try:
            if len(str(aspectkey)) > 0:
                types.append(_status_types[aspectkey])

            if len(occupationkey) > 0:
                types.append(_occupation_types[occupationkey])

            if len(types) == 0:
                types.append(_status_types["Unspecified"])

        except:
            logging.info("Key not in Dict")

        varAspect = ""
        alabel = ""

        if aspectlabel is not None:
            if aspectlabel.find("[Orden]") > -1 and hasattr(
                    Monastery, "AspectPart"):
                alabel = aspectlabel.replace("[Orden]", Monastery.AspectPart)
            else:
                alabel = aspectlabel

        if alabel is not None and len(alabel.strip()) > 0:

            varAspect = Aspect(self._graph, alabel.capitalize(), types)

            PlainEvent.add_relationship(Nampi_type.Core.adds_aspect, varAspect)

            self.__insert_di_act(
                PlainEvent,
                (),
                authors,
                "ProDomo",
                "https://prodomo.icar-us.eu/aspect/" + id,
                self._d1,
            )
コード例 #27
0
def C():
    rel_exp = ['EXP', 1 / 9]

    topEvent = Event('Top Event')
    and1 = Gate('AND', parent=topEvent)
    intermediateEvent1 = Event('Intermediate Event 1', parent=and1)
    intermediateEvent2 = Event('Intermediate Event 2', parent=and1)
    vote2 = Gate('VOTING', parent=intermediateEvent1, k=2)
    basicEvent1 = Event('Basic Event 1', rel_exp, main_exp_dist, parent=vote2)
    basicEvent2 = Event('Basic Event 2', rel_exp, main_exp_dist, parent=vote2)
    intermediateEvent3 = Event('Intermediate Event 3', parent=vote2)
    and2 = Gate('AND', parent=intermediateEvent3)
    basicEvent3 = Event('Basic Event 3',
                        rel_exp_dist,
                        main_exp_dist,
                        parent=and2)
    basicEvent4 = Event('Basic Event 4',
                        rel_exp_dist,
                        main_exp_dist,
                        parent=and2)
    or1 = Gate('OR', parent=intermediateEvent2)
    basicEvent5 = Event('Basic Event 5', rel_exp, main_exp_dist, parent=or1)
    intermediateEvent4 = Event('Intermediate Event 4', parent=or1)
    and3 = Gate('AND', parent=intermediateEvent4)
    basicEvent6 = Event('Basic Event 6',
                        rel_exp_dist,
                        main_exp_dist,
                        parent=and3)
    basicEvent7 = Event('Basic Event 7',
                        rel_exp_dist,
                        main_exp_dist,
                        parent=and3)
    basicEvent8 = Event('Basic Event 8',
                        rel_exp_dist,
                        main_exp_dist,
                        parent=and3)

    fault_tree = FaultTree(topEvent)

    return fault_tree