def run(database, document, date):
"""
Display people probably alive and their ages on a particular date.
"""
# setup the simple access functions
sdb = SimpleAccess(database)
sdoc = SimpleDoc(document)
stab = QuickTable(sdb)
if not date.get_valid():
sdoc.paragraph("Date is not a valid date.")
return
# display the title
if date.get_day_valid():
sdoc.title(_("People and their ages the %s") % displayer.display(date))
else:
sdoc.title(_("People and their ages on %s") % displayer.display(date))
stab.columns(_("Person"), _("Age"),
_("Status")) # Actual Date makes column unicode
alive_matches = 0
dead_matches = 0
for person in sdb.all_people():
alive, birth, death, explain, relative = \
probably_alive(person, database, date, return_range=True)
# Doesn't show people probably alive but no way of figuring an age:
if alive:
if birth:
diff_span = (date - birth)
stab.row(person, str(diff_span), _("Alive: %s") % explain)
stab.row_sort_val(1, int(diff_span))
else:
stab.row(person, "", _("Alive: %s") % explain)
stab.row_sort_val(1, 0)
alive_matches += 1
else: # not alive
if birth:
diff_span = (date - birth)
stab.row(person, str(diff_span), _("Deceased: %s") % explain)
stab.row_sort_val(1, int(diff_span))
else:
stab.row(person, "", _("Deceased: %s") % explain)
stab.row_sort_val(1, 1)
dead_matches += 1
document.has_data = (alive_matches + dead_matches) > 0
sdoc.paragraph(
_("\nLiving matches: %(alive)d, "
"Deceased matches: %(dead)d\n") % {
'alive': alive_matches,
'dead': dead_matches
})
if document.has_data:
stab.write(sdoc)
sdoc.paragraph("")
def run(database, document, date):
"""
Display people probably alive and their ages on a particular date.
"""
# setup the simple access functions
sdb = SimpleAccess(database)
sdoc = SimpleDoc(document)
stab = QuickTable(sdb)
if not date.get_valid():
sdoc.paragraph("Date is not a valid date.")
return
# display the title
if date.get_day_valid():
sdoc.title(_("People and their ages the %s") %
displayer.display(date))
else:
sdoc.title(_("People and their ages on %s") %
displayer.display(date))
stab.columns(_("Person"), _("Age"), _("Status")) # Actual Date makes column unicode
alive_matches = 0
dead_matches = 0
for person in sdb.all_people():
alive, birth, death, explain, relative = \
probably_alive(person, database, date, return_range=True)
# Doesn't show people probably alive but no way of figuring an age:
if alive:
if birth:
diff_span = (date - birth)
stab.row(person, str(diff_span), _("Alive: %s") % explain)
stab.row_sort_val(1, int(diff_span))
else:
stab.row(person, "", _("Alive: %s") % explain)
stab.row_sort_val(1, 0)
alive_matches += 1
else: # not alive
if birth:
diff_span = (date - birth)
stab.row(person, str(diff_span), _("Deceased: %s") % explain)
stab.row_sort_val(1, int(diff_span))
else:
stab.row(person, "", _("Deceased: %s") % explain)
stab.row_sort_val(1, 1)
dead_matches += 1
document.has_data = (alive_matches + dead_matches) > 0
sdoc.paragraph(_("\nLiving matches: %(alive)d, "
"Deceased matches: %(dead)d\n") %
{'alive' : alive_matches, 'dead' : dead_matches})
if document.has_data:
stab.write(sdoc)
sdoc.paragraph("")
def get(self, args: Dict, handle: Handle) -> Response:
"""Determine if person alive."""
db_handle = get_db_handle()
person = get_person_by_handle(db_handle, handle)
if person == {}:
abort(404)
data = probably_alive(
person,
db_handle,
max_sib_age_diff=args["max_sibling_age_difference"],
max_age_prob_alive=args["max_age_probably_alive"],
avg_generation_gap=args["average_generation_gap"],
)
return self.response(200, {"living": data})
def get_full_person_info(self, person):
retval = ""
b_date = "0"
b_place = ""
birth_ref = person.get_birth_ref()
for event_ref in person.get_event_ref_list():
role = int(event_ref.get_role())
if role != EventRoleType.PRIMARY:
next
event = self.db.get_event_from_handle(event_ref.ref)
etype = int(event.get_type())
val = PERSONCONSTANTEVENTS.get(etype)
if birth_ref:
birth = self.db.get_event_from_handle(birth_ref.ref)
if birth:
b_date = self.format_date(birth.get_date_object())
if not b_date:
b_date = "0"
place_handle = birth.get_place_handle()
if place_handle:
b_place = _pd.display_event(self.db, birth)
if probably_alive(person, self.db):
d_date = ""
else:
d_date = "0"
d_place = ""
death_ref = person.get_death_ref()
if death_ref:
death = self.db.get_event_from_handle(death_ref.ref)
if death:
d_date = self.format_date(death.get_date_object())
place_handle = death.get_place_handle()
if place_handle:
d_place = _pd.display_event(self.db, death)
retval = retval + "%s " % b_date
if b_place != "":
retval = retval + "#bp %s " % self.rem_spaces(b_place)
retval = retval + "%s " % d_date
if d_place != "":
retval = retval + "#dp %s " % self.rem_spaces(d_place)
return retval
def get_full_person_info(self, person):
# FIXME:
#if self.restrict:
# return "0 "
retval = ""
b_date = "0"
b_place = ""
birth_ref = person.get_birth_ref()
if birth_ref:
birth = self.db.get_event_from_handle(birth_ref.ref)
if birth:
b_date = self.format_date(birth.get_date_object())
place_handle = birth.get_place_handle()
if place_handle:
place = self.db.get_place_from_handle(place_handle)
b_place = place.get_title()
if probably_alive(person, self.db):
d_date = ""
else:
d_date = "0"
d_place = ""
death_ref = person.get_death_ref()
if death_ref:
death = self.db.get_event_from_handle(death_ref.ref)
if death:
d_date = self.format_date(death.get_date_object())
place_handle = death.get_place_handle()
if place_handle:
place = self.db.get_place_from_handle(place_handle)
d_place = place.get_title()
retval = retval + "%s " % b_date
if b_place != "":
retval = retval + "#bp %s " % self.rem_spaces(b_place)
retval = retval + "%s " % d_date
if d_place != "":
retval = retval + "#dp %s " % self.rem_spaces(d_place)
return retval
def get_full_person_info(self, person):
# FIXME:
#if self.restrict:
# return "0 "
retval = ""
b_date = "0"
b_place = ""
birth_ref = person.get_birth_ref()
if birth_ref:
birth = self.db.get_event_from_handle(birth_ref.ref)
if birth:
b_date = self.format_date( birth.get_date_object())
place_handle = birth.get_place_handle()
if place_handle:
b_place = _pd.display_event(self.db, birth)
if probably_alive(person,self.db):
d_date = ""
else:
d_date = "0"
d_place = ""
death_ref = person.get_death_ref()
if death_ref:
death = self.db.get_event_from_handle(death_ref.ref)
if death:
d_date = self.format_date( death.get_date_object())
place_handle = death.get_place_handle()
if place_handle:
d_place = _pd.display_event(self.db, death)
retval = retval + "%s " % b_date
if b_place != "":
retval = retval + "#bp %s " % self.rem_spaces(b_place)
retval = retval + "%s " % d_date
if d_place != "":
retval = retval + "#dp %s " % self.rem_spaces(d_place)
return retval
def _count_descendants(database, person, root_death_date, generation,
total, seen, outlived, alive, handles):
# "total", "seen", "outlived" and "alive" are lists with the respective
# descendant count per generation. "handles" is a list of lists of person
# handles per generation. These parameters are modified by this function!
for family_handle in person.get_family_handle_list():
family = database.get_family_from_handle(family_handle)
for child_ref in family.get_child_ref_list():
child = database.get_person_from_handle(child_ref.ref)
birth_date = _get_date(database, child.get_birth_ref())
death_date = _get_date(database, child.get_death_ref())
# Total number of descendants.
_increment(total, 0, 1, generation)
# Number of descendants born during lifetime of queried person.
if root_death_date and birth_date and \
birth_date.match(root_death_date, "<<"):
_increment(seen, 0, 1, generation)
# Number of descendants that queried person outlived.
if root_death_date and death_date and \
death_date.match(root_death_date, "<<"):
_increment(outlived, 0, 1, generation)
# Number of descendants now alive.
if probably_alive(child, database):
_increment(alive, 0, 1, generation)
# Handle to this descendant.
_increment(handles, [], [child.handle], generation)
_count_descendants(database, child, root_death_date, generation + 1,
total, seen, outlived, alive, handles)
def write_person(self, key):
""" Output birth, death, parentage, marriage and notes information """
def write_more_header(first, name):
""" convenience function """
if first:
self.doc.start_paragraph('DAR-MoreHeader')
self.doc.write_text(
self._('More about %(person_name)s:') %
{'person_name': name})
self.doc.end_paragraph()
return False
person_handle = self.map[key]
person = self._db.get_person_from_handle(person_handle)
plist = person.get_media_list()
self.__narrator.set_subject(person)
if self.addimages and len(plist) > 0:
photo = plist[0]
utils.insert_image(self._db, self.doc, photo, self._user)
self.doc.start_paragraph("DAR-First-Entry", "%d." % self._get_s_s(key))
name = self._nd.display(person)
if not name:
name = self._("Unknown")
mark = utils.get_person_mark(self._db, person)
self.doc.start_bold()
self.doc.write_text(name, mark)
if name[-1:] == '.':
self.doc.write_text_citation("%s " % self.endnotes(person))
elif name:
self.doc.write_text_citation("%s. " % self.endnotes(person))
self.doc.end_bold()
if self.want_ids:
self.doc.write_text('(%s) ' % person.get_gramps_id())
if self.dupperson:
# Check for duplicate record (result of distant cousins marrying)
for dkey in sorted(self.map):
if dkey >= key:
break
if self.map[key] == self.map[dkey]:
self.doc.write_text(
self._("%(name)s is the same person as [%(id_str)s].")
% {
'name': '',
'id_str': str(dkey)
})
self.doc.end_paragraph()
return 1 # Duplicate person
if not self.verbose:
self.write_parents(person)
text = self.__narrator.get_born_string()
if text:
self.doc.write_text_citation(text)
text = self.__narrator.get_baptised_string()
if text:
self.doc.write_text_citation(text)
text = self.__narrator.get_christened_string()
if text:
self.doc.write_text_citation(text)
# Write Death and/or Burial text only if not probably alive
if not probably_alive(person, self.database):
text = self.__narrator.get_died_string(self.calcageflag)
if text:
self.doc.write_text_citation(text)
text = self.__narrator.get_buried_string()
if text:
self.doc.write_text_citation(text)
if self.verbose:
self.write_parents(person)
if not key % 2 or key == 1:
self.write_marriage(person)
self.doc.end_paragraph()
if key == 1:
self.write_mate(person)
notelist = person.get_note_list()
if len(notelist) > 0 and self.includenotes:
self.doc.start_paragraph("DAR-NoteHeader")
# feature request 2356: avoid genitive form
self.doc.write_text(self._("Notes for %s") % name)
self.doc.end_paragraph()
for notehandle in notelist:
note = self._db.get_note_from_handle(notehandle)
self.doc.write_styled_note(
note.get_styledtext(),
note.get_format(),
"DAR-Entry",
contains_html=(note.get_type() == NoteType.HTML_CODE))
first = True
if self.inc_names:
for alt_name in person.get_alternate_names():
first = write_more_header(first, name)
self.doc.start_paragraph('DAR-MoreDetails')
atype = self._get_type(alt_name.get_type())
self.doc.write_text_citation(
self._('%(type)s: %(value)s%(endnotes)s') % {
'type': self._(atype),
'value': alt_name.get_regular_name(),
'endnotes': self.endnotes(alt_name)
})
self.doc.end_paragraph()
if self.inc_events:
birth_ref = person.get_birth_ref()
death_ref = person.get_death_ref()
for event_ref in person.get_primary_event_ref_list():
if event_ref == birth_ref or event_ref == death_ref:
continue
first = write_more_header(first, name)
self.write_event(event_ref)
if self.other_events:
for event_ref in person.get_event_ref_list():
role = event_ref.get_role()
if role in (EventRoleType.PRIMARY, EventRoleType.FAMILY):
continue
first = write_more_header(first, name)
self.write_event(event_ref)
if self.inc_addr:
for addr in person.get_address_list():
first = write_more_header(first, name)
self.doc.start_paragraph('DAR-MoreDetails')
text = utils.get_address_str(addr)
self.doc.write_text(self._('Address: '))
if self.fulldate:
date = self._get_date(addr.get_date_object())
else:
date = addr.get_date_object().get_year()
if date:
# translators: needed for Arabic, ignore otherwise
self.doc.write_text(self._('%s, ') % date)
self.doc.write_text(text)
self.doc.write_text_citation(self.endnotes(addr))
self.doc.end_paragraph()
if self.inc_attrs:
attrs = person.get_attribute_list()
if attrs:
first = write_more_header(first, name)
for attr in attrs:
self.doc.start_paragraph('DAR-MoreDetails')
attr_name = attr.get_type().type2base()
# translators: needed for French, ignore otherwise
text = self._("%(type)s: %(value)s%(endnotes)s") % {
'type': self._(attr_name),
'value': attr.get_value(),
'endnotes': self.endnotes(attr)
}
self.doc.write_text_citation(text)
self.doc.end_paragraph()
return 0 # Not duplicate person
def exportData(database,
filename,
error_dialog=None,
option_box=None,
callback=None):
if not callable(callback):
callback = lambda percent: None # dummy
with OpenFileOrStdout(filename) as fp:
total = (len(database.note_map) + len(database.person_map) +
len(database.event_map) + len(database.family_map) +
len(database.repository_map) + len(database.place_map) +
len(database.media_map) + len(database.source_map))
count = 0.0
# GProlog ISO directives:
# /number must match the number of arguments to functions:
fp.write(":- discontiguous(data/2).\n")
fp.write(":- discontiguous(is_alive/2).\n")
fp.write(":- discontiguous(parent/2).\n")
# Rules:
fp.write("grandparent(X, Y) :- parent(X, Z), parent(Z, Y).\n")
fp.write("ancestor(X, Y) :- parent(X, Y).\n")
fp.write("ancestor(X, Y) :- parent(X, Z), ancestor(Z, Y).\n")
fp.write("sibling(X, Y) :- parent(Z, X), parent(Z, Y), X \= Y.\n")
# ---------------------------------
# Notes
# ---------------------------------
for note_handle in database.note_map.keys():
note = database.note_map[note_handle]
#write_line(fp, "note_details(%s, %s)" % (note_handle, note))
count += 1
callback(100 * count / total)
# ---------------------------------
# Event
# ---------------------------------
for event_handle in database.event_map.keys():
event = database.event_map[event_handle]
#write_line(fp, "event:", event_handle, event)
count += 1
callback(100 * count / total)
# ---------------------------------
# Person
# ---------------------------------
for person_handle in database.person_map.keys():
data = database.person_map[person_handle]
person = Person.create(data)
gid = person.gramps_id.lower()
fp.write("data(%s, '%s').\n" %
(gid, escape(name_displayer.display(person))))
fp.write("is_alive(%s, '%s').\n" %
(gid, probably_alive(person, database)))
count += 1
callback(100 * count / total)
# ---------------------------------
# Family
# ---------------------------------
for family_handle in database.family_map.keys():
data = database.family_map[family_handle]
family = Family.create(data)
father_handle = family.get_father_handle()
mother_handle = family.get_mother_handle()
parents = []
if mother_handle:
mother = database.get_person_from_handle(mother_handle)
if mother:
parents.append(mother.gramps_id.lower())
if father_handle:
father = database.get_person_from_handle(father_handle)
if father:
parents.append(father.gramps_id.lower())
children = []
for child_ref in family.get_child_ref_list():
child_handle = child_ref.ref
child = database.get_person_from_handle(child_handle)
if child:
children.append(child.gramps_id.lower())
for pid in parents:
for cid in children:
fp.write("parent(%s, %s).\n" % (pid, cid))
count += 1
callback(100 * count / total)
# ---------------------------------
# Repository
# ---------------------------------
for repository_handle in database.repository_map.keys():
repository = database.repository_map[repository_handle]
#write_line(fp, "repository:", repository_handle, repository)
count += 1
callback(100 * count / total)
# ---------------------------------
# Place
# ---------------------------------
for place_handle in database.place_map.keys():
place = database.place_map[place_handle]
#write_line(fp, "place:", place_handle, place)
count += 1
callback(100 * count / total)
# ---------------------------------
# Source
# ---------------------------------
for source_handle in database.source_map.keys():
source = database.source_map[source_handle]
#write_line(fp, "source:", source_handle, source)
count += 1
callback(100 * count / total)
# ---------------------------------
# Media
# ---------------------------------
for media_handle in database.media_map.keys():
media = database.media_map[media_handle]
#write_line(fp, "media:", media_handle, media)
count += 1
callback(100 * count / total)
return True
def find_records(db,
filter,
top_size,
callname,
trans_text=glocale.translation.sgettext,
name_format=None,
living_mode=LivingProxyDb.MODE_INCLUDE_ALL):
"""
@param trans_text: allow deferred translation of strings
@type trans_text: a GrampsLocale sgettext instance
trans_text is a defined keyword (see po/update_po.py, po/genpot.sh)
:param name_format: optional format to control display of person's name
:type name_format: None or int
:param living_mode: enable optional control of living people's records
:type living_mode: int
"""
def get_unfiltered_person_from_handle(person_handle):
if living_mode == LivingProxyDb.MODE_INCLUDE_ALL:
return db.get_person_from_handle(person_handle)
else: # we are in the proxy so get the person before proxy changes
return db.get_unfiltered_person(person_handle)
today = datetime.date.today()
today_date = Date(today.year, today.month, today.day)
# Person records
person_youngestliving = []
person_oldestliving = []
person_youngestdied = []
person_oldestdied = []
person_youngestmarried = []
person_oldestmarried = []
person_youngestdivorced = []
person_oldestdivorced = []
person_youngestfather = []
person_youngestmother = []
person_oldestfather = []
person_oldestmother = []
person_handle_list = db.iter_person_handles()
if filter:
person_handle_list = filter.apply(db, person_handle_list)
for person_handle in person_handle_list:
person = db.get_person_from_handle(person_handle)
unfil_person = get_unfiltered_person_from_handle(person_handle)
if person is None:
continue
# FIXME this should check for a "fallback" birth also/instead
birth_ref = person.get_birth_ref()
if not birth_ref:
# No birth event, so we can't calculate any age.
continue
birth = db.get_event_from_handle(birth_ref.ref)
birth_date = birth.get_date_object()
death_date = _find_death_date(db, person)
if not _good_date(birth_date):
# Birth date unknown or incomplete, so we can't calculate any age.
continue
name = _get_styled_primary_name(person,
callname,
trans_text=trans_text,
name_format=name_format)
if death_date is None:
if probably_alive(unfil_person, db):
# Still living, look for age records
_record(person_youngestliving, person_oldestliving,
today_date - birth_date, name, 'Person', person_handle,
top_size)
elif _good_date(death_date):
# Already died, look for age records
_record(person_youngestdied, person_oldestdied,
death_date - birth_date, name, 'Person', person_handle,
top_size)
for family_handle in person.get_family_handle_list():
family = db.get_family_from_handle(family_handle)
marriage_date = None
divorce_date = None
for event_ref in family.get_event_ref_list():
event = db.get_event_from_handle(event_ref.ref)
if (event.get_type().is_marriage()
and (event_ref.get_role().is_family()
or event_ref.get_role().is_primary())):
marriage_date = event.get_date_object()
elif (event.get_type().is_divorce()
and (event_ref.get_role().is_family()
or event_ref.get_role().is_primary())):
divorce_date = event.get_date_object()
if _good_date(marriage_date):
_record(person_youngestmarried, person_oldestmarried,
marriage_date - birth_date, name, 'Person',
person_handle, top_size)
if _good_date(divorce_date):
_record(person_youngestdivorced, person_oldestdivorced,
divorce_date - birth_date, name, 'Person',
person_handle, top_size)
for child_ref in family.get_child_ref_list():
if person.get_gender() == person.MALE:
relation = child_ref.get_father_relation()
elif person.get_gender() == person.FEMALE:
relation = child_ref.get_mother_relation()
else:
continue
if relation != ChildRefType.BIRTH:
continue
child = db.get_person_from_handle(child_ref.ref)
# FIXME this should check for a "fallback" birth also/instead
child_birth_ref = child.get_birth_ref()
if not child_birth_ref:
continue
child_birth = db.get_event_from_handle(child_birth_ref.ref)
child_birth_date = child_birth.get_date_object()
if not _good_date(child_birth_date):
continue
if person.get_gender() == person.MALE:
_record(person_youngestfather, person_oldestfather,
child_birth_date - birth_date, name, 'Person',
person_handle, top_size)
elif person.get_gender() == person.FEMALE:
_record(person_youngestmother, person_oldestmother,
child_birth_date - birth_date, name, 'Person',
person_handle, top_size)
# Family records
family_mostchildren = []
family_youngestmarried = []
family_oldestmarried = []
family_shortest = []
family_longest = []
family_smallestagediff = []
family_biggestagediff = []
for family in db.iter_families():
#family = db.get_family_from_handle(family_handle)
if living_mode != LivingProxyDb.MODE_INCLUDE_ALL:
# FIXME no iter_families method in LivingProxyDb so do it this way
family = db.get_family_from_handle(family.get_handle())
father_handle = family.get_father_handle()
if not father_handle:
continue
mother_handle = family.get_mother_handle()
if not mother_handle:
continue
# Test if either father or mother are in filter
if filter:
if not filter.apply(db, [father_handle, mother_handle]):
continue
father = db.get_person_from_handle(father_handle)
unfil_father = get_unfiltered_person_from_handle(father_handle)
if father is None:
continue
mother = db.get_person_from_handle(mother_handle)
unfil_mother = get_unfiltered_person_from_handle(mother_handle)
if mother is None:
continue
name = StyledText(trans_text("%(father)s and %(mother)s")) % {
'father':
_get_styled_primary_name(father,
callname,
trans_text=trans_text,
name_format=name_format),
'mother':
_get_styled_primary_name(mother,
callname,
trans_text=trans_text,
name_format=name_format)
}
if (living_mode == LivingProxyDb.MODE_INCLUDE_ALL
or (not probably_alive(unfil_father, db)
and not probably_alive(unfil_mother, db))):
_record(None, family_mostchildren,
len(family.get_child_ref_list()), name, 'Family',
family.handle, top_size)
father_birth_ref = father.get_birth_ref()
if father_birth_ref:
father_birth_date = db.get_event_from_handle(
father_birth_ref.ref).get_date_object()
else:
father_birth_date = None
mother_birth_ref = mother.get_birth_ref()
if mother_birth_ref:
mother_birth_date = db.get_event_from_handle(
mother_birth_ref.ref).get_date_object()
else:
mother_birth_date = None
if _good_date(father_birth_date) and _good_date(mother_birth_date):
if father_birth_date >> mother_birth_date:
_record(family_smallestagediff, family_biggestagediff,
father_birth_date - mother_birth_date, name, 'Family',
family.handle, top_size)
elif mother_birth_date >> father_birth_date:
_record(family_smallestagediff, family_biggestagediff,
mother_birth_date - father_birth_date, name, 'Family',
family.handle, top_size)
marriage_date = None
divorce = None
divorce_date = None
for event_ref in family.get_event_ref_list():
event = db.get_event_from_handle(event_ref.ref)
if (event.get_type().is_marriage()
and (event_ref.get_role().is_family()
or event_ref.get_role().is_primary())):
marriage_date = event.get_date_object()
if (event and event.get_type().is_divorce()
and (event_ref.get_role().is_family()
or event_ref.get_role().is_primary())):
divorce = event
divorce_date = event.get_date_object()
father_death_date = _find_death_date(db, father)
mother_death_date = _find_death_date(db, mother)
if not _good_date(marriage_date):
# Not married or marriage date unknown
continue
if divorce is not None and not _good_date(divorce_date):
# Divorced but date unknown or inexact
continue
if (not probably_alive(unfil_father, db)
and not _good_date(father_death_date)):
# Father died but death date unknown or inexact
continue
if (not probably_alive(unfil_mother, db)
and not _good_date(mother_death_date)):
# Mother died but death date unknown or inexact
continue
if (divorce_date is None and father_death_date is None
and mother_death_date is None):
# Still married and alive
if (probably_alive(unfil_father, db)
and probably_alive(unfil_mother, db)):
_record(family_youngestmarried, family_oldestmarried,
today_date - marriage_date, name, 'Family',
family.handle, top_size)
elif (_good_date(divorce_date) or _good_date(father_death_date)
or _good_date(mother_death_date)):
end = None
if _good_date(father_death_date) and _good_date(mother_death_date):
end = min(father_death_date, mother_death_date)
elif _good_date(father_death_date):
end = father_death_date
elif _good_date(mother_death_date):
end = mother_death_date
if _good_date(divorce_date):
if end:
end = min(end, divorce_date)
else:
end = divorce_date
duration = end - marriage_date
_record(family_shortest, family_longest, duration, name, 'Family',
family.handle, top_size)
#python 3 workaround: assign locals to tmp so we work with runtime version
tmp = locals()
return [(trans_text(text), varname, tmp[varname])
for (text, varname, default) in RECORDS]
def collect_data(self):
"""
This method runs through the data, and collects the relevant dates
and text.
"""
people = self.database.iter_person_handles()
with self._user.progress(_('Birthday and Anniversary Report'),
_('Applying Filter...'),
self.database.get_number_of_people()) as step:
people = self.filter.apply(self.database, people,
step)
ngettext = self._locale.translation.ngettext # to see "nearby" comments
rel_calc = get_relationship_calculator(reinit=True,
clocale=self._locale)
with self._user.progress(_('Birthday and Anniversary Report'),
_('Reading database...'), len(people)) as step:
for person_handle in people:
step()
person = self.database.get_person_from_handle(person_handle)
birth_ref = person.get_birth_ref()
birth_date = None
if birth_ref:
birth_event = self.database.get_event_from_handle(birth_ref.ref)
birth_date = birth_event.get_date_object()
if (self.birthdays and birth_date is not None and birth_date.is_valid()):
birth_date = gregorian(birth_date)
year = birth_date.get_year()
month = birth_date.get_month()
day = birth_date.get_day()
prob_alive_date = Date(self.year, month, day)
nyears = self.year - year
# add some things to handle maiden name:
father_lastname = None # husband, actually
if self.maiden_name in ['spouse_first', 'spouse_last']: # get husband's last name:
if person.get_gender() == Person.FEMALE:
family_list = person.get_family_handle_list()
if len(family_list) > 0:
if self.maiden_name == 'spouse_first':
fhandle = family_list[0]
else:
fhandle = family_list[-1]
fam = self.database.get_family_from_handle(fhandle)
father_handle = fam.get_father_handle()
mother_handle = fam.get_mother_handle()
if mother_handle == person_handle:
if father_handle:
father = self.database.get_person_from_handle(father_handle)
if father is not None:
primary_name = father.get_primary_name()
if primary_name:
father_lastname = Surname.get_surname(primary_name.get_primary_surname())
short_name = self.get_name(person, father_lastname)
alive = probably_alive(person, self.database, prob_alive_date)
if ((self.alive and alive) or not self.alive):
comment = ""
if self.relationships:
relation = rel_calc.get_one_relationship(
self.database,
self.center_person,
person,
olocale=self._locale)
if relation:
# FIXME this won't work for RTL languages
comment = " --- %s" % relation
if nyears == 0:
text = self._('%(person)s, birth%(relation)s') % {
'person' : short_name,
'relation' : comment}
else:
# translators: leave all/any {...} untranslated
text = ngettext('{person}, {age}{relation}',
'{person}, {age}{relation}',
nyears).format(person=short_name,
age=nyears,
relation=comment)
self.add_day_item(text, month, day, person)
if self.anniversaries:
family_list = person.get_family_handle_list()
for fhandle in family_list:
fam = self.database.get_family_from_handle(fhandle)
father_handle = fam.get_father_handle()
mother_handle = fam.get_mother_handle()
if father_handle == person.get_handle():
spouse_handle = mother_handle
else:
continue # with next person if the father is not "person"
# this will keep from duplicating the anniversary
if spouse_handle:
spouse = self.database.get_person_from_handle(spouse_handle)
if spouse:
spouse_name = self.get_name(spouse)
short_name = self.get_name(person)
# TEMP: this will handle ordered events
# Gramps 3.0 will have a new mechanism for start/stop events
are_married = None
for event_ref in fam.get_event_ref_list():
event = self.database.get_event_from_handle(event_ref.ref)
if event.type in [EventType.MARRIAGE,
EventType.MARR_ALT]:
are_married = event
elif event.type in [EventType.DIVORCE,
EventType.ANNULMENT,
EventType.DIV_FILING]:
are_married = None
if are_married is not None:
for event_ref in fam.get_event_ref_list():
event = self.database.get_event_from_handle(event_ref.ref)
event_obj = event.get_date_object()
if event_obj is not Date.EMPTY and event_obj.is_valid():
event_obj = gregorian(event_obj)
year = event_obj.get_year()
month = event_obj.get_month()
day = event_obj.get_day()
nyears = self.year - year
if event_obj.is_valid():
if nyears == 0:
text = self._("%(spouse)s and\n %(person)s, wedding") % {
'spouse' : spouse_name,
'person' : short_name}
else:
# translators: leave all/any {...} untranslated
text = ngettext("{spouse} and\n {person}, {nyears}",
"{spouse} and\n {person}, {nyears}",
nyears).format(spouse=spouse_name, person=short_name, nyears=nyears)
prob_alive_date = Date(self.year, month, day)
alive1 = probably_alive(person, self.database,
prob_alive_date)
alive2 = probably_alive(spouse, self.database,
prob_alive_date)
if (self.alive and alive1 and alive2) or not self.alive:
self.add_day_item(text, month, day, spouse)
def collect_data(self):
"""
This method runs through the data, and collects the relevant dates
and text.
"""
db = self.database
people = db.iter_person_handles()
with self._user.progress(_('Calendar Report'), _('Applying Filter...'),
db.get_number_of_people()) as step:
people = self.filter.apply(self.database, people, step)
ngettext = self._locale.translation.ngettext # to see "nearby" comments
with self._user.progress(_('Calendar Report'),
_('Reading database...'),
len(people)) as step:
for person_handle in people:
step()
person = db.get_person_from_handle(person_handle)
mark = ReportUtils.get_person_mark(db, person)
birth_ref = person.get_birth_ref()
birth_date = None
if birth_ref:
birth_event = db.get_event_from_handle(birth_ref.ref)
birth_date = birth_event.get_date_object()
if (self.birthdays and birth_date is not None
and birth_date.is_valid()):
birth_date = gregorian(birth_date)
year = birth_date.get_year()
month = birth_date.get_month()
day = birth_date.get_day()
prob_alive_date = Date(self.year, month, day)
nyears = self.year - year
# add some things to handle maiden name:
father_lastname = None # husband, actually
if self.maiden_name in ['spouse_first', 'spouse_last'
]: # get husband's last name:
if person.get_gender() == Person.FEMALE:
family_list = person.get_family_handle_list()
if family_list:
if self.maiden_name == 'spouse_first':
fhandle = family_list[0]
else:
fhandle = family_list[-1]
fam = db.get_family_from_handle(fhandle)
father_handle = fam.get_father_handle()
mother_handle = fam.get_mother_handle()
if mother_handle == person_handle:
if father_handle:
father = db.get_person_from_handle(
father_handle)
if father:
father_lastname = father.get_primary_name(
).get_surname()
short_name = self.get_name(person, father_lastname)
alive = probably_alive(person, db, prob_alive_date)
if not self.alive or alive:
if nyears == 0:
text = self._('%(person)s, birth') % {
'person': short_name
}
else:
# translators: leave all/any {...} untranslated
text = ngettext('{person}, {age}',
'{person}, {age}',
nyears).format(person=short_name,
age=nyears)
self.add_day_item(text, month, day, marks=[mark])
if self.anniversaries:
family_list = person.get_family_handle_list()
for fhandle in family_list:
fam = db.get_family_from_handle(fhandle)
father_handle = fam.get_father_handle()
mother_handle = fam.get_mother_handle()
if father_handle == person.get_handle():
spouse_handle = mother_handle
else:
continue # with next person if the father is not "person"
# this will keep from duplicating the anniversary
if spouse_handle:
spouse = db.get_person_from_handle(spouse_handle)
if spouse:
s_m = ReportUtils.get_person_mark(db, spouse)
spouse_name = self.get_name(spouse)
short_name = self.get_name(person)
# TEMP: this will handle ordered events
# Gramps 3.0 will have a new mechanism for start/stop events
are_married = None
for event_ref in fam.get_event_ref_list():
event = db.get_event_from_handle(
event_ref.ref)
et = EventType
rt = EventRoleType
if event.type in [et.MARRIAGE,
et.MARR_ALT] and \
(event_ref.get_role() == rt.FAMILY or
event_ref.get_role() == rt.PRIMARY ):
are_married = event
elif event.type in [et.DIVORCE,
et.ANNULMENT,
et.DIV_FILING] and \
(event_ref.get_role() == rt.FAMILY or
event_ref.get_role() == rt.PRIMARY ):
are_married = None
if are_married is not None:
for event_ref in fam.get_event_ref_list():
event = db.get_event_from_handle(
event_ref.ref)
event_obj = event.get_date_object()
if event_obj.is_valid():
event_obj = gregorian(event_obj)
year = event_obj.get_year()
month = event_obj.get_month()
day = event_obj.get_day()
prob_alive_date = Date(
self.year, month, day)
nyears = self.year - year
if nyears == 0:
text = self._(
'%(spouse)s and\n %(person)s, wedding'
) % {
'spouse': spouse_name,
'person': short_name,
}
else:
# translators: leave all/any {...} untranslated
text = ngettext(
"{spouse} and\n {person}, {nyears}",
"{spouse} and\n {person}, {nyears}",
nyears).format(
spouse=spouse_name,
person=short_name,
nyears=nyears)
alive1 = probably_alive(
person, self.database,
prob_alive_date)
alive2 = probably_alive(
spouse, self.database,
prob_alive_date)
if ((self.alive and alive1
and alive2)
or not self.alive):
self.add_day_item(
text,
month,
day,
marks=[mark, s_m])
def collect_data(self):
"""
This method runs through the data, and collects the relevant dates
and text.
"""
db = self.database
people = db.iter_person_handles()
with self._user.progress(_('Calendar Report'),
_('Applying Filter...'),
db.get_number_of_people()) as step:
people = self.filter.apply(self.database, people, step)
ngettext = self._locale.translation.ngettext # to see "nearby" comments
with self._user.progress(_('Calendar Report'),
_('Reading database...'),
len(people)) as step:
for person_handle in people:
step()
person = db.get_person_from_handle(person_handle)
mark = ReportUtils.get_person_mark(db, person)
birth_ref = person.get_birth_ref()
birth_date = None
if birth_ref:
birth_event = db.get_event_from_handle(birth_ref.ref)
birth_date = birth_event.get_date_object()
if (self.birthdays and birth_date is not None and birth_date.is_valid()):
birth_date = gregorian(birth_date)
year = birth_date.get_year()
month = birth_date.get_month()
day = birth_date.get_day()
prob_alive_date = Date(self.year, month, day)
nyears = self.year - year
# add some things to handle maiden name:
father_lastname = None # husband, actually
if self.maiden_name in ['spouse_first', 'spouse_last']: # get husband's last name:
if person.get_gender() == Person.FEMALE:
family_list = person.get_family_handle_list()
if family_list:
if self.maiden_name == 'spouse_first':
fhandle = family_list[0]
else:
fhandle = family_list[-1]
fam = db.get_family_from_handle(fhandle)
father_handle = fam.get_father_handle()
mother_handle = fam.get_mother_handle()
if mother_handle == person_handle:
if father_handle:
father = db.get_person_from_handle(father_handle)
if father:
father_lastname = father.get_primary_name().get_surname()
short_name = self.get_name(person, father_lastname)
alive = probably_alive(person, db, prob_alive_date)
if not self.alive or alive:
if nyears == 0:
text = self._('%(person)s, birth') % {
'person' : short_name }
else:
# translators: leave all/any {...} untranslated
text = ngettext('{person}, {age}',
'{person}, {age}',
nyears).format(person=short_name,
age=nyears)
self.add_day_item(text, month, day, marks=[mark])
if self.anniversaries:
family_list = person.get_family_handle_list()
for fhandle in family_list:
fam = db.get_family_from_handle(fhandle)
father_handle = fam.get_father_handle()
mother_handle = fam.get_mother_handle()
if father_handle == person.get_handle():
spouse_handle = mother_handle
else:
continue # with next person if the father is not "person"
# this will keep from duplicating the anniversary
if spouse_handle:
spouse = db.get_person_from_handle(spouse_handle)
if spouse:
s_m = ReportUtils.get_person_mark(db, spouse)
spouse_name = self.get_name(spouse)
short_name = self.get_name(person)
# TEMP: this will handle ordered events
# GRAMPS 3.0 will have a new mechanism for start/stop events
are_married = None
for event_ref in fam.get_event_ref_list():
event = db.get_event_from_handle(event_ref.ref)
et = EventType
rt = EventRoleType
if event.type in [et.MARRIAGE,
et.MARR_ALT] and \
(event_ref.get_role() == rt.FAMILY or
event_ref.get_role() == rt.PRIMARY ):
are_married = event
elif event.type in [et.DIVORCE,
et.ANNULMENT,
et.DIV_FILING] and \
(event_ref.get_role() == rt.FAMILY or
event_ref.get_role() == rt.PRIMARY ):
are_married = None
if are_married is not None:
for event_ref in fam.get_event_ref_list():
event = db.get_event_from_handle(event_ref.ref)
event_obj = event.get_date_object()
if event_obj.is_valid():
event_obj = gregorian(event_obj)
year = event_obj.get_year()
month = event_obj.get_month()
day = event_obj.get_day()
prob_alive_date = Date(self.year, month, day)
nyears = self.year - year
if nyears == 0:
text = self._('%(spouse)s and\n %(person)s, wedding') % {
'spouse' : spouse_name,
'person' : short_name,
}
else:
# translators: leave all/any {...} untranslated
text = ngettext("{spouse} and\n {person}, {nyears}",
"{spouse} and\n {person}, {nyears}",
nyears).format(spouse=spouse_name, person=short_name, nyears=nyears)
alive1 = probably_alive(person,
self.database,
prob_alive_date)
alive2 = probably_alive(spouse,
self.database,
prob_alive_date)
if ((self.alive and alive1 and alive2) or not self.alive):
self.add_day_item(text, month, day,
marks=[mark,s_m])
def exportData(db, filename,
error_dialog=None, option_box=None, callback=None):
if not callable(callback):
callback = lambda percent: None # dummy
with OpenFileOrStdout(filename) as fp:
total = (db.get_number_of_notes() +
db.get_number_of_people() +
db.get_number_of_events() +
db.get_number_of_families() +
db.get_number_of_repositories() +
db.get_number_of_places() +
db.get_number_of_media() +
db.get_number_of_sources())
count = 0.0
# GProlog ISO directives:
# /number must match the number of arguments to functions:
fp.write(":- discontiguous(data/2).\n")
fp.write(":- discontiguous(is_alive/2).\n")
fp.write(":- discontiguous(parent/2).\n")
# Rules:
fp.write("grandparent(X, Y) :- parent(X, Z), parent(Z, Y).\n")
fp.write("ancestor(X, Y) :- parent(X, Y).\n")
fp.write("ancestor(X, Y) :- parent(X, Z), ancestor(Z, Y).\n")
fp.write("sibling(X, Y) :- parent(Z, X), parent(Z, Y), X \= Y.\n")
# ---------------------------------
# Notes
# ---------------------------------
for note in db.iter_notes():
#write_line(fp, "note_details(%s, %s)" % (note.handle, note))
count += 1
callback(100 * count/total)
# ---------------------------------
# Event
# ---------------------------------
for event in db.iter_events():
#write_line(fp, "event:", event.handle, event)
count += 1
callback(100 * count/total)
# ---------------------------------
# Person
# ---------------------------------
for person in db.iter_people():
gid = person.gramps_id.lower()
fp.write("data(%s, '%s').\n" % (gid, escape(name_displayer.display(person))))
fp.write("is_alive(%s, '%s').\n" % (gid, probably_alive(person, database)))
count += 1
callback(100 * count/total)
# ---------------------------------
# Family
# ---------------------------------
for family in db.iter_families():
father_handle = family.get_father_handle()
mother_handle = family.get_mother_handle()
parents = []
if mother_handle:
mother = database.get_person_from_handle(mother_handle)
if mother:
parents.append(mother.gramps_id.lower())
if father_handle:
father = database.get_person_from_handle(father_handle)
if father:
parents.append(father.gramps_id.lower())
children = []
for child_ref in family.get_child_ref_list():
child_handle = child_ref.ref
child = database.get_person_from_handle(child_handle)
if child:
children.append(child.gramps_id.lower())
for pid in parents:
for cid in children:
fp.write("parent(%s, %s).\n" % (pid, cid))
count += 1
callback(100 * count/total)
# ---------------------------------
# Repository
# ---------------------------------
for repository in db.iter_repositories():
#write_line(fp, "repository:", repository.handle, repository)
count += 1
callback(100 * count/total)
# ---------------------------------
# Place
# ---------------------------------
for place in db.iter_places():
#write_line(fp, "place:", place.handle, place)
count += 1
callback(100 * count/total)
# ---------------------------------
# Source
# ---------------------------------
for source in db.iter_sources():
#write_line(fp, "source:", source.handle, source)
count += 1
callback(100 * count/total)
# ---------------------------------
# Media
# ---------------------------------
for media in db.iter_media():
#write_line(fp, "media:", media.handle, media)
count += 1
callback(100 * count/total)
return True
def write_children(self, family):
"""
List children.
:param family: Family
:return:
"""
if not family.get_child_ref_list():
return
mother_handle = family.get_mother_handle()
if mother_handle:
mother = self._db.get_person_from_handle(mother_handle)
mother_name = self._nd.display(mother)
if not mother_name:
mother_name = self._("Unknown")
else:
mother_name = self._("Unknown")
father_handle = family.get_father_handle()
if father_handle:
father = self._db.get_person_from_handle(father_handle)
father_name = self._nd.display(father)
if not father_name:
father_name = self._("Unknown")
else:
father_name = self._("Unknown")
self.doc.start_paragraph("DAR-ChildTitle")
self.doc.write_text(
self._("Children of %(mother_name)s and %(father_name)s") % {
'father_name': father_name,
'mother_name': mother_name
})
self.doc.end_paragraph()
cnt = 1
for child_ref in family.get_child_ref_list():
child_handle = child_ref.ref
child = self._db.get_person_from_handle(child_handle)
child_name = self._nd.display(child)
if not child_name:
child_name = self._("Unknown")
child_mark = utils.get_person_mark(self._db, child)
if self.childref and self.prev_gen_handles.get(child_handle):
value = int(self.prev_gen_handles.get(child_handle))
child_name += " [%d]" % self._get_s_s(value)
self.doc.start_paragraph("DAR-ChildList",
utils.roman(cnt).lower() + ".")
cnt += 1
self.__narrator.set_subject(child)
if child_name:
self.doc.write_text("%s. " % child_name, child_mark)
if self.want_ids:
self.doc.write_text('(%s) ' % child.get_gramps_id())
self.doc.write_text_citation(
self.__narrator.get_born_string()
or self.__narrator.get_christened_string()
or self.__narrator.get_baptised_string())
# Write Death and/or Burial text only if not probably alive
if not probably_alive(child, self.database):
self.doc.write_text_citation(
self.__narrator.get_died_string()
or self.__narrator.get_buried_string())
# if the list_children_spouses option is selected:
if self.list_children_spouses:
# get the family of the child that contains the spouse
# of the child. There may be more than one spouse for each
# child
family_handle_list = child.get_family_handle_list()
# for the first spouse, this is true.
# For subsequent spouses, make it false
is_first_family = True
for family_handle in family_handle_list:
child_family = self.database.get_family_from_handle(
family_handle)
self.doc.write_text_citation(
self.__narrator.get_married_string(
child_family, is_first_family, self._name_display))
is_first_family = False
self.doc.end_paragraph()
def write_mate(self, person):
"""Output birth, death, parentage, marriage and notes information """
ind = None
has_info = False
for family_handle in person.get_family_handle_list():
family = self._db.get_family_from_handle(family_handle)
ind_handle = None
if person.get_gender() == Person.MALE:
ind_handle = family.get_mother_handle()
else:
ind_handle = family.get_father_handle()
if ind_handle:
ind = self._db.get_person_from_handle(ind_handle)
for event_ref in ind.get_primary_event_ref_list():
event = self._db.get_event_from_handle(event_ref.ref)
if event:
etype = event.get_type()
if (etype == EventType.BAPTISM
or etype == EventType.BURIAL
or etype == EventType.BIRTH
or etype == EventType.DEATH):
has_info = True
break
if not has_info:
family_handle = ind.get_main_parents_family_handle()
if family_handle:
fam = self._db.get_family_from_handle(family_handle)
if fam.get_mother_handle() or fam.get_father_handle():
has_info = True
break
if has_info:
self.doc.start_paragraph("DAR-MoreHeader")
plist = ind.get_media_list()
if self.addimages and len(plist) > 0:
photo = plist[0]
utils.insert_image(self._db, self.doc, photo, self._user)
name = self._nd.display(ind)
if not name:
name = self._("Unknown")
mark = utils.get_person_mark(self._db, ind)
if family.get_relationship() == FamilyRelType.MARRIED:
self.doc.write_text(self._("Spouse: %s") % name, mark)
else:
self.doc.write_text(
self._("Relationship with: %s") % name, mark)
if name[-1:] != '.':
self.doc.write_text(".")
if self.want_ids:
self.doc.write_text(' (%s)' % ind.get_gramps_id())
self.doc.write_text_citation(self.endnotes(ind))
self.doc.end_paragraph()
self.doc.start_paragraph("DAR-Entry")
self.__narrator.set_subject(ind)
text = self.__narrator.get_born_string()
if text:
self.doc.write_text_citation(text)
text = self.__narrator.get_baptised_string()
if text:
self.doc.write_text_citation(text)
text = self.__narrator.get_christened_string()
if text:
self.doc.write_text_citation(text)
# Write Death and/or Burial text only if not probably alive
if not probably_alive(ind, self.database):
text = self.__narrator.get_died_string(self.calcageflag)
if text:
self.doc.write_text_citation(text)
text = self.__narrator.get_buried_string()
if text:
self.doc.write_text_citation(text)
self.write_parents(ind)
self.doc.end_paragraph()
def find_records(db, filter, top_size, callname,
trans_text=glocale.translation.sgettext, name_format=None,
living_mode=LivingProxyDb.MODE_INCLUDE_ALL, user=None):
"""
@param trans_text: allow deferred translation of strings
@type trans_text: a GrampsLocale sgettext instance
trans_text is a defined keyword (see po/update_po.py, po/genpot.sh)
:param name_format: optional format to control display of person's name
:type name_format: None or int
:param living_mode: enable optional control of living people's records
:type living_mode: int
"""
def get_unfiltered_person_from_handle(person_handle):
if living_mode == LivingProxyDb.MODE_INCLUDE_ALL:
return db.get_person_from_handle(person_handle)
else: # we are in the proxy so get the person before proxy changes
return db.get_unfiltered_person(person_handle)
today = datetime.date.today()
today_date = Date(today.year, today.month, today.day)
# Person records
person_youngestliving = []
person_oldestliving = []
person_youngestdied = []
person_oldestdied = []
person_youngestmarried = []
person_oldestmarried = []
person_youngestdivorced = []
person_oldestdivorced = []
person_youngestfather = []
person_youngestmother = []
person_oldestfather = []
person_oldestmother = []
person_mostkidsfather = []
person_mostkidsmother = []
person_mostgrandkidsfather = []
person_mostgrandkidsmother = []
person_handle_list = db.iter_person_handles()
# the next "if" will turn person_handle_list from a generator into a
# list, but only when this code is called from a report (which has a
# filter) and not when called from a gramplet (which has no filter);
# so the next line drains the generator and turns it into a list
# always, so the gramplet can use it later, in the second loop
person_handle_list = list(person_handle_list)
if filter:
person_handle_list = filter.apply(db, person_handle_list, user=user)
for person_handle in person_handle_list:
person = db.get_person_from_handle(person_handle)
unfil_person = get_unfiltered_person_from_handle(person_handle)
if person is None:
continue
# FIXME this should check for a "fallback" birth also/instead
birth_ref = person.get_birth_ref()
if not birth_ref:
# No birth event, so we can't calculate any age.
continue
birth = db.get_event_from_handle(birth_ref.ref)
birth_date = birth.get_date_object()
death_date = _find_death_date(db, person)
if not _good_date(birth_date):
# Birth date unknown or incomplete, so we can't calculate any age.
continue
name = _get_styled_primary_name(person, callname,
trans_text=trans_text,
name_format=name_format)
if death_date is None:
if probably_alive(unfil_person, db):
# Still living, look for age records
_record(person_youngestliving, person_oldestliving,
today_date - birth_date, name, 'Person', person_handle,
top_size)
elif _good_date(death_date):
# Already died, look for age records
_record(person_youngestdied, person_oldestdied,
death_date - birth_date, name, 'Person', person_handle,
top_size)
for family_handle in person.get_family_handle_list():
family = db.get_family_from_handle(family_handle)
marriage_date = None
divorce_date = None
for event_ref in family.get_event_ref_list():
event = db.get_event_from_handle(event_ref.ref)
if (event.get_type().is_marriage() and
(event_ref.get_role().is_family() or
event_ref.get_role().is_primary())):
marriage_date = event.get_date_object()
elif (event.get_type().is_divorce() and
(event_ref.get_role().is_family() or
event_ref.get_role().is_primary())):
divorce_date = event.get_date_object()
if _good_date(marriage_date):
_record(person_youngestmarried, person_oldestmarried,
marriage_date - birth_date,
name, 'Person', person_handle, top_size)
if _good_date(divorce_date):
_record(person_youngestdivorced, person_oldestdivorced,
divorce_date - birth_date,
name, 'Person', person_handle, top_size)
for child_ref in family.get_child_ref_list():
if person.get_gender() == person.MALE:
relation = child_ref.get_father_relation()
elif person.get_gender() == person.FEMALE:
relation = child_ref.get_mother_relation()
else:
continue
if relation != ChildRefType.BIRTH:
continue
child = db.get_person_from_handle(child_ref.ref)
# FIXME this should check for a "fallback" birth also/instead
child_birth_ref = child.get_birth_ref()
if not child_birth_ref:
continue
child_birth = db.get_event_from_handle(child_birth_ref.ref)
child_birth_date = child_birth.get_date_object()
if not _good_date(child_birth_date):
continue
if person.get_gender() == person.MALE:
_record(person_youngestfather, person_oldestfather,
child_birth_date - birth_date,
name, 'Person', person_handle, top_size)
elif person.get_gender() == person.FEMALE:
_record(person_youngestmother, person_oldestmother,
child_birth_date - birth_date,
name, 'Person', person_handle, top_size)
for person_handle in person_handle_list:
# this "person loop" doesn't care about a person's birth or death
person = db.get_person_from_handle(person_handle)
if person is None:
continue
name = _get_styled_primary_name(person, callname,
trans_text=trans_text,
name_format=name_format)
person_child_list = get_birth_children(db, person)
if person.get_gender() == person.MALE:
_record(None, person_mostkidsfather,
len(person_child_list),
name, 'Person', person_handle, top_size)
elif person.get_gender() == person.FEMALE:
_record(None, person_mostkidsmother,
len(person_child_list),
name, 'Person', person_handle, top_size)
person_grandchild_list = []
for child in person_child_list:
person_grandchild_list += get_birth_children(db, child)
if person.get_gender() == person.MALE:
_record(None, person_mostgrandkidsfather,
len(person_grandchild_list),
name, 'Person', person_handle, top_size)
elif person.get_gender() == person.FEMALE:
_record(None, person_mostgrandkidsmother,
len(person_grandchild_list),
name, 'Person', person_handle, top_size)
# Family records
family_mostchildren = []
family_youngestmarried = []
family_oldestmarried = []
family_shortest = []
family_longest = []
family_smallestagediff = []
family_biggestagediff = []
for family in db.iter_families():
#family = db.get_family_from_handle(family_handle)
if living_mode != LivingProxyDb.MODE_INCLUDE_ALL:
# FIXME no iter_families method in LivingProxyDb so do it this way
family = db.get_family_from_handle(family.get_handle())
father_handle = family.get_father_handle()
if not father_handle:
continue
mother_handle = family.get_mother_handle()
if not mother_handle:
continue
# Test if either father or mother are in filter
if filter:
# we don't want many progress reports popping up, so no user=user
if not filter.apply(db, [father_handle, mother_handle]):
continue
father = db.get_person_from_handle(father_handle)
unfil_father = get_unfiltered_person_from_handle(father_handle)
if father is None:
continue
mother = db.get_person_from_handle(mother_handle)
unfil_mother = get_unfiltered_person_from_handle(mother_handle)
if mother is None:
continue
name = StyledText(trans_text("%(father)s and %(mother)s")) % {
'father': _get_styled_primary_name(father, callname,
trans_text=trans_text,
name_format=name_format),
'mother': _get_styled_primary_name(mother, callname,
trans_text=trans_text,
name_format=name_format)}
if (living_mode == LivingProxyDb.MODE_INCLUDE_ALL
or (not probably_alive(unfil_father, db) and
not probably_alive(unfil_mother, db))):
_record(None, family_mostchildren,
len(family.get_child_ref_list()),
name, 'Family', family.handle, top_size)
father_birth_ref = father.get_birth_ref()
if father_birth_ref:
father_birth_date = db.get_event_from_handle(father_birth_ref.ref).get_date_object()
else:
father_birth_date = None
mother_birth_ref = mother.get_birth_ref()
if mother_birth_ref:
mother_birth_date = db.get_event_from_handle(mother_birth_ref.ref).get_date_object()
else:
mother_birth_date = None
if _good_date(father_birth_date) and _good_date(mother_birth_date):
if father_birth_date >> mother_birth_date:
_record(family_smallestagediff, family_biggestagediff,
father_birth_date - mother_birth_date,
name, 'Family', family.handle, top_size)
elif mother_birth_date >> father_birth_date:
_record(family_smallestagediff, family_biggestagediff,
mother_birth_date - father_birth_date,
name, 'Family', family.handle, top_size)
marriage_date = None
divorce = None
divorce_date = None
for event_ref in family.get_event_ref_list():
event = db.get_event_from_handle(event_ref.ref)
if (event.get_type().is_marriage() and
(event_ref.get_role().is_family() or
event_ref.get_role().is_primary())):
marriage_date = event.get_date_object()
if (event and event.get_type().is_divorce() and
(event_ref.get_role().is_family() or
event_ref.get_role().is_primary())):
divorce = event
divorce_date = event.get_date_object()
father_death_date = _find_death_date(db, father)
mother_death_date = _find_death_date(db, mother)
if not _good_date(marriage_date):
# Not married or marriage date unknown
continue
if divorce is not None and not _good_date(divorce_date):
# Divorced but date unknown or inexact
continue
if (not probably_alive(unfil_father, db)
and not _good_date(father_death_date)):
# Father died but death date unknown or inexact
continue
if (not probably_alive(unfil_mother, db)
and not _good_date(mother_death_date)):
# Mother died but death date unknown or inexact
continue
if (divorce_date is None
and father_death_date is None
and mother_death_date is None):
# Still married and alive
if (probably_alive(unfil_father, db)
and probably_alive(unfil_mother, db)):
_record(family_youngestmarried, family_oldestmarried,
today_date - marriage_date,
name, 'Family', family.handle, top_size)
elif (_good_date(divorce_date) or
_good_date(father_death_date) or
_good_date(mother_death_date)):
end = None
if _good_date(father_death_date) and _good_date(mother_death_date):
end = min(father_death_date, mother_death_date)
elif _good_date(father_death_date):
end = father_death_date
elif _good_date(mother_death_date):
end = mother_death_date
if _good_date(divorce_date):
if end:
end = min(end, divorce_date)
else:
end = divorce_date
duration = end - marriage_date
_record(family_shortest, family_longest,
duration, name, 'Family', family.handle, top_size)
#python 3 workaround: assign locals to tmp so we work with runtime version
tmp = locals()
return [(trans_text(text), varname, tmp[varname])
for (text, varname, default) in RECORDS]
def collect_data(self):
"""
This method runs through the data, and collects the relevant dates
and text.
"""
people = self.database.iter_person_handles()
people = self.filter.apply(self.database, people, user=self._user)
ngettext = self._locale.translation.ngettext # to see "nearby" comments
rel_calc = get_relationship_calculator(reinit=True,
clocale=self._locale)
with self._user.progress(_('Birthday and Anniversary Report'),
_('Reading database...'),
len(people)) as step:
for person_handle in people:
step()
person = self.database.get_person_from_handle(person_handle)
birth_ref = person.get_birth_ref()
birth_date = None
if birth_ref:
birth_event = self.database.get_event_from_handle(
birth_ref.ref)
birth_date = birth_event.get_date_object()
if (self.birthdays and birth_date is not None
and birth_date.is_valid()):
birth_date = gregorian(birth_date)
year = birth_date.get_year()
month = birth_date.get_month()
day = birth_date.get_day()
prob_alive_date = Date(self.year, month, day)
nyears = self.year - year
# add some things to handle maiden name:
father_lastname = None # husband, actually
if self.maiden_name in ['spouse_first', 'spouse_last'
]: # get husband's last name:
if person.get_gender() == Person.FEMALE:
family_list = person.get_family_handle_list()
if len(family_list) > 0:
if self.maiden_name == 'spouse_first':
fhandle = family_list[0]
else:
fhandle = family_list[-1]
fam = self.database.get_family_from_handle(
fhandle)
father_handle = fam.get_father_handle()
mother_handle = fam.get_mother_handle()
if mother_handle == person_handle:
if father_handle:
father = self.database.get_person_from_handle(
father_handle)
if father is not None:
primary_name = father.get_primary_name(
)
if primary_name:
father_lastname = Surname.get_surname(
primary_name.
get_primary_surname())
short_name = self.get_name(person, father_lastname)
alive = probably_alive(person, self.database,
prob_alive_date)
if ((self.alive and alive) or not self.alive):
comment = ""
if self.relationships:
relation = rel_calc.get_one_relationship(
self.database,
self.center_person,
person,
olocale=self._locale)
if relation:
# FIXME this won't work for RTL languages
comment = " --- %s" % relation
if nyears == 0:
text = self._('%(person)s, birth%(relation)s') % {
'person': short_name,
'relation': comment
}
else:
# translators: leave all/any {...} untranslated
text = ngettext('{person}, {age}{relation}',
'{person}, {age}{relation}',
nyears).format(person=short_name,
age=nyears,
relation=comment)
self.add_day_item(text, month, day, person)
if self.anniversaries:
family_list = person.get_family_handle_list()
for fhandle in family_list:
fam = self.database.get_family_from_handle(fhandle)
father_handle = fam.get_father_handle()
mother_handle = fam.get_mother_handle()
if father_handle == person.get_handle():
spouse_handle = mother_handle
else:
continue # with next person if the father is not "person"
# this will keep from duplicating the anniversary
if spouse_handle:
spouse = self.database.get_person_from_handle(
spouse_handle)
if spouse:
spouse_name = self.get_name(spouse)
short_name = self.get_name(person)
# TEMP: this will handle ordered events
# Gramps 3.0 will have a new mechanism for start/stop events
are_married = None
for event_ref in fam.get_event_ref_list():
event = self.database.get_event_from_handle(
event_ref.ref)
if event.type in [
EventType.MARRIAGE,
EventType.MARR_ALT
]:
are_married = event
elif event.type in [
EventType.DIVORCE,
EventType.ANNULMENT,
EventType.DIV_FILING
]:
are_married = None
if are_married is not None:
for event_ref in fam.get_event_ref_list():
event = self.database.get_event_from_handle(
event_ref.ref)
event_obj = event.get_date_object()
if event_obj is not Date.EMPTY and event_obj.is_valid(
):
event_obj = gregorian(event_obj)
year = event_obj.get_year()
month = event_obj.get_month()
day = event_obj.get_day()
nyears = self.year - year
if event_obj.is_valid():
if nyears == 0:
text = self._(
"%(spouse)s and\n %(person)s, wedding"
) % {
'spouse': spouse_name,
'person': short_name
}
else:
# translators: leave all/any {...} untranslated
text = ngettext(
"{spouse} and\n {person}, {nyears}",
"{spouse} and\n {person}, {nyears}",
nyears).format(
spouse=spouse_name,
person=short_name,
nyears=nyears)
prob_alive_date = Date(
self.year, month, day)
alive1 = probably_alive(
person, self.database,
prob_alive_date)
alive2 = probably_alive(
spouse, self.database,
prob_alive_date)
if (self.alive and alive1
and alive2
) or not self.alive:
self.add_day_item(
text, month, day,
spouse)
def write_title(self, person):
self.handle = person.handle
grid = Gtk.Grid()
grid.set_column_spacing(12)
grid.set_row_spacing(0)
# name and edit button
name = name_displayer.display(person)
fmt = '<span size="larger" weight="bold">%s</span>'
text = fmt % escape(name)
label = widgets.DualMarkupLabel(text, _GenderCode[person.gender],
halign=Gtk.Align.END)
if self._config.get('preferences.releditbtn'):
button = widgets.IconButton(self.edit_person_button,
person.handle)
button.set_tooltip_text(_('Edit %s') % name)
else:
button = None
hbox = widgets.LinkBox(label, button)
if self.show_tags:
tag_list = TagList(self.get_tag_list(person))
hbox.pack_start(tag_list, False, False, 0)
eventbox = self.make_dragbox(hbox, 'Person', person.get_handle())
grid.attach(eventbox, 0, 0, 2, 1)
subgrid = Gtk.Grid()
subgrid.set_column_spacing(12)
subgrid.set_row_spacing(0)
eventbox = self.make_dragbox(subgrid, 'Person', person.get_handle())
grid.attach(eventbox, 1, 1, 1, 1)
# GRAMPS ID
subgrid.attach(widgets.BasicLabel("%s:" % _('ID')), 1, 0, 1, 1)
label = widgets.BasicLabel(person.gramps_id)
label.set_hexpand(True)
subgrid.attach(label, 2, 0, 1, 1)
# Birth event.
birth = get_birth_or_fallback(self.dbstate.db, person)
if birth:
birth_title = birth.get_type()
else:
birth_title = _("Birth")
subgrid.attach(widgets.BasicLabel("%s:" % birth_title), 1, 1, 1, 1)
subgrid.attach(widgets.BasicLabel(self.format_event(birth)), 2, 1, 1, 1)
death = get_death_or_fallback(self.dbstate.db, person)
if death:
death_title = death.get_type()
else:
death_title = _("Death")
showed_death = False
if birth:
birth_date = birth.get_date_object()
if (birth_date and birth_date.get_valid()):
if death:
death_date = death.get_date_object()
if (death_date and death_date.get_valid()):
age = death_date - birth_date
subgrid.attach(widgets.BasicLabel("%s:" % death_title),
1, 2, 1, 1)
subgrid.attach(widgets.BasicLabel("%s (%s)" %
(self.format_event(death), age),
Pango.EllipsizeMode.END),
2, 2, 1, 1)
showed_death = True
if not showed_death:
age = Today() - birth_date
if probably_alive(person, self.dbstate.db):
subgrid.attach(widgets.BasicLabel("%s:" % _("Alive")),
1, 2, 1, 1)
subgrid.attach(widgets.BasicLabel("(%s)" % age, Pango.EllipsizeMode.END),
2, 2, 1, 1)
else:
subgrid.attach(widgets.BasicLabel("%s:" % _("Death")),
1, 2, 1, 1)
subgrid.attach(widgets.BasicLabel("%s (%s)" % (_("unknown"), age),
Pango.EllipsizeMode.END),
2, 2, 1, 1)
showed_death = True
if not showed_death:
subgrid.attach(widgets.BasicLabel("%s:" % death_title),
1, 2, 1, 1)
subgrid.attach(widgets.BasicLabel(self.format_event(death)),
2, 2, 1, 1)
mbox = Gtk.Box()
mbox.add(grid)
# image
image_list = person.get_media_list()
if image_list:
button = self.get_thumbnail(image_list[0], size=SIZE_NORMAL)
if button:
mbox.pack_end(button, False, True, 0)
mbox.show_all()
return mbox
def exportData(database, filename,
error_dialog=None, option_box=None, callback=None):
if not callable(callback):
callback = lambda percent: None # dummy
with OpenFileOrStdout(filename) as fp:
total = (len(database.note_map) +
len(database.person_map) +
len(database.event_map) +
len(database.family_map) +
len(database.repository_map) +
len(database.place_map) +
len(database.media_map) +
len(database.source_map))
count = 0.0
# GProlog ISO directives:
# /number must match the number of arguments to functions:
fp.write(":- discontiguous(data/2).\n")
fp.write(":- discontiguous(is_alive/2).\n")
fp.write(":- discontiguous(parent/2).\n")
# Rules:
fp.write("grandparent(X, Y) :- parent(X, Z), parent(Z, Y).\n")
fp.write("ancestor(X, Y) :- parent(X, Y).\n")
fp.write("ancestor(X, Y) :- parent(X, Z), ancestor(Z, Y).\n")
fp.write("sibling(X, Y) :- parent(Z, X), parent(Z, Y), X \= Y.\n")
# ---------------------------------
# Notes
# ---------------------------------
for note_handle in database.note_map.keys():
note = database.note_map[note_handle]
#write_line(fp, "note_details(%s, %s)" % (note_handle, note))
count += 1
callback(100 * count/total)
# ---------------------------------
# Event
# ---------------------------------
for event_handle in database.event_map.keys():
event = database.event_map[event_handle]
#write_line(fp, "event:", event_handle, event)
count += 1
callback(100 * count/total)
# ---------------------------------
# Person
# ---------------------------------
for person_handle in database.person_map.keys():
data = database.person_map[person_handle]
person = Person.create(data)
gid = person.gramps_id.lower()
fp.write("data(%s, '%s').\n" % (gid, escape(name_displayer.display(person))))
fp.write("is_alive(%s, '%s').\n" % (gid, probably_alive(person, database)))
count += 1
callback(100 * count/total)
# ---------------------------------
# Family
# ---------------------------------
for family_handle in database.family_map.keys():
data = database.family_map[family_handle]
family = Family.create(data)
father_handle = family.get_father_handle()
mother_handle = family.get_mother_handle()
parents = []
if mother_handle:
mother = database.get_person_from_handle(mother_handle)
if mother:
parents.append(mother.gramps_id.lower())
if father_handle:
father = database.get_person_from_handle(father_handle)
if father:
parents.append(father.gramps_id.lower())
children = []
for child_ref in family.get_child_ref_list():
child_handle = child_ref.ref
child = database.get_person_from_handle(child_handle)
if child:
children.append(child.gramps_id.lower())
for pid in parents:
for cid in children:
fp.write("parent(%s, %s).\n" % (pid, cid))
count += 1
callback(100 * count/total)
# ---------------------------------
# Repository
# ---------------------------------
for repository_handle in database.repository_map.keys():
repository = database.repository_map[repository_handle]
#write_line(fp, "repository:", repository_handle, repository)
count += 1
callback(100 * count/total)
# ---------------------------------
# Place
# ---------------------------------
for place_handle in database.place_map.keys():
place = database.place_map[place_handle]
#write_line(fp, "place:", place_handle, place)
count += 1
callback(100 * count/total)
# ---------------------------------
# Source
# ---------------------------------
for source_handle in database.source_map.keys():
source = database.source_map[source_handle]
#write_line(fp, "source:", source_handle, source)
count += 1
callback(100 * count/total)
# ---------------------------------
# Media
# ---------------------------------
for media_handle in database.media_map.keys():
media = database.media_map[media_handle]
#write_line(fp, "media:", media_handle, media)
count += 1
callback(100 * count/total)
return True
def find_records(db, filter, top_size, callname,
trans_text=glocale.translation.sgettext, name_format=None):
"""
@param trans_text: allow deferred translation of strings
@type trans_text: a GrampsLocale sgettext instance
trans_text is a defined keyword (see po/update_po.py, po/genpot.sh)
:param name_format: optional format to control display of person's name
:type name_format: None or int
"""
today = datetime.date.today()
today_date = Date(today.year, today.month, today.day)
# Person records
person_youngestliving = []
person_oldestliving = []
person_youngestdied = []
person_oldestdied = []
person_youngestmarried = []
person_oldestmarried = []
person_youngestdivorced = []
person_oldestdivorced = []
person_youngestfather = []
person_youngestmother = []
person_oldestfather = []
person_oldestmother = []
person_handle_list = db.iter_person_handles()
if filter:
person_handle_list = filter.apply(db, person_handle_list)
for person_handle in person_handle_list:
person = db.get_person_from_handle(person_handle)
# FIXME this should check for a "fallback" birth also/instead
birth_ref = person.get_birth_ref()
if not birth_ref:
# No birth event, so we can't calculate any age.
continue
birth = db.get_event_from_handle(birth_ref.ref)
birth_date = birth.get_date_object()
death_date = _find_death_date(db, person)
if not _good_date(birth_date):
# Birth date unknown or incomplete, so we can't calculate any age.
continue
name = _get_styled_primary_name(person, callname,
name_format=name_format)
if death_date is None:
if probably_alive(person, db):
# Still living, look for age records
_record(person_youngestliving, person_oldestliving,
today_date - birth_date, name, 'Person', person_handle,
top_size)
elif _good_date(death_date):
# Already died, look for age records
_record(person_youngestdied, person_oldestdied,
death_date - birth_date, name, 'Person', person_handle,
top_size)
for family_handle in person.get_family_handle_list():
family = db.get_family_from_handle(family_handle)
marriage_date = None
divorce_date = None
for event_ref in family.get_event_ref_list():
event = db.get_event_from_handle(event_ref.ref)
if (event.get_type().is_marriage() and
(event_ref.get_role().is_family() or
event_ref.get_role().is_primary())):
marriage_date = event.get_date_object()
elif (event.get_type().is_divorce() and
(event_ref.get_role().is_family() or
event_ref.get_role().is_primary())):
divorce_date = event.get_date_object()
if _good_date(marriage_date):
_record(person_youngestmarried, person_oldestmarried,
marriage_date - birth_date,
name, 'Person', person_handle, top_size)
if _good_date(divorce_date):
_record(person_youngestdivorced, person_oldestdivorced,
divorce_date - birth_date,
name, 'Person', person_handle, top_size)
for child_ref in family.get_child_ref_list():
if person.get_gender() == person.MALE:
relation = child_ref.get_father_relation()
elif person.get_gender() == person.FEMALE:
relation = child_ref.get_mother_relation()
else:
continue
if relation != ChildRefType.BIRTH:
continue
child = db.get_person_from_handle(child_ref.ref)
# FIXME this should check for a "fallback" birth also/instead
child_birth_ref = child.get_birth_ref()
if not child_birth_ref:
continue
child_birth = db.get_event_from_handle(child_birth_ref.ref)
child_birth_date = child_birth.get_date_object()
if not _good_date(child_birth_date):
continue
if person.get_gender() == person.MALE:
_record(person_youngestfather, person_oldestfather,
child_birth_date - birth_date,
name, 'Person', person_handle, top_size)
elif person.get_gender() == person.FEMALE:
_record(person_youngestmother, person_oldestmother,
child_birth_date - birth_date,
name, 'Person', person_handle, top_size)
# Family records
family_mostchildren = []
family_youngestmarried = []
family_oldestmarried = []
family_shortest = []
family_longest = []
family_smallestagediff = []
family_biggestagediff = []
for family in db.iter_families():
#family = db.get_family_from_handle(family_handle)
father_handle = family.get_father_handle()
if not father_handle:
continue
mother_handle = family.get_mother_handle()
if not mother_handle:
continue
# Test if either father or mother are in filter
if filter:
if not filter.apply(db, [father_handle, mother_handle]):
continue
father = db.get_person_from_handle(father_handle)
mother = db.get_person_from_handle(mother_handle)
name = StyledText(trans_text("%(father)s and %(mother)s")) % {
'father': _get_styled_primary_name(father, callname,
name_format=name_format),
'mother': _get_styled_primary_name(mother, callname,
name_format=name_format)}
_record(None, family_mostchildren,
len(family.get_child_ref_list()),
name, 'Family', family.handle, top_size)
father_birth_ref = father.get_birth_ref()
if father_birth_ref:
father_birth_date = db.get_event_from_handle(father_birth_ref.ref).get_date_object()
else:
father_birth_date = None
mother_birth_ref = mother.get_birth_ref()
if mother_birth_ref:
mother_birth_date = db.get_event_from_handle(mother_birth_ref.ref).get_date_object()
else:
mother_birth_date = None
if _good_date(father_birth_date) and _good_date(mother_birth_date):
if father_birth_date >> mother_birth_date:
_record(family_smallestagediff, family_biggestagediff,
father_birth_date - mother_birth_date,
name, 'Family', family.handle, top_size)
elif mother_birth_date >> father_birth_date:
_record(family_smallestagediff, family_biggestagediff,
mother_birth_date - father_birth_date,
name, 'Family', family.handle, top_size)
marriage_date = None
divorce = None
divorce_date = None
for event_ref in family.get_event_ref_list():
event = db.get_event_from_handle(event_ref.ref)
if (event.get_type().is_marriage() and
(event_ref.get_role().is_family() or
event_ref.get_role().is_primary())):
marriage_date = event.get_date_object()
if (event and event.get_type().is_divorce() and
(event_ref.get_role().is_family() or
event_ref.get_role().is_primary())):
divorce = event
divorce_date = event.get_date_object()
father_death_date = _find_death_date(db, father)
mother_death_date = _find_death_date(db, mother)
if not _good_date(marriage_date):
# Not married or marriage date unknown
continue
if divorce is not None and not _good_date(divorce_date):
# Divorced but date unknown or inexact
continue
if not probably_alive(father, db) and not _good_date(father_death_date):
# Father died but death date unknown or inexact
continue
if not probably_alive(mother, db) and not _good_date(mother_death_date):
# Mother died but death date unknown or inexact
continue
if (divorce_date is None
and father_death_date is None
and mother_death_date is None):
# Still married and alive
if probably_alive(father, db) and probably_alive(mother, db):
_record(family_youngestmarried, family_oldestmarried,
today_date - marriage_date,
name, 'Family', family.handle, top_size)
elif (_good_date(divorce_date) or
_good_date(father_death_date) or
_good_date(mother_death_date)):
end = None
if _good_date(father_death_date) and _good_date(mother_death_date):
end = min(father_death_date, mother_death_date)
elif _good_date(father_death_date):
end = father_death_date
elif _good_date(mother_death_date):
end = mother_death_date
if _good_date(divorce_date):
if end:
end = min(end, divorce_date)
else:
end = divorce_date
duration = end - marriage_date
_record(family_shortest, family_longest,
duration, name, 'Family', family.handle, top_size)
#python 3 workaround: assign locals to tmp so we work with runtime version
tmp = locals()
return [(trans_text(text), varname, tmp[varname])
for (text, varname, default) in RECORDS]