gramps/src/plugins/export/ExportGedcom.py

1407 lines
52 KiB
Python

#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2007 Donald N. Allingham
# Copyright (C) 2008 Brian G. Matherly
# Copyright (C) 2008-2009 Gary Burton
# Copyright (C) 2008 Robert Cheramy <robert@cheramy.net>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# $Id$
"Export to GEDCOM"
#-------------------------------------------------------------------------
#
# Standard Python Modules
#
#-------------------------------------------------------------------------
from gettext import gettext as _
import os
import time
#-------------------------------------------------------------------------
#
# GRAMPS modules
#
#-------------------------------------------------------------------------
import gen.lib
from gen.lib.date import make_gedcom_date, MONTH
import const
import GrampsDbUtils._GedcomInfo as GedcomInfo
import Errors
from ExportOptions import WriterOptionBox
import BasicUtils
from Utils import media_path_full
import gen.proxy
from QuestionDialog import ErrorDialog
#-------------------------------------------------------------------------
#
# GEDCOM tags representing attributes that may take a parameter, value or
# description on the same line as the tag
#
#-------------------------------------------------------------------------
NEEDS_PARAMETER = set(
["CAST", "DSCR", "EDUC", "IDNO", "NATI", "NCHI",
"NMR", "OCCU", "PROP", "RELI", "SSN", "TITL"])
LDS_ORD_NAME = {
gen.lib.LdsOrd.BAPTISM : 'BAPL',
gen.lib.LdsOrd.ENDOWMENT : 'ENDL',
gen.lib.LdsOrd.SEAL_TO_PARENTS : 'SLGC',
gen.lib.LdsOrd.SEAL_TO_SPOUSE : 'SLGS',
gen.lib.LdsOrd.CONFIRMATION : 'CONL',
}
LDS_STATUS = {
gen.lib.LdsOrd.STATUS_BIC : "BIC",
gen.lib.LdsOrd.STATUS_CANCELED : "CANCELED",
gen.lib.LdsOrd.STATUS_CHILD : "CHILD",
gen.lib.LdsOrd.STATUS_CLEARED : "CLEARED",
gen.lib.LdsOrd.STATUS_COMPLETED : "COMPLETED",
gen.lib.LdsOrd.STATUS_DNS : "DNS",
gen.lib.LdsOrd.STATUS_INFANT : "INFANT",
gen.lib.LdsOrd.STATUS_PRE_1970 : "PRE-1970",
gen.lib.LdsOrd.STATUS_QUALIFIED : "QUALIFIED",
gen.lib.LdsOrd.STATUS_DNS_CAN : "DNS/CAN",
gen.lib.LdsOrd.STATUS_STILLBORN : "STILLBORN",
gen.lib.LdsOrd.STATUS_SUBMITTED : "SUBMITTED" ,
gen.lib.LdsOrd.STATUS_UNCLEARED : "UNCLEARED",
}
LANGUAGES = {
'cs' : 'Czech', 'da' : 'Danish', 'nl' : 'Dutch',
'en' : 'English', 'eo' : 'Esperanto', 'fi' : 'Finnish',
'fr' : 'French', 'de' : 'German', 'hu' : 'Hungarian',
'it' : 'Italian', 'lt' : 'Latvian', 'lv' : 'Lithuanian',
'no' : 'Norwegian', 'po' : 'Polish', 'pt' : 'Portuguese',
'ro' : 'Romanian', 'sk' : 'Slovak', 'es' : 'Spanish',
'sv' : 'Swedish', 'ru' : 'Russian',
}
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
MIME2GED = {
"image/bmp" : "bmp",
"image/gif" : "gif",
"image/jpeg" : "jpeg",
"image/x-pcx" : "pcx",
"image/tiff" : "tiff",
"audio/x-wav" : "wav"
}
QUALITY_MAP = {
gen.lib.SourceRef.CONF_VERY_HIGH : "3",
gen.lib.SourceRef.CONF_HIGH : "2",
gen.lib.SourceRef.CONF_LOW : "1",
gen.lib.SourceRef.CONF_VERY_LOW : "0",
}
#-------------------------------------------------------------------------
#
# sort_by_gramps_id
#
#-------------------------------------------------------------------------
def sort_by_gramps_id(first, second):
"""
Sort objects by their Gramps ID.
"""
return cmp(first.gramps_id, second.gramps_id)
#-------------------------------------------------------------------------
#
# sort_handles_by_id
#
#-------------------------------------------------------------------------
def sort_handles_by_id(handle_list, handle_to_object):
"""
Sort a list of handles by the Gramps ID.
The function that returns the object from the handle needs to be supplied
so that we get the right object.
"""
sorted_list = []
for handle in handle_list:
obj = handle_to_object(handle)
data = (obj.get_gramps_id(), handle)
sorted_list.append (data)
sorted_list.sort()
return sorted_list
#-------------------------------------------------------------------------
#
# breakup
#
#-------------------------------------------------------------------------
def breakup(txt, limit):
"""
Break a line of text into a list of strings that conform to the
maximum length specified, while breaking words in the middle of a word
to avoid issues with spaces.
"""
if limit < 1:
raise ValueError("breakup: unexpected limit: %r" % limit)
data = []
while len(txt) > limit:
# look for non-space pair to break between
# do not break within a UTF-8 byte sequence, i. e. first char >127
idx = limit
while (idx>0 and (txt[idx-1].isspace() or txt[idx].isspace()
or ord(txt[idx-1]) > 127)):
idx -= 1
if idx == 0:
#no words to break on, just break at limit anyway
idx = limit
data.append(txt[:idx])
txt = txt[idx:]
if len(txt) > 0:
data.append(txt)
return data
#-------------------------------------------------------------------------
#
# event_has_subordinate_data
# may want to compare description w/ auto-generated one, and
# if so, treat it same as if it were empty for this purpose
#
#-------------------------------------------------------------------------
def event_has_subordinate_data(event, event_ref):
gotany = event.get_description().strip() or\
not event.get_date_object().is_empty() or\
event.get_place_handle() or\
event.get_attribute_list() or\
event_ref.get_attribute_list() or\
event.get_note_list() or\
event.get_source_references() or\
event.get_media_list()
return gotany
#-------------------------------------------------------------------------
#
# GedcomWriter class
#
#-------------------------------------------------------------------------
class GedcomWriter(BasicUtils.UpdateCallback):
"""
The GEDCOM writer creates a GEDCOM file that contains the exported
information from the database. It derives from BasicUtils.UpdateCallback
so that it can provide visual feedback via a progress bar if needed.
"""
def __init__(self, database, cmd_line=0,
option_box=None, callback=None):
BasicUtils.UpdateCallback.__init__(self, callback)
self.dbase = database
self.cmd_line = cmd_line
self.dirname = None
self.gedcom_file = None
# The number of different stages other than any of the optional filters
# which the write_gedcom_file method will call.
self.progress_cnt = 5
self.setup(option_box)
def setup(self, option_box):
"""
If the option_box is present (GUI interface), then we check the
"private", "restrict", and "cfilter" arguments to see if we need
to apply proxy databases.
"""
if option_box:
option_box.parse_options()
# Increment the progress count for each filter type chosen
if option_box.private:
self.progress_cnt += 1
if option_box.restrict:
self.progress_cnt += 1
if not option_box.cfilter.is_empty():
self.progress_cnt += 1
if not option_box.nfilter.is_empty():
self.progress_cnt += 1
if option_box.unlinked:
self.progress_cnt += 1
self.set_total(self.progress_cnt)
self.progress_cnt = 0
# If the private flag is set, apply the PrivateProxyDb
if option_box.private:
self.reset(_("Filtering private data"))
self.progress_cnt += 1
self.update(self.progress_cnt)
self.dbase = gen.proxy.PrivateProxyDb(self.dbase)
# If the restrict flag is set, apply the LivingProxyDb
if option_box.restrict:
self.reset(_("Filtering living persons"))
self.progress_cnt += 1
self.update(self.progress_cnt)
self.dbase = gen.proxy.LivingProxyDb(
self.dbase,
gen.proxy.LivingProxyDb.MODE_INCLUDE_LAST_NAME_ONLY)
# If the filter returned by cfilter is not empty, apply the
# FilterProxyDb (Person Filter)
if not option_box.cfilter.is_empty():
self.reset(_("Applying selected person filter"))
self.progress_cnt += 1
self.update(self.progress_cnt)
self.dbase = gen.proxy.FilterProxyDb(
self.dbase, option_box.cfilter)
# Apply the Note Filter
if not option_box.nfilter.is_empty():
self.reset(_("Applying selected note filter"))
self.progress_cnt += 1
self.update(self.progress_cnt)
self.dbase = gen.proxy.FilterProxyDb(
self.dbase, note_filter=option_box.nfilter)
# Apply the ReferencedProxyDb to remove any objects not referenced
# after any of the other proxies have been applied
if option_box.unlinked:
self.reset(_("Filtering unlinked records"))
self.progress_cnt += 1
self.update(self.progress_cnt)
self.dbase = gen.proxy.ReferencedProxyDb(self.dbase)
def write_gedcom_file(self, filename):
"""
Write the actual GEDCOM file to the specified filename.
"""
self.dirname = os.path.dirname (filename)
self.gedcom_file = open(filename, "w")
self.__header(filename)
self.__submitter()
self.__individuals()
self.__families()
self.__sources()
self.__repos()
self.__notes()
self.__writeln(0, "TRLR")
self.gedcom_file.close()
return True
def __writeln(self, level, token, textlines="", limit=72):
"""
Write a line of text to the output file in the form of:
LEVEL TOKEN text
If the line contains newlines, it is broken into multiple lines using
the CONT token. If any line is greater than the limit, it will broken
into multiple lines using CONC.
"""
assert(token)
if textlines:
# break the line into multiple lines if a newline is found
textlist = textlines.split('\n')
token_level = level
for text in textlist:
if limit:
prefix = "\n%d CONC " % (level + 1)
txt = prefix.join(breakup(text, limit))
else:
txt = text
self.gedcom_file.write("%d %s %s\n" % (token_level, token, txt))
token_level = level + 1
token = "CONT"
else:
self.gedcom_file.write("%d %s\n" % (level, token))
def __header(self, filename):
"""
Write the GEDCOM header.
HEADER:=
n HEAD {1:1}
+1 SOUR <APPROVED_SYSTEM_ID> {1:1}
+2 VERS <VERSION_NUMBER> {0:1}
+2 NAME <NAME_OF_PRODUCT> {0:1}
+2 CORP <NAME_OF_BUSINESS> {0:1} # Not used
+3 <<ADDRESS_STRUCTURE>> {0:1} # Not used
+2 DATA <NAME_OF_SOURCE_DATA> {0:1} # Not used
+3 DATE <PUBLICATION_DATE> {0:1} # Not used
+3 COPR <COPYRIGHT_SOURCE_DATA> {0:1} # Not used
+1 DEST <RECEIVING_SYSTEM_NAME> {0:1*} # Not used
+1 DATE <TRANSMISSION_DATE> {0:1}
+2 TIME <TIME_VALUE> {0:1}
+1 SUBM @XREF:SUBM@ {1:1}
+1 SUBN @XREF:SUBN@ {0:1}
+1 FILE <FILE_NAME> {0:1}
+1 COPR <COPYRIGHT_GEDCOM_FILE> {0:1}
+1 GEDC {1:1}
+2 VERS <VERSION_NUMBER> {1:1}
+2 FORM <GEDCOM_FORM> {1:1}
+1 CHAR <CHARACTER_SET> {1:1}
+2 VERS <VERSION_NUMBER> {0:1}
+1 LANG <LANGUAGE_OF_TEXT> {0:1}
+1 PLAC {0:1}
+2 FORM <PLACE_HIERARCHY> {1:1}
+1 NOTE <GEDCOM_CONTENT_DESCRIPTION> {0:1}
+2 [CONT|CONC] <GEDCOM_CONTENT_DESCRIPTION> {0:M}
"""
local_time = time.localtime(time.time())
(year, mon, day, hour, minutes, sec) = local_time[0:6]
date_str = "%d %s %d" % (day, MONTH[mon], year)
time_str = "%02d:%02d:%02d" % (hour, minutes, sec)
rname = self.dbase.get_researcher().get_name()
self.__writeln(0, "HEAD")
self.__writeln(1, "SOUR", "Gramps")
self.__writeln(2, "VERS", const.VERSION)
self.__writeln(2, "NAME", "Gramps")
self.__writeln(1, "DATE", date_str)
self.__writeln(2, "TIME", time_str)
self.__writeln(1, "SUBM", "@SUBM@")
self.__writeln(1, "FILE", filename)
self.__writeln(1, "COPR", 'Copyright (c) %d %s.' % (year, rname))
self.__writeln(1, "GEDC")
self.__writeln(2, "VERS", "5.5")
self.__writeln(2, "FORM", 'LINEAGE-LINKED')
self.__writeln(1, "CHAR", "UTF-8")
# write the language string if the current LANG variable
# matches something we know about.
lang = os.getenv('LANG')
if lang and len(lang) >= 2:
lang_code = LANGUAGES.get(lang[0:2])
if lang_code:
self.__writeln(1, 'LANG', lang_code)
def __submitter(self):
"""
n @<XREF:SUBM>@ SUBM {1:1}
+1 NAME <SUBMITTER_NAME> {1:1}
+1 <<ADDRESS_STRUCTURE>> {0:1}
+1 <<MULTIMEDIA_LINK>> {0:M} # not used
+1 LANG <LANGUAGE_PREFERENCE> {0:3} # not used
+1 RFN <SUBMITTER_REGISTERED_RFN> {0:1} # not used
+1 RIN <AUTOMATED_RECORD_ID> {0:1} # not used
+1 <<CHANGE_DATE>> {0:1} # not used
"""
owner = self.dbase.get_researcher()
name = owner.get_name()
addr = owner.get_address()
city = owner.get_city()
state = owner.get_state()
ctry = owner.get_country()
post = owner.get_postal_code()
phon = owner.get_phone()
mail = owner.get_email()
if not name :
name = u'Not Provided'
if not addr :
addr = u'Not Provided'
self.__writeln(0, "@SUBM@", "SUBM")
self.__writeln(1, "NAME", name)
self.__writeln(1, "ADDR", addr)
if city and state and post:
self.__writeln(2, "CONT", "%s, %s %s" % (city, state, post))
else:
self.__writeln(2, "CONT", u"Not Provided")
if city:
self.__writeln(2, "CITY", city)
if state:
self.__writeln(2, "STAE", state)
if post:
self.__writeln(2, "POST", post)
if ctry:
self.__writeln(2, "CTRY", ctry)
if phon:
self.__writeln(1, "PHON", phon)
if mail:
self.__writeln(1, "EMAIL", mail)
def __individuals(self):
"""
Write the individual people to the gedcom file.
Since people like to have the list sorted by ID value, we need to go
through a sorting step. We need to reset the progress bar, otherwise,
people will be confused when the progress bar is idle.
"""
self.reset(_("Writing individuals"))
self.progress_cnt += 1
self.update(self.progress_cnt)
phandles = self.dbase.iter_person_handles()
sorted_list = []
for handle in phandles:
person = self.dbase.get_person_from_handle(handle)
data = (person.get_gramps_id(), handle)
sorted_list.append(data)
sorted_list.sort()
for data in sorted_list:
self.__person(self.dbase.get_person_from_handle(data[1]))
def __person(self, person):
"""
Write out a single person.
n @XREF:INDI@ INDI {1:1}
+1 RESN <RESTRICTION_NOTICE> {0:1} # not used
+1 <<PERSONAL_NAME_STRUCTURE>> {0:M}
+1 SEX <SEX_VALUE> {0:1}
+1 <<INDIVIDUAL_EVENT_STRUCTURE>> {0:M}
+1 <<INDIVIDUAL_ATTRIBUTE_STRUCTURE>> {0:M}
+1 <<LDS_INDIVIDUAL_ORDINANCE>> {0:M}
+1 <<CHILD_TO_FAMILY_LINK>> {0:M}
+1 <<SPOUSE_TO_FAMILY_LINK>> {0:M}
+1 SUBM @<XREF:SUBM>@ {0:M}
+1 <<ASSOCIATION_STRUCTURE>> {0:M}
+1 ALIA @<XREF:INDI>@ {0:M}
+1 ANCI @<XREF:SUBM>@ {0:M}
+1 DESI @<XREF:SUBM>@ {0:M}
+1 <<SOURCE_CITATION>> {0:M}
+1 <<MULTIMEDIA_LINK>> {0:M} ,*
+1 <<NOTE_STRUCTURE>> {0:M}
+1 RFN <PERMANENT_RECORD_FILE_NUMBER> {0:1}
+1 AFN <ANCESTRAL_FILE_NUMBER> {0:1}
+1 REFN <USER_REFERENCE_NUMBER> {0:M}
+2 TYPE <USER_REFERENCE_TYPE> {0:1}
+1 RIN <AUTOMATED_RECORD_ID> {0:1}
+1 <<CHANGE_DATE>> {0:1}
"""
self.__writeln(0, "@%s@" % person.get_gramps_id(), "INDI")
self.__names(person)
self.__gender(person)
self.__person_event_ref('BIRT', person.get_birth_ref())
self.__person_event_ref('DEAT', person.get_death_ref())
self.__remaining_events(person)
self.__attributes(person)
self.__lds_ords(person, 1)
self.__child_families(person)
self.__parent_families(person)
self.__assoc(person, 1)
self.__person_sources(person)
self.__addresses(person)
self.__photos(person.get_media_list(), 1)
self.__url_list(person, 1)
self.__note_references(person.get_note_list(), 1)
self.__change(person.get_change_time(), 1)
def __assoc(self, person, level):
"""
n ASSO @<XREF:INDI>@ {0:M}
+1 RELA <RELATION_IS_DESCRIPTOR> {1:1}
+1 <<NOTE_STRUCTURE>> {0:M}
+1 <<SOURCE_CITATION>> {0:M}
"""
for ref in person.get_person_ref_list():
person = self.dbase.get_person_from_handle(ref.ref)
self.__writeln(level, "ASSO", "@%s@" % person.get_gramps_id())
self.__writeln(level+1, "RELA", ref.get_relation())
self.__note_references(ref.get_note_list(), level+1)
self.__source_references(ref.get_source_references(), level+1)
def __note_references(self, notelist, level):
"""
Write out the list of note handles to the current level.
We use the Gramps ID as the XREF for the GEDCOM file.
"""
for note_handle in notelist:
note = self.dbase.get_note_from_handle(note_handle)
self.__writeln(level, 'NOTE', '@%s@' % note.get_gramps_id())
def __names(self, person):
"""
Write the names associated with the person to the current level.
Since nicknames are now separate from the name structure, we search
the attribute list to see if we can find a nickname. Because we do
not know the mappings, we just take the first nickname we find, and
add it to the primary name.
All other names are assumed to not have a nickname, even if other
nicknames exist in the attribute list.
"""
nicknames = [ attr.get_value() for attr in person.get_attribute_list()
if int(attr.get_type()) == gen.lib.AttributeType.NICKNAME ]
if len(nicknames) > 0:
nickname = nicknames[0]
else:
nickname = ""
self.__person_name(person.get_primary_name(), nickname)
for name in person.get_alternate_names():
self.__person_name(name, "")
def __gender(self, person):
"""
Write out the gender of the person to the file.
If the gender is not male or female, simply do not output anything.
The only valid values are M (male) or F (female). So if the geneder is
unknown, we output nothing.
"""
if person.get_gender() == gen.lib.Person.MALE:
self.__writeln(1, "SEX", "M")
elif person.get_gender() == gen.lib.Person.FEMALE:
self.__writeln(1, "SEX", "F")
def __lds_ords(self, obj, level):
"""
Simply loop through the list of LDS ordinances, and call the function
that writes the LDS ordinance structure.
"""
for lds_ord in obj.get_lds_ord_list():
self.write_ord(lds_ord, level)
def __remaining_events(self, person):
"""
Output all events associated with the person that are not BIRTH or
DEATH events.
Because all we have are event references, we have to
extract the real event to discover the event type.
"""
for event_ref in person.get_event_ref_list():
event = self.dbase.get_event_from_handle(event_ref.ref)
etype = int(event.get_type())
# if the event is a birth or death, skip it.
if etype in (gen.lib.EventType.BIRTH, gen.lib.EventType.DEATH):
continue
val = GedcomInfo.personalConstantEvents.get(etype, "").strip()
if val and val.strip():
if val in NEEDS_PARAMETER:
if event.get_description().strip():
self.__writeln(1, val, event.get_description())
else:
self.__writeln(1, val)
else:
if event_has_subordinate_data(event, event_ref):
self.__writeln(1, val)
else:
self.__writeln(1, val, 'Y')
if event.get_description().strip():
self.__writeln(2, 'TYPE', event.get_description())
else:
self.__writeln(1, 'EVEN')
if val.strip():
self.__writeln(2, 'TYPE', val)
else:
self.__writeln(2, 'TYPE', str(event.get_type()))
descr = event.get_description()
if descr:
self.__writeln(2, 'NOTE', "Description: " + descr)
self.__dump_event_stats(event, event_ref)
self.__adoption_records(person)
def __adoption_records(self, person):
"""
Write Adoption events for each child that has been adopted.
n ADOP
+1 <<INDIVIDUAL_EVENT_DETAIL>>
+1 FAMC @<XREF:FAM>@
+2 ADOP <ADOPTED_BY_WHICH_PARENT>
"""
adoptions = []
for family in [ self.dbase.get_family_from_handle(fh)
for fh in person.get_parent_family_handle_list() ]:
for child_ref in [ ref for ref in family.get_child_ref_list()
if ref.ref == person.handle ]:
if child_ref.mrel == gen.lib.ChildRefType.ADOPTED \
or child_ref.frel == gen.lib.ChildRefType.ADOPTED:
adoptions.append((family, child_ref.frel, child_ref.mrel))
for (fam, frel, mrel) in adoptions:
self.__writeln(1, 'ADOP', 'Y')
self.__writeln(2, 'FAMC', '@%s@' % fam.get_gramps_id())
if mrel == frel:
self.__writeln(3, 'ADOP', 'BOTH')
elif mrel == gen.lib.ChildRefType.ADOPTED:
self.__writeln(3, 'ADOP', 'WIFE')
else:
self.__writeln(3, 'ADOP', 'HUSB')
def __attributes(self, person):
"""
Write out the attributes to the GEDCOM file.
Since we have already looked at nicknames when we generated the names,
we filter them out here.
We use the GEDCOM 5.5.1 FACT command to write out attributes not
built in to GEDCOM.
"""
# filter out the nicknames
attr_list = [ attr for attr in person.get_attribute_list()
if attr.get_type() != gen.lib.AttributeType.NICKNAME ]
for attr in attr_list:
attr_type = int(attr.get_type())
name = GedcomInfo.personalConstantAttributes.get(attr_type)
key = str(attr.get_type())
value = attr.get_value().strip().replace('\r', ' ')
if key in ("AFN", "RFN", "REFN", "_UID"):
self.__writeln(1, key, value)
continue
if key == "RESN":
self.__writeln(1, 'RESN')
continue
if name and name.strip():
self.__writeln(1, name, value)
elif value:
self.__writeln(1, 'FACT', value)
self.__writeln(2, 'TYPE', key)
else:
continue
self.__note_references(attr.get_note_list(), 2)
self.__source_references(attr.get_source_references(), 2)
def __source_references(self, ref_list, level):
"""
Loop through the list of source references, writing the information
to the file.
"""
for srcref in ref_list:
self.__source_ref_record(level, srcref)
def __addresses(self, person):
"""
Write out the addresses associated with the person as RESI events.
"""
for addr in person.get_address_list():
self.__writeln(1, 'RESI')
self.__date(2, addr.get_date_object())
self.__writeln(2, "ADDR", addr.get_street())
if addr.get_city():
self.__writeln(3, 'CITY', addr.get_city())
if addr.get_state():
self.__writeln(3, 'STAE', addr.get_state())
if addr.get_postal_code():
self.__writeln(3, 'POST', addr.get_postal_code())
if addr.get_country():
self.__writeln(3, 'CTRY', addr.get_country())
if addr.get_phone():
self.__writeln(2, 'PHON', addr.get_phone())
self.__note_references(addr.get_note_list(), 2)
self.__source_references(addr.get_source_references(), 2)
def __photos(self, media_list, level):
"""
Loop through the list of media objects, writing the information
to the file.
"""
for photo in media_list:
self.__photo(photo, level)
def __child_families(self, person):
"""
Write the Gramps ID as the XREF for each family in which the person
is listed as a child.
"""
# get the list of familes from the handle list
family_list = [ self.dbase.get_family_from_handle(hndl)
for hndl in person.get_parent_family_handle_list() ]
for family in family_list:
self.__writeln(1, 'FAMC', '@%s@' % family.get_gramps_id())
def __parent_families(self, person):
"""
Write the Gramps ID as the XREF for each family in which the person
is listed as a parent.
"""
# get the list of familes from the handle list
family_list = [ self.dbase.get_family_from_handle(hndl)
for hndl in person.get_family_handle_list() ]
for family in family_list:
self.__writeln(1, 'FAMS', '@%s@' % family.get_gramps_id())
def __person_sources(self, person):
"""
Loop through the list of source references, writing the information
to the file.
"""
for srcref in person.get_source_references():
self.__source_ref_record(1, srcref)
def __url_list(self, obj, level):
"""
n OBJE {1:1}
+1 FORM <MULTIMEDIA_FORMAT> {1:1}
+1 TITL <DESCRIPTIVE_TITLE> {0:1}
+1 FILE <MULTIMEDIA_FILE_REFERENCE> {1:1}
+1 <<NOTE_STRUCTURE>> {0:M}
"""
for url in obj.get_url_list():
self.__writeln(level, 'OBJE')
self.__writeln(level+1, 'FORM', 'URL')
if url.get_description():
self.__writeln(level+1, 'TITL', url.get_description())
if url.get_path():
self.__writeln(level+1, 'FILE', url.get_path())
def __families(self):
"""
Write out the list of families, sorting by Gramps ID.
"""
self.reset(_("Writing families"))
self.progress_cnt += 1
self.update(self.progress_cnt)
# generate a list of (GRAMPS_ID, HANDLE) pairs. This list
# can then be sorted by the sort routine, which will use the
# first value of the tuple as the sort key.
sorted_list = sort_handles_by_id(self.dbase.get_family_handles(),
self.dbase.get_family_from_handle)
# loop through the sorted list, pulling of the handle. This list
# has already been sorted by GRAMPS_ID
for family_handle in [hndl[1] for hndl in sorted_list]:
self.__family(self.dbase.get_family_from_handle(family_handle))
def __family(self, family):
"""
n @<XREF:FAM>@ FAM {1:1}
+1 RESN <RESTRICTION_NOTICE> {0:1)
+1 <<FAMILY_EVENT_STRUCTURE>> {0:M}
+1 HUSB @<XREF:INDI>@ {0:1}
+1 WIFE @<XREF:INDI>@ {0:1}
+1 CHIL @<XREF:INDI>@ {0:M}
+1 NCHI <COUNT_OF_CHILDREN> {0:1}
+1 SUBM @<XREF:SUBM>@ {0:M}
+1 <<LDS_SPOUSE_SEALING>> {0:M}
+1 REFN <USER_REFERENCE_NUMBER> {0:M}
"""
gramps_id = family.get_gramps_id()
self.__writeln(0, '@%s@' % gramps_id, 'FAM' )
self.__family_reference('HUSB', family.get_father_handle())
self.__family_reference('WIFE', family.get_mother_handle())
self.__lds_ords(family, 1)
self.__family_events(family)
self.__family_attributes(family.get_attribute_list(), 1)
self.__family_child_list(family.get_child_ref_list())
self.__source_references(family.get_source_references(), 1)
self.__photos(family.get_media_list(), 1)
self.__note_references(family.get_note_list(), 1)
self.__change(family.get_change_time(), 1)
def __family_child_list(self, child_ref_list):
"""
Write the child XREF values to the GEDCOM file.
"""
child_list = [
self.dbase.get_person_from_handle(cref.ref).get_gramps_id()
for cref in child_ref_list ]
for gid in child_list:
self.__writeln(1, 'CHIL', '@%s@' % gid)
def __family_reference(self, token, person_handle):
"""
Write the family reference to the file.
This is either 'WIFE' or 'HUSB'. As usual, we use the Gramps ID as the
XREF value.
"""
if person_handle:
person = self.dbase.get_person_from_handle(person_handle)
self.__writeln(1, token, '@%s@' % person.get_gramps_id())
def __family_events(self, family):
"""
Output the events associated with the family.
Because all we have are event references, we have to extract the real
event to discover the event type.
"""
for event_ref in [ ref for ref in family.get_event_ref_list()]:
event = self.dbase.get_event_from_handle(event_ref.ref)
etype = int(event.get_type())
val = GedcomInfo.familyConstantEvents.get(etype)
if val:
if event_has_subordinate_data(event, event_ref):
self.__writeln(1, val)
else:
self.__writeln(1, val, 'Y')
if event.get_type() == gen.lib.EventType.MARRIAGE:
self.__family_event_attrs(event.get_attribute_list(), 2)
if event.get_description().strip() != "":
self.__writeln(2, 'TYPE', event.get_description())
else:
self.__writeln(1, 'EVEN')
the_type = str(event.get_type())
if the_type:
self.__writeln(2, 'TYPE', the_type)
descr = event.get_description()
if descr:
self.__writeln(2, 'NOTE', "Description: " + descr)
self.__dump_event_stats(event, event_ref)
def __family_event_attrs(self, attr_list, level):
"""
Write the attributes associated with the family event.
The only ones we really care about are FATHER_AGE and MOTHER_AGE which
we translate to WIFE/HUSB AGE attributes.
"""
for attr in attr_list:
if attr.get_type() == gen.lib.AttributeType.FATHER_AGE:
self.__writeln(level, 'HUSB')
self.__writeln(level+1, 'AGE', attr.get_value())
elif attr.get_type() == gen.lib.AttributeType.MOTHER_AGE:
self.__writeln(level, 'WIFE')
self.__writeln(level+1, 'AGE', attr.get_value())
def __family_attributes(self, attr_list, level):
"""
Write out the attributes associated with a family to the GEDCOM file.
Since we have already looked at nicknames when we generated the names,
we filter them out here.
We use the GEDCOM 5.5.1 FACT command to write out attributes not
built in to GEDCOM.
"""
for attr in attr_list:
attr_type = int(attr.get_type())
name = GedcomInfo.familyConstantAttributes.get(attr_type)
value = attr.get_value().replace('\r', ' ')
if attr_type in ("AFN", "RFN", "REFN", "_UID"):
self.__writeln(1, attr_type, value)
continue
if name and name.strip():
self.__writeln(1, name, value)
continue
else:
self.__writeln(1, 'FACT', value)
self.__writeln(2, 'TYPE', str(attr.get_type()))
self.__note_references(attr.get_note_list(), level+1)
self.__source_references(attr.get_source_references(),
level+1)
def __sources(self):
"""
Write out the list of sources, sorting by Gramps ID.
"""
self.reset(_("Writing sources"))
self.progress_cnt += 1
self.update(self.progress_cnt)
sorted_list = sort_handles_by_id(self.dbase.get_source_handles(),
self.dbase.get_source_from_handle)
for (source_id, handle) in sorted_list:
source = self.dbase.get_source_from_handle(handle)
self.__writeln(0, '@%s@' % source_id, 'SOUR')
if source.get_title():
self.__writeln(1, 'TITL', source.get_title())
if source.get_author():
self.__writeln(1, "AUTH", source.get_author())
if source.get_publication_info():
self.__writeln(1, "PUBL", source.get_publication_info())
if source.get_abbreviation():
self.__writeln(1, 'ABBR', source.get_abbreviation())
self.__photos(source.get_media_list(), 1)
for reporef in source.get_reporef_list():
self.__reporef(reporef, 1)
break
self.__note_references(source.get_note_list(), 1)
self.__change(source.get_change_time(), 1)
def __notes(self):
"""
Write out the list of notes, sorting by Gramps ID.
"""
self.reset(_("Writing notes"))
self.progress_cnt += 1
self.update(self.progress_cnt)
sorted_list = sort_handles_by_id(self.dbase.get_note_handles(),
self.dbase.get_note_from_handle)
for note_handle in [hndl[1] for hndl in sorted_list]:
note = self.dbase.get_note_from_handle(note_handle)
self.__note_record(note)
def __note_record(self, note):
"""
n @<XREF:NOTE>@ NOTE <SUBMITTER_TEXT> {1:1}
+1 [ CONC | CONT] <SUBMITTER_TEXT> {0:M}
+1 <<SOURCE_CITATION>> {0:M}
+1 REFN <USER_REFERENCE_NUMBER> {0:M}
+2 TYPE <USER_REFERENCE_TYPE> {0:1}
+1 RIN <AUTOMATED_RECORD_ID> {0:1}
+1 <<CHANGE_DATE>> {0:1}
"""
self.__writeln(0, '@%s@' % note.get_gramps_id(), 'NOTE ' + note.get())
def __repos(self):
"""
Write out the list of repositories, sorting by Gramps ID.
REPOSITORY_RECORD:=
n @<XREF:REPO>@ REPO {1:1}
+1 NAME <NAME_OF_REPOSITORY> {1:1}
+1 <<ADDRESS_STRUCTURE>> {0:1}
+1 <<NOTE_STRUCTURE>> {0:M}
+1 REFN <USER_REFERENCE_NUMBER> {0:M}
+2 TYPE <USER_REFERENCE_TYPE> {0:1}
+1 RIN <AUTOMATED_RECORD_ID> {0:1}
+1 <<CHANGE_DATE>> {0:1}
"""
self.reset(_("Writing repositories"))
self.progress_cnt += 1
self.update(self.progress_cnt)
sorted_list = sort_handles_by_id(self.dbase.get_repository_handles(),
self.dbase.get_repository_from_handle)
# GEDCOM only allows for a single repository per source
for (repo_id, handle) in sorted_list:
repo = self.dbase.get_repository_from_handle(handle)
self.__writeln(0, '@%s@' % repo_id, 'REPO' )
if repo.get_name():
self.__writeln(1, 'NAME', repo.get_name())
for addr in repo.get_address_list():
self.__writeln(1, "ADDR", addr.get_street())
if addr.get_city():
self.__writeln(2, 'CITY', addr.get_city())
if addr.get_state():
self.__writeln(2, 'STAE', addr.get_state())
if addr.get_postal_code():
self.__writeln(2, 'POST', addr.get_postal_code())
if addr.get_country():
self.__writeln(2, 'CTRY', addr.get_country())
if addr.get_phone():
self.__writeln(1, 'PHON', addr.get_phone())
self.__note_references(repo.get_note_list(), 1)
def __reporef(self, reporef, level):
"""
n REPO [ @XREF:REPO@ | <NULL>] {1:1}
+1 <<NOTE_STRUCTURE>> {0:M}
+1 CALN <SOURCE_CALL_NUMBER> {0:M}
+2 MEDI <SOURCE_MEDIA_TYPE> {0:1}
"""
if reporef.ref is None:
return
repo = self.dbase.get_repository_from_handle(reporef.ref)
repo_id = repo.get_gramps_id()
self.__writeln(level, 'REPO', '@%s@' % repo_id )
self.__note_references(reporef.get_note_list(), level+1)
if reporef.get_call_number():
self.__writeln(level+1, 'CALN', reporef.get_call_number() )
if reporef.get_media_type():
self.__writeln(level+2, 'MEDI', str(reporef.get_media_type()))
def __person_event_ref(self, key, event_ref):
"""
Write out the BIRTH and DEATH events for the person.
"""
if event_ref:
event = self.dbase.get_event_from_handle(event_ref.ref)
if event_has_subordinate_data(event, event_ref):
self.__writeln(1, key)
else:
self.__writeln(1, key, 'Y')
if event.get_description().strip() != "":
self.__writeln(2, 'TYPE', event.get_description())
self.__dump_event_stats(event, event_ref)
def __change(self, timeval, level):
"""
CHANGE_DATE:=
n CHAN {1:1}
+1 DATE <CHANGE_DATE> {1:1}
+2 TIME <TIME_VALUE> {0:1}
+1 <<NOTE_STRUCTURE>> # not used
"""
self.__writeln(level, 'CHAN')
time_val = time.localtime(timeval)
self.__writeln(level+1, 'DATE', '%d %s %d' % (
time_val[2], MONTH[time_val[1]], time_val[0]))
self.__writeln(level+2, 'TIME', '%02d:%02d:%02d' % (
time_val[3], time_val[4], time_val[5]))
def __dump_event_stats(self, event, event_ref):
"""
Write the event details for the event, using the event and event
reference information.
GEDCOM does not make a distinction between the two.
"""
dateobj = event.get_date_object()
self.__date(2, dateobj)
place = None
if event.get_place_handle():
place = self.dbase.get_place_from_handle(event.get_place_handle())
self.__place(place, 2)
for attr in event.get_attribute_list():
attr_type = attr.get_type()
if attr_type == gen.lib.AttributeType.CAUSE:
self.__writeln(2, 'CAUS', attr.get_value())
elif attr_type == gen.lib.AttributeType.AGENCY:
self.__writeln(2, 'AGNC', attr.get_value())
for attr in event_ref.get_attribute_list():
attr_type = attr.get_type()
if attr_type == gen.lib.AttributeType.AGE:
self.__writeln(2, 'AGE', attr.get_value())
elif attr_type == gen.lib.AttributeType.FATHER_AGE:
self.__writeln(2, 'HUSB')
self.__writeln(3, 'AGE', attr.get_value())
elif attr_type == gen.lib.AttributeType.MOTHER_AGE:
self.__writeln(2, 'WIFE')
self.__writeln(3, 'AGE', attr.get_value())
self.__note_references(event.get_note_list(), 2)
self.__source_references(event.get_source_references(), 2)
self.__photos(event.get_media_list(), 2)
if place:
self.__photos(place.get_media_list(), 2)
def write_ord(self, lds_ord, index):
"""
LDS_INDIVIDUAL_ORDINANCE:=
[
n [ BAPL | CONL ] {1:1}
+1 DATE <DATE_LDS_ORD> {0:1}
+1 TEMP <TEMPLE_CODE> {0:1}
+1 PLAC <PLACE_LIVING_ORDINANCE> {0:1}
+1 STAT <LDS_BAPTISM_DATE_STATUS> {0:1}
+2 DATE <CHANGE_DATE> {1:1}
+1 <<NOTE_STRUCTURE>> {0:M}
+1 <<SOURCE_CITATION>> {0:M} p.39
|
n ENDL {1:1}
+1 DATE <DATE_LDS_ORD> {0:1}
+1 TEMP <TEMPLE_CODE> {0:1}
+1 PLAC <PLACE_LIVING_ORDINANCE> {0:1}
+1 STAT <LDS_ENDOWMENT_DATE_STATUS> {0:1}
+2 DATE <CHANGE_DATE> {1:1}
+1 <<NOTE_STRUCTURE>> {0:M}
+1 <<SOURCE_CITATION>> {0:M}
|
n SLGC {1:1}
+1 DATE <DATE_LDS_ORD> {0:1}
+1 TEMP <TEMPLE_CODE> {0:1}
+1 PLAC <PLACE_LIVING_ORDINANCE> {0:1}
+1 FAMC @<XREF:FAM>@ {1:1}
+1 STAT <LDS_CHILD_SEALING_DATE_STATUS> {0:1}
+2 DATE <CHANGE_DATE> {1:1}
+1 <<NOTE_STRUCTURE>> {0:M}
+1 <<SOURCE_CITATION>> {0:M}
]
"""
self.__writeln(index, LDS_ORD_NAME[lds_ord.get_type()])
self.__date(index + 1, lds_ord.get_date_object())
if lds_ord.get_family_handle():
family_handle = lds_ord.get_family_handle()
family = self.dbase.get_family_from_handle(family_handle)
if family:
self.__writeln(index+1, 'FAMC', '@%s@' % family.get_gramps_id())
if lds_ord.get_temple():
self.__writeln(index+1, 'TEMP', lds_ord.get_temple())
if lds_ord.get_place_handle():
self.__place(
self.dbase.get_place_from_handle(lds_ord.get_place_handle()), 2)
if lds_ord.get_status() != gen.lib.LdsOrd.STATUS_NONE:
self.__writeln(2, 'STAT', LDS_STATUS[lds_ord.get_status()])
self.__note_references(lds_ord.get_note_list(), index+1)
self.__source_references(lds_ord.get_source_references(), index+1)
def __date(self, level, date):
"""
Write the 'DATE' GEDCOM token, along with the date in GEDCOM's
expected format.
"""
start = date.get_start_date()
if start != gen.lib.Date.EMPTY:
cal = date.get_calendar()
mod = date.get_modifier()
quality = date.get_quality()
if mod == gen.lib.Date.MOD_SPAN:
val = "FROM %s TO %s" % (
make_gedcom_date(start, cal, mod, quality),
make_gedcom_date(date.get_stop_date(), cal, mod, quality))
elif mod == gen.lib.Date.MOD_RANGE:
val = "BET %s AND %s" % (
make_gedcom_date(start, cal, mod, quality),
make_gedcom_date(date.get_stop_date(), cal, mod, quality))
else:
val = make_gedcom_date(start, cal, mod, quality)
self.__writeln(level, 'DATE', val)
elif date.get_text():
self.__writeln(level, 'DATE', date.get_text())
def __person_name(self, name, nick):
"""
n NAME <NAME_PERSONAL> {1:1}
+1 NPFX <NAME_PIECE_PREFIX> {0:1}
+1 GIVN <NAME_PIECE_GIVEN> {0:1}
+1 NICK <NAME_PIECE_NICKNAME> {0:1}
+1 SPFX <NAME_PIECE_SURNAME_PREFIX {0:1}
+1 SURN <NAME_PIECE_SURNAME> {0:1}
+1 NSFX <NAME_PIECE_SUFFIX> {0:1}
+1 <<SOURCE_CITATION>> {0:M}
+1 <<NOTE_STRUCTURE>> {0:M}
"""
gedcom_name = name.get_gedcom_name()
firstname = name.get_first_name().strip()
patron = name.get_patronymic().strip()
if patron:
firstname = "%s %s" % (firstname, patron)
surname = name.get_surname().replace('/', '?')
surprefix = name.get_surname_prefix().replace('/', '?')
suffix = name.get_suffix()
title = name.get_title()
self.__writeln(1, 'NAME', gedcom_name)
if firstname:
self.__writeln(2, 'GIVN', firstname)
if surprefix:
self.__writeln(2, 'SPFX', surprefix)
if surname:
self.__writeln(2, 'SURN', surname)
if name.get_suffix():
self.__writeln(2, 'NSFX', suffix)
if name.get_title():
self.__writeln(2, 'NPFX', title)
if nick:
self.__writeln(2, 'NICK', nick)
self.__source_references(name.get_source_references(), 2)
self.__note_references(name.get_note_list(), 2)
def __source_ref_record(self, level, ref):
"""
n SOUR @<XREF:SOUR>@ /* pointer to source record */ {1:1}
+1 PAGE <WHERE_WITHIN_SOURCE> {0:1}
+1 EVEN <EVENT_TYPE_CITED_FROM> {0:1}
+2 ROLE <ROLE_IN_EVENT> {0:1}
+1 DATA {0:1}
+2 DATE <ENTRY_RECORDING_DATE> {0:1}
+2 TEXT <TEXT_FROM_SOURCE> {0:M}
+3 [ CONC | CONT ] <TEXT_FROM_SOURCE> {0:M}
+1 QUAY <CERTAINTY_ASSESSMENT> {0:1}
+1 <<MULTIMEDIA_LINK>> {0:M} ,*
+1 <<NOTE_STRUCTURE>> {0:M}
"""
src_handle = ref.get_reference_handle()
if src_handle is None:
return
src = self.dbase.get_source_from_handle(src_handle)
# Reference to the source
self.__writeln(level, "SOUR", "@%s@" % src.get_gramps_id())
if ref.get_page() != "":
self.__writeln(level+1, 'PAGE', ref.get_page())
conf = min(ref.get_confidence_level(), gen.lib.SourceRef.CONF_VERY_HIGH)
if conf != gen.lib.SourceRef.CONF_NORMAL and conf != -1:
self.__writeln(level+1, "QUAY", QUALITY_MAP[conf])
if not ref.get_date_object().is_empty():
self.__writeln(level+1, 'DATA')
self.__date(level+2, ref.get_date_object())
if len(ref.get_note_list()) > 0:
note_list = [ self.dbase.get_note_from_handle(h)
for h in ref.get_note_list() ]
note_list = [ n for n in note_list
if n.get_type() == gen.lib.NoteType.SOURCE_TEXT]
if note_list:
ref_text = note_list[0].get()
else:
ref_text = ""
if ref_text != "" and ref.get_date_object().is_empty():
self.__writeln(level+1, 'DATA')
if ref_text != "":
self.__writeln(level+2, "TEXT", ref_text)
note_list = [ self.dbase.get_note_from_handle(h)
for h in ref.get_note_list() ]
note_list = [ n.handle for n in note_list
if n.get_type() != gen.lib.NoteType.SOURCE_TEXT]
self.__note_references(note_list, level+1)
def __photo(self, photo, level):
"""
n OBJE {1:1}
+1 FORM <MULTIMEDIA_FORMAT> {1:1}
+1 TITL <DESCRIPTIVE_TITLE> {0:1}
+1 FILE <MULTIMEDIA_FILE_REFERENCE> {1:1}
+1 <<NOTE_STRUCTURE>> {0:M}
"""
photo_obj_id = photo.get_reference_handle()
photo_obj = self.dbase.get_object_from_handle(photo_obj_id)
if photo_obj:
mime = photo_obj.get_mime_type()
form = MIME2GED.get(mime, mime)
path = media_path_full(self.dbase, photo_obj.get_path())
if not os.path.isfile(path):
return
self.__writeln(level, 'OBJE')
if form:
self.__writeln(level+1, 'FORM', form)
self.__writeln(level+1, 'TITL', photo_obj.get_description())
self.__writeln(level+1, 'FILE', path)
self.__note_references(photo_obj.get_note_list(), level+1)
def __place(self, place, level):
"""
PLACE_STRUCTURE:=
n PLAC <PLACE_NAME> {1:1}
+1 FORM <PLACE_HIERARCHY> {0:1}
+1 FONE <PLACE_PHONETIC_VARIATION> {0:M} # not used
+2 TYPE <PHONETIC_TYPE> {1:1}
+1 ROMN <PLACE_ROMANIZED_VARIATION> {0:M} # not used
+2 TYPE <ROMANIZED_TYPE> {1:1}
+1 MAP {0:1}
+2 LATI <PLACE_LATITUDE> {1:1}
+2 LONG <PLACE_LONGITUDE> {1:1}
+1 <<NOTE_STRUCTURE>> {0:M}
"""
place_name = place.get_title()
self.__writeln(level, "PLAC", place_name.replace('\r', ' '))
longitude = place.get_longitude()
latitude = place.get_latitude()
if longitude and latitude:
self.__writeln(level+1, "MAP")
self.__writeln(level+2, 'LATI', latitude)
self.__writeln(level+2, 'LONG', longitude)
# The Gedcom standard shows that an optional address structure can
# be written out in the event detail.
# http://homepages.rootsweb.com/~pmcbride/gedcom/55gcch2.htm#EVENT_DETAIL
location = place.get_main_location()
if location and not location.is_empty():
self.__writeln(level, "ADDR", location.get_street())
if location.get_city():
self.__writeln(level + 1, 'CITY', location.get_city())
if location.get_state():
self.__writeln(level + 1, 'STAE', location.get_state())
if location.get_postal_code():
self.__writeln(level + 1, 'POST', location.get_postal_code())
if location.get_country():
self.__writeln(level + 1, 'CTRY', location.get_country())
if location.get_phone():
self.__writeln(level, 'PHON', location.get_phone())
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def export_data(database, filename, option_box=None, callback=None):
"""
External interface used to register with the plugin system.
"""
ret = False
try:
ged_write = GedcomWriter(database, 0, option_box, callback)
ret = ged_write.write_gedcom_file(filename)
except IOError, msg:
msg2 = _("Could not create %s") % filename
ErrorDialog(msg2, str(msg))
except Errors.DatabaseError, msg:
ErrorDialog(_("Export failed"), str(msg))
except:
ErrorDialog(_("Could not create %s") % filename)
return ret