gramps/src/plugins/ReadGedcom.py

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#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2003 Donald N. Allingham
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#
# 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
#
"Import from GEDCOM"
#-------------------------------------------------------------------------
#
# standard python modules
#
#-------------------------------------------------------------------------
import os
import re
import string
import const
import time
#-------------------------------------------------------------------------
#
# GTK/GNOME Modules
#
#-------------------------------------------------------------------------
import gtk
import gtk.glade
#-------------------------------------------------------------------------
#
# GRAMPS modules
#
#-------------------------------------------------------------------------
import Errors
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import RelLib
import Julian
import FrenchRepublic
import Hebrew
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import Date
from ansel_utf8 import ansel_to_utf8
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import latin_utf8
import Utils
from GedcomInfo import *
from QuestionDialog import ErrorDialog
from intl import gettext as _
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#-------------------------------------------------------------------------
#
# constants
#
#-------------------------------------------------------------------------
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ANSEL = 1
UNICODE = 2
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UPDATE = 25
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db = None
callback = None
_title_string = _("Import from GEDCOM")
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def nocnv(s):
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return unicode(s)
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photo_types = [ "jpeg", "bmp", "pict", "pntg", "tpic", "png", "gif",
"jpg", "tiff", "pcx" ]
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file_systems = {
'VFAT' : _('Windows 9x file system'),
'FAT' : _('Windows 9x file system'),
"NTFS" : _('Windows NT file system'),
"ISO9660" : _('CD ROM'),
"SMBFS" : _('Networked Windows file system')
}
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#-------------------------------------------------------------------------
#
# GEDCOM events to GRAMPS events conversion
#
#-------------------------------------------------------------------------
ged2gramps = {}
for _val in const.personalConstantEvents.keys():
_key = const.personalConstantEvents[_val]
if _key != "":
ged2gramps[_key] = _val
ged2fam = {}
for _val in const.familyConstantEvents.keys():
_key = const.familyConstantEvents[_val]
if _key != "":
ged2fam[_key] = _val
#-------------------------------------------------------------------------
#
# regular expressions
#
#-------------------------------------------------------------------------
intRE = re.compile(r"\s*(\d+)\s*$")
lineRE = re.compile(r"\s*(\d+)\s+(\S+)\s*(.*)$")
headRE = re.compile(r"\s*(\d+)\s+HEAD")
nameRegexp= re.compile(r"/?([^/]*)(/([^/]*)(/([^/]*))?)?")
snameRegexp= re.compile(r"/([^/]*)/")
calRegexp = re.compile(r"\s*(ABT|BEF|AFT)?\s*@#D([^@]+)@\s*(.*)$")
fromtoRegexp = re.compile(r"\s*(FROM|BET)\s+@#D([^@]+)@\s*(.*)\s+(AND|TO)\s+@#D([^@]+)@\s*(.*)$")
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def importData(database, filename, cb=None):
global callback
# add some checking here
glade_file = "%s/gedcomimport.glade" % os.path.dirname(__file__)
statusTop = gtk.glade.XML(glade_file,"status")
statusWindow = statusTop.get_widget("status")
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Utils.set_titles(statusWindow,statusTop.get_widget('title'),
_('GEDCOM import status'))
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statusTop.get_widget("close").set_sensitive(0)
statusTop.signal_autoconnect({
"destroy_passed_object" : Utils.destroy_passed_object
})
try:
g = GedcomParser(database,filename,statusTop)
except IOError,msg:
Utils.destroy_passed_object(statusWindow)
ErrorDialog(_("%s could not be opened\n") % filename,str(msg))
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return
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except:
Utils.destroy_passed_object(statusWindow)
ErrorDialog(_("%s could not be opened\n") % filename)
return
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try:
close = g.parse_gedcom_file()
g.resolve_refns()
except IOError,msg:
Utils.destroy_passed_object(statusWindow)
errmsg = _("%s could not be opened\n") % filename
ErrorDialog(errmsg,str(msg))
return
except Errors.GedcomError, val:
(m1,m2) = val.messages()
Utils.destroy_passed_object(statusWindow)
ErrorDialog(m1,m2)
return
except:
import DisplayTrace
Utils.destroy_passed_object(statusWindow)
DisplayTrace.DisplayTrace()
return
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statusTop.get_widget("close").set_sensitive(1)
if close:
statusWindow.destroy()
Utils.modified()
if cb:
statusWindow.destroy()
cb(1)
elif callback:
callback()
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#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
class DateStruct:
def __init__(self):
self.date = ""
self.time = ""
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
class GedcomParser:
SyntaxError = "Syntax Error"
BadFile = "Not a GEDCOM file"
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def __init__(self, dbase, file, window):
self.db = dbase
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self.person = None
self.pmap = {}
self.fmap = {}
self.smap = {}
self.nmap = {}
self.share_note = []
self.refn = {}
self.added = {}
self.gedmap = GedcomInfoDB()
self.gedsource = None
self.dir_path = os.path.dirname(file)
self.localref = 0
self.placemap = {}
self.broken_conc_list = [ 'FamilyOrigins', 'FTW' ]
self.broken_conc = 0
self.is_ftw = 0
self.f = open(file,"r")
self.filename = file
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self.index = 0
self.backoff = 0
self.cnv = nocnv
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self.geddir = os.path.dirname(os.path.normpath(os.path.abspath(file)))
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self.trans = string.maketrans('','')
self.delc = self.trans[0:31]
self.trans2 = self.trans[0:127] + ('?' * 128)
self.window = window
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if window:
self.file_obj = window.get_widget("file")
self.encoding_obj = window.get_widget("encoding")
self.created_obj = window.get_widget("created")
self.version_obj = window.get_widget("version")
self.families_obj = window.get_widget("families")
self.people_obj = window.get_widget("people")
self.errors_obj = window.get_widget("errors")
self.close_done = window.get_widget('close_done')
self.error_text_obj = window.get_widget("error_text")
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self.info_text_obj = window.get_widget("info_text")
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self.error_count = 0
map = const.personalConstantAttributes
self.attrs = map.values()
self.gedattr = {}
for val in map.keys():
self.gedattr[map[val]] = val
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if self.window:
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self.update(self.file_obj,os.path.basename(file))
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self.search_paths = []
try:
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mypaths = []
f = open("/proc/mounts","r")
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for line in f.readlines():
paths = string.split(line)
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ftype = paths[2].upper()
if ftype in file_systems.keys():
mypaths.append((paths[1],file_systems[ftype]))
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self.search_paths.append(paths[1])
f.close()
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if len(mypaths):
self.infomsg(_("Windows style path names for images will use the following mount "
"points to try to find the images. These paths are based on Windows "
"compatible file systems available on this system:\n\n"))
for p in mypaths:
self.infomsg("\t%s : %s\n" % p)
self.infomsg('\n')
self.infomsg(_("Images that cannot be found in the specfied path in the GEDCOM file "
"will be searched for in the same directory in which the GEDCOM file "
"exists (%s).\n") % self.geddir)
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except:
pass
def errmsg(self,msg):
if self.window:
try:
self.error_text_obj.get_buffer().insert_at_cursor(msg)
except TypeError:
self.error_text_obj.get_buffer().insert_at_cursor(msg,len(msg))
else:
print msg
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def infomsg(self,msg):
if self.window:
try:
self.info_text_obj.get_buffer().insert_at_cursor(msg)
except TypeError:
self.info_text_obj.get_buffer().insert_at_cursor(msg,len(msg))
else:
print msg
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def find_file(self,fullname,altpath):
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tries = []
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fullname = string.replace(fullname,'\\','/')
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tries.append(fullname)
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if os.path.isfile(fullname):
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return (1,fullname)
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other = os.path.join(altpath,os.path.basename(fullname))
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tries.append(other)
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if os.path.isfile(other):
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return (1,other)
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if len(fullname) > 3:
if fullname[1] == ':':
fullname = fullname[2:]
for path in self.search_paths:
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other = os.path.normpath("%s/%s" % (path,fullname))
tries.append(other)
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if os.path.isfile(other):
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return (1,other)
return (0,tries)
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else:
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return (0,tries)
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def update(self,field,text):
field.set_text(text)
while gtk.events_pending():
gtk.mainiteration()
def get_next(self):
if self.backoff == 0:
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next_line = self.f.readline()
self.text = string.translate(next_line.strip(),self.trans,self.delc)
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if not self.text:
raise Errors.GedcomError(_("GEDCOM file ended unexpectedly"))
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try:
self.text = self.cnv(self.text)
except:
self.text = string.translate(self.text,self.trans2)
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self.index += 1
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l = string.split(self.text, None, 2)
ln = len(l)
try:
if ln == 2:
self.groups = (int(l[0]),l[1],"")
else:
self.groups = (int(l[0]),l[1],l[2])
except:
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msg = _("Warning: line %d was not understood, so it was ignored.") % self.index
msg = "%s\n\t%s\n" % (msg,self.text)
self.errmsg(msg)
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self.error_count = self.error_count + 1
self.groups = (999, "XXX", "XXX")
self.backoff = 0
return self.groups
def barf(self,level):
import traceback
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msg = _("Warning: line %d was not understood, so it was ignored.") % self.index
self.errmsg(msg)
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msg = "\n\t%s\n" % self.text
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self.errmsg(msg)
self.error_count = self.error_count + 1
# self.errmsg(string.join(traceback.format_stack()))
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self.ignore_sub_junk(level)
def warn(self,msg):
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self.errmsg(msg)
self.error_count = self.error_count + 1
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def backup(self):
self.backoff = 1
def parse_gedcom_file(self):
t = time.time()
self.index = 0
self.fam_count = 0
self.indi_count = 0
try:
self.parse_header()
self.parse_submitter()
self.parse_record()
self.parse_trailer()
except Errors.GedcomError, err:
self.errmsg(str(err))
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if self.window:
self.update(self.families_obj,str(self.fam_count))
self.update(self.people_obj,str(self.indi_count))
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self.break_note_links()
t = time.time() - t
msg = _('Import Complete: %d seconds') % t
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if self.window:
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self.infomsg("\n%s" % msg)
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else:
print msg
print "Families: %d" % self.fam_count
print "Individuals: %d" % self.indi_count
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return None
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def break_note_links(self):
for o in self.share_note:
o.unique_note()
def parse_trailer(self):
matches = self.get_next()
if matches[1] != "TRLR":
self.barf(0)
self.f.close()
def parse_header(self):
self.parse_header_head()
self.parse_header_source()
def parse_submitter(self):
matches = self.get_next()
if matches[2] != "SUBM":
self.backup()
return
else:
self.ignore_sub_junk(1)
def parse_source(self,name,level):
self.source = self.db.findSource(name,self.smap)
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
if note:
self.source.setNote(note)
if not self.source.getTitle():
self.source.setTitle("No title - ID %s" % self.source.getId())
self.db.buildSourceDisplay(self.source.getId())
self.backup()
return
elif matches[1] == "TITL":
title = matches[2] + self.parse_continue_data(level+1)
title = string.replace(title,'\n',' ')
self.source.setTitle(title)
elif matches[1] == "TAXT" or matches[1] == "PERI": # EasyTree Sierra On-Line
if self.source.getTitle() == "":
title = matches[2] + self.parse_continue_data(level+1)
title = string.replace(title,'\n',' ')
self.source.setTitle(title)
elif matches[1] == "AUTH":
self.source.setAuthor(matches[2] + self.parse_continue_data(level+1))
elif matches[1] == "PUBL":
self.source.setPubInfo(matches[2] + self.parse_continue_data(level+1))
elif matches[1] == "OBJE":
self.ignore_sub_junk(2)
elif matches[1] == "NOTE":
note = self.parse_note(matches,self.source,level+1,note)
elif matches[1] == "TEXT":
d = self.parse_continue_data(level+1)
if note:
note = "%s\n%s %s%s" % (note,matches[1],matches[2],d)
else:
note = "%s %s%s" % (matches[1],matches[2],d)
title = matches[2] + d
title = string.replace(title,'\n',' ')
self.source.setTitle(title)
elif matches[1] == "ABBR":
pass
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else:
if note:
note = "%s\n%s %s" % (note,matches[1],matches[2])
else:
note = "%s %s" % (matches[1],matches[2])
def parse_record(self):
while 1:
matches = self.get_next()
if matches[2] == "FAM":
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if self.fam_count % UPDATE == 0 and self.window:
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self.update(self.families_obj,str(self.fam_count))
self.fam_count = self.fam_count + 1
self.family = self.db.findFamily(matches[1],self.fmap)
self.parse_family()
if self.addr != None:
father = self.family.getFather()
if father:
father.addAddress(self.addr)
mother = self.family.getMother()
if mother:
mother.addAddress(self.addr)
for child in self.family.getChildList():
child.addAddress(self.addr)
elif matches[2] == "INDI":
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if self.indi_count % UPDATE == 0 and self.window:
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self.update(self.people_obj,str(self.indi_count))
self.indi_count = self.indi_count + 1
id = matches[1]
id = id[1:-1]
self.person = self.find_or_create_person(id)
self.added[self.person.getId()] = self.person
self.parse_individual()
self.db.buildPersonDisplay(self.person.getId())
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elif matches[2] in ["SUBM","SUBN","REPO"]:
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self.ignore_sub_junk(1)
elif matches[1] in ["SUBM","SUBN","OBJE","_EVENT_DEFN"]:
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self.ignore_sub_junk(1)
elif matches[2] == "SOUR":
self.parse_source(matches[1],1)
elif matches[2][0:4] == "NOTE":
if self.nmap.has_key(matches[1]):
noteobj = self.nmap[matches[1]]
else:
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noteobj = RelLib.Note()
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self.nmap[matches[1]] = noteobj
text = matches[2][4:]
noteobj.append(text + self.parse_continue_data(1))
self.parse_note_data(1)
elif matches[1] == "TRLR":
self.backup()
return
else:
self.barf(1)
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def find_or_create_person(self,id):
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if self.pmap.has_key(id):
person = self.db.findPersonNoMap(self.pmap[id])
elif self.db.getPersonMap().has_key(id):
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person = RelLib.Person()
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self.pmap[id] = self.db.addPerson(person)
else:
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person = RelLib.Person(id)
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self.db.addPersonAs(person)
self.pmap[id] = id
return person
def parse_cause(self,event,level):
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
elif matches[1] == "SOUR":
event.addSourceRef(self.handle_source(matches,level))
else:
self.barf(1)
def parse_note_data(self,level):
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
elif matches[1] in ["SOUR","CHAN","REFN"]:
self.ignore_sub_junk(level+1)
elif matches[1] == "RIN":
pass
else:
self.barf(level+1)
def parse_ftw_relations(self,level):
mrel = "Birth"
frel = "Birth"
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return (mrel,frel)
# FTW
elif matches[1] == "_FREL":
if string.lower(matches[2]) != "natural":
frel = string.capitalize(matches[2])
# FTW
elif matches[1] == "_MREL":
if string.lower(matches[2]) != "natural":
mrel = matches[2]
elif matches[1] == "ADOP":
mrel = "Adopted"
frel = "Adopted"
# Legacy
elif matches[1] == "_STAT":
mrel = matches[2]
frel = matches[2]
# Legacy _PREF
elif matches[1][0] == "_":
pass
else:
self.barf(level+1)
def parse_family(self):
self.addr = None
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) == 0:
self.backup()
return
elif matches[1] == "HUSB":
id = matches[2]
person = self.find_or_create_person(id[1:-1])
self.family.setFather(person)
self.ignore_sub_junk(2)
elif matches[1] == "WIFE":
id = matches[2]
person = self.find_or_create_person(id[1:-1])
self.family.setMother(person)
self.ignore_sub_junk(2)
elif matches[1] == "SLGS":
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ord = RelLib.LdsOrd()
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self.family.setLdsSeal(ord)
self.parse_ord(ord,2)
elif matches[1] == "ADDR":
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self.addr = RelLib.Address()
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self.addr.setStreet(matches[2] + self.parse_continue_data(1))
self.parse_address(self.addr,2)
elif matches[1] == "CHIL":
mrel,frel = self.parse_ftw_relations(2)
id = matches[2]
child = self.find_or_create_person(id[1:-1])
self.family.addChild(child)
for f in child.getParentList():
if f[0] == self.family:
break
else:
if (mrel=="Birth" or mrel=="") and (frel=="Birth" or frel==""):
child.setMainParents(self.family)
else:
if child.getMainParents() == self.family:
child.setMainParents(None)
child.addAltFamily(self.family,mrel,frel)
elif matches[1] == "NCHI":
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a = RelLib.Attribute()
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a.setType("Number of Children")
a.setValue(matches[2])
self.family.addAttribute(a)
elif matches[1] in ["RIN", "SUBM", "REFN","CHAN","SOUR"]:
self.ignore_sub_junk(2)
elif matches[1] == "OBJE":
if matches[2] and matches[2][0] == '@':
self.barf(2)
else:
self.parse_family_object(2)
elif matches[1] == "_COMM":
note = string.strip(matches[2]) + self.parse_continue_data(1)
self.family.setNote(note)
self.ignore_sub_junk(2)
elif matches[1] == "NOTE":
note = self.parse_note(matches,self.family,1,note)
else:
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event = RelLib.Event()
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try:
event.setName(ged2fam[matches[1]])
except:
event.setName(matches[1])
if event.getName() == "Marriage":
self.family.setRelationship("Married")
self.family.addEvent(event)
self.parse_family_event(event,2)
def parse_note_base(self,matches,obj,level,old_note,task):
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note = old_note
if matches[2] and matches[2][0] == "@":
if self.nmap.has_key(matches[2]):
self.share_note.append(obj)
obj.setNoteObj(self.nmap[matches[2]])
else:
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noteobj = RelLib.Note()
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self.nmap[matches[2]] = noteobj
self.share_note.append(obj)
obj.setNoteObj(noteobj)
else:
if old_note:
note = "%s\n%s%s" % (old_note,matches[2],self.parse_continue_data(level))
else:
note = matches[2] + self.parse_continue_data(level)
task(note)
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self.ignore_sub_junk(level+1)
return note
def parse_note(self,matches,obj,level,old_note):
self.parse_note_base(matches,obj,level,old_note,obj.setNote)
def parse_comment(self,matches,obj,level,old_note):
self.parse_note_base(matches,obj,level,old_note,obj.setComments)
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def parse_individual(self):
name_cnt = 0
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) == 0:
self.backup()
return
elif matches[1] == "NAME":
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name = RelLib.Name()
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m = snameRegexp.match(matches[2])
if m:
n = m.groups()[0]
names = ('','',n,'','')
else:
try:
names = nameRegexp.match(matches[2]).groups()
except:
names = (matches[2],"","","","")
if names[0]:
name.setFirstName(names[0].strip())
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if names[2]:
name.setSurname(names[2].strip())
self.db.addSurname(names[2].strip())
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if names[4]:
name.setSuffix(names[4].strip())
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if name_cnt == 0:
self.person.setPrimaryName(name)
else:
self.person.addAlternateName(name)
name_cnt = name_cnt + 1
self.parse_name(name,2)
elif matches[1] == "_UID":
self.person.setPafUid(matches[2])
elif matches[1] in ["ALIA","_ALIA"]:
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aka = RelLib.Name()
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try:
names = nameRegexp.match(matches[2]).groups()
except:
names = (matches[2],"","","","")
if names[0]:
aka.setFirstName(names[0])
if names[2]:
aka.setSurname(names[2])
self.db.addSurname(names[2])
if names[4]:
aka.setSuffix(names[4])
self.person.addAlternateName(aka)
elif matches[1] == "OBJE":
if matches[2] and matches[2][0] == '@':
self.barf(2)
else:
self.parse_person_object(2)
elif matches[1] in ["NOTE","_COMM"]:
note = self.parse_note(matches,self.person,1,note)
elif matches[1] == "SEX":
if matches[2] == '':
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self.person.setGender(RelLib.Person.unknown)
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elif matches[2][0] == "M":
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self.person.setGender(RelLib.Person.male)
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else:
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self.person.setGender(RelLib.Person.female)
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elif matches[1] in [ "BAPL", "ENDL", "SLGC" ]:
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ord = RelLib.LdsOrd()
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if matches[1] == "BAPL":
self.person.setLdsBaptism(ord)
elif matches[1] == "ENDL":
self.person.setLdsEndowment(ord)
else:
self.person.setLdsSeal(ord)
self.parse_ord(ord,2)
elif matches[1] == "FAMS":
family = self.db.findFamily(matches[2],self.fmap)
self.person.addFamily(family)
if note == "":
note = self.parse_optional_note(2)
else:
note = "%s\n\n%s" % (note,self.parse_optional_note(2))
elif matches[1] == "FAMC":
type,note = self.parse_famc_type(2)
family = self.db.findFamily(matches[2],self.fmap)
for f in self.person.getParentList():
if f[0] == family:
break
else:
if type == "" or type == "Birth":
if self.person.getMainParents() == None:
self.person.setMainParents(family)
else:
self.person.addAltFamily(family,"Unknown","Unknown")
else:
if self.person.getMainParents() == family:
self.person.setMainParents(None)
self.person.addAltFamily(family,type,type)
elif matches[1] == "RESI":
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addr = RelLib.Address()
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self.person.addAddress(addr)
self.parse_residence(addr,2)
elif matches[1] == "ADDR":
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addr = RelLib.Address()
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addr.setStreet(matches[2] + self.parse_continue_data(1))
self.parse_address(addr,2)
self.person.addAddress(addr)
elif matches[1] == "BIRT":
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event = RelLib.Event()
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if self.person.getBirth().getDate() != "" or \
self.person.getBirth().getPlace() != None:
event.setName("Alternate Birth")
self.person.addEvent(event)
else:
event.setName("Birth")
self.person.setBirth(event)
self.parse_person_event(event,2)
elif matches[1] == "ADOP":
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event = RelLib.Event()
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event.setName("Adopted")
self.person.addEvent(event)
self.parse_adopt_event(event,2)
elif matches[1] == "DEAT":
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event = RelLib.Event()
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if self.person.getDeath().getDate() != "" or \
self.person.getDeath().getPlace() != None:
event.setName("Alternate Death")
self.person.addEvent(event)
else:
event.setName("Death")
self.person.setDeath(event)
self.parse_person_event(event,2)
elif matches[1] == "EVEN":
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event = RelLib.Event()
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self.parse_person_event(event,2)
n = string.strip(event.getName())
if n in self.attrs:
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attr = RelLib.Attribute()
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attr.setType(self.gedattr[n])
attr.setValue(event.getDescription())
self.person.addAttribute(attr)
else:
self.person.addEvent(event)
elif matches[1] == "SOUR":
source_ref = self.handle_source(matches,2)
self.person.getPrimaryName().addSourceRef(source_ref)
elif matches[1] == "REFN":
if intRE.match(matches[2]):
try:
self.refn[self.person.getId()] = int(matches[2])
except:
pass
elif matches[1] in ["AFN","CHAN","REFN","ASSO"]:
self.ignore_sub_junk(2)
elif matches[1] in ["ANCI","DESI","RIN","RFN"]:
pass
else:
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event = RelLib.Event()
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n = string.strip(matches[1])
if ged2gramps.has_key(n):
event.setName(ged2gramps[n])
elif self.gedattr.has_key(n):
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attr = RelLib.Attribute()
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attr.setType(self.gedattr[n])
attr.setValue(event.getDescription())
self.person.addAttribute(attr)
self.parse_person_attr(attr,2)
continue
else:
val = self.gedsource.tag2gramps(n)
if val:
event.setName(val)
else:
event.setName(n)
self.parse_person_event(event,2)
if matches[2]:
event.setDescription(matches[2])
self.person.addEvent(event)
def parse_optional_note(self,level):
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return note
elif matches[1] == "NOTE":
if not string.strip(matches[2]) or matches[2] and matches[2][0] != "@":
note = matches[2] + self.parse_continue_data(level+1)
self.parse_note_data(level+1)
else:
self.ignore_sub_junk(level+1)
else:
self.barf(level+1)
def parse_famc_type(self,level):
type = ""
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return (string.capitalize(type),note)
elif matches[1] == "PEDI":
type = matches[2]
elif matches[1] == "SOUR":
source_ref = self.handle_source(matches,level)
self.person.getPrimaryName().addSourceRef(source_ref)
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elif matches[1] == "_PRIMARY":
type = matches[1]
elif matches[1] == "NOTE":
if not string.strip(matches[2]) or matches[2] and matches[2][0] != "@":
note = matches[2] + self.parse_continue_data(level+1)
self.parse_note_data(level+1)
else:
self.ignore_sub_junk(level+1)
else:
self.barf(level+1)
def parse_person_object(self,level):
form = ""
file = ""
title = ""
note = ""
while 1:
matches = self.get_next()
if matches[1] == "FORM":
form = string.lower(matches[2])
elif matches[1] == "TITL":
title = matches[2]
elif matches[1] == "FILE":
file = matches[2]
elif matches[1] == "NOTE":
note = matches[2] + self.parse_continue_data(level+1)
elif matches[1][0] == "_":
self.ignore_sub_junk(level+1)
elif int(matches[0]) < level:
self.backup()
break
else:
self.barf(level+1)
if form == "url":
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url = RelLib.Url()
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url.set_path(file)
url.set_description(title)
self.person.addUrl(url)
else:
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(ok,path) = self.find_file(file,self.dir_path)
if not ok:
self.warn(_("Warning: could not import %s") % file + "\n")
self.warn(_("\tThe following paths were tried:\n\t\t"))
self.warn(string.join(path,"\n\t\t"))
self.warn('\n')
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else:
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photo = RelLib.Photo()
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photo.setPath(path)
photo.setDescription(title)
photo.setMimeType(Utils.get_mime_type(path))
self.db.addObject(photo)
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oref = RelLib.ObjectRef()
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oref.setReference(photo)
self.person.addPhoto(oref)
def parse_source_object(self,source,level):
form = ""
file = ""
title = ""
note = ""
while 1:
matches = self.get_next()
if matches[1] == "FORM":
form = string.lower(matches[2])
elif matches[1] == "TITL":
title = matches[2]
elif matches[1] == "FILE":
file = matches[2]
elif matches[1] == "NOTE":
note = matches[2] + self.parse_continue_data(level+1)
elif int(matches[0]) < level:
self.backup()
break
else:
self.barf(level+1)
if form:
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(ok,path) = self.find_file(file,self.dir_path)
if not ok:
self.warn(_("Warning: could not import %s") % file + "\n")
self.warn(_("\tThe following paths were tried:\n\t\t"))
self.warn(string.join(path,"\n\t\t"))
self.warn('\n')
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else:
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photo = RelLib.Photo()
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photo.setPath(path)
photo.setDescription(title)
photo.setMimeType(Utils.get_mime_type(path))
self.db.addObject(photo)
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oref = RelLib.ObjectRef()
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oref.setReference(photo)
source.addPhoto(oref)
def parse_family_object(self,level):
form = ""
file = ""
title = ""
note = ""
while 1:
matches = self.get_next()
if matches[1] == "FORM":
form = string.lower(matches[2])
elif matches[1] == "TITL":
title = matches[2]
elif matches[1] == "FILE":
file = matches[2]
elif matches[1] == "NOTE":
note = matches[2] + self.parse_continue_data(level+1)
elif int(matches[0]) < level:
self.backup()
break
else:
self.barf(level+1)
if form:
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(ok,path) = self.find_file(file,self.dir_path)
if not ok:
self.warn(_("Warning: could not import %s") % file + "\n")
self.warn(_("\tThe following paths were tried:\n\t\t"))
self.warn(string.join(path,"\n\t\t"))
self.warn('\n')
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else:
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photo = RelLib.Photo()
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photo.setPath(path)
photo.setDescription(title)
photo.setMimeType(Utils.get_mime_type(path))
self.db.addObject(photo)
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oref = RelLib.ObjectRef()
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oref.setReference(photo)
self.family.addPhoto(photo)
def parse_residence(self,address,level):
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
elif matches[1] == "DATE":
address.setDateObj(self.extract_date(matches[2]))
elif matches[1] == "ADDR":
address.setStreet(matches[2] + self.parse_continue_data(level+1))
self.parse_address(address,level+1)
elif matches[1] in ["AGE","AGNC","CAUS","STAT","TEMP","OBJE","TYPE","_DATE2"]:
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self.ignore_sub_junk(level+1)
elif matches[1] == "SOUR":
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source_ref = RelLib.SourceRef()
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source_ref.setBase(self.db.findSource(matches[2],self.smap))
address.addSourceRef(source_ref)
self.parse_source_reference(source_ref,level+1)
elif matches[1] == "PLAC":
address.setStreet(matches[2])
self.parse_address(address,level+1)
elif matches[1] == "PHON":
pass
elif matches[1] == "NOTE":
note = self.parse_note(matches,address,level+1,note)
else:
self.barf(level+1)
def parse_address(self,address,level):
first = 0
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
elif matches[1] in [ "ADDR", "ADR1", "ADR2" ]:
val = address.getStreet()
data = self.parse_continue_data(level+1)
if first == 0:
val = "%s %s" % (matches[2],data)
first = 1
else:
val = "%s,%s %s" % (val,matches[2],data)
address.setStreet(val)
elif matches[1] == "CITY":
address.setCity(matches[2])
elif matches[1] == "PHON":
address.setNote(matches[2])
elif matches[1] == "STAE":
address.setState(matches[2])
elif matches[1] == "POST":
address.setPostal(matches[2])
elif matches[1] == "CTRY":
address.setCountry(matches[2])
else:
self.barf(level+1)
def parse_ord(self,ord,level):
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
break
elif matches[1] == "TEMP":
ord.setTemple(matches[2])
elif matches[1] == "DATE":
ord.setDateObj(self.extract_date(matches[2]))
elif matches[1] == "FAMC":
ord.setFamily(self.db.findFamily(matches[2],self.fmap))
elif matches[1] == "PLAC":
try:
val = matches[2]
if self.placemap.has_key(val):
place = self.placemap[val]
else:
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place = RelLib.Place()
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place.set_title(matches[2])
self.db.addPlace(place)
self.placemap[val] = place
ord.setPlace(place)
self.ignore_sub_junk(level+1)
except NameError:
pass
elif matches[1] == "SOUR":
ord.addSourceRef(self.handle_source(matches,level))
elif matches[1] == "NOTE":
note = self.parse_note(matches,ord,level+1,note)
elif matches[1] == "STAT":
if const.lds_status.has_key(matches[2]):
ord.setStatus(const.lds_status[matches[2]])
else:
self.barf(level+1)
def parse_person_event(self,event,level):
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
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if note:
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event.setNote(note)
self.backup()
break
elif matches[1] == "TYPE":
if event.getName() == "":
if ged2gramps.has_key(matches[2]):
name = ged2gramps[matches[2]]
else:
val = self.gedsource.tag2gramps(matches[2])
if val:
name = val
else:
name = matches[2]
event.setName(name)
elif matches[1] == "DATE":
event.setDateObj(self.extract_date(matches[2]))
elif matches[1] == "SOUR":
event.addSourceRef(self.handle_source(matches,level+1))
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elif matches[1] == "PLAC":
val = matches[2]
n = string.strip(event.getName())
if self.is_ftw and n in ["Occupation","Degree","SSN"]:
event.setDescription(val)
self.ignore_sub_junk(level+1)
else:
if self.placemap.has_key(val):
place = self.placemap[val]
else:
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place = RelLib.Place()
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place.set_title(matches[2])
self.db.addPlace(place)
self.placemap[val] = place
event.setPlace(place)
self.ignore_sub_junk(level+1)
elif matches[1] == "CAUS":
info = matches[2] + self.parse_continue_data(level+1)
event.setCause(info)
self.parse_cause(event,level+1)
elif matches[1] == "NOTE" or matches[1] == 'OFFI':
info = matches[2] + self.parse_continue_data(level+1)
if note == "":
note = info
else:
note = "\n%s" % info
elif matches[1] == "CONC":
d = event.getDescription()
if self.broken_conc:
event.setDescription("%s %s" % (d, matches[2]))
else:
event.setDescription("%s%s" % (d, matches[2]))
elif matches[1] == "CONT":
event.setDescription("%s\n%s" % (event.getDescription(),matches[2]))
elif matches[1] in ["RELI", "TIME","ADDR","AGE","AGNC","STAT","TEMP","OBJE","_DATE2"]:
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self.ignore_sub_junk(level+1)
else:
self.barf(level+1)
def parse_adopt_event(self,event,level):
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
if note != "":
event.setNote(note)
self.backup()
break
elif matches[1] == "DATE":
event.setDateObj(self.extract_date(matches[2]))
elif matches[1] in ["TIME","ADDR","AGE","AGNC","STAT","TEMP","OBJE"]:
self.ignore_sub_junk(level+1)
elif matches[1] == "SOUR":
event.addSourceRef(self.handle_source(matches,level))
elif matches[1] == "FAMC":
family = self.db.findFamily(matches[2],self.fmap)
mrel,frel = self.parse_adopt_famc(level+1);
if self.person.getMainParents() == family:
self.person.setMainParents(None)
self.person.addAltFamily(family,mrel,frel)
elif matches[1] == "PLAC":
val = matches[2]
if self.placemap.has_key(val):
place = self.placemap[val]
else:
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place = RelLib.Place()
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place.set_title(matches[2])
self.db.addPlace(place)
self.placemap[val] = place
event.setPlace(place)
self.ignore_sub_junk(level+1)
elif matches[1] == "TYPE":
# eventually do something intelligent here
pass
elif matches[1] == "CAUS":
info = matches[2] + self.parse_continue_data(level+1)
event.setCause(info)
self.parse_cause(event,level+1)
elif matches[1] == "NOTE":
info = matches[2] + self.parse_continue_data(level+1)
if note == "":
note = info
else:
note = "\n%s" % info
elif matches[1] == "CONC":
d = event.getDescription()
if self.broken_conc:
event.setDescription("%s %s" % (d,matches[2]))
else:
event.setDescription("%s%s" % (d,matches[2]))
elif matches[1] == "CONT":
d = event.getDescription()
event.setDescription("%s\n%s" % (d,matches[2]))
else:
self.barf(level+1)
def parse_adopt_famc(self,level):
mrel = "Adopted"
frel = "Adopted"
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return (mrel,frel)
elif matches[1] == "ADOP":
if matches[2] == "HUSB":
mrel = "Birth"
elif matches[2] == "WIFE":
frel = "Birth"
else:
self.barf(level+1)
def parse_person_attr(self,attr,level):
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
break
elif matches[1] == "TYPE":
if attr.getType() == "":
if ged2gramps.has_key(matches[2]):
name = ged2gramps[matches[2]]
else:
val = self.gedsource.tag2gramps(matches[2])
if val:
name = val
else:
name = matches[2]
attr.setName(name)
elif matches[1] in ["CAUS", "DATE","TIME","ADDR","AGE","AGNC","STAT","TEMP","OBJE"]:
self.ignore_sub_junk(level+1)
elif matches[1] == "SOUR":
attr.addSourceRef(self.handle_source(matches,level))
elif matches[1] == "PLAC":
val = matches[2]
if attr.getValue() == "":
attr.setValue(val)
self.ignore_sub_junk(level+1)
elif matches[1] == "DATE":
note = "%s\n\n" % ("Date : %s" % matches[2])
elif matches[1] == "NOTE":
info = matches[2] + self.parse_continue_data(level+1)
if note == "":
note = info
else:
note = "%s\n\n%s" % (note,info)
elif matches[1] == "CONC":
if self.broken_conc:
attr.setValue("%s %s" % (attr.getValue(), matches[2]))
else:
attr.setValue("%s %s" % (attr.getValue(), matches[2]))
elif matches[1] == "CONT":
attr.setValue("%s\n%s" % (attr.getValue(),matches[2]))
else:
self.barf(level+1)
if note != "":
attr.setNote(note)
def parse_family_event(self,event,level):
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
if note:
event.setNote(note)
self.backup()
break
elif matches[1] == "TYPE":
if event.getName() != "":
try:
event.setName(ged2fam[matches[2]])
except:
event.setName(matches[2])
elif matches[1] == "DATE":
event.setDateObj(self.extract_date(matches[2]))
elif matches[1] == "CAUS":
info = matches[2] + self.parse_continue_data(level+1)
event.setCause(info)
self.parse_cause(event,level+1)
elif matches[1] in ["TIME","AGE","AGNC","ADDR","STAT","TEMP","HUSB","WIFE","OBJE","_CHUR"]:
self.ignore_sub_junk(level+1)
elif matches[1] == "SOUR":
event.addSourceRef(self.handle_source(matches,level+1))
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elif matches[1] == "PLAC":
val = matches[2]
if self.placemap.has_key(val):
place = self.placemap[val]
else:
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place = RelLib.Place()
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place.set_title(matches[2])
self.db.addPlace(place)
self.placemap[val] = place
event.setPlace(place)
self.ignore_sub_junk(level+1)
elif matches[1] == 'OFFI':
if note == "":
note = matches[2]
else:
note = note + "\n" + matches[2]
elif matches[1] == "NOTE":
note = self.parse_note(matches,event,level+1,note)
else:
self.barf(level+1)
def parse_source_reference(self,source,level):
"""Reads the data associated with a SOUR reference"""
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
elif matches[1] == "PAGE":
source.setPage(matches[2] + self.parse_continue_data(level+1))
elif matches[1] == "DATA":
date,text = self.parse_source_data(level+1)
d = Date.Date()
d.set(date)
source.setDate(d)
source.setText(text)
elif matches[1] in ["OBJE","REFN","TEXT"]:
self.ignore_sub_junk(level+1)
elif matches[1] == "QUAY":
val = int(matches[2])
if val > 1:
source.setConfidence(val+1)
else:
source.setConfidence(val)
elif matches[1] == "NOTE":
note = self.parse_comment(matches,source,level+1,note)
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else:
self.barf(level+1)
def parse_source_data(self,level):
"""Parses the source data"""
date = ""
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return (date,note)
elif matches[1] == "DATE":
date = matches[2]
elif matches[1] == "TEXT":
note = matches[2] + self.parse_continue_data(level+1)
else:
self.barf(level+1)
def parse_name(self,name,level):
"""Parses the person's name information"""
note = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
elif matches[1] in ["ALIA","_ALIA"]:
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aka = RelLib.Name()
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try:
names = nameRegexp.match(matches[2]).groups()
except:
names = (matches[2],"","","","")
if names[0]:
aka.setFirstName(names[0])
if names[2]:
aka.setSurname(names[2])
self.db.addSurname(names[2])
if names[4]:
aka.setSuffix(names[4])
self.person.addAlternateName(aka)
elif matches[1] == "NPFX":
name.setTitle(matches[2])
elif matches[1] == "GIVN":
name.setFirstName(matches[2])
elif matches[1] == "SPFX":
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name.setSurnamePrefix(matches[2])
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elif matches[1] == "SURN":
name.setSurname(matches[2])
self.db.addSurname(matches[2])
elif matches[1] == "_MARNM":
self.parse_marnm(self.person,matches[2].strip())
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elif matches[1] == "TITL":
name.setSuffix(matches[2])
elif matches[1] == "NSFX":
if name.getSuffix() == "":
name.setSuffix(matches[2])
elif matches[1] == "NICK":
self.person.setNickName(matches[2])
elif matches[1] == "_AKA":
lname = string.split(matches[2])
l = len(lname)
if l == 1:
self.person.setNickName(matches[2])
else:
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name = RelLib.Name()
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name.setSurname(lname[-1])
self.db.addSurname(lname[-1])
name.setFirstName(string.join(lname[0:l-1]))
self.person.addAlternateName(name)
elif matches[1] == "SOUR":
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source_ref = RelLib.SourceRef()
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source_ref.setBase(self.db.findSource(matches[2],self.smap))
name.addSourceRef(source_ref)
self.parse_source_reference(source_ref,level+1)
elif matches[1][0:4] == "NOTE":
note = self.parse_note(matches,name,level+1,note)
else:
self.barf(level+1)
def parse_marnm(self,person,text):
data = text.split()
if len(data) == 1:
name = RelLib.Name(person.getPrimaryName())
name.setSurname(data[0])
name.setType('Married Name')
person.addAlternateName(name)
elif len(data) > 1:
name = RelLib.Name()
name.setSurname(data[-1])
name.setFirstName(string.join(data[0:-1],' '))
name.setType('Married Name')
person.addAlternateName(name)
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def parse_header_head(self):
"""validiates that this is a valid GEDCOM file"""
line = string.replace(self.f.readline(),'\r','')
match = headRE.search(line)
if not match:
raise Errors.GedcomError("%s is not a GEDCOM file" % self.filename)
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self.index = self.index + 1
def parse_header_source(self):
genby = ""
while 1:
matches = self.get_next()
if int(matches[0]) == 0:
self.backup()
return
elif matches[1] == "SOUR":
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if self.window and self.created_obj.get_text():
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self.update(self.created_obj,matches[2])
self.gedsource = self.gedmap.get_from_source_tag(matches[2])
self.broken_conc = self.gedsource.get_conc()
if matches[2] == "FTW":
self.is_ftw = 1
genby = matches[2]
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elif matches[1] == "NAME" and self.window:
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self.update(self.created_obj,matches[2])
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elif matches[1] == "VERS" and self.window:
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self.update(self.version_obj,matches[2])
pass
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elif matches[1] in ["CORP","DATA","SUBM","SUBN","COPR","FILE","LANG"]:
self.ignore_sub_junk(2)
elif matches[1] == "DEST":
if genby == "GRAMPS":
self.gedsource = self.gedmap.get_from_source_tag(matches[2])
self.broken_conc = self.gedsource.get_conc()
elif matches[1] == "CHAR":
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if matches[2] == "UNICODE" or matches[2] == "UTF-8" or matches[2] == "UTF8":
self.cnv = nocnv
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elif matches[2] == "ANSEL":
self.cnv = ansel_to_utf8
else:
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self.cnv = latin_utf8.latin_to_utf8
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self.ignore_sub_junk(2)
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if self.window:
self.update(self.encoding_obj,matches[2])
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elif matches[1] == "GEDC":
self.ignore_sub_junk(2)
elif matches[1] == "_SCHEMA":
self.parse_ftw_schema(2)
elif matches[1] == "PLAC":
self.parse_place_form(2)
elif matches[1] == "DATE":
date = self.parse_date(2)
date.date = matches[2]
elif matches[1] == "NOTE":
note = matches[2] + self.parse_continue_data(2)
elif matches[1][0] == "_":
self.ignore_sub_junk(2)
else:
self.barf(2)
def parse_ftw_schema(self,level):
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
elif matches[1] == "INDI":
self.parse_ftw_indi_schema(level+1)
elif matches[1] == "FAM":
self.parse_ftw_fam_schema(level+1)
else:
self.barf(2)
def parse_ftw_indi_schema(self,level):
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
else:
label = self.parse_label(level+1)
ged2gramps[matches[1]] = label
def parse_label(self,level):
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
elif matches[1] == "LABL":
return matches[2]
else:
self.barf(2)
def parse_ftw_fam_schema(self,level):
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
else:
label = self.parse_label(level+1)
ged2fam[matches[1]] = label
def ignore_sub_junk(self,level):
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
def ignore_change_data(self,level):
matches = self.get_next()
if matches[1] == "CHAN":
self.ignore_sub_junk(level+1)
else:
self.backup()
def parse_place_form(self,level):
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return
elif matches[1] != "FORM":
self.barf(level+1)
def parse_continue_data(self,level):
data = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return data
elif matches[1] == "CONC":
if self.broken_conc:
data = "%s %s" % (data,matches[2])
else:
data = "%s%s" % (data,matches[2])
elif matches[1] == "CONT":
data = "%s\n%s" % (data,matches[2])
else:
self.backup()
return data
def parse_note_continue(self,level):
data = ""
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return data
elif matches[1] == "NOTE":
data = "%s\n%s%s" % (data,matches[2],self.parse_continue_data(level+1))
elif matches[1] == "CONC":
if self.broken_conc:
data = "%s %s" % (data,matches[2])
else:
data = "%s%s" % (data,matches[2])
elif matches[1] == "CONT":
data = "%s\n%s" % (data,matches[2])
else:
self.backup()
return data
def parse_date(self,level):
date = DateStruct()
while 1:
matches = self.get_next()
if int(matches[0]) < level:
self.backup()
return date
elif matches[1] == "TIME":
date.time = matches[2]
else:
self.barf(level+1)
def extract_date(self,text):
dateobj = Date.Date()
try:
match = fromtoRegexp.match(text)
if match:
(cal1,data1,cal2,data2) = match.groups()
if cal1 != cal2:
pass
if cal1 == "FRENCH R":
dateobj.set_calendar(FrenchRepublic.FrenchRepublic)
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elif cal1 == "JULIAN":
dateobj.set_calendar(Julian.Julian)
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elif cal1 == "HEBREW":
dateobj.set_calendar(Hebrew.Hebrew)
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dateobj.get_start_date().set(data1)
dateobj.get_stop_date().set(data2)
dateobj.set_range(1)
return dateobj
match = calRegexp.match(text)
if match:
(abt,cal,data) = match.groups()
if cal == "FRENCH R":
dateobj.set_calendar(FrenchRepublic.FrenchRepublic)
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elif cal == "JULIAN":
dateobj.set_calendar(Julian.Julian)
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elif cal == "HEBREW":
dateobj.set_calendar(Hebrew.Hebrew)
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dateobj.set(data)
if abt:
dateobj.get_start_date().setMode(abt)
else:
dateobj.set(text)
except:
dateobj.set_text(text)
return dateobj
def handle_source(self,matches,level):
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source_ref = RelLib.SourceRef()
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if matches[2] and matches[2][0] != "@":
self.localref = self.localref + 1
ref = "gsr%d" % self.localref
s = self.db.findSource(ref,self.smap)
source_ref.setBase(s)
s.setTitle('Imported Source #%d' % self.localref)
s.setNote(matches[2] + self.parse_continue_data(1))
self.db.buildSourceDisplay(s.getId())
self.ignore_sub_junk(2)
else:
source_ref.setBase(self.db.findSource(matches[2],self.smap))
self.parse_source_reference(source_ref,level)
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return source_ref
def resolve_refns(self):
prefix = self.db.iprefix
index = 0
new_pmax = self.db.pmapIndex
pmap = self.db.getPersonMap()
for pid, person in self.added.items():
index = index + 1
if self.refn.has_key(pid):
val = self.refn[pid]
new_key = prefix % val
new_pmax = max(new_pmax,val)
# new ID is not used
if not pmap.has_key(new_key):
self.db.removePerson(person.getId())
person.setId(new_key)
self.db.addPersonAs(person)
else:
tp = pmap[new_key]
# same person, just change it
if person == tp:
self.db.removePerson(person.getId())
person.setId(new_key)
self.db.addPersonAs(person)
# give up trying to use the refn as a key
else:
pass
self.db.pmapIndex = new_pmax
global file_top
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def readData(database,active_person,cb):
global db
global callback
global file_top
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db = database
callback = cb
file_top = gtk.FileSelection("%s - GRAMPS" % _title_string)
file_top.hide_fileop_buttons()
file_top.ok_button.connect('clicked', on_ok_clicked)
file_top.cancel_button.connect('clicked', on_cancel_clicked)
file_top.show()
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#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def on_ok_clicked(obj):
name = file_top.get_filename()
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if name == "":
return
Utils.destroy_passed_object(file_top)
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try:
importData(db,name)
except:
import DisplayTrace
DisplayTrace.DisplayTrace()
def on_cancel_clicked(obj):
file_top.destroy()
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#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
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if __name__ == "__main__":
import sys
import GrampsXML
import profile
print "Reading %s" % sys.argv[1]
db = GrampsXML.GrampsXML()
g = GedcomParser(db,sys.argv[1],None)
profile.run('g.parse_gedcom_file()')
g.resolve_refns()
else:
from Plugins import register_import
register_import(readData,_title_string)