gramps/src/WriteXML.py
Alex Roitman 7cc5d39fc9 * src/RelLib.py (Transaction.__len__): Redefine length.
* src/ChooseParents.py, src/EditPerson.py, src/EditSource.py,
src/EventEdit.py, src/FamilyView.py, src/gramps_main.py,
src/ImageSelect.py, src/Marriage.py, src/MediaView.py,
src/PedView.py, src/PeopleModel.py, src/PlaceView.py,
src/SelectChild.py, src/SelectObject.py, src/Sources.py,
src/SourceView.py, src/Utils.py, src/Witness.py,
src/WriteXML.py: Switch from find_* to try_to_find_* methods.


svn: r3193
2004-05-26 03:26:18 +00:00

796 lines
29 KiB
Python

#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2004 Donald N. Allingham
#
# 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
#
# $Id$
"""
Contains the interface to allow a database to get written using
GRAMPS' XML file format.
"""
#-------------------------------------------------------------------------
#
# load standard python libraries
#
#-------------------------------------------------------------------------
import string
import time
import shutil
import os
import codecs
#-------------------------------------------------------------------------
#
# load GRAMPS libraries
#
#-------------------------------------------------------------------------
import const
import GrampsCfg
import Calendar
import Gregorian
import RelLib
from gettext import gettext as _
from QuestionDialog import ErrorDialog
#-------------------------------------------------------------------------
#
# Attempt to load the GZIP library. Some version of python do not seem
# to be compiled with this available.
#
#-------------------------------------------------------------------------
try:
import gzip
_gzip_ok = 1
except:
_gzip_ok = 0
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def exportData(database, filename, callback):
if os.path.isfile(filename):
try:
shutil.copyfile(filename, filename + ".bak")
shutil.copystat(filename, filename + ".bak")
except:
pass
compress = GrampsCfg.uncompress == 0 and _gzip_ok == 1
try:
g = XmlWriter(database,callback,0,compress)
g.write(filename)
except:
import DisplayTrace
DisplayTrace.DisplayTrace()
ErrorDialog(_("Failure writing %s") % filename,
_("An attempt is being made to recover the original file"))
shutil.copyfile(filename + ".bak", filename)
try:
shutil.copystat(filename + ".bak", filename)
except:
pass
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def quick_write(database, filename,callback=None):
g = XmlWriter(database,callback,0,1)
g.write(filename)
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
class XmlWriter:
"""
Writes a database to the XML file.
"""
def __init__(self,db,callback,strip_photos,compress=1):
"""
Initializes, but does not write, an XML file.
db - database to write
callback - function to provide progress indication
strip_photos - remove full paths off of media object paths
compress - attempt to compress the database
"""
self.compress = compress
self.db = db
self.callback = callback
self.strip_photos = strip_photos
def write(self,filename):
"""
Write the database to the specified file.
"""
base = os.path.dirname(filename)
if os.path.isdir(base):
if not os.access(base,os.W_OK) or not os.access(base,os.R_OK):
ErrorDialog(_('Failure writing %s') % filename,
_("The database cannot be saved because you do not "
"have permission to write to the directory. "
"Please make sure you have write access to the "
"directory and try again."))
return
if os.path.exists(filename):
if not os.access(filename,os.W_OK):
ErrorDialog(_('Failure writing %s') % filename,
_("The database cannot be saved because you do not "
"have permission to write to the file. "
"Please make sure you have write access to the "
"file and try again."))
return
self.fileroot = os.path.dirname(filename)
try:
if self.compress:
try:
g = gzip.open(filename,"wb")
except:
g = open(filename,"w")
else:
g = open(filename,"w")
except IOError,msg:
ErrorDialog(_('Failure writing %s') % filename,msg)
return
self.g = codecs.getwriter("utf8")(g)
self.write_xml_data()
g.close()
def write_handle(self,handle):
"""
Write the database to the specified file handle.
"""
if self.compress:
try:
g = gzip.GzipFile(mode="wb",fileobj=handle)
except:
g = handle
else:
g = handle
self.g = codecs.getwriter("utf8")(g)
self.write_xml_data()
g.close()
def write_xml_data(self):
date = string.split(time.ctime(time.time()))
owner = self.db.get_researcher()
familyList = self.db.get_family_keys()
person_len = self.db.get_number_of_people()
family_len = len(familyList)
source_len = len(self.db.get_source_keys())
place_len = len(self.db.get_place_id_keys())
objList = self.db.get_object_keys()
total = person_len + family_len + place_len + source_len
self.g.write('<?xml version="1.0" encoding="UTF-8"?>\n')
self.g.write('<!DOCTYPE database SYSTEM "gramps.dtd" []>\n')
self.g.write("<database xmlns=\"http://gramps.sourceforge.net/database\">\n")
self.g.write(" <header>\n")
self.g.write(" <created date=\"%s %s %s\"" % (date[2],string.upper(date[1]),date[4]))
self.g.write(" version=\"" + const.version + "\"")
self.g.write(" people=\"%d\"" % person_len)
self.g.write(" families=\"%d\"" % family_len)
self.g.write(" sources=\"%d\"" % source_len)
self.g.write(" places=\"%d\"/>\n" % place_len)
self.g.write(" <researcher>\n")
self.write_line("resname",owner.get_name(),3)
self.write_line("resaddr",owner.get_address(),3)
self.write_line("rescity",owner.get_city(),3)
self.write_line("resstate",owner.get_state(),3)
self.write_line("rescountry",owner.get_country(),3)
self.write_line("respostal",owner.get_postal_code(),3)
self.write_line("resphone",owner.get_phone(),3)
self.write_line("resemail",owner.get_email(),3)
self.g.write(" </researcher>\n")
self.g.write(" </header>\n")
count = 0
delta = max(int(total/50),1)
if person_len > 0:
self.g.write(" <people")
person = self.db.get_default_person()
if person:
self.g.write(' default="%s"' % person.get_id())
self.g.write(">\n")
keys = self.db.get_person_keys()
keys.sort ()
for key in keys:
try:
person = self.db.get_person(key)
except:
print "Key error %s" % key
continue
if self.callback and count % delta == 0:
self.callback(float(count)/float(total))
count = count + 1
self.write_id("person",person,2)
if person.get_gender() == RelLib.Person.male:
self.write_line("gender","M",3)
elif person.get_gender() == RelLib.Person.female:
self.write_line("gender","F",3)
else:
self.write_line("gender","U",3)
self.dump_name("name",person.get_primary_name(),3)
for name in person.get_alternate_names():
self.dump_name("aka",name,3)
self.write_line("nick",person.get_nick_name(),3)
birth = self.db.find_event_from_id(person.get_birth_id())
death = self.db.find_event_from_id(person.get_death_id())
self.dump_my_event("Birth",birth,3)
self.dump_my_event("Death",death,3)
for event_id in person.get_event_list():
event = self.db.find_event_from_id(event_id)
self.dump_event(event,3)
self.dump_ordinance("baptism",person.get_lds_baptism(),3)
self.dump_ordinance("endowment",person.get_lds_endowment(),3)
self.dump_ordinance("sealed_to_parents",person.get_lds_sealing(),3)
self.write_media_list(person.get_media_list())
if len(person.get_address_list()) > 0:
for address in person.get_address_list():
self.g.write(' <address%s>\n' % conf_priv(address))
self.write_date(address.get_date_object(),4)
self.write_line("street",address.get_street(),4)
self.write_line("city",address.get_city(),4)
self.write_line("state",address.get_state(),4)
self.write_line("country",address.get_country(),4)
self.write_line("postal",address.get_postal_code(),4)
self.write_line("phone",address.get_phone(),4)
if address.get_note() != "":
self.write_note("note",address.get_note_object(),4)
for s in address.get_source_references():
self.dump_source_ref(s,4)
self.g.write(' </address>\n')
self.write_attribute_list(person.get_attribute_list())
self.write_url_list(person.get_url_list())
for alt in person.get_parent_family_id_list():
if alt[1] != "Birth":
mrel=' mrel="%s"' % alt[1]
else:
mrel=''
if alt[2] != "Birth":
frel=' frel="%s"' % alt[2]
else:
frel=''
self.g.write(" <childof ref=\"%s\"%s%s/>\n" % \
(alt[0], mrel, frel))
for family in person.get_family_id_list():
self.write_ref("parentin",family,3)
self.write_note("note",person.get_note_object(),3)
for s in person.get_source_references():
self.dump_source_ref(s,4)
self.g.write(" </person>\n")
self.g.write(" </people>\n")
if family_len > 0:
self.g.write(" <families>\n")
familyList.sort ()
for key in self.db.get_family_keys():
family = self.db.find_family_from_id(key)
if self.callback and count % delta == 0:
self.callback(float(count)/float(total))
count = count + 1
self.write_family_id(family,2)
self.write_ref("father",family.get_father_id(),3)
self.write_ref("mother",family.get_mother_id(),3)
for event_id in family.get_event_list():
event = self.db.find_event_from_id(event_id)
self.dump_event(event,3)
self.dump_ordinance("sealed_to_spouse",family.get_lds_sealing(),3)
self.write_media_list(family.get_media_list())
if len(family.get_child_id_list()) > 0:
for person in family.get_child_id_list():
self.write_ref("child",person,3)
self.write_attribute_list(family.get_attribute_list())
self.write_note("note",family.get_note_object(),3)
for s in family.get_source_references():
self.dump_source_ref(s,3)
self.g.write(" </family>\n")
self.g.write(" </families>\n")
if source_len > 0:
self.g.write(" <sources>\n")
keys = self.db.get_source_keys ()
keys.sort ()
for key in keys:
source = self.db.get_source(key)
if self.callback and count % delta == 0:
self.callback(float(count)/float(total))
count = count + 1
self.g.write(" <source id=\"" + source.get_id() + "\">\n")
self.write_force_line("stitle",source.get_title(),3)
self.write_line("sauthor",source.get_author(),3)
self.write_line("spubinfo",source.get_publication_info(),3)
self.write_line("sabbrev",source.get_abbreviation(),3)
if source.get_note() != "":
self.write_note("note",source.get_note_object(),3)
self.write_media_list(source.get_media_list())
self.g.write(" </source>\n")
self.g.write(" </sources>\n")
if place_len > 0:
self.g.write(" <places>\n")
keys = self.db.get_place_id_keys()
keys.sort ()
for key in keys:
try:
place = self.db.get_place_id(key)
if self.callback and count % delta == 0:
self.callback(float(count)/float(total))
self.write_place_obj(place)
except:
print "Could not find place %s" % key
count = count + 1
self.g.write(" </places>\n")
if len(objList) > 0:
self.g.write(" <objects>\n")
objList.sort ()
for key in self.db.get_object_keys():
object = self.db.try_to_find_object_from_id(key)
self.write_object(object)
self.g.write(" </objects>\n")
if len(self.db.get_bookmarks()) > 0:
self.g.write(" <bookmarks>\n")
for person_id in self.db.get_bookmarks():
self.g.write(' <bookmark ref="%s"/>\n' % person_id)
self.g.write(" </bookmarks>\n")
self.g.write("</database>\n")
def fix(self,line):
l = line.strip()
l = l.replace('&','&amp;')
l = l.replace('>','&gt;')
l = l.replace('<','&lt;')
return l.replace('"','&quot;')
def write_note(self,val,noteobj,indent=0):
if not noteobj:
return
text = noteobj.get()
if not text:
return
if indent != 0:
self.g.write(" " * indent)
format = noteobj.get_format()
if format:
self.g.write('<%s format="%d">' % (val,format))
else:
self.g.write('<%s>' % val)
self.g.write(self.fix(string.rstrip(text)))
self.g.write("</%s>\n" % val)
def write_text(self,val,text,indent=0):
if not text:
return
if indent != 0:
self.g.write(" " * indent)
self.g.write('<%s>' % val)
self.g.write(self.fix(string.rstrip(text)))
self.g.write("</%s>\n" % val)
def dump_event(self,event,index=1):
if event:
self.dump_my_event(event.get_name(),event,index)
def write_witness(self,witness_list,index):
if not witness_list:
return
for w in witness_list:
sp = " "*index
com = self.fix(w.get_comment())
if w.get_type() == RelLib.Event.ID:
self.g.write('%s<witness>\n' % sp)
self.g.write(' %s<ref>%s</ref>\n' % (sp,w.get_value()))
if com:
self.g.write(' %s<comment>%s</comment>\n' % (sp,com))
self.g.write('%s</witness>\n' % sp)
else:
nm = self.fix(w.get_value())
self.g.write('%s<witness>\n' % sp)
self.g.write(' %s<name>%s</name>\n' % (sp,nm))
if com:
self.g.write(' %s<comment>%s</comment>\n' % (sp,com))
self.g.write('%s</witness>\n' % sp)
def dump_my_event(self,name,event,index=1):
if not event or event.is_empty():
return
sp = " " * index
name = const.save_event(name)
self.g.write('%s<event type="%s"%s>\n' % (sp,self.fix(name),conf_priv(event)))
self.write_date(event.get_date_object(),index+1)
self.write_witness(event.get_witness_list(),index+1)
self.write_ref("place",event.get_place_id(),index+1)
self.write_line("cause",event.get_cause(),index+1)
self.write_line("description",event.get_description(),index+1)
if event.get_note():
self.write_note("note",event.get_note_object(),index+1)
for s in event.get_source_references():
self.dump_source_ref(s,index+1)
self.g.write("%s</event>\n" % sp)
def dump_ordinance(self,name,ord,index=1):
if not ord:
return
sp = " " * index
sp2 = " " * (index+1)
self.g.write('%s<lds_ord type="%s">\n' % (sp,self.fix(name)))
dateobj = ord.get_date_object()
if dateobj != None and not dateobj.is_empty():
self.write_date(dateobj,index+1)
if ord.get_temple():
self.g.write('%s<temple val="%s"/>\n' % (sp2,self.fix(ord.get_temple())))
self.write_ref("place",ord.get_place_id(),index+1)
if ord.get_status() != 0:
self.g.write('%s<status val="%d"/>\n' % (sp2,ord.get_status()))
if ord.get_family_id():
self.g.write('%s<sealed_to ref="%s"/>\n' % (sp2,self.fix(ord.get_family_id().get_id())))
if ord.get_note() != "":
self.write_note("note",ord.get_note_object(),index+1)
for s in ord.get_source_references():
self.dump_source_ref(s,index+1)
self.g.write('%s</lds_ord>\n' % sp)
def dump_source_ref(self,source_ref,index=1):
source = self.db.try_to_find_source_from_id(source_ref.get_base_id())
if source:
p = source_ref.get_page()
c = source_ref.get_comments()
t = source_ref.get_text()
d = source_ref.get_date()
q = source_ref.get_confidence_level()
self.g.write(" " * index)
if p == "" and c == "" and t == "" and d.is_empty() and q == 2:
self.g.write('<sourceref ref="%s"/>\n' % source.get_id())
else:
if q == 2:
self.g.write('<sourceref ref="%s">\n' % source.get_id())
else:
self.g.write('<sourceref ref="%s" conf="%d">\n' % (source.get_id(),q))
self.write_line("spage",p,index+1)
self.write_text("scomments",c,index+1)
self.write_text("stext",t,index+1)
self.write_date(d,index+1)
self.g.write("%s</sourceref>\n" % (" " * index))
def write_ref(self,label,id,index=1):
if id:
self.g.write('%s<%s ref="%s"/>\n' % (" "*index,label,id))
def write_id(self,label,person,index=1):
if person:
self.g.write('%s<%s id="%s"' % (" "*index,label,person.get_id()))
comp = person.get_complete()
if comp:
self.g.write(' complete="1"')
self.g.write('>\n')
def write_family_id(self,family,index=1):
if family:
rel = family.get_relationship()
comp = family.get_complete()
sp = " " * index
self.g.write('%s<family id="%s"' % (sp,family.get_id()))
if comp:
self.g.write(' complete="1"')
if rel != "":
self.g.write(' type="%s">\n' % const.save_frel(rel))
else:
self.g.write('>\n')
def write_last(self,name,indent=1):
p = name.get_surname_prefix()
n = name.get_surname()
if p:
self.g.write('%s<last prefix="%s">%s</last>\n' % (' '*indent,p,self.fix(n)))
else:
self.g.write('%s<last>%s</last>\n' % (' '*indent,self.fix(n)))
def write_line(self,label,value,indent=1):
if value:
self.g.write('%s<%s>%s</%s>\n' % (' '*indent,label,self.fix(value),label))
def write_date(self,date,indent=1):
sp = ' '*indent
if date.is_empty():
return
name = date.get_calendar().NAME
if name != Gregorian.Gregorian.NAME:
calstr = ' cformat="%s"' % name
else:
calstr = ''
if date.is_range():
d1 = date.get_start_date().get_iso_date()
d2 = date.get_stop_date().get_iso_date()
self.g.write('%s<daterange start="%s" stop="%s"%s/>\n' % (sp,d1,d2,calstr))
elif date.is_valid():
d1 = date.get_start_date()
mode = d1.get_mode_val()
dstr = d1.get_iso_date()
if mode == Calendar.BEFORE:
pref = ' type="before"'
elif mode == Calendar.AFTER:
pref = ' type="after"'
elif mode == Calendar.ABOUT:
pref = ' type="about"'
else:
pref = ""
self.g.write('%s<dateval val="%s"%s%s/>\n' % (sp,dstr,pref,calstr))
else:
self.g.write('%s<datestr val="%s"/>\n' %(sp,self.fix(date.get_text())))
def write_force_line(self,label,value,indent=1):
if value != None:
self.g.write('%s<%s>%s</%s>\n' % (' '*indent,label,self.fix(value),label))
def dump_name(self,label,name,index=1):
sp = " "*index
type = name.get_type()
if type:
self.g.write('%s<%s type="%s"%s>\n' % (sp,label,type,conf_priv(name)))
else:
self.g.write('%s<%s%s>\n' % (sp,label,conf_priv(name)))
self.write_line("first",name.get_first_name(),index+1)
self.write_last(name,index+1)
self.write_line("suffix",name.get_suffix(),index+1)
self.write_line("title",name.get_title(),index+1)
if name.get_note() != "":
self.write_note("note",name.get_note_object(),index+1)
for s in name.get_source_references():
self.dump_source_ref(s,index+1)
self.g.write('%s</%s>\n' % (sp,label))
def append_value(self,orig,val):
if orig:
return "%s, %s" % (orig,val)
else:
return val
def build_place_title(self,loc):
"Builds a title from a location"
city = self.fix(loc.get_city())
parish = self.fix(loc.get_parish())
state = self.fix(loc.get_state())
country = self.fix(loc.get_country())
county = self.fix(loc.get_county())
value = ""
if city:
value = city
if parish:
value = self.append_value(value,parish)
if county:
value = self.append_value(value,county)
if state:
value = self.append_value(value,state)
if country:
value = self.append_value(value,country)
return value
def dump_location(self,loc):
"Writes the location information to the output file"
city = self.fix(loc.get_city())
parish = self.fix(loc.get_parish())
state = self.fix(loc.get_state())
country = self.fix(loc.get_country())
county = self.fix(loc.get_county())
zip = self.fix(loc.get_postal_code())
phone = self.fix(loc.get_phone())
if not city and not state and not parish and not county and not country:
return
self.g.write(' <location')
if city:
self.g.write(' city="%s"' % city)
if parish:
self.g.write(' parish="%s"' % parish)
if county:
self.g.write(' county="%s"' % county)
if state:
self.g.write(' state="%s"' % state)
if country:
self.g.write(' country="%s"' % country)
if zip:
self.g.write(' postal="%s"' % zip)
if phone:
self.g.write(' phone="%s"' % phone)
self.g.write('/>\n')
def write_attribute_list(self, list, indent=3):
sp = ' ' * indent
for attr in list:
self.g.write('%s<attribute%s type="%s" value="%s"' % \
(sp,conf_priv(attr),const.save_attr(attr.get_type()),
self.fix(attr.get_value())))
slist = attr.get_source_references()
note = attr.get_note()
if note == "" and len(slist) == 0:
self.g.write('/>\n')
else:
self.g.write('>\n')
for s in attr.get_source_references():
self.dump_source_ref(s,indent+1)
self.write_note("note",attr.get_note_object(),4)
self.g.write('%s</attribute>\n' % sp)
def write_media_list(self,list,indent=3):
sp = ' '*indent
for photo in list:
mobj_id = photo.get_reference_id()
self.g.write('%s<objref ref="%s"' % (sp,mobj_id))
if photo.get_privacy():
self.g.write(' priv="1"')
proplist = photo.get_attribute_list()
if len(proplist) == 0 and photo.get_note() == "":
self.g.write("/>\n")
else:
self.g.write(">\n")
self.write_attribute_list(proplist,indent+1)
self.write_note("note",photo.get_note_object(),indent+1)
self.g.write('%s</objref>\n' % sp)
def write_url_list(self,list):
for url in list:
self.g.write(' <url priv="%d" href="%s"' % \
(url.get_privacy(),self.fix(url.get_path())))
if url.get_description() != "":
self.g.write(' description="%s"' % self.fix(url.get_description()))
self.g.write('/>\n')
def write_place_obj(self,place):
title = self.fix(place.get_title())
long = self.fix(place.get_longitude())
lat = self.fix(place.get_latitude())
id = place.get_id()
main_loc = place.get_main_location()
llen = len(place.get_alternate_locations()) + len(place.get_url_list()) + \
len(place.get_media_list()) + len(place.get_source_references())
ml_empty = main_loc.is_empty()
note = place.get_note()
if title == "":
title = self.fix(self.build_place_title(place.get_main_location()))
self.g.write(' <placeobj id="%s" title="%s"' % (id,title))
if long or lat or not ml_empty or llen > 0 or note:
self.g.write('>\n')
else:
self.g.write('/>\n')
return
if long or lat:
self.g.write(' <coord long="%s" lat="%s"/>\n' % (long,lat))
self.dump_location(main_loc)
for loc in place.get_alternate_locations():
self.dump_location(loc)
self.write_media_list(place.get_media_list())
self.write_url_list(place.get_url_list())
if note != "":
self.write_note("note",place.get_note_object(),3)
for s in place.get_source_references():
self.dump_source_ref(s,3)
self.g.write(" </placeobj>\n")
def write_object(self,object):
id = object.get_id()
type = object.get_mime_type()
path = object.get_path()
if self.strip_photos:
path = os.path.basename(path)
else:
l = len(self.fileroot)
if len(path) >= l:
if self.fileroot == path[0:l]:
path = path[l+1:]
self.g.write(' <object id="%s" src="%s" mime="%s"' % (id,path,type))
self.g.write(' description="%s"' % self.fix(object.get_description()))
alist = object.get_attribute_list()
note = object.get_note()
slist = object.get_source_references()
if len(alist) == 0 and len(slist) == 0 and note == "":
self.g.write('/>\n')
else:
self.g.write('>\n')
self.write_attribute_list(alist)
if note != "":
self.write_note("note",object.get_note_object(),3)
for s in slist:
self.dump_source_ref(s,3)
self.g.write(" </object>\n")
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def sortById(first,second):
fid = first.get_id()
sid = second.get_id()
if fid < sid:
return -1
else:
return fid != sid
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def conf_priv(obj):
if obj.get_privacy() != 0:
return ' priv="%d"' % obj.get_privacy()
else:
return ''