gramps/src/GrampsDb/_GrampsDBDir.py

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#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2007 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: _GrampsDBDir.py 8221 2007-02-24 00:24:57Z rshura $
"""
Provides the Berkeley DB (DBDir) database backend for GRAMPS
"""
#-------------------------------------------------------------------------
#
# Standard python modules
#
#-------------------------------------------------------------------------
import cPickle as pickle
import os
import shutil
import re
import time
from gettext import gettext as _
from bsddb import dbshelve, db
import logging
log = logging.getLogger(".GrampsDb")
#-------------------------------------------------------------------------
#
# Gramps modules
#
#-------------------------------------------------------------------------
from RelLib import *
from _GrampsDbBase import *
from _DbUtils import db_copy
import _GrampsDbConst as const
from _GrampsDbExceptions import FileVersionError
from BasicUtils import UpdateCallback
from _GrampsCursor import GrampsCursor
import Errors
_MINVERSION = 9
_DBVERSION = 13
IDTRANS = "person_id"
FIDTRANS = "family_id"
PIDTRANS = "place_id"
OIDTRANS = "media_id"
EIDTRANS = "event_id"
RIDTRANS = "repo_id"
NIDTRANS = "note_id"
SIDTRANS = "source_id"
SURNAMES = "surnames"
NAME_GROUP = "name_group"
META = "meta_data"
FAMILY_TBL = "family"
PLACES_TBL = "place"
SOURCES_TBL = "source"
MEDIA_TBL = "media"
EVENTS_TBL = "event"
PERSON_TBL = "person"
REPO_TBL = "repo"
NOTE_TBL = "note"
REF_MAP = "reference_map"
REF_PRI = "primary_map"
REF_REF = "referenced_map"
DBERRS = (db.DBRunRecoveryError, db.DBAccessError, db.DBPageNotFoundError, db.DBInvalidArgError)
def find_surname(key,data):
return str(data[3][5])
def find_idmap(key,data):
return str(data[1])
# Secondary database key lookups for reference_map table
# reference_map data values are of the form:
# ((primary_object_class_name, primary_object_handle),
# (referenced_object_class_name, referenced_object_handle))
def find_primary_handle(key,data):
return str((data)[0][1])
def find_referenced_handle(key,data):
return str((data)[1][1])
class GrampsDBDirCursor(GrampsCursor):
def __init__(self,source,txn=None):
self.cursor = source.db.cursor(txn)
self.source = source
def first(self):
d = self.cursor.first()
if d:
return (d[0],pickle.loads(d[1]))
return None
def next(self):
d = self.cursor.next()
if d:
return (d[0],pickle.loads(d[1]))
return None
def close(self):
self.cursor.close()
def delete(self):
self.cursor.delete()
def get_length(self):
return self.source.stat()['ndata']
class GrampsDBDirAssocCursor(GrampsCursor):
def __init__(self,source,txn=None):
self.cursor = source.cursor(txn)
self.source = source
def first(self):
d = self.cursor.first()
if d:
return (d[0],pickle.loads(d[1]))
return None
def next(self):
d = self.cursor.next()
if d:
return (d[0],pickle.loads(d[1]))
return None
def close(self):
self.cursor.close()
def delete(self):
self.cursor.delete()
def get_length(self):
return self.source.stat()['ndata']
class GrampsDBDirDupCursor(GrampsDBDirAssocCursor):
"""Cursor that includes handling for duplicate keys"""
def set(self,key):
return self.cursor.set(str(key))
def next_dup(self):
return self.cursor.next_dup()
#-------------------------------------------------------------------------
#
# GrampsDBDir
#
#-------------------------------------------------------------------------
class GrampsDBDir(GrampsDbBase,UpdateCallback):
"""GRAMPS database object. This object is a base class for other
objects."""
def __init__(self, use_txn = True):
"""creates a new GrampsDB"""
GrampsDbBase.__init__(self)
self.txn = None
self.secondary_connected = False
self.UseTXN = use_txn
def __open_flags(self):
if self.UseTXN:
return db.DB_CREATE | db.DB_AUTO_COMMIT
else:
return db.DB_CREATE
def __open_table(self, file_name, table_name, dbtype=db.DB_HASH):
dbmap = dbshelve.DBShelf(self.env)
dbmap.db.set_pagesize(16384)
fname = os.path.join(file_name, table_name + ".db")
if self.readonly:
dbmap.open(fname, table_name, dbtype, db.DB_RDONLY)
else:
dbmap.open(fname, table_name, dbtype, self.__open_flags(), 0666)
return dbmap
def __all_handles(self,table):
return table.keys(self.txn)
def __log_error(self):
mypath = os.path.join(self.get_save_path(),"need_recover")
ofile = open(mypath, "w")
ofile.close()
try:
clear_lock_file(self.get_save_path())
except:
pass
def __get_cursor(self, table):
try:
return GrampsDBDirCursor(table, self.txn)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def get_person_cursor(self):
return self.__get_cursor(self.person_map)
def get_family_cursor(self):
return self.__get_cursor(self.family_map)
def get_event_cursor(self):
return self.__get_cursor(self.event_map)
def get_place_cursor(self):
return self.__get_cursor(self.place_map)
def get_source_cursor(self):
return self.__get_cursor(self.source_map)
def get_media_cursor(self):
return self.__get_cursor(self.media_map)
def get_repository_cursor(self):
return self.__get_cursor(self.repository_map)
def get_note_cursor(self):
return self.__get_cursor(self.note_map)
def __has_handle(self, table, handle):
try:
return table.get(str(handle), txn=self.txn) != None
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def has_person_handle(self, handle):
"""
returns True if the handle exists in the current Person database.
"""
return self.__has_handle(self.person_map, handle)
def has_family_handle(self,handle):
"""
returns True if the handle exists in the current Family database.
"""
return self.__has_handle(self.family_map, handle)
def has_object_handle(self,handle):
"""
returns True if the handle exists in the current MediaObjectdatabase.
"""
return self.__has_handle(self.media_map, handle)
def has_repository_handle(self,handle):
"""
returns True if the handle exists in the current Repository database.
"""
return self.__has_handle(self.repository_map, handle)
def has_note_handle(self,handle):
"""
returns True if the handle exists in the current Note database.
"""
return self.__has_handle(self.note_map, handle)
def has_event_handle(self,handle):
"""
returns True if the handle exists in the current Repository database.
"""
return self.__has_handle(self.event_map, handle)
def has_place_handle(self,handle):
"""
returns True if the handle exists in the current Repository database.
"""
return self.__has_handle(self.place_map, handle)
def has_source_handle(self, handle):
"""
returns True if the handle exists in the current Repository database.
"""
return self.__has_handle(self.source_map, handle)
def __get_raw_data(self, table, handle):
try:
return table.get(str(handle), txn=self.txn)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def get_raw_person_data(self, handle):
return self.__get_raw_data(self.person_map, handle)
def get_raw_family_data(self,handle):
return self.__get_raw_data(self.family_map, handle)
def get_raw_object_data(self,handle):
return self.__get_raw_data(self.media_map, handle)
def get_raw_place_data(self,handle):
return self.__get_raw_data(self.place_map, handle)
def get_raw_event_data(self,handle):
return self.__get_raw_data(self.event_map, handle)
def get_raw_source_data(self,handle):
return self.__get_raw_data(self.source_map, handle)
def get_raw_repository_data(self,handle):
return self.__get_raw_data(self.repository_map, handle)
def get_raw_note_data(self,handle):
return self.__get_raw_data(self.note_map, handle)
# cursors for lookups in the reference_map for back reference
# lookups. The reference_map has three indexes:
# the main index: a tuple of (primary_handle,referenced_handle)
# the primary_handle index: the primary_handle
# the referenced_handle index: the referenced_handle
# the main index is unique, the others allow duplicate entries.
def get_reference_map_cursor(self):
try:
return GrampsDBDirAssocCursor(self.reference_map, self.txn)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def get_reference_map_primary_cursor(self):
try:
return GrampsDBDirDupCursor(self.reference_map_primary_map, self.txn)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def get_reference_map_referenced_cursor(self):
try:
return GrampsDBDirDupCursor(self.reference_map_referenced_map, self.txn)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
# These are overriding the GrampsDbBase's methods of saving metadata
# because we now have txn-capable metadata table
def set_default_person_handle(self, handle):
try:
return self.__set_default_person_handle(handle)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __set_default_person_handle(self, handle):
"""sets the default Person to the passed instance"""
if not self.readonly:
if self.UseTXN:
# Start transaction if needed
the_txn = self.env.txn_begin()
else:
the_txn = None
self.metadata.put('default', str(handle), txn=the_txn)
if self.UseTXN:
the_txn.commit()
else:
self.metadata.sync()
def get_default_person(self):
try:
return self.__get_default_person()
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __get_default_person(self):
"""returns the default Person of the database"""
person = self.get_person_from_handle(self.get_default_handle())
if person:
return person
elif (self.metadata) and (not self.readonly):
if self.UseTXN:
# Start transaction if needed
the_txn = self.env.txn_begin()
else:
the_txn = None
self.metadata.put('default', None, txn=the_txn)
if self.UseTXN:
the_txn.commit()
else:
self.metadata.sync()
return None
def __set_column_order(self, col_list, name):
if self.metadata and not self.readonly:
if self.UseTXN:
# Start transaction if needed
the_txn = self.env.txn_begin()
else:
the_txn = None
self.metadata.put(name, col_list, txn=the_txn)
if self.UseTXN:
the_txn.commit()
else:
self.metadata.sync()
def version_supported(self):
try:
dbversion = self.metadata.get('version',default=0)
return ((dbversion <= _DBVERSION) and (dbversion >= _MINVERSION))
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def need_upgrade(self):
try:
dbversion = self.metadata.get('version',default=0)
return not self.readonly and dbversion < _DBVERSION
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def load(self, name, callback, mode="w"):
try:
if self.__check_readonly(name):
mode = "r"
write_lock_file(name)
return self.__load(name, callback, mode)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __check_readonly(self, name):
for base in [ FAMILY_TBL, PLACES_TBL, SOURCES_TBL, MEDIA_TBL, EVENTS_TBL,
PERSON_TBL, REPO_TBL, NOTE_TBL, REF_MAP, META ]:
path = os.path.join(name, base + ".db")
if not os.access(path, os.W_OK):
return True
return False
def __load(self, name, callback, mode="w"):
if self.db_is_open:
self.close()
self.readonly = mode == "r"
if self.readonly:
self.UseTXN = False
if callback:
callback(12)
self.full_name = os.path.abspath(name)
self.path = self.full_name
self.brief_name = os.path.basename(name)
self.env = db.DBEnv()
self.env.set_cachesize(0,0x4000000) # 32MB
if self.UseTXN:
# These env settings are only needed for Txn environment
self.env.set_lk_max_locks(25000)
self.env.set_lk_max_objects(25000)
self.env.set_flags(db.DB_LOG_AUTOREMOVE, 1) # clean up unused logs
# The DB_PRIVATE flag must go if we ever move to multi-user setup
env_flags = db.DB_CREATE | db.DB_PRIVATE |\
db.DB_INIT_MPOOL | db.DB_INIT_LOCK |\
db.DB_INIT_LOG | db.DB_INIT_TXN | db.DB_THREAD
# Only do recovery for existing databases
if os.path.isfile(self.full_name):
env_flags = env_flags | db.DB_RECOVER
# Environment name is now based on the filename
env_name = name
else:
env_flags = db.DB_CREATE | db.DB_PRIVATE | db.DB_INIT_MPOOL
env_name = os.path.expanduser('~')
self.env.open(env_name, env_flags)
if self.UseTXN:
self.env.txn_checkpoint()
if callback:
callback(25)
self.metadata = self.__open_table(self.full_name, META)
# If we cannot work with this DB version,
# it makes no sense to go further
if not self.version_supported:
self.__close_early()
self.family_map = self.__open_table(self.full_name, FAMILY_TBL)
self.place_map = self.__open_table(self.full_name, PLACES_TBL)
self.source_map = self.__open_table(self.full_name, SOURCES_TBL)
self.media_map = self.__open_table(self.full_name, MEDIA_TBL)
self.event_map = self.__open_table(self.full_name, EVENTS_TBL)
self.person_map = self.__open_table(self.full_name, PERSON_TBL)
self.repository_map = self.__open_table(self.full_name, REPO_TBL)
self.note_map = self.__open_table(self.full_name, NOTE_TBL)
self.reference_map = self.__open_table(self.full_name, REF_MAP,
dbtype=db.DB_BTREE)
if callback:
callback(37)
self.__load_metadata()
gstats = self.metadata.get('gender_stats', default=None)
if not self.readonly:
if self.UseTXN:
# Start transaction if needed
the_txn = self.env.txn_begin()
else:
the_txn = None
if gstats == None:
# New database. Set up the current version.
self.metadata.put('version', _DBVERSION, txn=the_txn)
elif not self.metadata.has_key('version'):
# Not new database, but the version is missing.
# Use 0, but it is likely to fail anyway.
self.metadata.put('version', 0, txn=the_txn)
if self.UseTXN:
the_txn.commit()
else:
self.metadata.sync()
self.genderStats = GenderStats(gstats)
# Here we take care of any changes in the tables related to new code.
# If secondary indices change, then they should removed
# or rebuilt by upgrade as well. In any case, the
# self.secondary_connected flag should be set accordingly.
if self.need_upgrade():
self.gramps_upgrade(callback)
if callback:
callback(50)
if not self.secondary_connected:
self.__connect_secondary()
if callback:
callback(75)
self.open_undodb()
self.db_is_open = True
if callback:
callback(87)
# Re-set the undo history to a fresh session start
self.undoindex = -1
self.translist = [None] * len(self.translist)
self.abort_possible = True
self.undo_history_timestamp = time.time()
return 1
def open_undodb(self):
"""
Override method from GrampsDbBase because in DIR setup we want
the undo database to be inside the dir.
"""
if not self.readonly:
self.undolog = os.path.join(self.full_name, "undo.db")
self.undodb = db.DB()
self.undodb.open(self.undolog, db.DB_RECNO, db.DB_CREATE)
def load_from(self, other_database, filename, callback):
try:
self.load(filename,callback)
db_copy(other_database,self,callback)
return 1
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __load_metadata(self):
# name display formats
self.name_formats = self.metadata.get('name_formats', default=[])
# upgrade formats if they were saved in the old way
for format_ix in range(len(self.name_formats)):
format = self.name_formats[format_ix]
if len(format) == 3:
format = format + (True,)
self.name_formats[format_ix] = format
# database owner
self.set_researcher(self.metadata.get('researcher', default=self.owner))
# bookmarks
self.bookmarks.set(self.metadata.get('bookmarks',default=[]))
self.family_bookmarks.set(self.metadata.get('family_bookmarks',
default=[]))
self.event_bookmarks.set(self.metadata.get('event_bookmarks',
default=[]))
self.source_bookmarks.set(self.metadata.get('source_bookmarks',
default=[]))
self.repo_bookmarks.set(self.metadata.get('repo_bookmarks',
default=[]))
self.media_bookmarks.set(self.metadata.get('media_bookmarks',
default=[]))
self.place_bookmarks.set(self.metadata.get('place_bookmarks',
default=[]))
self.note_bookmarks.set(self.metadata.get('note_bookmarks',
default=[]))
# Custom type values
self.family_event_names = set(self.metadata.get('fevent_names',
default=[]))
self.individual_event_names = set(self.metadata.get('pevent_names',
default=[]))
self.family_attributes = set(self.metadata.get('fattr_names',
default=[]))
self.individual_attributes = set(self.metadata.get('pattr_names',
default=[]))
self.marker_names = set(self.metadata.get('marker_names',default=[]))
self.child_ref_types = set(self.metadata.get('child_refs',
default=[]))
self.family_rel_types = set(self.metadata.get('family_rels',
default=[]))
self.event_role_names = set(self.metadata.get('event_roles',
default=[]))
self.name_types = set(self.metadata.get('name_types',default=[]))
self.repository_types = set(self.metadata.get('repo_types',
default=[]))
self.note_types = set(self.metadata.get('note_types',
default=[]))
self.source_media_types = set(self.metadata.get('sm_types',
default=[]))
self.url_types = set(self.metadata.get('url_types',default=[]))
self.media_attributes = set(self.metadata.get('mattr_names',
default=[]))
# surname list
self.surname_list = self.metadata.get('surname_list', default=[])
def __connect_secondary(self):
"""
This method connects or creates secondary index tables.
It assumes that the tables either exist and are in the right
format or do not exist (in which case they get created).
It is the responsibility of upgrade code to either create
or remove invalid secondary index tables.
"""
# index tables used just for speeding up searches
if self.readonly:
table_flags = db.DB_RDONLY
else:
table_flags = self.__open_flags()
self.surnames = db.DB(self.env)
self.surnames.set_flags(db.DB_DUP | db.DB_DUPSORT)
self.surnames.open(_mkname(self.full_name, SURNAMES), SURNAMES,
db.DB_BTREE, flags=table_flags)
self.name_group = db.DB(self.env)
self.name_group.set_flags(db.DB_DUP)
self.name_group.open(_mkname(self.full_name, NAME_GROUP), NAME_GROUP,
db.DB_HASH, flags=table_flags)
self.id_trans = db.DB(self.env)
self.id_trans.set_flags(db.DB_DUP)
self.id_trans.open(_mkname(self.full_name, IDTRANS), IDTRANS,
db.DB_HASH, flags=table_flags)
self.fid_trans = db.DB(self.env)
self.fid_trans.set_flags(db.DB_DUP)
self.fid_trans.open(_mkname(self.full_name, FIDTRANS), FIDTRANS,
db.DB_HASH, flags=table_flags)
self.eid_trans = db.DB(self.env)
self.eid_trans.set_flags(db.DB_DUP)
self.eid_trans.open(_mkname(self.full_name, EIDTRANS), EIDTRANS,
db.DB_HASH, flags=table_flags)
self.pid_trans = db.DB(self.env)
self.pid_trans.set_flags(db.DB_DUP)
self.pid_trans.open(_mkname(self.full_name, PIDTRANS), PIDTRANS,
db.DB_HASH, flags=table_flags)
self.sid_trans = db.DB(self.env)
self.sid_trans.set_flags(db.DB_DUP)
self.sid_trans.open(_mkname(self.full_name, SIDTRANS), SIDTRANS,
db.DB_HASH, flags=table_flags)
self.oid_trans = db.DB(self.env)
self.oid_trans.set_flags(db.DB_DUP)
self.oid_trans.open(_mkname(self.full_name, OIDTRANS), OIDTRANS,
db.DB_HASH, flags=table_flags)
self.rid_trans = db.DB(self.env)
self.rid_trans.set_flags(db.DB_DUP)
self.rid_trans.open(_mkname(self.full_name, RIDTRANS), RIDTRANS,
db.DB_HASH, flags=table_flags)
self.nid_trans = db.DB(self.env)
self.nid_trans.set_flags(db.DB_DUP)
self.nid_trans.open(_mkname(self.full_name, NIDTRANS), NIDTRANS,
db.DB_HASH, flags=table_flags)
self.reference_map_primary_map = db.DB(self.env)
self.reference_map_primary_map.set_flags(db.DB_DUP)
self.reference_map_primary_map.open(
_mkname(self.full_name, REF_PRI),
REF_PRI, db.DB_BTREE, flags=table_flags)
self.reference_map_referenced_map = db.DB(self.env)
self.reference_map_referenced_map.set_flags(db.DB_DUP|db.DB_DUPSORT)
self.reference_map_referenced_map.open(
_mkname(self.full_name, REF_REF),
REF_REF, db.DB_BTREE, flags=table_flags)
if not self.readonly:
self.person_map.associate(self.surnames, find_surname, table_flags)
self.person_map.associate(self.id_trans, find_idmap, table_flags)
self.family_map.associate(self.fid_trans,find_idmap, table_flags)
self.event_map.associate(self.eid_trans, find_idmap, table_flags)
self.repository_map.associate(self.rid_trans, find_idmap,
table_flags)
self.note_map.associate(self.nid_trans, find_idmap, table_flags)
self.place_map.associate(self.pid_trans, find_idmap, table_flags)
self.media_map.associate(self.oid_trans, find_idmap, table_flags)
self.source_map.associate(self.sid_trans, find_idmap, table_flags)
self.reference_map.associate(self.reference_map_primary_map,
find_primary_handle,
table_flags)
self.reference_map.associate(self.reference_map_referenced_map,
find_referenced_handle,
table_flags)
self.secondary_connected = True
self.smap_index = len(self.source_map)
self.emap_index = len(self.event_map)
self.pmap_index = len(self.person_map)
self.fmap_index = len(self.family_map)
self.lmap_index = len(self.place_map)
self.omap_index = len(self.media_map)
self.rmap_index = len(self.repository_map)
self.nmap_index = len(self.note_map)
def rebuild_secondary(self, callback=None):
try:
self.__rebuild_secondary(callback)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __rebuild_secondary(self, callback=None):
if self.readonly:
return
table_flags = self.__open_flags()
# remove existing secondary indices
index = 1
items = [
( self.id_trans, IDTRANS ),
( self.surnames, SURNAMES ),
( self.fid_trans, FIDTRANS ),
( self.pid_trans, PIDTRANS ),
( self.oid_trans, OIDTRANS ),
( self.eid_trans, EIDTRANS ),
( self.rid_trans, RIDTRANS ),
( self.nid_trans, NIDTRANS ),
( self.reference_map_primary_map, REF_PRI),
( self.reference_map_referenced_map, REF_REF),
]
for (database, name) in items:
database.close()
env = db.DB(self.env)
env.remove(_mkname(self.full_name, name), name)
if callback:
callback(index)
index += 1
if callback:
callback(11)
# Set flag saying that we have removed secondary indices
# and then call the creating routine
self.secondary_connected = False
self.__connect_secondary()
if callback:
callback(12)
def find_backlink_handles(self, handle, include_classes=None):
try:
return self.__find_backlink_handles(handle, include_classes)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __find_backlink_handles(self, handle, include_classes=None):
"""
Find all objects that hold a reference to the object handle.
Returns an interator over a list of (class_name,handle) tuples.
@param handle: handle of the object to search for.
@type handle: database handle
@param include_classes: list of class names to include in the results.
Default: None means include all classes.
@type include_classes: list of class names
Note that this is a generator function, it returns a iterator for
use in loops. If you want a list of the results use:
> result_list = [i for i in find_backlink_handles(handle)]
"""
# Use the secondary index to locate all the reference_map entries
# that include a reference to the object we are looking for.
referenced_cur = self.get_reference_map_referenced_cursor()
try:
ret = referenced_cur.set(handle)
except:
ret = None
while (ret is not None):
(key,data) = ret
# data values are of the form:
# ((primary_object_class_name, primary_object_handle),
# (referenced_object_class_name, referenced_object_handle))
# so we need the first tuple to give us the type to compare
### FIXME: this is a dirty hack that works without no
### sensible explanation. For some reason, for a readonly
### database, secondary index returns a primary table key
### corresponding to the data, not the data.
if self.readonly:
data = self.reference_map.get(data)
else:
data = pickle.loads(data)
if include_classes == None or \
KEY_TO_CLASS_MAP[data[0][0]] in include_classes:
yield (KEY_TO_CLASS_MAP[data[0][0]],data[0][1])
ret = referenced_cur.next_dup()
referenced_cur.close()
def __delete_primary_from_reference_map(self,handle,transaction,txn=None):
"""
Remove all references to the primary object from the reference_map.
"""
primary_cur = self.get_reference_map_primary_cursor()
try:
ret = primary_cur.set(handle)
except:
ret = None
remove_list = set()
while (ret is not None):
(key,data) = ret
# data values are of the form:
# ((primary_object_class_name, primary_object_handle),
# (referenced_object_class_name, referenced_object_handle))
# so we need the second tuple give us a reference that we can
# combine with the primary_handle to get the main key.
main_key = (handle, pickle.loads(data)[1][1])
# The trick is not to remove while inside the cursor,
# but collect them all and remove after the cursor is closed
remove_list.add(main_key)
ret = primary_cur.next_dup()
primary_cur.close()
# Now that the cursor is closed, we can remove things
for main_key in remove_list:
self.__remove_reference(main_key,transaction,txn)
def __update_reference_map(self, obj, transaction, txn=None):
"""
If txn is given, then changes are written right away using txn.
"""
# Add references to the reference_map for all primary object referenced
# from the primary object 'obj' or any of its secondary objects.
handle = obj.handle
update = self.reference_map_primary_map.has_key(str(handle))
if update:
# First thing to do is get hold of all rows in the reference_map
# table that hold a reference from this primary obj. This means
# finding all the rows that have this handle somewhere in the
# list of (class_name,handle) pairs.
# The primary_map sec index allows us to look this up quickly.
existing_references = set()
primary_cur = self.get_reference_map_primary_cursor()
try:
ret = primary_cur.set(handle)
except:
ret = None
while (ret is not None):
(key,data) = ret
# data values are of the form:
# ((primary_object_class_name, primary_object_handle),
# (referenced_object_class_name, referenced_object_handle))
# so we need the second tuple give us a reference that we can
# compare with what is returned from
# get_referenced_handles_recursively
# secondary DBs are not DBShelf's, so we need to do pickling
# and unpicking ourselves here
existing_reference = pickle.loads(data)[1]
existing_references.add(
(KEY_TO_CLASS_MAP[existing_reference[0]],
existing_reference[1]))
ret = primary_cur.next_dup()
primary_cur.close()
# Once we have the list of rows that already have a reference
# we need to compare it with the list of objects that are
# still references from the primary object.
current_references = set(obj.get_referenced_handles_recursively())
no_longer_required_references = existing_references.difference(
current_references)
new_references = current_references.difference(existing_references)
else:
# No existing refs are found:
# all we have is new, nothing to remove
no_longer_required_references = set()
new_references = set(obj.get_referenced_handles_recursively())
# handle addition of new references
for (ref_class_name,ref_handle) in new_references:
data = ((CLASS_TO_KEY_MAP[obj.__class__.__name__],handle),
(CLASS_TO_KEY_MAP[ref_class_name],ref_handle),)
self.__add_reference((handle,ref_handle),data,transaction,txn)
# handle deletion of old references
for (ref_class_name,ref_handle) in no_longer_required_references:
try:
self.__remove_reference((handle,ref_handle),transaction,txn)
except:
# ignore missing old reference
pass
def __remove_reference(self,key,transaction,txn=None):
"""
Removes the reference specified by the key,
preserving the change in the passed transaction.
"""
if not self.readonly:
if transaction.batch:
self.reference_map.delete(str(key),txn=txn)
if not self.UseTXN:
self.reference_map.sync()
else:
old_data = self.reference_map.get(str(key),txn=self.txn)
transaction.add(REFERENCE_KEY,str(key),old_data,None)
transaction.reference_del.append(str(key))
def __add_reference(self,key,data,transaction,txn=None):
"""
Adds the reference specified by the key and the data,
preserving the change in the passed transaction.
"""
if self.readonly or not key:
return
if transaction.batch:
self.reference_map.put(str(key),data,txn=txn)
if not self.UseTXN:
self.reference_map.sync()
else:
transaction.add(REFERENCE_KEY,str(key),None,data)
transaction.reference_add.append((str(key),data))
def reindex_reference_map(self,callback):
try:
self.__reindex_reference_map(callback)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __reindex_reference_map(self,callback):
"""
Reindex all primary records in the database.
This will be a slow process for large databases.
"""
# First, remove the reference map and related tables
self.reference_map_referenced_map.close()
junk = db.DB(self.env)
junk.remove(_mkname(self.full_name, REF_REF), REF_REF)
callback(1)
self.reference_map_primary_map.close()
junk = db.DB(self.env)
junk.remove(_mkname(self.full_name, REF_PRI), REF_PRI)
callback(2)
self.reference_map.close()
junk = db.DB(self.env)
junk.remove(_mkname(self.full_name, REF_MAP), REF_MAP)
callback(3)
# Open reference_map and primapry map
self.reference_map = self.__open_table(
_mkname(self.full_name, REF_MAP), REF_MAP, dbtype=db.DB_BTREE)
open_flags = self.__open_flags()
self.reference_map_primary_map = db.DB(self.env)
self.reference_map_primary_map.set_flags(db.DB_DUP)
self.reference_map_primary_map.open(
_mkname(self.full_name, REF_PRI), REF_PRI, db.DB_BTREE, flags=open_flags)
self.reference_map.associate(self.reference_map_primary_map,
find_primary_handle,
open_flags)
# Make a dictionary of the functions and classes that we need for
# each of the primary object tables.
primary_tables = {
'Person': {'cursor_func': self.get_person_cursor,
'class_func': Person},
'Family': {'cursor_func': self.get_family_cursor,
'class_func': Family},
'Event': {'cursor_func': self.get_event_cursor,
'class_func': Event},
'Place': {'cursor_func': self.get_place_cursor,
'class_func': Place},
'Source': {'cursor_func': self.get_source_cursor,
'class_func': Source},
'MediaObject': {'cursor_func': self.get_media_cursor,
'class_func': MediaObject},
'Repository': {'cursor_func': self.get_repository_cursor,
'class_func': Repository},
'Note': {'cursor_func': self.get_note_cursor,
'class_func': Note},
}
transaction = self.transaction_begin(batch=True,no_magic=True)
callback(4)
# Now we use the functions and classes defined above
# to loop through each of the primary object tables.
for primary_table_name in primary_tables.keys():
cursor = primary_tables[primary_table_name]['cursor_func']()
data = cursor.first()
# Grab the real object class here so that the lookup does
# not happen inside the cursor loop.
class_func = primary_tables[primary_table_name]['class_func']
while data:
found_handle,val = data
obj = class_func()
obj.unserialize(val)
if self.UseTXN:
the_txn = self.env.txn_begin()
else:
the_txn = None
self.__update_reference_map(obj,transaction,the_txn)
if not self.UseTXN:
self.reference_map.sync()
if the_txn:
the_txn.commit()
data = cursor.next()
cursor.close()
callback(5)
self.transaction_commit(transaction,_("Rebuild reference map"))
self.reference_map_referenced_map = db.DB(self.env)
self.reference_map_referenced_map.set_flags(db.DB_DUP|db.DB_DUPSORT)
self.reference_map_referenced_map.open(
_mkname(self.full_name, REF_REF),
REF_REF, db.DB_BTREE,flags=open_flags)
self.reference_map.associate(self.reference_map_referenced_map,
find_referenced_handle,open_flags)
callback(6)
def __close_metadata(self):
if not self.readonly:
if self.UseTXN:
# Start transaction if needed
the_txn = self.env.txn_begin()
else:
the_txn = None
# name display formats
self.metadata.put('name_formats',self.name_formats,txn=the_txn)
# database owner
self.metadata.put('researcher', self.owner, txn=the_txn)
# bookmarks
self.metadata.put('bookmarks',self.bookmarks.get(),txn=the_txn)
self.metadata.put('family_bookmarks',self.family_bookmarks.get(),
txn=the_txn)
self.metadata.put('event_bookmarks',self.event_bookmarks.get(),
txn=the_txn)
self.metadata.put('source_bookmarks',self.source_bookmarks.get(),
txn=the_txn)
self.metadata.put('place_bookmarks',self.place_bookmarks.get(),
txn=the_txn)
self.metadata.put('repo_bookmarks',self.repo_bookmarks.get(),
txn=the_txn)
self.metadata.put('media_bookmarks',self.media_bookmarks.get(),
txn=the_txn)
self.metadata.put('note_bookmarks',self.note_bookmarks.get(),
txn=the_txn)
# gender stats
self.metadata.put('gender_stats',self.genderStats.save_stats(),
txn=the_txn)
# Custom type values
self.metadata.put('fevent_names',list(self.family_event_names),
txn=the_txn)
self.metadata.put('pevent_names',list(self.individual_event_names),
txn=the_txn)
self.metadata.put('fattr_names',list(self.family_attributes),
txn=the_txn)
self.metadata.put('pattr_names',list(self.individual_attributes),
txn=the_txn)
self.metadata.put('marker_names',list(self.marker_names),
txn=the_txn)
self.metadata.put('child_refs',list(self.child_ref_types),
txn=the_txn)
self.metadata.put('family_rels',list(self.family_rel_types),
txn=the_txn)
self.metadata.put('event_roles',list(self.event_role_names),
txn=the_txn)
self.metadata.put('name_types',list(self.name_types),
txn=the_txn)
self.metadata.put('repo_types',list(self.repository_types),
txn=the_txn)
self.metadata.put('note_types',list(self.note_types),
txn=the_txn)
self.metadata.put('sm_types',list(self.source_media_types),
txn=the_txn)
self.metadata.put('url_types',list(self.url_types),
txn=the_txn)
self.metadata.put('mattr_names',list(self.media_attributes),
txn=the_txn)
# name display formats
self.metadata.put('surname_list',self.surname_list,txn=the_txn)
if self.UseTXN:
the_txn.commit()
else:
self.metadata.sync()
self.metadata.close()
def __close_early(self):
"""
Bail out if the incompatible version is discovered:
* close cleanly to not damage data/env
* raise exception
"""
self.metadata.close()
self.env.close()
self.metadata = None
self.env = None
self.db_is_open = False
raise FileVersionError(
"The database version is not supported by this "
"version of GRAMPS.\nPlease upgrade to the "
"corresponding version or use XML for porting"
"data between different database versions.")
def close(self):
try:
self.__close()
clear_lock_file(self.get_save_path())
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
except IOError:
pass
def __close(self):
if not self.db_is_open:
return
if self.UseTXN:
self.env.txn_checkpoint()
self.__close_metadata()
self.name_group.close()
self.surnames.close()
self.id_trans.close()
self.fid_trans.close()
self.eid_trans.close()
self.rid_trans.close()
self.nid_trans.close()
self.oid_trans.close()
self.sid_trans.close()
self.pid_trans.close()
self.reference_map_primary_map.close()
self.reference_map_referenced_map.close()
self.reference_map.close()
# primary databases must be closed after secondary indexes, or
# we run into problems with any active cursors.
self.person_map.close()
self.family_map.close()
self.repository_map.close()
self.note_map.close()
self.place_map.close()
self.source_map.close()
self.media_map.close()
self.event_map.close()
self.env.close()
try:
self.close_undodb()
except db.DBNoSuchFileError:
pass
self.person_map = None
self.family_map = None
self.repository_map = None
self.note_map = None
self.place_map = None
self.source_map = None
self.media_map = None
self.event_map = None
self.surnames = None
self.env = None
self.metadata = None
self.db_is_open = False
def __do_remove_object(self,handle,transaction,data_map,key,del_list):
if self.readonly or not handle:
return
handle = str(handle)
if transaction.batch:
if self.UseTXN:
the_txn = self.env.txn_begin()
else:
the_txn = None
self.__delete_primary_from_reference_map(handle,transaction,
txn=the_txn)
data_map.delete(handle,txn=the_txn)
if not self.UseTXN:
data_map.sync()
if the_txn:
the_txn.commit()
else:
self.__delete_primary_from_reference_map(handle,transaction)
old_data = data_map.get(handle,txn=self.txn)
transaction.add(key,handle,old_data,None)
del_list.append(handle)
def __del_person(self,handle):
self.person_map.delete(str(handle),txn=self.txn)
if not self.UseTXN:
self.person_map.sync()
def __del_source(self,handle):
self.source_map.delete(str(handle),txn=self.txn)
if not self.UseTXN:
self.source_map.sync()
def __del_repository(self,handle):
self.repository_map.delete(str(handle),txn=self.txn)
if not self.UseTXN:
self.repository_map.sync()
def __del_note(self,handle):
self.note_map.delete(str(handle),txn=self.txn)
if not self.UseTXN:
self.note_map.sync()
def __del_place(self,handle):
self.place_map.delete(str(handle),txn=self.txn)
if not self.UseTXN:
self.place_map.sync()
def __del_media(self,handle):
self.media_map.delete(str(handle),txn=self.txn)
if not self.UseTXN:
self.media_map.sync()
def __del_family(self,handle):
self.family_map.delete(str(handle),txn=self.txn)
if not self.UseTXN:
self.family_map.sync()
def __del_event(self,handle):
self.event_map.delete(str(handle),txn=self.txn)
if not self.UseTXN:
self.event_map.sync()
def set_name_group_mapping(self, name, group):
try:
self.__set_name_group_mapping(name, group)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __set_name_group_mapping(self, name, group):
if not self.readonly:
if self.UseTXN:
# Start transaction if needed
the_txn = self.env.txn_begin()
else:
the_txn = None
name = str(name)
data = self.name_group.get(name,txn=the_txn)
if not group and data:
self.name_group.delete(name,txn=the_txn)
else:
self.name_group.put(name,group,txn=the_txn)
if self.UseTXN:
the_txn.commit()
else:
self.name_group.sync()
self.emit('person-rebuild')
def build_surname_list(self):
try:
self.surname_list = list(set(self.surnames.keys()))
self.sort_surname_list()
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def remove_from_surname_list(self,person):
"""
Check whether there are persons with the same surname left in
the database. If not then we need to remove the name from the list.
The function must be overridden in the derived class.
"""
name = str(person.get_primary_name().get_surname())
try:
if self.surnames.keys().count(name) == 1:
self.surname_list.remove(unicode(name))
except ValueError:
pass
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __get_obj_from_gramps_id(self,val,tbl,class_init,prim_tbl):
try:
if tbl.has_key(str(val)):
data = tbl.get(str(val),txn=self.txn)
obj = class_init()
### FIXME: this is a dirty hack that works without no
### sensible explanation. For some reason, for a readonly
### database, secondary index returns a primary table key
### corresponding to the data, not the data.
if self.readonly:
tuple_data = prim_tbl.get(data,txn=self.txn)
else:
tuple_data = pickle.loads(data)
obj.unserialize(tuple_data)
return obj
else:
return None
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def get_person_from_gramps_id(self,val):
"""
Finds a Person in the database from the passed gramps' ID.
If no such Person exists, None is returned.
"""
return self.__get_obj_from_gramps_id(val, self.id_trans, Person,
self.person_map)
def get_family_from_gramps_id(self,val):
"""
Finds a Family in the database from the passed gramps' ID.
If no such Family exists, None is return.
"""
return self.__get_obj_from_gramps_id(val, self.fid_trans, Family,
self.family_map)
def get_event_from_gramps_id(self,val):
"""
Finds an Event in the database from the passed gramps' ID.
If no such Family exists, None is returned.
"""
return self.__get_obj_from_gramps_id(val, self.eid_trans,Event,
self.event_map)
def get_place_from_gramps_id(self,val):
"""
Finds a Place in the database from the passed gramps' ID.
If no such Place exists, None is returned.
"""
return self.__get_obj_from_gramps_id(val, self.pid_trans, Place,
self.place_map)
def get_source_from_gramps_id(self,val):
"""
Finds a Source in the database from the passed gramps' ID.
If no such Source exists, None is returned.
"""
return self.__get_obj_from_gramps_id(val,self.sid_trans,Source,
self.source_map)
def get_object_from_gramps_id(self,val):
"""
Finds a MediaObject in the database from the passed gramps' ID.
If no such MediaObject exists, None is returned.
"""
return self.__get_obj_from_gramps_id(val,self.oid_trans,MediaObject,
self.media_map)
def get_repository_from_gramps_id(self,val):
"""
Finds a Repository in the database from the passed gramps' ID.
If no such Repository exists, None is returned.
"""
return self.__get_obj_from_gramps_id(val,self.rid_trans,Repository,
self.repository_map)
def get_note_from_gramps_id(self,val):
"""
Finds a Note in the database from the passed gramps' ID.
If no such Note exists, None is returned.
"""
return self.__get_obj_from_gramps_id(val,self.nid_trans,Note,
self.note_map)
def __commit_base(self, obj, data_map, key, update_list, add_list,
transaction, change_time):
"""
Commits the specified object to the database, storing the changes
as part of the transaction.
"""
if self.readonly or not obj or not obj.handle:
return
if change_time:
obj.change = int(change_time)
else:
obj.change = int(time.time())
handle = str(obj.handle)
if transaction.batch:
if self.UseTXN:
the_txn = self.env.txn_begin()
else:
the_txn = None
self.__update_reference_map(obj,transaction,txn=the_txn)
data_map.put(handle,obj.serialize(),txn=the_txn)
if not self.UseTXN:
data_map.sync()
if the_txn:
the_txn.commit()
old_data = None
else:
self.__update_reference_map(obj,transaction)
old_data = data_map.get(handle,txn=self.txn)
new_data = obj.serialize()
transaction.add(key,handle,old_data,new_data)
if old_data:
update_list.append((handle,new_data))
else:
add_list.append((handle,new_data))
return old_data
def __do_commit(self, add_list, db_map):
retlist = []
for (handle, data) in add_list:
db_map.put(handle, data, self.txn)
if not self.UseTXN:
db_map.sync()
retlist.append(str(handle))
return retlist
def __get_from_handle(self, handle, class_type, data_map):
try:
data = data_map.get(str(handle),txn=self.txn)
except:
data = None
# under certain circumstances during a database reload,
# data_map can be none. If so, then don't report an error
if data_map:
log.error("Failed to get from handle",exc_info=True)
if data:
newobj = class_type()
newobj.unserialize(data)
return newobj
return None
def __find_from_handle(self, handle, transaction, class_type, dmap, add_func):
obj = class_type()
handle = str(handle)
if dmap.has_key(handle):
data = dmap.get(handle,txn=self.txn)
obj.unserialize(data)
else:
obj.set_handle(handle)
add_func(obj,transaction)
return obj
def transaction_begin(self, msg="", batch=False, no_magic=False):
try:
return self.__transaction_begin(msg, batch, no_magic)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __transaction_begin(self, msg="", batch=False, no_magic=False):
"""
Creates a new Transaction tied to the current UNDO database. The
transaction has no effect until it is committed using the
transaction_commit function of the this database object.
"""
if batch:
# A batch transaction does not store the commits
# Aborting the session completely will become impossible.
self.abort_possible = False
# Undo is also impossible after batch transaction
self.undoindex = -1
self.translist = [None] * len(self.translist)
transaction = BdbTransaction(msg,self.undodb,batch,no_magic)
if transaction.batch:
if self.UseTXN:
self.env.txn_checkpoint()
self.env.set_flags(db.DB_TXN_NOSYNC,1) # async txn
if self.secondary_connected and not transaction.no_magic:
# Disconnect unneeded secondary indices
self.surnames.close()
junk = db.DB(self.env)
junk.remove(_mkname(self.full_name, SURNAMES), SURNAMES)
self.reference_map_referenced_map.close()
junk = db.DB(self.env)
junk.remove(_mkname(self.full_name, REF_REF), REF_REF)
return transaction
def transaction_commit(self, transaction, msg):
try:
self.__transaction_commit(transaction, msg)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __transaction_commit(self, transaction, msg):
# Start BSD DB transaction -- DBTxn
if self.UseTXN:
self.txn = self.env.txn_begin()
else:
self.txn = None
GrampsDbBase.transaction_commit(self,transaction,msg)
for (key,data) in transaction.reference_add:
self.reference_map.put(str(key),data,txn=self.txn)
for key in transaction.reference_del:
self.reference_map.delete(str(key),txn=self.txn)
if (len(transaction.reference_add)+len(transaction.reference_del)) > 0\
and not self.UseTXN:
self.reference_map.sync()
# Commit BSD DB transaction -- DBTxn
if self.UseTXN:
self.txn.commit()
if transaction.batch:
if self.UseTXN:
self.env.txn_checkpoint()
self.env.set_flags(db.DB_TXN_NOSYNC,0) # sync txn
if not transaction.no_magic:
# create new secondary indices to replace the ones removed
open_flags = self.__open_flags()
dupe_flags = db.DB_DUP|db.DB_DUPSORT
self.surnames = db.DB(self.env)
self.surnames.set_flags(dupe_flags)
self.surnames.open(
_mkname(self.full_name, "surnames"),
'surnames', db.DB_BTREE,flags=open_flags)
self.person_map.associate(self.surnames,find_surname,
open_flags)
self.reference_map_referenced_map = db.DB(self.env)
self.reference_map_referenced_map.set_flags(dupe_flags)
self.reference_map_referenced_map.open(
_mkname(self.full_name, REF_REF),
REF_REF, db.DB_BTREE,flags=open_flags)
self.reference_map.associate(self.reference_map_referenced_map,
find_referenced_handle,open_flags)
# Only build surname list after surname index is surely back
self.build_surname_list()
self.txn = None
def undo(self,update_history=True):
try:
if self.UseTXN:
self.txn = self.env.txn_begin()
status = GrampsDbBase.undo(self,update_history)
if self.UseTXN:
if status:
self.txn.commit()
else:
self.txn.abort()
self.txn = None
return status
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def redo(self,update_history=True):
try:
if self.UseTXN:
self.txn = self.env.txn_begin()
status = GrampsDbBase.redo(self,update_history)
if self.UseTXN:
if status:
self.txn.commit()
else:
self.txn.abort()
self.txn = None
return status
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def undo_reference(self,data,handle):
try:
if data == None:
self.reference_map.delete(handle,txn=self.txn)
else:
self.reference_map.put(handle,data,txn=self.txn)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def undo_data(self,data,handle,db_map,signal_root):
try:
if data == None:
self.emit(signal_root + '-delete',([handle],))
db_map.delete(handle,txn=self.txn)
else:
ex_data = db_map.get(handle,txn=self.txn)
if ex_data:
signal = signal_root + '-update'
else:
signal = signal_root + '-add'
db_map.put(handle,data,txn=self.txn)
self.emit(signal,([handle],))
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def gramps_upgrade(self,callback=None):
UpdateCallback.__init__(self,callback)
child_rel_notrans = [
"None", "Birth", "Adopted", "Stepchild",
"Sponsored", "Foster", "Unknown", "Other", ]
version = self.metadata.get('version',default=_MINVERSION)
t = time.time()
# if version < 13:
# self.gramps_upgrade_13()
print "Upgrade time:", int(time.time()-t), "seconds"
class BdbTransaction(Transaction):
def __init__(self, msg, db, batch=False, no_magic=False):
Transaction.__init__(self, msg, db, batch, no_magic)
self.reference_del = []
self.reference_add = []
def _mkname(path, name):
return os.path.join(path, name + ".db")
def clear_lock_file(name):
os.unlink(os.path.join(name, "lock"))
def write_lock_file(name):
f = open(os.path.join(name, "lock"), "w")
if os.name == 'nt':
text = os.environ['USERNAME']
else:
import pwd
host = os.uname()[1]
user = os.getlogin()
text = "%s@%s" % (user, host)
f.write(_("Locked by %s") % text)
f.close()
if __name__ == "__main__":
import sys
d = GrampsDBDir()
d.load(sys.argv[1],lambda x: x)
c = d.get_person_cursor()
data = c.first()
while data:
person = Person(data[1])
print data[0], person.get_primary_name().get_name(),
data = c.next()
c.close()
print d.surnames.keys()