# -*- coding: utf-8 -*-
"""This module provides tools to import tabular data.
:organization: Logilab
:copyright: 2001-2010 LOGILAB S.A. (Paris, FRANCE), license is LGPL v2.
:contact: http://www.logilab.fr/ -- mailto:contact@logilab.fr
:license: GNU Lesser General Public License, v2.1 - http://www.gnu.org/licenses
Example of use (run this with `cubicweb-ctl shell instance import-script.py`):
.. sourcecode:: python
from cubicweb.devtools.dataimport import *
# define data generators
GENERATORS = []
USERS = [('Prenom', 'firstname', ()),
('Nom', 'surname', ()),
('Identifiant', 'login', ()),
]
def gen_users(ctl):
for row in ctl.get_data('utilisateurs'):
entity = mk_entity(row, USERS)
entity['upassword'] = u'motdepasse'
ctl.check('login', entity['login'], None)
ctl.store.add('CWUser', entity)
email = {'address': row['email']}
ctl.store.add('EmailAddress', email)
ctl.store.relate(entity['eid'], 'use_email', email['eid'])
ctl.store.rql('SET U in_group G WHERE G name "users", U eid %(x)s', {'x':entity['eid']})
CHK = [('login', check_doubles, 'Utilisateurs Login',
'Deux utilisateurs ne devraient pas avoir le même login.'),
]
GENERATORS.append( (gen_users, CHK) )
# create controller
ctl = CWImportController(RQLObjectStore())
ctl.askerror = True
ctl.generators = GENERATORS
ctl.store._checkpoint = checkpoint
ctl.store._rql = rql
ctl.data['utilisateurs'] = lazytable(utf8csvreader(open('users.csv')))
# run
ctl.run()
sys.exit(0)
"""
__docformat__ = "restructuredtext en"
import sys, csv, traceback
from logilab.common import shellutils
def utf8csvreader(file, encoding='utf-8', separator=',', quote='"'):
"""A csv reader that accepts files with any encoding and outputs
unicode strings."""
for row in csv.reader(file, delimiter=separator, quotechar=quote):
yield [item.decode(encoding) for item in row]
def lazytable(reader):
"""The first row is taken to be the header of the table and
used to output a dict for each row of data.
>>> data = lazytable(utf8csvreader(open(filename)))
"""
header = reader.next()
for row in reader:
yield dict(zip(header, row))
def tell(msg):
print msg
# base sanitizing functions #####
def capitalize_if_unicase(txt):
if txt.isupper() or txt.islower():
return txt.capitalize()
return txt
def no_space(txt):
return txt.replace(' ','')
def no_uspace(txt):
return txt.replace(u'\xa0','')
def no_dash(txt):
return txt.replace('-','')
def alldigits(txt):
if txt.isdigit():
return txt
else:
return u''
def strip(txt):
return txt.strip()
# base checks #####
def check_doubles(buckets):
"""Extract the keys that have more than one item in their bucket."""
return [(key, len(value)) for key,value in buckets.items() if len(value) > 1]
# make entity helper #####
def mk_entity(row, map):
"""Return a dict made from sanitized mapped values.
>>> row = {'myname': u'dupont'}
>>> map = [('myname', u'name', (capitalize_if_unicase,))]
>>> mk_entity(row, map)
{'name': u'Dupont'}
"""
res = {}
for src, dest, funcs in map:
res[dest] = row[src]
for func in funcs:
res[dest] = func(res[dest])
return res
# object stores
class ObjectStore(object):
"""Store objects in memory for faster testing. Will not
enforce the constraints of the schema and hence will miss
some problems.
>>> store = ObjectStore()
>>> user = {'login': 'johndoe'}
>>> store.add('CWUser', user)
>>> group = {'name': 'unknown'}
>>> store.add('CWUser', group)
>>> store.relate(user['eid'], 'in_group', group['eid'])
"""
def __init__(self):
self.items = []
self.eids = {}
self.types = {}
self.relations = set()
self.indexes = {}
self._rql = None
self._checkpoint = None
def _put(self, type, item):
self.items.append(item)
return len(self.items) - 1
def add(self, type, item):
assert isinstance(item, dict), 'item is not a dict but a %s' % type(item)
eid = item['eid'] = self._put(type, item)
self.eids[eid] = item
self.types.setdefault(type, []).append(eid)
def relate(self, eid_from, rtype, eid_to):
eids_valid = (eid_from < len(self.items) and eid_to <= len(self.items))
assert eids_valid, 'eid error %s %s' % (eid_from, eid_to)
self.relations.add( (eid_from, rtype, eid_to) )
def build_index(self, name, type, func):
index = {}
for eid in self.types[type]:
index.setdefault(func(self.eids[eid]), []).append(eid)
self.indexes[name] = index
def get_many(self, name, key):
return self.indexes[name].get(key, [])
def get_one(self, name, key):
eids = self.indexes[name].get(key, [])
assert len(eids) == 1, 'expected a single one got %i' % len(eids)
return eids[0]
def find(self, type, key, value):
for idx in self.types[type]:
item = self.items[idx]
if item[key] == value:
yield item
def rql(self, query, args):
if self._rql:
return self._rql(query, args)
def checkpoint(self):
if self._checkpoint:
self._checkpoint()
class RQLObjectStore(ObjectStore):
"""ObjectStore that works with an actual RQL repository."""
def _put(self, type, item):
query = ('INSERT %s X: ' % type) + ', '.join(['X %s %%(%s)s' % (key,key) for key in item])
return self.rql(query, item)[0][0]
def relate(self, eid_from, rtype, eid_to):
query = 'SET X %s Y WHERE X eid %%(from)s, Y eid %%(to)s' % rtype
self.rql(query, {'from': int(eid_from), 'to': int(eid_to)})
self.relations.add( (eid_from, rtype, eid_to) )
# import controller #####
class CWImportController(object):
"""Controller of the data import process.
>>> ctl = CWImportController(store)
>>> ctl.generators = list_of_data_generators
>>> ctl.data = dict_of_data_tables
>>> ctl.run()
"""
def __init__(self, store):
self.store = store
self.generators = None
self.data = {}
self.errors = None
self.askerror = False
self._tell = tell
def check(self, type, key, value):
self._checks.setdefault(type, {}).setdefault(key, []).append(value)
def check_map(self, entity, key, map, default):
try:
entity[key] = map[entity[key]]
except KeyError:
self.check(key, entity[key], None)
entity[key] = default
def run(self):
self.errors = {}
for func, checks in self.generators:
self._checks = {}
func_name = func.__name__[4:]
question = 'Importation de %s' % func_name
self.tell(question)
try:
func(self)
except:
import StringIO
tmp = StringIO.StringIO()
traceback.print_exc(file=tmp)
print tmp.getvalue()
self.errors[func_name] = ('Erreur lors de la transformation',
tmp.getvalue().splitlines())
for key, func, title, help in checks:
buckets = self._checks.get(key)
if buckets:
err = func(buckets)
if err:
self.errors[title] = (help, err)
self.store.checkpoint()
errors = sum(len(err[1]) for err in self.errors.values())
self.tell('Importation terminée. (%i objets, %i types, %i relations et %i erreurs).'
% (len(self.store.eids), len(self.store.types),
len(self.store.relations), errors))
if self.errors and self.askerror and confirm('Afficher les erreurs ?'):
import pprint
pprint.pprint(self.errors)
def get_data(self, key):
return self.data.get(key)
def index(self, name, key, value):
self.store.indexes.setdefault(name, {}).setdefault(key, []).append(value)
def tell(self, msg):
self._tell(msg)
def confirm(question):
"""A confirm function that asks for yes/no/abort and exits on abort."""
answer = shellutils.ASK.ask(question, ('Y','n','abort'), 'Y')
if answer == 'abort':
sys.exit(1)
return answer == 'Y'