[devtools] qunit: refactor functions into QUnitView
Related to #5533333.
# -*- coding: utf-8 -*-
# copyright 2003-2015 LOGILAB S.A. (Paris, FRANCE), all rights reserved.
# contact http://www.logilab.fr/ -- mailto:contact@logilab.fr
#
# This file is part of CubicWeb.
#
# CubicWeb is free software: you can redistribute it and/or modify it under the
# terms of the GNU Lesser General Public License as published by the Free
# Software Foundation, either version 2.1 of the License, or (at your option)
# any later version.
#
# CubicWeb 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 Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License along
# with CubicWeb. If not, see <http://www.gnu.org/licenses/>.
"""This module provides tools to import tabular data.
Example of use (run this with `cubicweb-ctl shell instance import-script.py`):
.. sourcecode:: python
from cubicweb.dataimport import *
# define data generators
GENERATORS = []
USERS = [('Prenom', 'firstname', ()),
('Nom', 'surname', ()),
('Identifiant', 'login', ()),
]
def gen_users(ctl):
for row in ctl.iter_and_commit('utilisateurs'):
entity = mk_entity(row, USERS)
entity['upassword'] = 'motdepasse'
ctl.check('login', entity['login'], None)
entity = ctl.store.create_entity('CWUser', **entity)
email = ctl.store.create_entity('EmailAddress', address=row['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(cnx))
ctl.askerror = 1
ctl.generators = GENERATORS
ctl.data['utilisateurs'] = lazytable(ucsvreader(open('users.csv')))
# run
ctl.run()
.. BUG file with one column are not parsable
.. TODO rollback() invocation is not possible yet
"""
__docformat__ = "restructuredtext en"
import csv
import sys
import threading
import traceback
import warnings
import cPickle
import os.path as osp
import inspect
from base64 import b64encode
from collections import defaultdict
from copy import copy
from datetime import date, datetime, time
from time import asctime
from StringIO import StringIO
from logilab.common import shellutils, attrdict
from logilab.common.date import strptime
from logilab.common.decorators import cached
from logilab.common.deprecation import deprecated
from cubicweb import QueryError
from cubicweb.utils import make_uid
from cubicweb.schema import META_RTYPES, VIRTUAL_RTYPES
from cubicweb.server.edition import EditedEntity
from cubicweb.server.sqlutils import SQL_PREFIX
from cubicweb.server.utils import eschema_eid
def count_lines(stream_or_filename):
if isinstance(stream_or_filename, basestring):
f = open(stream_or_filename)
else:
f = stream_or_filename
f.seek(0)
for i, line in enumerate(f):
pass
f.seek(0)
return i+1
def ucsvreader_pb(stream_or_path, encoding='utf-8', delimiter=',', quotechar='"',
skipfirst=False, withpb=True, skip_empty=True, separator=None,
quote=None):
"""same as :func:`ucsvreader` but a progress bar is displayed as we iter on rows"""
if separator is not None:
delimiter = separator
warnings.warn("[3.20] 'separator' kwarg is deprecated, use 'delimiter' instead")
if quote is not None:
quotechar = quote
warnings.warn("[3.20] 'quote' kwarg is deprecated, use 'quotechar' instead")
if isinstance(stream_or_path, basestring):
if not osp.exists(stream_or_path):
raise Exception("file doesn't exists: %s" % stream_or_path)
stream = open(stream_or_path)
else:
stream = stream_or_path
rowcount = count_lines(stream)
if skipfirst:
rowcount -= 1
if withpb:
pb = shellutils.ProgressBar(rowcount, 50)
for urow in ucsvreader(stream, encoding, delimiter, quotechar,
skipfirst=skipfirst, skip_empty=skip_empty):
yield urow
if withpb:
pb.update()
print ' %s rows imported' % rowcount
def ucsvreader(stream, encoding='utf-8', delimiter=',', quotechar='"',
skipfirst=False, ignore_errors=False, skip_empty=True,
separator=None, quote=None):
"""A csv reader that accepts files with any encoding and outputs unicode
strings
if skip_empty (the default), lines without any values specified (only
separators) will be skipped. This is useful for Excel exports which may be
full of such lines.
"""
if separator is not None:
delimiter = separator
warnings.warn("[3.20] 'separator' kwarg is deprecated, use 'delimiter' instead")
if quote is not None:
quotechar = quote
warnings.warn("[3.20] 'quote' kwarg is deprecated, use 'quotechar' instead")
it = iter(csv.reader(stream, delimiter=delimiter, quotechar=quotechar))
if not ignore_errors:
if skipfirst:
it.next()
for row in it:
decoded = [item.decode(encoding) for item in row]
if not skip_empty or any(decoded):
yield decoded
else:
if skipfirst:
try:
row = it.next()
except csv.Error:
pass
# Safe version, that can cope with error in CSV file
while True:
try:
row = it.next()
# End of CSV, break
except StopIteration:
break
# Error in CSV, ignore line and continue
except csv.Error:
continue
decoded = [item.decode(encoding) for item in row]
if not skip_empty or any(decoded):
yield decoded
def callfunc_every(func, number, iterable):
"""yield items of `iterable` one by one and call function `func`
every `number` iterations. Always call function `func` at the end.
"""
for idx, item in enumerate(iterable):
yield item
if not idx % number:
func()
func()
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(ucsvreader(open(filename)))
"""
header = reader.next()
for row in reader:
yield dict(zip(header, row))
def lazydbtable(cu, table, headers, orderby=None):
"""return an iterator on rows of a sql table. On each row, fetch columns
defined in headers and return values as a dictionary.
>>> data = lazydbtable(cu, 'experimentation', ('id', 'nickname', 'gps'))
"""
sql = 'SELECT %s FROM %s' % (','.join(headers), table,)
if orderby:
sql += ' ORDER BY %s' % ','.join(orderby)
cu.execute(sql)
while True:
row = cu.fetchone()
if row is None:
break
yield dict(zip(headers, row))
def mk_entity(row, map):
"""Return a dict made from sanitized mapped values.
ValueError can be raised on unexpected values found in checkers
>>> row = {'myname': u'dupont'}
>>> map = [('myname', u'name', (call_transform_method('title'),))]
>>> mk_entity(row, map)
{'name': u'Dupont'}
>>> row = {'myname': u'dupont', 'optname': u''}
>>> map = [('myname', u'name', (call_transform_method('title'),)),
... ('optname', u'MARKER', (optional,))]
>>> mk_entity(row, map)
{'name': u'Dupont', 'optname': None}
"""
res = {}
assert isinstance(row, dict)
assert isinstance(map, list)
for src, dest, funcs in map:
try:
res[dest] = row[src]
except KeyError:
continue
try:
for func in funcs:
res[dest] = func(res[dest])
if res[dest] is None:
break
except ValueError as err:
raise ValueError('error with %r field: %s' % (src, err)), None, sys.exc_info()[-1]
return res
# user interactions ############################################################
def tell(msg):
print 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'
class catch_error(object):
"""Helper for @contextmanager decorator."""
def __init__(self, ctl, key='unexpected error', msg=None):
self.ctl = ctl
self.key = key
self.msg = msg
def __enter__(self):
return self
def __exit__(self, type, value, traceback):
if type is not None:
if issubclass(type, (KeyboardInterrupt, SystemExit)):
return # re-raise
if self.ctl.catcherrors:
self.ctl.record_error(self.key, None, type, value, traceback)
return True # silent
# base sanitizing/coercing functions ###########################################
def optional(value):
"""checker to filter optional field
If value is undefined (ex: empty string), return None that will
break the checkers validation chain
General use is to add 'optional' check in first condition to avoid
ValueError by further checkers
>>> MAPPER = [(u'value', 'value', (optional, int))]
>>> row = {'value': u'XXX'}
>>> mk_entity(row, MAPPER)
{'value': None}
>>> row = {'value': u'100'}
>>> mk_entity(row, MAPPER)
{'value': 100}
"""
if value:
return value
return None
def required(value):
"""raise ValueError if value is empty
This check should be often found in last position in the chain.
"""
if value:
return value
raise ValueError("required")
def todatetime(format='%d/%m/%Y'):
"""return a transformation function to turn string input value into a
`datetime.datetime` instance, using given format.
Follow it by `todate` or `totime` functions from `logilab.common.date` if
you want a `date`/`time` instance instead of `datetime`.
"""
def coerce(value):
return strptime(value, format)
return coerce
def call_transform_method(methodname, *args, **kwargs):
"""return value returned by calling the given method on input"""
def coerce(value):
return getattr(value, methodname)(*args, **kwargs)
return coerce
def call_check_method(methodname, *args, **kwargs):
"""check value returned by calling the given method on input is true,
else raise ValueError
"""
def check(value):
if getattr(value, methodname)(*args, **kwargs):
return value
raise ValueError('%s not verified on %r' % (methodname, value))
return check
# base integrity checking functions ############################################
def check_doubles(buckets):
"""Extract the keys that have more than one item in their bucket."""
return [(k, len(v)) for k, v in buckets.items() if len(v) > 1]
def check_doubles_not_none(buckets):
"""Extract the keys that have more than one item in their bucket."""
return [(k, len(v)) for k, v in buckets.items()
if k is not None and len(v) > 1]
# sql generator utility functions #############################################
def _import_statements(sql_connect, statements, nb_threads=3,
dump_output_dir=None,
support_copy_from=True, encoding='utf-8'):
"""
Import a bunch of sql statements, using different threads.
"""
try:
chunksize = (len(statements) / nb_threads) + 1
threads = []
for i in xrange(nb_threads):
chunks = statements[i*chunksize:(i+1)*chunksize]
thread = threading.Thread(target=_execmany_thread,
args=(sql_connect, chunks,
dump_output_dir,
support_copy_from,
encoding))
thread.start()
threads.append(thread)
for t in threads:
t.join()
except Exception:
print 'Error in import statements'
def _execmany_thread_not_copy_from(cu, statement, data, table=None,
columns=None, encoding='utf-8'):
""" Execute thread without copy from
"""
cu.executemany(statement, data)
def _execmany_thread_copy_from(cu, statement, data, table,
columns, encoding='utf-8'):
""" Execute thread with copy from
"""
buf = _create_copyfrom_buffer(data, columns, encoding=encoding)
if buf is None:
_execmany_thread_not_copy_from(cu, statement, data)
else:
if columns is None:
cu.copy_from(buf, table, null='NULL')
else:
cu.copy_from(buf, table, null='NULL', columns=columns)
def _execmany_thread(sql_connect, statements, dump_output_dir=None,
support_copy_from=True, encoding='utf-8'):
"""
Execute sql statement. If 'INSERT INTO', try to use 'COPY FROM' command,
or fallback to execute_many.
"""
if support_copy_from:
execmany_func = _execmany_thread_copy_from
else:
execmany_func = _execmany_thread_not_copy_from
cnx = sql_connect()
cu = cnx.cursor()
try:
for statement, data in statements:
table = None
columns = None
try:
if not statement.startswith('INSERT INTO'):
cu.executemany(statement, data)
continue
table = statement.split()[2]
if isinstance(data[0], (tuple, list)):
columns = None
else:
columns = list(data[0])
execmany_func(cu, statement, data, table, columns, encoding)
except Exception:
print 'unable to copy data into table %s' % table
# Error in import statement, save data in dump_output_dir
if dump_output_dir is not None:
pdata = {'data': data, 'statement': statement,
'time': asctime(), 'columns': columns}
filename = make_uid()
try:
with open(osp.join(dump_output_dir,
'%s.pickle' % filename), 'w') as fobj:
fobj.write(cPickle.dumps(pdata))
except IOError:
print 'ERROR while pickling in', dump_output_dir, filename+'.pickle'
pass
cnx.rollback()
raise
finally:
cnx.commit()
cu.close()
def _copyfrom_buffer_convert_None(value, **opts):
'''Convert None value to "NULL"'''
return 'NULL'
def _copyfrom_buffer_convert_number(value, **opts):
'''Convert a number into its string representation'''
return str(value)
def _copyfrom_buffer_convert_string(value, **opts):
'''Convert string value.
Recognized keywords:
:encoding: resulting string encoding (default: utf-8)
'''
encoding = opts.get('encoding','utf-8')
escape_chars = ((u'\\', ur'\\'), (u'\t', u'\\t'), (u'\r', u'\\r'),
(u'\n', u'\\n'))
for char, replace in escape_chars:
value = value.replace(char, replace)
if isinstance(value, unicode):
value = value.encode(encoding)
return value
def _copyfrom_buffer_convert_date(value, **opts):
'''Convert date into "YYYY-MM-DD"'''
# Do not use strftime, as it yields issue with date < 1900
# (http://bugs.python.org/issue1777412)
return '%04d-%02d-%02d' % (value.year, value.month, value.day)
def _copyfrom_buffer_convert_datetime(value, **opts):
'''Convert date into "YYYY-MM-DD HH:MM:SS.UUUUUU"'''
# Do not use strftime, as it yields issue with date < 1900
# (http://bugs.python.org/issue1777412)
return '%s %s' % (_copyfrom_buffer_convert_date(value, **opts),
_copyfrom_buffer_convert_time(value, **opts))
def _copyfrom_buffer_convert_time(value, **opts):
'''Convert time into "HH:MM:SS.UUUUUU"'''
return '%02d:%02d:%02d.%06d' % (value.hour, value.minute,
value.second, value.microsecond)
# (types, converter) list.
_COPYFROM_BUFFER_CONVERTERS = [
(type(None), _copyfrom_buffer_convert_None),
((long, int, float), _copyfrom_buffer_convert_number),
(basestring, _copyfrom_buffer_convert_string),
(datetime, _copyfrom_buffer_convert_datetime),
(date, _copyfrom_buffer_convert_date),
(time, _copyfrom_buffer_convert_time),
]
def _create_copyfrom_buffer(data, columns=None, **convert_opts):
"""
Create a StringIO buffer for 'COPY FROM' command.
Deals with Unicode, Int, Float, Date... (see ``converters``)
:data: a sequence/dict of tuples
:columns: list of columns to consider (default to all columns)
:converter_opts: keyword arguements given to converters
"""
# Create a list rather than directly create a StringIO
# to correctly write lines separated by '\n' in a single step
rows = []
if columns is None:
if isinstance(data[0], (tuple, list)):
columns = range(len(data[0]))
elif isinstance(data[0], dict):
columns = data[0].keys()
else:
raise ValueError('Could not get columns: you must provide columns.')
for row in data:
# Iterate over the different columns and the different values
# and try to convert them to a correct datatype.
# If an error is raised, do not continue.
formatted_row = []
for col in columns:
try:
value = row[col]
except KeyError:
warnings.warn(u"Column %s is not accessible in row %s"
% (col, row), RuntimeWarning)
# XXX 'value' set to None so that the import does not end in
# error.
# Instead, the extra keys are set to NULL from the
# database point of view.
value = None
for types, converter in _COPYFROM_BUFFER_CONVERTERS:
if isinstance(value, types):
value = converter(value, **convert_opts)
break
else:
raise ValueError("Unsupported value type %s" % type(value))
# We push the value to the new formatted row
# if the value is not None and could be converted to a string.
formatted_row.append(value)
rows.append('\t'.join(formatted_row))
return StringIO('\n'.join(rows))
# object stores #################################################################
class ObjectStore(object):
"""Store objects in memory for *faster* validation (development mode)
But it will not enforce the constraints of the schema and hence will miss some problems
>>> store = ObjectStore()
>>> user = store.create_entity('CWUser', login=u'johndoe')
>>> group = store.create_entity('CWUser', name=u'unknown')
>>> store.relate(user.eid, 'in_group', group.eid)
"""
def __init__(self):
self.items = []
self.eids = {}
self.types = {}
self.relations = set()
self.indexes = {}
def create_entity(self, etype, **data):
data = attrdict(data)
data['eid'] = eid = len(self.items)
self.items.append(data)
self.eids[eid] = data
self.types.setdefault(etype, []).append(eid)
return data
def relate(self, eid_from, rtype, eid_to, **kwargs):
"""Add new relation"""
relation = eid_from, rtype, eid_to
self.relations.add(relation)
return relation
def commit(self):
"""this commit method does nothing by default"""
return
def flush(self):
"""The method is provided so that all stores share a common API"""
pass
@property
def nb_inserted_entities(self):
return len(self.eids)
@property
def nb_inserted_types(self):
return len(self.types)
@property
def nb_inserted_relations(self):
return len(self.relations)
class RQLObjectStore(ObjectStore):
"""ObjectStore that works with an actual RQL repository (production mode)"""
def __init__(self, cnx, commit=None):
if commit is not None:
warnings.warn('[3.19] commit argument should not be specified '
'as the cnx object already provides it.',
DeprecationWarning, stacklevel=2)
super(RQLObjectStore, self).__init__()
self._cnx = cnx
self._commit = commit or cnx.commit
def commit(self):
return self._commit()
def rql(self, *args):
return self._cnx.execute(*args)
@property
def session(self):
warnings.warn('[3.19] deprecated property.', DeprecationWarning,
stacklevel=2)
return self._cnx.repo._get_session(self._cnx.sessionid)
def create_entity(self, *args, **kwargs):
entity = self._cnx.create_entity(*args, **kwargs)
self.eids[entity.eid] = entity
self.types.setdefault(args[0], []).append(entity.eid)
return entity
def relate(self, eid_from, rtype, eid_to, **kwargs):
eid_from, rtype, eid_to = super(RQLObjectStore, self).relate(
eid_from, rtype, eid_to, **kwargs)
self.rql('SET X %s Y WHERE X eid %%(x)s, Y eid %%(y)s' % rtype,
{'x': int(eid_from), 'y': int(eid_to)})
@deprecated("[3.19] use cnx.find(*args, **kwargs).entities() instead")
def find_entities(self, *args, **kwargs):
return self._cnx.find(*args, **kwargs).entities()
@deprecated("[3.19] use cnx.find(*args, **kwargs).one() instead")
def find_one_entity(self, *args, **kwargs):
return self._cnx.find(*args, **kwargs).one()
# the 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, askerror=0, catcherrors=None, tell=tell,
commitevery=50):
self.store = store
self.generators = None
self.data = {}
self.errors = None
self.askerror = askerror
if catcherrors is None:
catcherrors = askerror
self.catcherrors = catcherrors
self.commitevery = commitevery # set to None to do a single commit
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 record_error(self, key, msg=None, type=None, value=None, tb=None):
tmp = StringIO()
if type is None:
traceback.print_exc(file=tmp)
else:
traceback.print_exception(type, value, tb, file=tmp)
# use a list to avoid counting a <nb lines> errors instead of one
errorlog = self.errors.setdefault(key, [])
if msg is None:
errorlog.append(tmp.getvalue().splitlines())
else:
errorlog.append( (msg, tmp.getvalue().splitlines()) )
def run(self):
self.errors = {}
if self.commitevery is None:
self.tell('Will commit all or nothing.')
else:
self.tell('Will commit every %s iterations' % self.commitevery)
for func, checks in self.generators:
self._checks = {}
func_name = func.__name__
self.tell("Run import function '%s'..." % func_name)
try:
func(self)
except Exception:
if self.catcherrors:
self.record_error(func_name, 'While calling %s' % func.__name__)
else:
self._print_stats()
raise
for key, func, title, help in checks:
buckets = self._checks.get(key)
if buckets:
err = func(buckets)
if err:
self.errors[title] = (help, err)
try:
txuuid = self.store.commit()
if txuuid is not None:
self.tell('Transaction commited (txuuid: %s)' % txuuid)
except QueryError as ex:
self.tell('Transaction aborted: %s' % ex)
self._print_stats()
if self.errors:
if self.askerror == 2 or (self.askerror and confirm('Display errors ?')):
from pprint import pformat
for errkey, error in self.errors.items():
self.tell("\n%s (%s): %d\n" % (error[0], errkey, len(error[1])))
self.tell(pformat(sorted(error[1])))
def _print_stats(self):
nberrors = sum(len(err) for err in self.errors.itervalues())
self.tell('\nImport statistics: %i entities, %i types, %i relations and %i errors'
% (self.store.nb_inserted_entities,
self.store.nb_inserted_types,
self.store.nb_inserted_relations,
nberrors))
def get_data(self, key):
return self.data.get(key)
def index(self, name, key, value, unique=False):
"""create a new index
If unique is set to True, only first occurence will be kept not the following ones
"""
if unique:
try:
if value in self.store.indexes[name][key]:
return
except KeyError:
# we're sure that one is the first occurence; so continue...
pass
self.store.indexes.setdefault(name, {}).setdefault(key, []).append(value)
def tell(self, msg):
self._tell(msg)
def iter_and_commit(self, datakey):
"""iter rows, triggering commit every self.commitevery iterations"""
if self.commitevery is None:
return self.get_data(datakey)
else:
return callfunc_every(self.store.commit,
self.commitevery,
self.get_data(datakey))
class NoHookRQLObjectStore(RQLObjectStore):
"""ObjectStore that works with an actual RQL repository (production mode)"""
def __init__(self, cnx, metagen=None, baseurl=None):
super(NoHookRQLObjectStore, self).__init__(cnx)
self.source = cnx.repo.system_source
self.rschema = cnx.repo.schema.rschema
self.add_relation = self.source.add_relation
if metagen is None:
metagen = MetaGenerator(cnx, baseurl)
self.metagen = metagen
self._nb_inserted_entities = 0
self._nb_inserted_types = 0
self._nb_inserted_relations = 0
# deactivate security
cnx.read_security = False
cnx.write_security = False
def create_entity(self, etype, **kwargs):
for k, v in kwargs.iteritems():
kwargs[k] = getattr(v, 'eid', v)
entity, rels = self.metagen.base_etype_dicts(etype)
# make a copy to keep cached entity pristine
entity = copy(entity)
entity.cw_edited = copy(entity.cw_edited)
entity.cw_clear_relation_cache()
entity.cw_edited.update(kwargs, skipsec=False)
entity_source, extid = self.metagen.init_entity(entity)
cnx = self._cnx
self.source.add_entity(cnx, entity)
self.source.add_info(cnx, entity, entity_source, extid)
kwargs = dict()
if inspect.getargspec(self.add_relation).keywords:
kwargs['subjtype'] = entity.cw_etype
for rtype, targeteids in rels.iteritems():
# targeteids may be a single eid or a list of eids
inlined = self.rschema(rtype).inlined
try:
for targeteid in targeteids:
self.add_relation(cnx, entity.eid, rtype, targeteid,
inlined, **kwargs)
except TypeError:
self.add_relation(cnx, entity.eid, rtype, targeteids,
inlined, **kwargs)
self._nb_inserted_entities += 1
return entity
def relate(self, eid_from, rtype, eid_to, **kwargs):
assert not rtype.startswith('reverse_')
self.add_relation(self._cnx, eid_from, rtype, eid_to,
self.rschema(rtype).inlined)
if self.rschema(rtype).symmetric:
self.add_relation(self._cnx, eid_to, rtype, eid_from,
self.rschema(rtype).inlined)
self._nb_inserted_relations += 1
@property
def nb_inserted_entities(self):
return self._nb_inserted_entities
@property
def nb_inserted_types(self):
return self._nb_inserted_types
@property
def nb_inserted_relations(self):
return self._nb_inserted_relations
class MetaGenerator(object):
META_RELATIONS = (META_RTYPES
- VIRTUAL_RTYPES
- set(('eid', 'cwuri',
'is', 'is_instance_of', 'cw_source')))
def __init__(self, cnx, baseurl=None, source=None):
self._cnx = cnx
if baseurl is None:
config = cnx.vreg.config
baseurl = config['base-url'] or config.default_base_url()
if not baseurl[-1] == '/':
baseurl += '/'
self.baseurl = baseurl
if source is None:
source = cnx.repo.system_source
self.source = source
self.create_eid = cnx.repo.system_source.create_eid
self.time = datetime.now()
# attributes/relations shared by all entities of the same type
self.etype_attrs = []
self.etype_rels = []
# attributes/relations specific to each entity
self.entity_attrs = ['cwuri']
#self.entity_rels = [] XXX not handled (YAGNI?)
schema = cnx.vreg.schema
rschema = schema.rschema
for rtype in self.META_RELATIONS:
# skip owned_by / created_by if user is the internal manager
if cnx.user.eid == -1 and rtype in ('owned_by', 'created_by'):
continue
if rschema(rtype).final:
self.etype_attrs.append(rtype)
else:
self.etype_rels.append(rtype)
@cached
def base_etype_dicts(self, etype):
entity = self._cnx.vreg['etypes'].etype_class(etype)(self._cnx)
# entity are "surface" copied, avoid shared dict between copies
del entity.cw_extra_kwargs
entity.cw_edited = EditedEntity(entity)
for attr in self.etype_attrs:
genfunc = self.generate(attr)
if genfunc:
entity.cw_edited.edited_attribute(attr, genfunc(entity))
rels = {}
for rel in self.etype_rels:
genfunc = self.generate(rel)
if genfunc:
rels[rel] = genfunc(entity)
return entity, rels
def init_entity(self, entity):
entity.eid = self.create_eid(self._cnx)
extid = entity.cw_edited.get('cwuri')
for attr in self.entity_attrs:
if attr in entity.cw_edited:
# already set, skip this attribute
continue
genfunc = self.generate(attr)
if genfunc:
entity.cw_edited.edited_attribute(attr, genfunc(entity))
if isinstance(extid, unicode):
extid = extid.encode('utf-8')
return self.source, extid
def generate(self, rtype):
return getattr(self, 'gen_%s' % rtype, None)
def gen_cwuri(self, entity):
assert self.baseurl, 'baseurl is None while generating cwuri'
return u'%s%s' % (self.baseurl, entity.eid)
def gen_creation_date(self, entity):
return self.time
def gen_modification_date(self, entity):
return self.time
def gen_created_by(self, entity):
return self._cnx.user.eid
def gen_owned_by(self, entity):
return self._cnx.user.eid
###########################################################################
## SQL object store #######################################################
###########################################################################
class SQLGenObjectStore(NoHookRQLObjectStore):
"""Controller of the data import process. This version is based
on direct insertions throught SQL command (COPY FROM or execute many).
>>> store = SQLGenObjectStore(cnx)
>>> store.create_entity('Person', ...)
>>> store.flush()
"""
def __init__(self, cnx, dump_output_dir=None, nb_threads_statement=3):
"""
Initialize a SQLGenObjectStore.
Parameters:
- cnx: connection on the cubicweb instance
- dump_output_dir: a directory to dump failed statements
for easier recovery. Default is None (no dump).
- nb_threads_statement: number of threads used
for SQL insertion (default is 3).
"""
super(SQLGenObjectStore, self).__init__(cnx)
### hijack default source
self.source = SQLGenSourceWrapper(
self.source, cnx.vreg.schema,
dump_output_dir=dump_output_dir,
nb_threads_statement=nb_threads_statement)
### XXX This is done in super().__init__(), but should be
### redone here to link to the correct source
self.add_relation = self.source.add_relation
self.indexes_etypes = {}
def flush(self):
"""Flush data to the database"""
self.source.flush()
def relate(self, subj_eid, rtype, obj_eid, **kwargs):
if subj_eid is None or obj_eid is None:
return
# XXX Could subjtype be inferred ?
self.source.add_relation(self._cnx, subj_eid, rtype, obj_eid,
self.rschema(rtype).inlined, **kwargs)
if self.rschema(rtype).symmetric:
self.source.add_relation(self._cnx, obj_eid, rtype, subj_eid,
self.rschema(rtype).inlined, **kwargs)
def drop_indexes(self, etype):
"""Drop indexes for a given entity type"""
if etype not in self.indexes_etypes:
cu = self._cnx.cnxset.cu
def index_to_attr(index):
"""turn an index name to (database) attribute name"""
return index.replace(etype.lower(), '').replace('idx', '').strip('_')
indices = [(index, index_to_attr(index))
for index in self.source.dbhelper.list_indices(cu, etype)
# Do not consider 'cw_etype_pkey' index
if not index.endswith('key')]
self.indexes_etypes[etype] = indices
for index, attr in self.indexes_etypes[etype]:
self._cnx.system_sql('DROP INDEX %s' % index)
def create_indexes(self, etype):
"""Recreate indexes for a given entity type"""
for index, attr in self.indexes_etypes.get(etype, []):
sql = 'CREATE INDEX %s ON cw_%s(%s)' % (index, etype, attr)
self._cnx.system_sql(sql)
###########################################################################
## SQL Source #############################################################
###########################################################################
class SQLGenSourceWrapper(object):
def __init__(self, system_source, schema,
dump_output_dir=None, nb_threads_statement=3):
self.system_source = system_source
self._sql = threading.local()
# Explicitely backport attributes from system source
self._storage_handler = self.system_source._storage_handler
self.preprocess_entity = self.system_source.preprocess_entity
self.sqlgen = self.system_source.sqlgen
self.uri = self.system_source.uri
self.eid = self.system_source.eid
# Directory to write temporary files
self.dump_output_dir = dump_output_dir
# Allow to execute code with SQLite backend that does
# not support (yet...) copy_from
# XXX Should be dealt with in logilab.database
spcfrom = system_source.dbhelper.dbapi_module.support_copy_from
self.support_copy_from = spcfrom
self.dbencoding = system_source.dbhelper.dbencoding
self.nb_threads_statement = nb_threads_statement
# initialize thread-local data for main thread
self.init_thread_locals()
self._inlined_rtypes_cache = {}
self._fill_inlined_rtypes_cache(schema)
self.schema = schema
self.do_fti = False
def _fill_inlined_rtypes_cache(self, schema):
cache = self._inlined_rtypes_cache
for eschema in schema.entities():
for rschema in eschema.ordered_relations():
if rschema.inlined:
cache[eschema.type] = SQL_PREFIX + rschema.type
def init_thread_locals(self):
"""initializes thread-local data"""
self._sql.entities = defaultdict(list)
self._sql.relations = {}
self._sql.inlined_relations = {}
# keep track, for each eid of the corresponding data dict
self._sql.eid_insertdicts = {}
def flush(self):
print 'starting flush'
_entities_sql = self._sql.entities
_relations_sql = self._sql.relations
_inlined_relations_sql = self._sql.inlined_relations
_insertdicts = self._sql.eid_insertdicts
try:
# try, for each inlined_relation, to find if we're also creating
# the host entity (i.e. the subject of the relation).
# In that case, simply update the insert dict and remove
# the need to make the
# UPDATE statement
for statement, datalist in _inlined_relations_sql.iteritems():
new_datalist = []
# for a given inlined relation,
# browse each couple to be inserted
for data in datalist:
keys = list(data)
# For inlined relations, it exists only two case:
# (rtype, cw_eid) or (cw_eid, rtype)
if keys[0] == 'cw_eid':
rtype = keys[1]
else:
rtype = keys[0]
updated_eid = data['cw_eid']
if updated_eid in _insertdicts:
_insertdicts[updated_eid][rtype] = data[rtype]
else:
# could not find corresponding insert dict, keep the
# UPDATE query
new_datalist.append(data)
_inlined_relations_sql[statement] = new_datalist
_import_statements(self.system_source.get_connection,
_entities_sql.items()
+ _relations_sql.items()
+ _inlined_relations_sql.items(),
dump_output_dir=self.dump_output_dir,
nb_threads=self.nb_threads_statement,
support_copy_from=self.support_copy_from,
encoding=self.dbencoding)
finally:
_entities_sql.clear()
_relations_sql.clear()
_insertdicts.clear()
_inlined_relations_sql.clear()
def add_relation(self, cnx, subject, rtype, object,
inlined=False, **kwargs):
if inlined:
_sql = self._sql.inlined_relations
data = {'cw_eid': subject, SQL_PREFIX + rtype: object}
subjtype = kwargs.get('subjtype')
if subjtype is None:
# Try to infer it
targets = [t.type for t in
self.schema.rschema(rtype).subjects()]
if len(targets) == 1:
subjtype = targets[0]
else:
raise ValueError('You should give the subject etype for '
'inlined relation %s'
', as it cannot be inferred: '
'this type is given as keyword argument '
'``subjtype``'% rtype)
statement = self.sqlgen.update(SQL_PREFIX + subjtype,
data, ['cw_eid'])
else:
_sql = self._sql.relations
data = {'eid_from': subject, 'eid_to': object}
statement = self.sqlgen.insert('%s_relation' % rtype, data)
if statement in _sql:
_sql[statement].append(data)
else:
_sql[statement] = [data]
def add_entity(self, cnx, entity):
with self._storage_handler(entity, 'added'):
attrs = self.preprocess_entity(entity)
rtypes = self._inlined_rtypes_cache.get(entity.cw_etype, ())
if isinstance(rtypes, str):
rtypes = (rtypes,)
for rtype in rtypes:
if rtype not in attrs:
attrs[rtype] = None
sql = self.sqlgen.insert(SQL_PREFIX + entity.cw_etype, attrs)
self._sql.eid_insertdicts[entity.eid] = attrs
self._append_to_entities(sql, attrs)
def _append_to_entities(self, sql, attrs):
self._sql.entities[sql].append(attrs)
def _handle_insert_entity_sql(self, cnx, sql, attrs):
# We have to overwrite the source given in parameters
# as here, we directly use the system source
attrs['asource'] = self.system_source.uri
self._append_to_entities(sql, attrs)
def _handle_is_relation_sql(self, cnx, sql, attrs):
self._append_to_entities(sql, attrs)
def _handle_is_instance_of_sql(self, cnx, sql, attrs):
self._append_to_entities(sql, attrs)
def _handle_source_relation_sql(self, cnx, sql, attrs):
self._append_to_entities(sql, attrs)
# add_info is _copypasted_ from the one in NativeSQLSource. We want it
# there because it will use the _handlers of the SQLGenSourceWrapper, which
# are not like the ones in the native source.
def add_info(self, cnx, entity, source, extid):
"""add type and source info for an eid into the system table"""
# begin by inserting eid/type/source/extid into the entities table
if extid is not None:
assert isinstance(extid, str)
extid = b64encode(extid)
attrs = {'type': entity.cw_etype, 'eid': entity.eid, 'extid': extid,
'asource': source.uri}
self._handle_insert_entity_sql(cnx, self.sqlgen.insert('entities', attrs), attrs)
# insert core relations: is, is_instance_of and cw_source
try:
self._handle_is_relation_sql(cnx, 'INSERT INTO is_relation(eid_from,eid_to) VALUES (%s,%s)',
(entity.eid, eschema_eid(cnx, entity.e_schema)))
except IndexError:
# during schema serialization, skip
pass
else:
for eschema in entity.e_schema.ancestors() + [entity.e_schema]:
self._handle_is_relation_sql(cnx,
'INSERT INTO is_instance_of_relation(eid_from,eid_to) VALUES (%s,%s)',
(entity.eid, eschema_eid(cnx, eschema)))
if 'CWSource' in self.schema and source.eid is not None: # else, cw < 3.10
self._handle_is_relation_sql(cnx, 'INSERT INTO cw_source_relation(eid_from,eid_to) VALUES (%s,%s)',
(entity.eid, source.eid))
# now we can update the full text index
if self.do_fti and self.need_fti_indexation(entity.cw_etype):
self.index_entity(cnx, entity=entity)