provide a lightier skeleton
- no sobjects.py file
- no site_cubicweb.py file
- do not import cubicweb.css in the cube's css
"""this module contains base classes for web tests
:organization: Logilab
:copyright: 2001-2008 LOGILAB S.A. (Paris, FRANCE), all rights reserved.
:contact: http://www.logilab.fr/ -- mailto:contact@logilab.fr
"""
__docformat__ = "restructuredtext en"
import sys
from math import log
from logilab.common.debugger import Debugger
from logilab.common.testlib import InnerTest
from logilab.common.pytest import nocoverage
from rql import parse
from cubicweb.devtools import VIEW_VALIDATORS
from cubicweb.devtools.apptest import EnvBasedTC
from cubicweb.devtools._apptest import unprotected_entities, SYSTEM_RELATIONS
from cubicweb.devtools.htmlparser import DTDValidator, SaxOnlyValidator, HTMLValidator
from cubicweb.devtools.fill import insert_entity_queries, make_relations_queries
from cubicweb.sobjects.notification import NotificationView
from cubicweb.vregistry import NoSelectableObject
from cubicweb.web.action import Action
from cubicweb.web.views.basetemplates import TheMainTemplate
## TODO ###############
# creation tests: make sure an entity was actually created
# Existing Test Environment
class CubicWebDebugger(Debugger):
def do_view(self, arg):
import webbrowser
data = self._getval(arg)
file('/tmp/toto.html', 'w').write(data)
webbrowser.open('file:///tmp/toto.html')
def how_many_dict(schema, cursor, how_many, skip):
"""compute how many entities by type we need to be able to satisfy relations
cardinality
"""
# compute how many entities by type we need to be able to satisfy relation constraint
relmap = {}
for rschema in schema.relations():
if rschema.meta or rschema.is_final(): # skip meta relations
continue
for subj, obj in rschema.iter_rdefs():
card = rschema.rproperty(subj, obj, 'cardinality')
if card[0] in '1?' and len(rschema.subjects(obj)) == 1:
relmap.setdefault((rschema, subj), []).append(str(obj))
if card[1] in '1?' and len(rschema.objects(subj)) == 1:
relmap.setdefault((rschema, obj), []).append(str(subj))
unprotected = unprotected_entities(schema)
for etype in skip:
unprotected.add(etype)
howmanydict = {}
for etype in unprotected_entities(schema, strict=True):
howmanydict[str(etype)] = cursor.execute('Any COUNT(X) WHERE X is %s' % etype)[0][0]
if etype in unprotected:
howmanydict[str(etype)] += how_many
for (rschema, etype), targets in relmap.iteritems():
# XXX should 1. check no cycle 2. propagate changes
relfactor = sum(howmanydict[e] for e in targets)
howmanydict[str(etype)] = max(relfactor, howmanydict[etype])
return howmanydict
def line_context_filter(line_no, center, before=3, after=None):
"""return true if line are in context
if after is None: after = before"""
if after is None:
after = before
return center - before <= line_no <= center + after
## base webtest class #########################################################
class WebTest(EnvBasedTC):
"""base class for web tests"""
__abstract__ = True
pdbclass = CubicWebDebugger
# this is a hook to be able to define a list of rql queries
# that are application dependent and cannot be guessed automatically
application_rql = []
# validators are used to validate (XML, DTD, whatever) view's content
# validators availables are :
# DTDValidator : validates XML + declared DTD
# SaxOnlyValidator : guarantees XML is well formed
# None : do not try to validate anything
# validators used must be imported from from.devtools.htmlparser
validators = {
# maps vid : validator name
'hcal' : SaxOnlyValidator,
'rss' : SaxOnlyValidator,
'rssitem' : None,
'xml' : SaxOnlyValidator,
'xmlitem' : None,
'xbel' : SaxOnlyValidator,
'xbelitem' : None,
'vcard' : None,
'fulltext': None,
'fullthreadtext': None,
'fullthreadtext_descending': None,
'text' : None,
'treeitemview': None,
'textincontext' : None,
'textoutofcontext' : None,
'combobox' : None,
'csvexport' : None,
'ecsvexport' : None,
}
valmap = {None: None, 'dtd': DTDValidator, 'xml': SaxOnlyValidator}
no_auto_populate = ()
ignored_relations = ()
def __init__(self, *args, **kwargs):
EnvBasedTC.__init__(self, *args, **kwargs)
for view, valkey in VIEW_VALIDATORS.iteritems():
self.validators[view] = self.valmap[valkey]
def custom_populate(self, how_many, cursor):
pass
def post_populate(self, cursor):
pass
@nocoverage
def auto_populate(self, how_many):
"""this method populates the database with `how_many` entities
of each possible type. It also inserts random relations between them
"""
cu = self.cursor()
self.custom_populate(how_many, cu)
vreg = self.vreg
howmanydict = how_many_dict(self.schema, cu, how_many, self.no_auto_populate)
for etype in unprotected_entities(self.schema):
if etype in self.no_auto_populate:
continue
nb = howmanydict.get(etype, how_many)
for rql, args in insert_entity_queries(etype, self.schema, vreg, nb):
cu.execute(rql, args)
edict = {}
for etype in unprotected_entities(self.schema, strict=True):
rset = cu.execute('%s X' % etype)
edict[str(etype)] = set(row[0] for row in rset.rows)
existingrels = {}
ignored_relations = SYSTEM_RELATIONS + self.ignored_relations
for rschema in self.schema.relations():
if rschema.is_final() or rschema in ignored_relations:
continue
rset = cu.execute('DISTINCT Any X,Y WHERE X %s Y' % rschema)
existingrels.setdefault(rschema.type, set()).update((x,y) for x, y in rset)
q = make_relations_queries(self.schema, edict, cu, ignored_relations,
existingrels=existingrels)
for rql, args in q:
cu.execute(rql, args)
self.post_populate(cu)
self.commit()
@nocoverage
def _check_html(self, output, vid, template='main'):
"""raises an exception if the HTML is invalid"""
if template is None:
default_validator = HTMLValidator
else:
default_validator = DTDValidator
validatorclass = self.validators.get(vid, default_validator)
if validatorclass is None:
return None
validator = validatorclass()
output = output.strip()
return validator.parse_string(output)
def view(self, vid, rset, req=None, template='main', htmlcheck=True, **kwargs):
"""This method tests the view `vid` on `rset` using `template`
If no error occured while rendering the view, the HTML is analyzed
and parsed.
:returns: an instance of `cubicweb.devtools.htmlparser.PageInfo`
encapsulation the generated HTML
"""
req = req or rset.req
# print "testing ", vid,
# if rset:
# print rset, len(rset), id(rset)
# else:
# print
req.form['vid'] = vid
view = self.vreg.select_view(vid, req, rset, **kwargs)
if view.content_type not in ('application/xml', 'application/xhtml+xml', 'text/html'):
htmlcheck = False
# set explicit test description
if rset is not None:
self.set_description("testing %s, mod=%s (%s)" % (vid, view.__module__, rset.printable_rql()))
else:
self.set_description("testing %s, mod=%s (no rset)" % (vid, view.__module__))
viewfunc = lambda **k: self.vreg.main_template(req, template, **kwargs)
if template is None: # raw view testing, no template
viewfunc = view.dispatch
elif template == 'main':
_select_view_and_rset = TheMainTemplate._select_view_and_rset
# patch TheMainTemplate.process_rql to avoid recomputing resultset
TheMainTemplate._select_view_and_rset = lambda *a, **k: (view, rset)
try:
return self._test_view(viewfunc, vid, htmlcheck, template, **kwargs)
finally:
if template == 'main':
TheMainTemplate._select_view_and_rset = _select_view_and_rset
def _test_view(self, viewfunc, vid, htmlcheck=True, template='main', **kwargs):
"""this method does the actual call to the view
If no error occured while rendering the view, the HTML is analyzed
and parsed.
:returns: an instance of `cubicweb.devtools.htmlparser.PageInfo`
encapsulation the generated HTML
"""
output = None
try:
output = viewfunc(**kwargs)
if htmlcheck:
return self._check_html(output, vid, template)
else:
return output
except (SystemExit, KeyboardInterrupt):
raise
except:
# hijack exception: generative tests stop when the exception
# is not an AssertionError
klass, exc, tcbk = sys.exc_info()
try:
msg = '[%s in %s] %s' % (klass, vid, exc)
except:
msg = '[%s in %s] undisplayable exception' % (klass, vid)
if output is not None:
position = getattr(exc, "position", (0,))[0]
if position:
# define filter
output = output.splitlines()
width = int(log(len(output), 10)) + 1
line_template = " %" + ("%i" % width) + "i: %s"
# XXX no need to iterate the whole file except to get
# the line number
output = '\n'.join(line_template % (idx + 1, line)
for idx, line in enumerate(output)
if line_context_filter(idx+1, position))
msg+= '\nfor output:\n%s' % output
raise AssertionError, msg, tcbk
def iter_automatic_rsets(self):
"""generates basic resultsets for each entity type"""
etypes = unprotected_entities(self.schema, strict=True)
for etype in etypes:
yield self.execute('Any X WHERE X is %s' % etype)
etype1 = etypes.pop()
etype2 = etypes.pop()
# test a mixed query (DISTINCT/GROUP to avoid getting duplicate
# X which make muledit view failing for instance (html validation fails
# because of some duplicate "id" attributes)
yield self.execute('DISTINCT Any X, MAX(Y) GROUPBY X WHERE X is %s, Y is %s' % (etype1, etype2))
# test some application-specific queries if defined
for rql in self.application_rql:
yield self.execute(rql)
def list_views_for(self, rset):
"""returns the list of views that can be applied on `rset`"""
req = rset.req
only_once_vids = ('primary', 'secondary', 'text')
skipped = ('restriction', 'cell')
req.data['ex'] = ValueError("whatever")
for vid, views in self.vreg.registry('views').items():
if vid[0] == '_':
continue
try:
view = self.vreg.select(views, req, rset)
if view.id in skipped:
continue
if view.category == 'startupview':
continue
if rset.rowcount > 1 and view.id in only_once_vids:
continue
if not isinstance(view, NotificationView):
yield view
except NoSelectableObject:
continue
def list_actions_for(self, rset):
"""returns the list of actions that can be applied on `rset`"""
req = rset.req
for action in self.vreg.possible_objects('actions', req, rset):
yield action
def list_boxes_for(self, rset):
"""returns the list of boxes that can be applied on `rset`"""
req = rset.req
for box in self.vreg.possible_objects('boxes', req, rset):
yield box
def list_startup_views(self):
"""returns the list of startup views"""
req = self.request()
for view in self.vreg.possible_views(req, None):
if view.category != 'startupview':
continue
yield view.id
def _test_everything_for(self, rset):
"""this method tries to find everything that can be tested
for `rset` and yields a callable test (as needed in generative tests)
"""
rqlst = parse(rset.rql)
propdefs = self.vreg['propertydefs']
# make all components visible
for k, v in propdefs.items():
if k.endswith('visible') and not v['default']:
propdefs[k]['default'] = True
for view in self.list_views_for(rset):
backup_rset = rset._prepare_copy(rset.rows, rset.description)
yield InnerTest(self._testname(rset, view.id, 'view'),
self.view, view.id, rset,
rset.req.reset_headers(), 'main', not view.binary)
# We have to do this because some views modify the
# resultset's syntax tree
rset = backup_rset
for action in self.list_actions_for(rset):
# XXX this seems a bit dummy
#yield InnerTest(self._testname(rset, action.id, 'action'),
# self.failUnless,
# isinstance(action, Action))
yield InnerTest(self._testname(rset, action.id, 'action'), action.url)
for box in self.list_boxes_for(rset):
yield InnerTest(self._testname(rset, box.id, 'box'), box.dispatch)
@staticmethod
def _testname(rset, objid, objtype):
return '%s_%s_%s' % ('_'.join(rset.column_types(0)), objid, objtype)
class AutomaticWebTest(WebTest):
"""import this if you wan automatic tests to be ran"""
## one each
def test_one_each_config(self):
self.auto_populate(1)
for rset in self.iter_automatic_rsets():
for testargs in self._test_everything_for(rset):
yield testargs
## ten each
def test_ten_each_config(self):
self.auto_populate(10)
for rset in self.iter_automatic_rsets():
for testargs in self._test_everything_for(rset):
yield testargs
## startup views
def test_startup_views(self):
for vid in self.list_startup_views():
req = self.request()
yield self.view, vid, None, req
class RealDBTest(WebTest):
def iter_individual_rsets(self, etypes=None, limit=None):
etypes = etypes or unprotected_entities(self.schema, strict=True)
for etype in etypes:
rset = self.execute('Any X WHERE X is %s' % etype)
for row in xrange(len(rset)):
if limit and row > limit:
break
rset2 = rset.limit(limit=1, offset=row)
yield rset2