import re import sys import warnings from functools import wraps from xml.dom.minidom import parseString, Node from django.conf import settings, UserSettingsHolder from django.core import mail from django.core.signals import request_started from django.db import reset_queries from django.template import Template, loader, TemplateDoesNotExist from django.template.loaders import cached from django.test.signals import template_rendered, setting_changed from django.utils.encoding import force_str from django.utils import six from django.utils.translation import deactivate __all__ = ( 'Approximate', 'ContextList', 'get_runner', 'override_settings', 'setup_test_environment', 'teardown_test_environment', ) RESTORE_LOADERS_ATTR = '_original_template_source_loaders' class Approximate(object): def __init__(self, val, places=7): self.val = val self.places = places def __repr__(self): return repr(self.val) def __eq__(self, other): if self.val == other: return True return round(abs(self.val - other), self.places) == 0 class ContextList(list): """A wrapper that provides direct key access to context items contained in a list of context objects. """ def __getitem__(self, key): if isinstance(key, six.string_types): for subcontext in self: if key in subcontext: return subcontext[key] raise KeyError(key) else: return super(ContextList, self).__getitem__(key) def __contains__(self, key): try: self[key] except KeyError: return False return True def instrumented_test_render(self, context): """ An instrumented Template render method, providing a signal that can be intercepted by the test system Client """ template_rendered.send(sender=self, template=self, context=context) return self.nodelist.render(context) def setup_test_environment(): """Perform any global pre-test setup. This involves: - Installing the instrumented test renderer - Set the email backend to the locmem email backend. - Setting the active locale to match the LANGUAGE_CODE setting. """ Template.original_render = Template._render Template._render = instrumented_test_render mail.original_email_backend = settings.EMAIL_BACKEND settings.EMAIL_BACKEND = 'django.core.mail.backends.locmem.EmailBackend' settings._original_allowed_hosts = settings.ALLOWED_HOSTS settings.ALLOWED_HOSTS = ['*'] mail.outbox = [] deactivate() def teardown_test_environment(): """Perform any global post-test teardown. This involves: - Restoring the original test renderer - Restoring the email sending functions """ Template._render = Template.original_render del Template.original_render settings.EMAIL_BACKEND = mail.original_email_backend del mail.original_email_backend settings.ALLOWED_HOSTS = settings._original_allowed_hosts del settings._original_allowed_hosts del mail.outbox warn_txt = ("get_warnings_state/restore_warnings_state functions from " "django.test.utils are deprecated. Use Python's warnings.catch_warnings() " "context manager instead.") def get_warnings_state(): """ Returns an object containing the state of the warnings module """ # There is no public interface for doing this, but this implementation of # get_warnings_state and restore_warnings_state appears to work on Python # 2.4 to 2.7. warnings.warn(warn_txt, DeprecationWarning, stacklevel=2) return warnings.filters[:] def restore_warnings_state(state): """ Restores the state of the warnings module when passed an object that was returned by get_warnings_state() """ warnings.warn(warn_txt, DeprecationWarning, stacklevel=2) warnings.filters = state[:] def get_runner(settings, test_runner_class=None): if not test_runner_class: test_runner_class = settings.TEST_RUNNER test_path = test_runner_class.split('.') # Allow for Python 2.5 relative paths if len(test_path) > 1: test_module_name = '.'.join(test_path[:-1]) else: test_module_name = '.' test_module = __import__(test_module_name, {}, {}, force_str(test_path[-1])) test_runner = getattr(test_module, test_path[-1]) return test_runner def setup_test_template_loader(templates_dict, use_cached_loader=False): """ Changes Django to only find templates from within a dictionary (where each key is the template name and each value is the corresponding template content to return). Use meth:`restore_template_loaders` to restore the original loaders. """ if hasattr(loader, RESTORE_LOADERS_ATTR): raise Exception("loader.%s already exists" % RESTORE_LOADERS_ATTR) def test_template_loader(template_name, template_dirs=None): "A custom template loader that loads templates from a dictionary." try: return (templates_dict[template_name], "test:%s" % template_name) except KeyError: raise TemplateDoesNotExist(template_name) if use_cached_loader: template_loader = cached.Loader(('test_template_loader',)) template_loader._cached_loaders = (test_template_loader,) else: template_loader = test_template_loader setattr(loader, RESTORE_LOADERS_ATTR, loader.template_source_loaders) loader.template_source_loaders = (template_loader,) return template_loader def restore_template_loaders(): """ Restores the original template loaders after :meth:`setup_test_template_loader` has been run. """ loader.template_source_loaders = getattr(loader, RESTORE_LOADERS_ATTR) delattr(loader, RESTORE_LOADERS_ATTR) class override_settings(object): """ Acts as either a decorator, or a context manager. If it's a decorator it takes a function and returns a wrapped function. If it's a contextmanager it's used with the ``with`` statement. In either event entering/exiting are called before and after, respectively, the function/block is executed. """ def __init__(self, **kwargs): self.options = kwargs self.wrapped = settings._wrapped def __enter__(self): self.enable() def __exit__(self, exc_type, exc_value, traceback): self.disable() def __call__(self, test_func): from django.test import SimpleTestCase if isinstance(test_func, type): if not issubclass(test_func, SimpleTestCase): raise Exception( "Only subclasses of Django SimpleTestCase can be decorated " "with override_settings") original_pre_setup = test_func._pre_setup original_post_teardown = test_func._post_teardown def _pre_setup(innerself): self.enable() original_pre_setup(innerself) def _post_teardown(innerself): original_post_teardown(innerself) self.disable() test_func._pre_setup = _pre_setup test_func._post_teardown = _post_teardown return test_func else: @wraps(test_func) def inner(*args, **kwargs): with self: return test_func(*args, **kwargs) return inner def enable(self): override = UserSettingsHolder(settings._wrapped) for key, new_value in self.options.items(): setattr(override, key, new_value) settings._wrapped = override for key, new_value in self.options.items(): setting_changed.send(sender=settings._wrapped.__class__, setting=key, value=new_value) def disable(self): settings._wrapped = self.wrapped for key in self.options: new_value = getattr(settings, key, None) setting_changed.send(sender=settings._wrapped.__class__, setting=key, value=new_value) def compare_xml(want, got): """Tries to do a 'xml-comparison' of want and got. Plain string comparison doesn't always work because, for example, attribute ordering should not be important. Comment nodes are not considered in the comparison. Based on http://codespeak.net/svn/lxml/trunk/src/lxml/doctestcompare.py """ _norm_whitespace_re = re.compile(r'[ \t\n][ \t\n]+') def norm_whitespace(v): return _norm_whitespace_re.sub(' ', v) def child_text(element): return ''.join([c.data for c in element.childNodes if c.nodeType == Node.TEXT_NODE]) def children(element): return [c for c in element.childNodes if c.nodeType == Node.ELEMENT_NODE] def norm_child_text(element): return norm_whitespace(child_text(element)) def attrs_dict(element): return dict(element.attributes.items()) def check_element(want_element, got_element): if want_element.tagName != got_element.tagName: return False if norm_child_text(want_element) != norm_child_text(got_element): return False if attrs_dict(want_element) != attrs_dict(got_element): return False want_children = children(want_element) got_children = children(got_element) if len(want_children) != len(got_children): return False for want, got in zip(want_children, got_children): if not check_element(want, got): return False return True def first_node(document): for node in document.childNodes: if node.nodeType != Node.COMMENT_NODE: return node want, got = strip_quotes(want, got) want = want.replace('\\n','\n') got = got.replace('\\n','\n') # If the string is not a complete xml document, we may need to add a # root element. This allow us to compare fragments, like "" if not want.startswith('%s' want = wrapper % want got = wrapper % got # Parse the want and got strings, and compare the parsings. want_root = first_node(parseString(want)) got_root = first_node(parseString(got)) return check_element(want_root, got_root) def strip_quotes(want, got): """ Strip quotes of doctests output values: >>> strip_quotes("'foo'") "foo" >>> strip_quotes('"foo"') "foo" """ def is_quoted_string(s): s = s.strip() return (len(s) >= 2 and s[0] == s[-1] and s[0] in ('"', "'")) def is_quoted_unicode(s): s = s.strip() return (len(s) >= 3 and s[0] == 'u' and s[1] == s[-1] and s[1] in ('"', "'")) if is_quoted_string(want) and is_quoted_string(got): want = want.strip()[1:-1] got = got.strip()[1:-1] elif is_quoted_unicode(want) and is_quoted_unicode(got): want = want.strip()[2:-1] got = got.strip()[2:-1] return want, got def str_prefix(s): return s % {'_': '' if six.PY3 else 'u'} class CaptureQueriesContext(object): """ Context manager that captures queries executed by the specified connection. """ def __init__(self, connection): self.connection = connection def __iter__(self): return iter(self.captured_queries) def __getitem__(self, index): return self.captured_queries[index] def __len__(self): return len(self.captured_queries) @property def captured_queries(self): return self.connection.queries[self.initial_queries:self.final_queries] def __enter__(self): self.use_debug_cursor = self.connection.use_debug_cursor self.connection.use_debug_cursor = True self.initial_queries = len(self.connection.queries) self.final_queries = None request_started.disconnect(reset_queries) return self def __exit__(self, exc_type, exc_value, traceback): self.connection.use_debug_cursor = self.use_debug_cursor request_started.connect(reset_queries) if exc_type is not None: return self.final_queries = len(self.connection.queries) class IgnoreDeprecationWarningsMixin(object): warning_class = DeprecationWarning def setUp(self): super(IgnoreDeprecationWarningsMixin, self).setUp() self.catch_warnings = warnings.catch_warnings() self.catch_warnings.__enter__() warnings.filterwarnings("ignore", category=self.warning_class) def tearDown(self): self.catch_warnings.__exit__(*sys.exc_info()) super(IgnoreDeprecationWarningsMixin, self).tearDown() class IgnorePendingDeprecationWarningsMixin(IgnoreDeprecationWarningsMixin): warning_class = PendingDeprecationWarning