django1/django/test/runner.py

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from importlib import import_module
import os
import unittest
from unittest import TestSuite, defaultTestLoader
from django.conf import settings
from django.core.exceptions import ImproperlyConfigured
from django.test import SimpleTestCase, TestCase
from django.test.utils import setup_test_environment, teardown_test_environment
from django.utils.datastructures import OrderedSet
class DiscoverRunner(object):
"""
A Django test runner that uses unittest2 test discovery.
"""
test_suite = TestSuite
test_runner = unittest.TextTestRunner
test_loader = defaultTestLoader
reorder_by = (TestCase, SimpleTestCase)
def __init__(self, pattern=None, top_level=None,
verbosity=1, interactive=True, failfast=False, keepdb=False, reverse=False,
**kwargs):
self.pattern = pattern
self.top_level = top_level
self.verbosity = verbosity
self.interactive = interactive
self.failfast = failfast
self.keepdb = keepdb
self.reverse = reverse
@classmethod
def add_arguments(cls, parser):
parser.add_argument('-t', '--top-level-directory',
action='store', dest='top_level', default=None,
help='Top level of project for unittest discovery.')
parser.add_argument('-p', '--pattern', action='store', dest='pattern',
default="test*.py",
help='The test matching pattern. Defaults to test*.py.')
parser.add_argument('-k', '--keepdb', action='store_true', dest='keepdb',
default=False,
help='Preserves the test DB between runs.')
parser.add_argument('-r', '--reverse', action='store_true', dest='reverse',
default=False,
help='Reverses test cases order.')
def setup_test_environment(self, **kwargs):
setup_test_environment()
settings.DEBUG = False
unittest.installHandler()
def build_suite(self, test_labels=None, extra_tests=None, **kwargs):
suite = self.test_suite()
test_labels = test_labels or ['.']
extra_tests = extra_tests or []
discover_kwargs = {}
if self.pattern is not None:
discover_kwargs['pattern'] = self.pattern
if self.top_level is not None:
discover_kwargs['top_level_dir'] = self.top_level
for label in test_labels:
kwargs = discover_kwargs.copy()
tests = None
label_as_path = os.path.abspath(label)
# if a module, or "module.ClassName[.method_name]", just run those
if not os.path.exists(label_as_path):
tests = self.test_loader.loadTestsFromName(label)
elif os.path.isdir(label_as_path) and not self.top_level:
# Try to be a bit smarter than unittest about finding the
# default top-level for a given directory path, to avoid
# breaking relative imports. (Unittest's default is to set
# top-level equal to the path, which means relative imports
# will result in "Attempted relative import in non-package.").
# We'd be happy to skip this and require dotted module paths
# (which don't cause this problem) instead of file paths (which
# do), but in the case of a directory in the cwd, which would
# be equally valid if considered as a top-level module or as a
# directory path, unittest unfortunately prefers the latter.
top_level = label_as_path
while True:
init_py = os.path.join(top_level, '__init__.py')
if os.path.exists(init_py):
try_next = os.path.dirname(top_level)
if try_next == top_level:
# __init__.py all the way down? give up.
break
top_level = try_next
continue
break
kwargs['top_level_dir'] = top_level
if not (tests and tests.countTestCases()) and is_discoverable(label):
# Try discovery if path is a package or directory
tests = self.test_loader.discover(start_dir=label, **kwargs)
# Make unittest forget the top-level dir it calculated from this
# run, to support running tests from two different top-levels.
self.test_loader._top_level_dir = None
suite.addTests(tests)
for test in extra_tests:
suite.addTest(test)
return reorder_suite(suite, self.reorder_by, self.reverse)
def setup_databases(self, **kwargs):
return setup_databases(self.verbosity, self.interactive, self.keepdb, **kwargs)
def run_suite(self, suite, **kwargs):
return self.test_runner(
verbosity=self.verbosity,
failfast=self.failfast,
).run(suite)
def teardown_databases(self, old_config, **kwargs):
"""
Destroys all the non-mirror databases.
"""
old_names, mirrors = old_config
for connection, old_name, destroy in old_names:
if destroy:
connection.creation.destroy_test_db(old_name, self.verbosity, self.keepdb)
def teardown_test_environment(self, **kwargs):
unittest.removeHandler()
teardown_test_environment()
def suite_result(self, suite, result, **kwargs):
return len(result.failures) + len(result.errors)
def run_tests(self, test_labels, extra_tests=None, **kwargs):
"""
Run the unit tests for all the test labels in the provided list.
Test labels should be dotted Python paths to test modules, test
classes, or test methods.
A list of 'extra' tests may also be provided; these tests
will be added to the test suite.
Returns the number of tests that failed.
"""
self.setup_test_environment()
suite = self.build_suite(test_labels, extra_tests)
old_config = self.setup_databases()
result = self.run_suite(suite)
self.teardown_databases(old_config)
self.teardown_test_environment()
return self.suite_result(suite, result)
def is_discoverable(label):
"""
Check if a test label points to a python package or file directory.
Relative labels like "." and ".." are seen as directories.
"""
try:
mod = import_module(label)
except (ImportError, TypeError):
pass
else:
return hasattr(mod, '__path__')
return os.path.isdir(os.path.abspath(label))
def dependency_ordered(test_databases, dependencies):
"""
Reorder test_databases into an order that honors the dependencies
described in TEST[DEPENDENCIES].
"""
ordered_test_databases = []
resolved_databases = set()
# Maps db signature to dependencies of all it's aliases
dependencies_map = {}
# sanity check - no DB can depend on its own alias
for sig, (_, aliases) in test_databases:
all_deps = set()
for alias in aliases:
all_deps.update(dependencies.get(alias, []))
if not all_deps.isdisjoint(aliases):
raise ImproperlyConfigured(
"Circular dependency: databases %r depend on each other, "
"but are aliases." % aliases)
dependencies_map[sig] = all_deps
while test_databases:
changed = False
deferred = []
# Try to find a DB that has all it's dependencies met
for signature, (db_name, aliases) in test_databases:
if dependencies_map[signature].issubset(resolved_databases):
resolved_databases.update(aliases)
ordered_test_databases.append((signature, (db_name, aliases)))
changed = True
else:
deferred.append((signature, (db_name, aliases)))
if not changed:
raise ImproperlyConfigured(
"Circular dependency in TEST[DEPENDENCIES]")
test_databases = deferred
return ordered_test_databases
def reorder_suite(suite, classes, reverse=False):
"""
Reorders a test suite by test type.
`classes` is a sequence of types
All tests of type classes[0] are placed first, then tests of type
classes[1], etc. Tests with no match in classes are placed last.
If `reverse` is True, tests within classes are sorted in opposite order,
but test classes are not reversed.
"""
class_count = len(classes)
suite_class = type(suite)
bins = [OrderedSet() for i in range(class_count + 1)]
partition_suite(suite, classes, bins, reverse=reverse)
reordered_suite = suite_class()
for i in range(class_count + 1):
reordered_suite.addTests(bins[i])
return reordered_suite
def partition_suite(suite, classes, bins, reverse=False):
"""
Partitions a test suite by test type. Also prevents duplicated tests.
classes is a sequence of types
bins is a sequence of TestSuites, one more than classes
reverse changes the ordering of tests within bins
Tests of type classes[i] are added to bins[i],
tests with no match found in classes are place in bins[-1]
"""
suite_class = type(suite)
if reverse:
suite = reversed(tuple(suite))
for test in suite:
if isinstance(test, suite_class):
partition_suite(test, classes, bins, reverse=reverse)
else:
for i in range(len(classes)):
if isinstance(test, classes[i]):
bins[i].add(test)
break
else:
bins[-1].add(test)
def setup_databases(verbosity, interactive, keepdb=False, **kwargs):
from django.db import connections, DEFAULT_DB_ALIAS
# First pass -- work out which databases actually need to be created,
# and which ones are test mirrors or duplicate entries in DATABASES
mirrored_aliases = {}
test_databases = {}
dependencies = {}
default_sig = connections[DEFAULT_DB_ALIAS].creation.test_db_signature()
for alias in connections:
connection = connections[alias]
test_settings = connection.settings_dict['TEST']
if test_settings['MIRROR']:
# If the database is marked as a test mirror, save
# the alias.
mirrored_aliases[alias] = test_settings['MIRROR']
else:
# Store a tuple with DB parameters that uniquely identify it.
# If we have two aliases with the same values for that tuple,
# we only need to create the test database once.
item = test_databases.setdefault(
connection.creation.test_db_signature(),
(connection.settings_dict['NAME'], set())
)
item[1].add(alias)
if 'DEPENDENCIES' in test_settings:
dependencies[alias] = test_settings['DEPENDENCIES']
else:
if alias != DEFAULT_DB_ALIAS and connection.creation.test_db_signature() != default_sig:
dependencies[alias] = test_settings.get('DEPENDENCIES', [DEFAULT_DB_ALIAS])
# Second pass -- actually create the databases.
old_names = []
mirrors = []
for signature, (db_name, aliases) in dependency_ordered(
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test_databases.items(), dependencies):
test_db_name = None
# Actually create the database for the first connection
for alias in aliases:
connection = connections[alias]
if test_db_name is None:
test_db_name = connection.creation.create_test_db(
verbosity,
autoclobber=not interactive,
keepdb=keepdb,
serialize=connection.settings_dict.get("TEST", {}).get("SERIALIZE", True),
)
destroy = True
else:
connection.settings_dict['NAME'] = test_db_name
destroy = False
old_names.append((connection, db_name, destroy))
for alias, mirror_alias in mirrored_aliases.items():
mirrors.append((alias, connections[alias].settings_dict['NAME']))
connections[alias].settings_dict['NAME'] = (
connections[mirror_alias].settings_dict['NAME'])
return old_names, mirrors