"""TestCase and TestSuite artifacts and testing decorators.""" import itertools import operator import re import sys import types import warnings from cStringIO import StringIO from sqlalchemy.test import config, assertsql from sqlalchemy.util import function_named from sqlalchemy import exc as sa_exc, util, types as sqltypes, schema _ops = { '<': operator.lt, '>': operator.gt, '==': operator.eq, '!=': operator.ne, '<=': operator.le, '>=': operator.ge, 'in': operator.contains, 'between': lambda val, pair: val >= pair[0] and val <= pair[1], } # sugar ('testing.db'); set here by config() at runtime db = None # more sugar, installed by __init__ requires = None def fails_if(callable_): """Mark a test as expected to fail if callable_ returns True. If the callable returns false, the test is run and reported as normal. However if the callable returns true, the test is expected to fail and the unit test logic is inverted: if the test fails, a success is reported. If the test succeeds, a failure is reported. """ docstring = getattr(callable_, '__doc__', None) or callable_.__name__ description = docstring.split('\n')[0] def decorate(fn): fn_name = fn.__name__ def maybe(*args, **kw): if not callable_(): return fn(*args, **kw) else: try: fn(*args, **kw) except Exception, ex: print ("'%s' failed as expected (condition: %s): %s " % ( fn_name, description, str(ex))) return True else: raise AssertionError( "Unexpected success for '%s' (condition: %s)" % (fn_name, description)) return function_named(maybe, fn_name) return decorate def future(fn): """Mark a test as expected to unconditionally fail. Takes no arguments, omit parens when using as a decorator. """ fn_name = fn.__name__ def decorated(*args, **kw): try: fn(*args, **kw) except Exception, ex: print ("Future test '%s' failed as expected: %s " % ( fn_name, str(ex))) return True else: raise AssertionError( "Unexpected success for future test '%s'" % fn_name) return function_named(decorated, fn_name) def fails_on(dbs, reason): """Mark a test as expected to fail on the specified database implementation. Unlike ``crashes``, tests marked as ``fails_on`` will be run for the named databases. The test is expected to fail and the unit test logic is inverted: if the test fails, a success is reported. If the test succeeds, a failure is reported. """ def decorate(fn): fn_name = fn.__name__ def maybe(*args, **kw): if config.db.name != dbs: return fn(*args, **kw) else: try: fn(*args, **kw) except Exception, ex: print ("'%s' failed as expected on DB implementation " "'%s': %s" % ( fn_name, config.db.name, reason)) return True else: raise AssertionError( "Unexpected success for '%s' on DB implementation '%s'" % (fn_name, config.db.name)) return function_named(maybe, fn_name) return decorate def fails_on_everything_except(*dbs): """Mark a test as expected to fail on most database implementations. Like ``fails_on``, except failure is the expected outcome on all databases except those listed. """ def decorate(fn): fn_name = fn.__name__ def maybe(*args, **kw): if config.db.name in dbs: return fn(*args, **kw) else: try: fn(*args, **kw) except Exception, ex: print ("'%s' failed as expected on DB implementation " "'%s': %s" % ( fn_name, config.db.name, str(ex))) return True else: raise AssertionError( "Unexpected success for '%s' on DB implementation '%s'" % (fn_name, config.db.name)) return function_named(maybe, fn_name) return decorate def crashes(db, reason): """Mark a test as unsupported by a database implementation. ``crashes`` tests will be skipped unconditionally. Use for feature tests that cause deadlocks or other fatal problems. """ carp = _should_carp_about_exclusion(reason) def decorate(fn): fn_name = fn.__name__ def maybe(*args, **kw): if config.db.name == db: msg = "'%s' unsupported on DB implementation '%s': %s" % ( fn_name, config.db.name, reason) print msg if carp: print >> sys.stderr, msg return True else: return fn(*args, **kw) return function_named(maybe, fn_name) return decorate def _block_unconditionally(db, reason): """Mark a test as unsupported by a database implementation. Will never run the test against any version of the given database, ever, no matter what. Use when your assumptions are infallible; past, present and future. """ carp = _should_carp_about_exclusion(reason) def decorate(fn): fn_name = fn.__name__ def maybe(*args, **kw): if config.db.name == db: msg = "'%s' unsupported on DB implementation '%s': %s" % ( fn_name, config.db.name, reason) print msg if carp: print >> sys.stderr, msg return True else: return fn(*args, **kw) return function_named(maybe, fn_name) return decorate def exclude(db, op, spec, reason): """Mark a test as unsupported by specific database server versions. Stackable, both with other excludes and other decorators. Examples:: # Not supported by mydb versions less than 1, 0 @exclude('mydb', '<', (1,0)) # Other operators work too @exclude('bigdb', '==', (9,0,9)) @exclude('yikesdb', 'in', ((0, 3, 'alpha2'), (0, 3, 'alpha3'))) """ carp = _should_carp_about_exclusion(reason) def decorate(fn): fn_name = fn.__name__ def maybe(*args, **kw): if _is_excluded(db, op, spec): msg = "'%s' unsupported on DB %s version '%s': %s" % ( fn_name, config.db.name, _server_version(), reason) print msg if carp: print >> sys.stderr, msg return True else: return fn(*args, **kw) return function_named(maybe, fn_name) return decorate def _should_carp_about_exclusion(reason): """Guard against forgotten exclusions.""" assert reason for _ in ('todo', 'fixme', 'xxx'): if _ in reason.lower(): return True else: if len(reason) < 4: return True def _is_excluded(db, op, spec): """Return True if the configured db matches an exclusion specification. db: A dialect name op: An operator or stringified operator, such as '==' spec: A value that will be compared to the dialect's server_version_info using the supplied operator. Examples:: # Not supported by mydb versions less than 1, 0 _is_excluded('mydb', '<', (1,0)) # Other operators work too _is_excluded('bigdb', '==', (9,0,9)) _is_excluded('yikesdb', 'in', ((0, 3, 'alpha2'), (0, 3, 'alpha3'))) """ if config.db.name != db: return False version = _server_version() oper = hasattr(op, '__call__') and op or _ops[op] return oper(version, spec) def _server_version(bind=None): """Return a server_version_info tuple.""" if bind is None: bind = config.db return bind.dialect.server_version_info(bind.contextual_connect()) def skip_if(predicate, reason=None): """Skip a test if predicate is true.""" reason = reason or predicate.__name__ def decorate(fn): fn_name = fn.__name__ def maybe(*args, **kw): if predicate(): msg = "'%s' skipped on DB %s version '%s': %s" % ( fn_name, config.db.name, _server_version(), reason) print msg return True else: return fn(*args, **kw) return function_named(maybe, fn_name) return decorate def emits_warning(*messages): """Mark a test as emitting a warning. With no arguments, squelches all SAWarning failures. Or pass one or more strings; these will be matched to the root of the warning description by warnings.filterwarnings(). """ # TODO: it would be nice to assert that a named warning was # emitted. should work with some monkeypatching of warnings, # and may work on non-CPython if they keep to the spirit of # warnings.showwarning's docstring. # - update: jython looks ok, it uses cpython's module def decorate(fn): def safe(*args, **kw): # todo: should probably be strict about this, too filters = [dict(action='ignore', category=sa_exc.SAPendingDeprecationWarning)] if not messages: filters.append(dict(action='ignore', category=sa_exc.SAWarning)) else: filters.extend(dict(action='ignore', message=message, category=sa_exc.SAWarning) for message in messages) for f in filters: warnings.filterwarnings(**f) try: return fn(*args, **kw) finally: resetwarnings() return function_named(safe, fn.__name__) return decorate def emits_warning_on(db, *warnings): """Mark a test as emitting a warning on a specific dialect. With no arguments, squelches all SAWarning failures. Or pass one or more strings; these will be matched to the root of the warning description by warnings.filterwarnings(). """ def decorate(fn): def maybe(*args, **kw): if isinstance(db, basestring): if config.db.name != db: return fn(*args, **kw) else: wrapped = emits_warning(*warnings)(fn) return wrapped(*args, **kw) else: if not _is_excluded(*db): return fn(*args, **kw) else: wrapped = emits_warning(*warnings)(fn) return wrapped(*args, **kw) return function_named(maybe, fn.__name__) return decorate def uses_deprecated(*messages): """Mark a test as immune from fatal deprecation warnings. With no arguments, squelches all SADeprecationWarning failures. Or pass one or more strings; these will be matched to the root of the warning description by warnings.filterwarnings(). As a special case, you may pass a function name prefixed with // and it will be re-written as needed to match the standard warning verbiage emitted by the sqlalchemy.util.deprecated decorator. """ def decorate(fn): def safe(*args, **kw): # todo: should probably be strict about this, too filters = [dict(action='ignore', category=sa_exc.SAPendingDeprecationWarning)] if not messages: filters.append(dict(action='ignore', category=sa_exc.SADeprecationWarning)) else: filters.extend( [dict(action='ignore', message=message, category=sa_exc.SADeprecationWarning) for message in [ (m.startswith('//') and ('Call to deprecated function ' + m[2:]) or m) for m in messages] ]) for f in filters: warnings.filterwarnings(**f) try: return fn(*args, **kw) finally: resetwarnings() return function_named(safe, fn.__name__) return decorate def resetwarnings(): """Reset warning behavior to testing defaults.""" warnings.filterwarnings('ignore', category=sa_exc.SAPendingDeprecationWarning) warnings.filterwarnings('error', category=sa_exc.SADeprecationWarning) warnings.filterwarnings('error', category=sa_exc.SAWarning) # warnings.simplefilter('error') if sys.version_info < (2, 4): warnings.filterwarnings('ignore', category=FutureWarning) def against(*queries): """Boolean predicate, compares to testing database configuration. Given one or more dialect names, returns True if one is the configured database engine. Also supports comparison to database version when provided with one or more 3-tuples of dialect name, operator, and version specification:: testing.against('mysql', 'postgres') testing.against(('mysql', '>=', (5, 0, 0)) """ for query in queries: if isinstance(query, basestring): if config.db.name == query: return True else: name, op, spec = query if config.db.name != name: continue have = config.db.dialect.server_version_info( config.db.contextual_connect()) oper = hasattr(op, '__call__') and op or _ops[op] if oper(have, spec): return True return False def _chain_decorators_on(fn, *decorators): """Apply a series of decorators to fn, returning a decorated function.""" for decorator in reversed(decorators): fn = decorator(fn) return fn def rowset(results): """Converts the results of sql execution into a plain set of column tuples. Useful for asserting the results of an unordered query. """ return set([tuple(row) for row in results]) def eq_(a, b, msg=None): """Assert a == b, with repr messaging on failure.""" assert a == b, msg or "%r != %r" % (a, b) def ne_(a, b, msg=None): """Assert a != b, with repr messaging on failure.""" assert a != b, msg or "%r == %r" % (a, b) def is_(a, b, msg=None): """Assert a is b, with repr messaging on failure.""" assert a is b, msg or "%r is not %r" % (a, b) def is_not_(a, b, msg=None): """Assert a is not b, with repr messaging on failure.""" assert a is not b, msg or "%r is %r" % (a, b) def startswith_(a, fragment, msg=None): """Assert a.startswith(fragment), with repr messaging on failure.""" assert a.startswith(fragment), msg or "%r does not start with %r" % ( a, fragment) def assert_raises(except_cls, callable_, *args, **kw): try: callable_(*args, **kw) success = False except except_cls, e: success = True # assert outside the block so it works for AssertionError too ! assert success, "Callable did not raise an exception" def assert_raises_message(except_cls, msg, callable_, *args, **kwargs): try: callable_(*args, **kwargs) assert False, "Callable did not raise an exception" except except_cls, e: assert re.search(msg, str(e)), "%r !~ %s" % (msg, e) def fail(msg): assert False, msg def fixture(table, columns, *rows): """Insert data into table after creation.""" def onload(event, schema_item, connection): insert = table.insert() column_names = [col.key for col in columns] connection.execute(insert, [dict(zip(column_names, column_values)) for column_values in rows]) table.append_ddl_listener('after-create', onload) def resolve_artifact_names(fn): """Decorator, augment function globals with tables and classes. Swaps out the function's globals at execution time. The 'global' statement will not work as expected inside a decorated function. """ # This could be automatically applied to framework and test_ methods in # the MappedTest-derived test suites but... *some* explicitness for this # magic is probably good. Especially as 'global' won't work- these # rebound functions aren't regular Python.. # # Also: it's lame that CPython accepts a dict-subclass for globals, but # only calls dict methods. That would allow 'global' to pass through to # the func_globals. def resolved(*args, **kwargs): self = args[0] context = dict(fn.func_globals) for source in self._artifact_registries: context.update(getattr(self, source)) # jython bug #1034 rebound = types.FunctionType( fn.func_code, context, fn.func_name, fn.func_defaults, fn.func_closure) return rebound(*args, **kwargs) return function_named(resolved, fn.func_name) class adict(dict): """Dict keys available as attributes. Shadows.""" def __getattribute__(self, key): try: return self[key] except KeyError: return dict.__getattribute__(self, key) def get_all(self, *keys): return tuple([self[key] for key in keys]) class TestBase(object): # A sequence of database names to always run, regardless of the # constraints below. __whitelist__ = () # A sequence of requirement names matching testing.requires decorators __requires__ = () # A sequence of dialect names to exclude from the test class. __unsupported_on__ = () # If present, test class is only runnable for the *single* specified # dialect. If you need multiple, use __unsupported_on__ and invert. __only_on__ = None # A sequence of no-arg callables. If any are True, the entire testcase is # skipped. __skip_if__ = None _artifact_registries = () def assert_(self, val, msg=None): assert val, msg class AssertsCompiledSQL(object): def assert_compile(self, clause, result, params=None, checkparams=None, dialect=None): if dialect is None: dialect = getattr(self, '__dialect__', None) if params is None: keys = None else: keys = params.keys() c = clause.compile(column_keys=keys, dialect=dialect) print "\nSQL String:\n" + str(c) + repr(c.params) cc = re.sub(r'\n', '', str(c)) eq_(cc, result, "%r != %r on dialect %r" % (cc, result, dialect)) if checkparams is not None: eq_(c.construct_params(params), checkparams) class ComparesTables(object): def assert_tables_equal(self, table, reflected_table, strict_types=False): base_mro = sqltypes.TypeEngine.__mro__ assert len(table.c) == len(reflected_table.c) for c, reflected_c in zip(table.c, reflected_table.c): eq_(c.name, reflected_c.name) assert reflected_c is reflected_table.c[c.name] eq_(c.primary_key, reflected_c.primary_key) eq_(c.nullable, reflected_c.nullable) if strict_types: assert type(reflected_c.type) is type(c.type), \ "Type '%s' doesn't correspond to type '%s'" % (reflected_c.type, c.type) else: assert len( set(type(reflected_c.type).__mro__).difference(base_mro).intersection( set(type(c.type).__mro__).difference(base_mro) ) ) > 0, "Type '%s' doesn't correspond to type '%s'" % (reflected_c.type, c.type) if isinstance(c.type, sqltypes.String): eq_(c.type.length, reflected_c.type.length) eq_(set([f.column.name for f in c.foreign_keys]), set([f.column.name for f in reflected_c.foreign_keys])) assert len(table.primary_key) == len(reflected_table.primary_key) for c in table.primary_key: assert reflected_table.primary_key.columns[c.name] class AssertsExecutionResults(object): def assert_result(self, result, class_, *objects): result = list(result) print repr(result) self.assert_list(result, class_, objects) def assert_list(self, result, class_, list): self.assert_(len(result) == len(list), "result list is not the same size as test list, " + "for class " + class_.__name__) for i in range(0, len(list)): self.assert_row(class_, result[i], list[i]) def assert_row(self, class_, rowobj, desc): self.assert_(rowobj.__class__ is class_, "item class is not " + repr(class_)) for key, value in desc.iteritems(): if isinstance(value, tuple): if isinstance(value[1], list): self.assert_list(getattr(rowobj, key), value[0], value[1]) else: self.assert_row(value[0], getattr(rowobj, key), value[1]) else: self.assert_(getattr(rowobj, key) == value, "attribute %s value %s does not match %s" % ( key, getattr(rowobj, key), value)) def assert_unordered_result(self, result, cls, *expected): """As assert_result, but the order of objects is not considered. The algorithm is very expensive but not a big deal for the small numbers of rows that the test suite manipulates. """ class frozendict(dict): def __hash__(self): return id(self) found = util.IdentitySet(result) expected = set([frozendict(e) for e in expected]) for wrong in itertools.ifilterfalse(lambda o: type(o) == cls, found): fail('Unexpected type "%s", expected "%s"' % ( type(wrong).__name__, cls.__name__)) if len(found) != len(expected): fail('Unexpected object count "%s", expected "%s"' % ( len(found), len(expected))) NOVALUE = object() def _compare_item(obj, spec): for key, value in spec.iteritems(): if isinstance(value, tuple): try: self.assert_unordered_result( getattr(obj, key), value[0], *value[1]) except AssertionError: return False else: if getattr(obj, key, NOVALUE) != value: return False return True for expected_item in expected: for found_item in found: if _compare_item(found_item, expected_item): found.remove(found_item) break else: fail( "Expected %s instance with attributes %s not found." % ( cls.__name__, repr(expected_item))) return True def assert_sql_execution(self, db, callable_, *rules): assertsql.asserter.add_rules(rules) try: callable_() assertsql.asserter.statement_complete() finally: assertsql.asserter.clear_rules() def assert_sql(self, db, callable_, list_, with_sequences=None): if with_sequences is not None and config.db.name in ('firebird', 'oracle', 'postgres'): rules = with_sequences else: rules = list_ newrules = [] for rule in rules: if isinstance(rule, dict): newrule = assertsql.AllOf(*[ assertsql.ExactSQL(k, v) for k, v in rule.iteritems() ]) else: newrule = assertsql.ExactSQL(*rule) newrules.append(newrule) self.assert_sql_execution(db, callable_, *newrules) def assert_sql_count(self, db, callable_, count): self.assert_sql_execution(db, callable_, assertsql.CountStatements(count))