%PDF- %PDF-
Direktori : /proc/self/root/opt/alt/python37/lib/python3.7/site-packages/alembic/testing/ |
Current File : //proc/self/root/opt/alt/python37/lib/python3.7/site-packages/alembic/testing/exclusions.py |
# testing/exclusions.py # Copyright (C) 2005-2014 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php """NOTE: copied/adapted from SQLAlchemy master for backwards compatibility; this should be removable when Alembic targets SQLAlchemy 1.0.0 """ import operator from .plugin.plugin_base import SkipTest from sqlalchemy.util import decorator from . import config from sqlalchemy import util from ..util import compat import inspect import contextlib from .compat import get_url_driver_name, get_url_backend_name def skip_if(predicate, reason=None): rule = compound() pred = _as_predicate(predicate, reason) rule.skips.add(pred) return rule def fails_if(predicate, reason=None): rule = compound() pred = _as_predicate(predicate, reason) rule.fails.add(pred) return rule class compound(object): def __init__(self): self.fails = set() self.skips = set() self.tags = set() def __add__(self, other): return self.add(other) def add(self, *others): copy = compound() copy.fails.update(self.fails) copy.skips.update(self.skips) copy.tags.update(self.tags) for other in others: copy.fails.update(other.fails) copy.skips.update(other.skips) copy.tags.update(other.tags) return copy def not_(self): copy = compound() copy.fails.update(NotPredicate(fail) for fail in self.fails) copy.skips.update(NotPredicate(skip) for skip in self.skips) copy.tags.update(self.tags) return copy @property def enabled(self): return self.enabled_for_config(config._current) def enabled_for_config(self, config): for predicate in self.skips.union(self.fails): if predicate(config): return False else: return True def matching_config_reasons(self, config): return [ predicate._as_string(config) for predicate in self.skips.union(self.fails) if predicate(config) ] def include_test(self, include_tags, exclude_tags): return bool( not self.tags.intersection(exclude_tags) and (not include_tags or self.tags.intersection(include_tags)) ) def _extend(self, other): self.skips.update(other.skips) self.fails.update(other.fails) self.tags.update(other.tags) def __call__(self, fn): if hasattr(fn, '_sa_exclusion_extend'): fn._sa_exclusion_extend._extend(self) return fn @decorator def decorate(fn, *args, **kw): return self._do(config._current, fn, *args, **kw) decorated = decorate(fn) decorated._sa_exclusion_extend = self return decorated @contextlib.contextmanager def fail_if(self): all_fails = compound() all_fails.fails.update(self.skips.union(self.fails)) try: yield except Exception as ex: all_fails._expect_failure(config._current, ex) else: all_fails._expect_success(config._current) def _do(self, config, fn, *args, **kw): for skip in self.skips: if skip(config): msg = "'%s' : %s" % ( fn.__name__, skip._as_string(config) ) raise SkipTest(msg) try: return_value = fn(*args, **kw) except Exception as ex: self._expect_failure(config, ex, name=fn.__name__) else: self._expect_success(config, name=fn.__name__) return return_value def _expect_failure(self, config, ex, name='block'): for fail in self.fails: if fail(config): print(("%s failed as expected (%s): %s " % ( name, fail._as_string(config), str(ex)))) break else: compat.raise_from_cause(ex) def _expect_success(self, config, name='block'): if not self.fails: return for fail in self.fails: if not fail(config): break else: raise AssertionError( "Unexpected success for '%s' (%s)" % ( name, " and ".join( fail._as_string(config) for fail in self.fails ) ) ) def requires_tag(tagname): return tags([tagname]) def tags(tagnames): comp = compound() comp.tags.update(tagnames) return comp def only_if(predicate, reason=None): predicate = _as_predicate(predicate) return skip_if(NotPredicate(predicate), reason) def succeeds_if(predicate, reason=None): predicate = _as_predicate(predicate) return fails_if(NotPredicate(predicate), reason) class Predicate(object): @classmethod def as_predicate(cls, predicate, description=None): if isinstance(predicate, compound): return cls.as_predicate(predicate.fails.union(predicate.skips)) elif isinstance(predicate, Predicate): if description and predicate.description is None: predicate.description = description return predicate elif isinstance(predicate, (list, set)): return OrPredicate( [cls.as_predicate(pred) for pred in predicate], description) elif isinstance(predicate, tuple): return SpecPredicate(*predicate) elif isinstance(predicate, compat.string_types): tokens = predicate.split(" ", 2) op = spec = None db = tokens.pop(0) if tokens: op = tokens.pop(0) if tokens: spec = tuple(int(d) for d in tokens.pop(0).split(".")) return SpecPredicate(db, op, spec, description=description) elif util.callable(predicate): return LambdaPredicate(predicate, description) else: assert False, "unknown predicate type: %s" % predicate def _format_description(self, config, negate=False): bool_ = self(config) if negate: bool_ = not negate return self.description % { "driver": get_url_driver_name(config.db.url), "database": get_url_backend_name(config.db.url), "doesnt_support": "doesn't support" if bool_ else "does support", "does_support": "does support" if bool_ else "doesn't support" } def _as_string(self, config=None, negate=False): raise NotImplementedError() class BooleanPredicate(Predicate): def __init__(self, value, description=None): self.value = value self.description = description or "boolean %s" % value def __call__(self, config): return self.value def _as_string(self, config, negate=False): return self._format_description(config, negate=negate) class SpecPredicate(Predicate): def __init__(self, db, op=None, spec=None, description=None): self.db = db self.op = op self.spec = spec self.description = description _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], } def __call__(self, config): engine = config.db if "+" in self.db: dialect, driver = self.db.split('+') else: dialect, driver = self.db, None if dialect and engine.name != dialect: return False if driver is not None and engine.driver != driver: return False if self.op is not None: assert driver is None, "DBAPI version specs not supported yet" version = _server_version(engine) oper = hasattr(self.op, '__call__') and self.op \ or self._ops[self.op] return oper(version, self.spec) else: return True def _as_string(self, config, negate=False): if self.description is not None: return self._format_description(config) elif self.op is None: if negate: return "not %s" % self.db else: return "%s" % self.db else: if negate: return "not %s %s %s" % ( self.db, self.op, self.spec ) else: return "%s %s %s" % ( self.db, self.op, self.spec ) class LambdaPredicate(Predicate): def __init__(self, lambda_, description=None, args=None, kw=None): spec = inspect.getargspec(lambda_) if not spec[0]: self.lambda_ = lambda db: lambda_() else: self.lambda_ = lambda_ self.args = args or () self.kw = kw or {} if description: self.description = description elif lambda_.__doc__: self.description = lambda_.__doc__ else: self.description = "custom function" def __call__(self, config): return self.lambda_(config) def _as_string(self, config, negate=False): return self._format_description(config) class NotPredicate(Predicate): def __init__(self, predicate, description=None): self.predicate = predicate self.description = description def __call__(self, config): return not self.predicate(config) def _as_string(self, config, negate=False): if self.description: return self._format_description(config, not negate) else: return self.predicate._as_string(config, not negate) class OrPredicate(Predicate): def __init__(self, predicates, description=None): self.predicates = predicates self.description = description def __call__(self, config): for pred in self.predicates: if pred(config): return True return False def _eval_str(self, config, negate=False): if negate: conjunction = " and " else: conjunction = " or " return conjunction.join(p._as_string(config, negate=negate) for p in self.predicates) def _negation_str(self, config): if self.description is not None: return "Not " + self._format_description(config) else: return self._eval_str(config, negate=True) def _as_string(self, config, negate=False): if negate: return self._negation_str(config) else: if self.description is not None: return self._format_description(config) else: return self._eval_str(config) _as_predicate = Predicate.as_predicate def _is_excluded(db, op, spec): return SpecPredicate(db, op, spec)(config._current) def _server_version(engine): """Return a server_version_info tuple.""" # force metadata to be retrieved conn = engine.connect() version = getattr(engine.dialect, 'server_version_info', ()) conn.close() return version def db_spec(*dbs): return OrPredicate( [Predicate.as_predicate(db) for db in dbs] ) def open(): return skip_if(BooleanPredicate(False, "mark as execute")) def closed(): return skip_if(BooleanPredicate(True, "marked as skip")) def fails(): return fails_if(BooleanPredicate(True, "expected to fail")) @decorator def future(fn, *arg): return fails_if(LambdaPredicate(fn), "Future feature") def fails_on(db, reason=None): return fails_if(SpecPredicate(db), reason) def fails_on_everything_except(*dbs): return succeeds_if( OrPredicate([ SpecPredicate(db) for db in dbs ]) ) def skip(db, reason=None): return skip_if(SpecPredicate(db), reason) def only_on(dbs, reason=None): return only_if( OrPredicate([SpecPredicate(db) for db in util.to_list(dbs)]) ) def exclude(db, op, spec, reason=None): return skip_if(SpecPredicate(db, op, spec), reason) def against(config, *queries): assert queries, "no queries sent!" return OrPredicate([ Predicate.as_predicate(query) for query in queries ])(config)