0UT1S's

# testing/exclusions.py
# Copyright (C) 2005-2025 the SQLAlchemy authors and contributors
# <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: https://www.opensource.org/licenses/mit-license.php
# mypy: ignore-errors

import contextlib
import operator
import re
import sys

from . import config
from .. import util
from ..util import decorator
from ..util.compat import inspect_getfullargspec

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:
    def __init__(self):
        self.fails = set()
        self.skips = set()

def __add__(self, other):
        return self.add(other)

def as_skips(self):
        rule = compound()
        rule.skips.update(self.skips)
        rule.skips.update(self.fails)
        return rule

def add(self, *others):
        copy = compound()
        copy.fails.update(self.fails)
        copy.skips.update(self.skips)

for other in others:
            copy.fails.update(other.fails)
            copy.skips.update(other.skips)
        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)
        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 _extend(self, other):
        self.skips.update(other.skips)
        self.fails.update(other.fails)

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, cfg, fn, *args, **kw):
        for skip in self.skips:
            if skip(cfg):
                msg = "'%s' : %s" % (
                    config.get_current_test_name(),
                    skip._as_string(cfg),
                )
                config.skip_test(msg)

try:
            return_value = fn(*args, **kw)
        except Exception as ex:
            self._expect_failure(cfg, ex, name=fn.__name__)
        else:
            self._expect_success(cfg, 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), ex)
                )
                break
        else:
            raise ex.with_traceback(sys.exc_info()[2])

def _expect_success(self, config, name="block"):
        if not self.fails:
            return

for fail in self.fails:
            if fail(config):
                raise AssertionError(
                    "Unexpected success for '%s' (%s)"
                    % (
                        name,
                        " and ".join(
                            fail._as_string(config) for fail in self.fails
                        ),
                    )
                )

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:
    @classmethod
    def as_predicate(cls, predicate, description=None):
        if isinstance(predicate, compound):
            return cls.as_predicate(predicate.enabled_for_config, description)
        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, str):
            tokens = re.match(
                r"([\+\w]+)\s*(?:(>=|==|!=|<=|<|>)\s*([\d\.]+))?", predicate
            )
            if not tokens:
                raise ValueError(
                    "Couldn't locate DB name in predicate: %r" % predicate
                )
            db = tokens.group(1)
            op = tokens.group(2)
            spec = (
                tuple(int(d) for d in tokens.group(3).split("."))
                if tokens.group(3)
                else None
            )

return SpecPredicate(db, op, spec, description=description)
        elif 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": (
                config.db.url.get_driver_name() if config else "<no driver>"
            ),
            "database": (
                config.db.url.get_backend_name() if config else "<no database>"
            ),
            "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):
        if config is None:
            return False

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_getfullargspec(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", None)
    if version is None:
        version = ()
    conn.close()
    return version

def db_spec(*dbs):
    return OrPredicate([Predicate.as_predicate(db) for db in dbs])

def open():  # noqa
    return skip_if(BooleanPredicate(False, "mark as execute"))

def closed():
    return skip_if(BooleanPredicate(True, "marked as skip"))

def fails(reason=None):
    return fails_if(BooleanPredicate(True, reason or "expected to fail"))

def future():
    return fails_if(BooleanPredicate(True, "Future feature"))

def fails_on(db, reason=None):
    return fails_if(db, reason)

def fails_on_everything_except(*dbs):
    return succeeds_if(OrPredicate([Predicate.as_predicate(db) for db in dbs]))

def skip(db, reason=None):
    return skip_if(db, reason)

def only_on(dbs, reason=None):
    return only_if(
        OrPredicate(
            [Predicate.as_predicate(db, reason) 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
    )

By Order of Mr.0UT1S