openmedialibrary_platform_d.../lib/python3.5/site-packages/sqlalchemy/testing/util.py

# testing/util.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

from ..util import jython, pypy, defaultdict, decorator, py2k
import decimal
import gc
import time
import random
import sys
import types

if jython:
    def jython_gc_collect(*args):
        """aggressive gc.collect for tests."""
        gc.collect()
        time.sleep(0.1)
        gc.collect()
        gc.collect()
        return 0

    # "lazy" gc, for VM's that don't GC on refcount == 0
    gc_collect = lazy_gc = jython_gc_collect
elif pypy:
    def pypy_gc_collect(*args):
        gc.collect()
        gc.collect()
    gc_collect = lazy_gc = pypy_gc_collect
else:
    # assume CPython - straight gc.collect, lazy_gc() is a pass
    gc_collect = gc.collect

    def lazy_gc():
        pass


def picklers():
    picklers = set()
    if py2k:
        try:
            import cPickle
            picklers.add(cPickle)
        except ImportError:
            pass

    import pickle
    picklers.add(pickle)

    # yes, this thing needs this much testing
    for pickle_ in picklers:
        for protocol in -1, 0, 1, 2:
            yield pickle_.loads, lambda d: pickle_.dumps(d, protocol)


def round_decimal(value, prec):
    if isinstance(value, float):
        return round(value, prec)

    # can also use shift() here but that is 2.6 only
    return (value * decimal.Decimal("1" + "0" * prec)
            ).to_integral(decimal.ROUND_FLOOR) / \
        pow(10, prec)


class RandomSet(set):
    def __iter__(self):
        l = list(set.__iter__(self))
        random.shuffle(l)
        return iter(l)

    def pop(self):
        index = random.randint(0, len(self) - 1)
        item = list(set.__iter__(self))[index]
        self.remove(item)
        return item

    def union(self, other):
        return RandomSet(set.union(self, other))

    def difference(self, other):
        return RandomSet(set.difference(self, other))

    def intersection(self, other):
        return RandomSet(set.intersection(self, other))

    def copy(self):
        return RandomSet(self)


def conforms_partial_ordering(tuples, sorted_elements):
    """True if the given sorting conforms to the given partial ordering."""

    deps = defaultdict(set)
    for parent, child in tuples:
        deps[parent].add(child)
    for i, node in enumerate(sorted_elements):
        for n in sorted_elements[i:]:
            if node in deps[n]:
                return False
    else:
        return True


def all_partial_orderings(tuples, elements):
    edges = defaultdict(set)
    for parent, child in tuples:
        edges[child].add(parent)

    def _all_orderings(elements):

        if len(elements) == 1:
            yield list(elements)
        else:
            for elem in elements:
                subset = set(elements).difference([elem])
                if not subset.intersection(edges[elem]):
                    for sub_ordering in _all_orderings(subset):
                        yield [elem] + sub_ordering

    return iter(_all_orderings(elements))


def function_named(fn, name):
    """Return a function with a given __name__.

    Will assign to __name__ and return the original function if possible on
    the Python implementation, otherwise a new function will be constructed.

    This function should be phased out as much as possible
    in favor of @decorator.   Tests that "generate" many named tests
    should be modernized.

    """
    try:
        fn.__name__ = name
    except TypeError:
        fn = types.FunctionType(fn.__code__, fn.__globals__, name,
                                fn.__defaults__, fn.__closure__)
    return fn


def run_as_contextmanager(ctx, fn, *arg, **kw):
    """Run the given function under the given contextmanager,
    simulating the behavior of 'with' to support older
    Python versions.

    """

    obj = ctx.__enter__()
    try:
        result = fn(obj, *arg, **kw)
        ctx.__exit__(None, None, None)
        return result
    except:
        exc_info = sys.exc_info()
        raise_ = ctx.__exit__(*exc_info)
        if raise_ is None:
            raise
        else:
            return raise_


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 fail(msg):
    assert False, msg


@decorator
def provide_metadata(fn, *args, **kw):
    """Provide bound MetaData for a single test, dropping afterwards."""

    from . import config
    from sqlalchemy import schema

    metadata = schema.MetaData(config.db)
    self = args[0]
    prev_meta = getattr(self, 'metadata', None)
    self.metadata = metadata
    try:
        return fn(*args, **kw)
    finally:
        metadata.drop_all()
        self.metadata = prev_meta


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])
split platform 2016-02-06 09:36:57 +00:00			`# testing/util.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`

			`from ..util import jython, pypy, defaultdict, decorator, py2k`
			`import decimal`
			`import gc`
			`import time`
			`import random`
			`import sys`
			`import types`

			`if jython:`
			`def jython_gc_collect(*args):`
			`"""aggressive gc.collect for tests."""`
			`gc.collect()`
			`time.sleep(0.1)`
			`gc.collect()`
			`gc.collect()`
			`return 0`

			`# "lazy" gc, for VM's that don't GC on refcount == 0`
			`gc_collect = lazy_gc = jython_gc_collect`
			`elif pypy:`
			`def pypy_gc_collect(*args):`
			`gc.collect()`
			`gc.collect()`
			`gc_collect = lazy_gc = pypy_gc_collect`
			`else:`
			`# assume CPython - straight gc.collect, lazy_gc() is a pass`
			`gc_collect = gc.collect`

			`def lazy_gc():`
			`pass`


			`def picklers():`
			`picklers = set()`
			`if py2k:`
			`try:`
			`import cPickle`
			`picklers.add(cPickle)`
			`except ImportError:`
			`pass`

			`import pickle`
			`picklers.add(pickle)`

			`# yes, this thing needs this much testing`
			`for pickle_ in picklers:`
			`for protocol in -1, 0, 1, 2:`
			`yield pickle_.loads, lambda d: pickle_.dumps(d, protocol)`


			`def round_decimal(value, prec):`
			`if isinstance(value, float):`
			`return round(value, prec)`

			`# can also use shift() here but that is 2.6 only`
			`return (value * decimal.Decimal("1" + "0" * prec)`
			`).to_integral(decimal.ROUND_FLOOR) / \`
			`pow(10, prec)`


			`class RandomSet(set):`
			`def __iter__(self):`
			`l = list(set.__iter__(self))`
			`random.shuffle(l)`
			`return iter(l)`

			`def pop(self):`
			`index = random.randint(0, len(self) - 1)`
			`item = list(set.__iter__(self))[index]`
			`self.remove(item)`
			`return item`

			`def union(self, other):`
			`return RandomSet(set.union(self, other))`

			`def difference(self, other):`
			`return RandomSet(set.difference(self, other))`

			`def intersection(self, other):`
			`return RandomSet(set.intersection(self, other))`

			`def copy(self):`
			`return RandomSet(self)`


			`def conforms_partial_ordering(tuples, sorted_elements):`
			`"""True if the given sorting conforms to the given partial ordering."""`

			`deps = defaultdict(set)`
			`for parent, child in tuples:`
			`deps[parent].add(child)`
			`for i, node in enumerate(sorted_elements):`
			`for n in sorted_elements[i:]:`
			`if node in deps[n]:`
			`return False`
			`else:`
			`return True`


			`def all_partial_orderings(tuples, elements):`
			`edges = defaultdict(set)`
			`for parent, child in tuples:`
			`edges[child].add(parent)`

			`def _all_orderings(elements):`

			`if len(elements) == 1:`
			`yield list(elements)`
			`else:`
			`for elem in elements:`
			`subset = set(elements).difference([elem])`
			`if not subset.intersection(edges[elem]):`
			`for sub_ordering in _all_orderings(subset):`
			`yield [elem] + sub_ordering`

			`return iter(_all_orderings(elements))`


			`def function_named(fn, name):`
			`"""Return a function with a given __name__.`

			`Will assign to __name__ and return the original function if possible on`
			`the Python implementation, otherwise a new function will be constructed.`

			`This function should be phased out as much as possible`
			`in favor of @decorator. Tests that "generate" many named tests`
			`should be modernized.`

			`"""`
			`try:`
			`fn.__name__ = name`
			`except TypeError:`
			`fn = types.FunctionType(fn.__code__, fn.__globals__, name,`
			`fn.__defaults__, fn.__closure__)`
			`return fn`


			`def run_as_contextmanager(ctx, fn, arg, *kw):`
			`"""Run the given function under the given contextmanager,`
			`simulating the behavior of 'with' to support older`
			`Python versions.`

			`"""`

			`obj = ctx.__enter__()`
			`try:`
			`result = fn(obj, arg, *kw)`
			`ctx.__exit__(None, None, None)`
			`return result`
			`except:`
			`exc_info = sys.exc_info()`
			`raise_ = ctx.__exit__(*exc_info)`
			`if raise_ is None:`
			`raise`
			`else:`
			`return raise_`


			`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 fail(msg):`
			`assert False, msg`


			`@decorator`
			`def provide_metadata(fn, args, *kw):`
			`"""Provide bound MetaData for a single test, dropping afterwards."""`

			`from . import config`
			`from sqlalchemy import schema`

			`metadata = schema.MetaData(config.db)`
			`self = args[0]`
			`prev_meta = getattr(self, 'metadata', None)`
			`self.metadata = metadata`
			`try:`
			`return fn(args, *kw)`
			`finally:`
			`metadata.drop_all()`
			`self.metadata = prev_meta`


			`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])`