197 lines
5.6 KiB
Python
197 lines
5.6 KiB
Python
"""
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Testing strategies for Hypothesis-based tests.
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"""
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import keyword
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import string
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from collections import OrderedDict
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from hypothesis import strategies as st
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import attr
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from .utils import make_class
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optional_bool = st.one_of(st.none(), st.booleans())
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def gen_attr_names():
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"""
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Generate names for attributes, 'a'...'z', then 'aa'...'zz'.
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~702 different attribute names should be enough in practice.
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Some short strings (such as 'as') are keywords, so we skip them.
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"""
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lc = string.ascii_lowercase
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for c in lc:
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yield c
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for outer in lc:
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for inner in lc:
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res = outer + inner
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if keyword.iskeyword(res):
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continue
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yield outer + inner
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def maybe_underscore_prefix(source):
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"""
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A generator to sometimes prepend an underscore.
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"""
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to_underscore = False
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for val in source:
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yield val if not to_underscore else "_" + val
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to_underscore = not to_underscore
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@st.composite
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def _create_hyp_nested_strategy(draw, simple_class_strategy):
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"""
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Create a recursive attrs class.
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Given a strategy for building (simpler) classes, create and return
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a strategy for building classes that have as an attribute: either just
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the simpler class, a list of simpler classes, a tuple of simpler classes,
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an ordered dict or a dict mapping the string "cls" to a simpler class.
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"""
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cls = draw(simple_class_strategy)
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factories = [
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cls,
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lambda: [cls()],
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lambda: (cls(),),
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lambda: {"cls": cls()},
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lambda: OrderedDict([("cls", cls())]),
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]
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factory = draw(st.sampled_from(factories))
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attrs = draw(list_of_attrs) + [attr.ib(default=attr.Factory(factory))]
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return make_class("HypClass", dict(zip(gen_attr_names(), attrs)))
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bare_attrs = st.builds(attr.ib, default=st.none())
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int_attrs = st.integers().map(lambda i: attr.ib(default=i))
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str_attrs = st.text().map(lambda s: attr.ib(default=s))
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float_attrs = st.floats().map(lambda f: attr.ib(default=f))
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dict_attrs = st.dictionaries(keys=st.text(), values=st.integers()).map(
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lambda d: attr.ib(default=d)
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)
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simple_attrs_without_metadata = (
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bare_attrs | int_attrs | str_attrs | float_attrs | dict_attrs
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)
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@st.composite
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def simple_attrs_with_metadata(draw):
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"""
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Create a simple attribute with arbitrary metadata.
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"""
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c_attr = draw(simple_attrs)
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keys = st.booleans() | st.binary() | st.integers() | st.text()
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vals = st.booleans() | st.binary() | st.integers() | st.text()
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metadata = draw(
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st.dictionaries(keys=keys, values=vals, min_size=1, max_size=3)
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)
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return attr.ib(
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default=c_attr._default,
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validator=c_attr._validator,
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repr=c_attr.repr,
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eq=c_attr.eq,
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order=c_attr.order,
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hash=c_attr.hash,
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init=c_attr.init,
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metadata=metadata,
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type=None,
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converter=c_attr.converter,
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)
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simple_attrs = simple_attrs_without_metadata | simple_attrs_with_metadata()
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# Python functions support up to 255 arguments.
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list_of_attrs = st.lists(simple_attrs, max_size=3)
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@st.composite
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def simple_classes(
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draw, slots=None, frozen=None, weakref_slot=None, private_attrs=None
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):
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"""
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A strategy that generates classes with default non-attr attributes.
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For example, this strategy might generate a class such as:
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@attr.s(slots=True, frozen=True, weakref_slot=True)
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class HypClass:
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a = attr.ib(default=1)
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_b = attr.ib(default=None)
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c = attr.ib(default='text')
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_d = attr.ib(default=1.0)
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c = attr.ib(default={'t': 1})
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By default, all combinations of slots, frozen, and weakref_slot classes
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will be generated. If `slots=True` is passed in, only slotted classes will
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be generated, and if `slots=False` is passed in, no slotted classes will be
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generated. The same applies to `frozen` and `weakref_slot`.
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By default, some attributes will be private (i.e. prefixed with an
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underscore). If `private_attrs=True` is passed in, all attributes will be
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private, and if `private_attrs=False`, no attributes will be private.
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"""
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attrs = draw(list_of_attrs)
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frozen_flag = draw(st.booleans())
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slots_flag = draw(st.booleans())
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weakref_flag = draw(st.booleans())
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if private_attrs is None:
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attr_names = maybe_underscore_prefix(gen_attr_names())
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elif private_attrs is True:
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attr_names = ("_" + n for n in gen_attr_names())
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elif private_attrs is False:
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attr_names = gen_attr_names()
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cls_dict = dict(zip(attr_names, attrs))
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pre_init_flag = draw(st.booleans())
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post_init_flag = draw(st.booleans())
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init_flag = draw(st.booleans())
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if pre_init_flag:
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def pre_init(self):
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pass
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cls_dict["__attrs_pre_init__"] = pre_init
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if post_init_flag:
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def post_init(self):
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pass
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cls_dict["__attrs_post_init__"] = post_init
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if not init_flag:
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def init(self, *args, **kwargs):
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self.__attrs_init__(*args, **kwargs)
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cls_dict["__init__"] = init
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return make_class(
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"HypClass",
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cls_dict,
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slots=slots_flag if slots is None else slots,
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frozen=frozen_flag if frozen is None else frozen,
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weakref_slot=weakref_flag if weakref_slot is None else weakref_slot,
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init=init_flag,
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)
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# st.recursive works by taking a base strategy (in this case, simple_classes)
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# and a special function. This function receives a strategy, and returns
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# another strategy (building on top of the base strategy).
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nested_classes = st.recursive(
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simple_classes(), _create_hyp_nested_strategy, max_leaves=3
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)
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