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from collections.abc import Hashable
import math
import pickle
import pytest
import uuid
from pyrsistent import (
field, InvariantException, PClass, optional, CheckedPVector,
pmap_field, pset_field, pvector_field)
class Point(PClass):
x = field(type=int, mandatory=True, invariant=lambda x: (x >= 0, 'X negative'))
y = field(type=int, serializer=lambda formatter, y: formatter(y))
z = field(type=int, initial=0)
class Hierarchy(PClass):
point = field(type=Point)
class TypedContainerObj(PClass):
map = pmap_field(str, str)
set = pset_field(str)
vec = pvector_field(str)
class UniqueThing(PClass):
id = field(type=uuid.UUID, factory=uuid.UUID)
x = field(type=int)
def test_create_ignore_extra():
p = Point.create({'x': 5, 'y': 10, 'z': 15, 'a': 0}, ignore_extra=True)
assert p.x == 5
assert p.y == 10
assert p.z == 15
assert isinstance(p, Point)
def test_create_ignore_extra_false():
with pytest.raises(AttributeError):
_ = Point.create({'x': 5, 'y': 10, 'z': 15, 'a': 0})
def test_create_ignore_extra_true():
h = Hierarchy.create(
{'point': {'x': 5, 'y': 10, 'z': 15, 'extra_field_0': 'extra_data_0'}, 'extra_field_1': 'extra_data_1'},
ignore_extra=True)
assert isinstance(h, Hierarchy)
def test_evolve_pclass_instance():
p = Point(x=1, y=2)
p2 = p.set(x=p.x+2)
# Original remains
assert p.x == 1
assert p.y == 2
# Evolved object updated
assert p2.x == 3
assert p2.y == 2
p3 = p2.set('x', 4)
assert p3.x == 4
assert p3.y == 2
def test_direct_assignment_not_possible():
p = Point(x=1, y=2)
with pytest.raises(AttributeError):
p.x = 1
with pytest.raises(AttributeError):
setattr(p, 'x', 1)
def test_direct_delete_not_possible():
p = Point(x=1, y=2)
with pytest.raises(AttributeError):
del p.x
with pytest.raises(AttributeError):
delattr(p, 'x')
def test_cannot_construct_with_undeclared_fields():
with pytest.raises(AttributeError):
Point(x=1, p=5)
def test_cannot_construct_with_wrong_type():
with pytest.raises(TypeError):
Point(x='a')
def test_cannot_construct_without_mandatory_fields():
try:
Point(y=1)
assert False
except InvariantException as e:
assert "[Point.x]" in str(e)
def test_field_invariant_must_hold():
try:
Point(x=-1)
assert False
except InvariantException as e:
assert "X negative" in str(e)
def test_initial_value_set_when_not_present_in_arguments():
p = Point(x=1, y=2)
assert p.z == 0
class Line(PClass):
p1 = field(type=Point)
p2 = field(type=Point)
def test_can_create_nested_structures_from_dict_and_serialize_back_to_dict():
source = dict(p1=dict(x=1, y=2, z=3), p2=dict(x=10, y=20, z=30))
l = Line.create(source)
assert l.p1.x == 1
assert l.p1.y == 2
assert l.p1.z == 3
assert l.p2.x == 10
assert l.p2.y == 20
assert l.p2.z == 30
assert l.serialize(format=lambda val: val) == source
def test_can_serialize_with_custom_serializer():
p = Point(x=1, y=1, z=1)
assert p.serialize(format=lambda v: v + 17) == {'x': 1, 'y': 18, 'z': 1}
def test_implements_proper_equality_based_on_equality_of_fields():
p1 = Point(x=1, y=2)
p2 = Point(x=3)
p3 = Point(x=1, y=2)
assert p1 == p3
assert not p1 != p3
assert p1 != p2
assert not p1 == p2
def test_is_hashable():
p1 = Point(x=1, y=2)
p2 = Point(x=3, y=2)
d = {p1: 'A point', p2: 'Another point'}
p1_like = Point(x=1, y=2)
p2_like = Point(x=3, y=2)
assert isinstance(p1, Hashable)
assert d[p1_like] == 'A point'
assert d[p2_like] == 'Another point'
assert Point(x=10) not in d
def test_supports_nested_transformation():
l1 = Line(p1=Point(x=2, y=1), p2=Point(x=20, y=10))
l2 = l1.transform(['p1', 'x'], 3)
assert l1.p1.x == 2
assert l2.p1.x == 3
assert l2.p1.y == 1
assert l2.p2.x == 20
assert l2.p2.y == 10
def test_repr():
class ARecord(PClass):
a = field()
b = field()
assert repr(ARecord(a=1, b=2)) in ('ARecord(a=1, b=2)', 'ARecord(b=2, a=1)')
def test_global_invariant_check():
class UnitCirclePoint(PClass):
__invariant__ = lambda cp: (0.99 < math.sqrt(cp.x*cp.x + cp.y*cp.y) < 1.01,
"Point not on unit circle")
x = field(type=float)
y = field(type=float)
UnitCirclePoint(x=1.0, y=0.0)
with pytest.raises(InvariantException):
UnitCirclePoint(x=1.0, y=1.0)
def test_supports_pickling():
p1 = Point(x=2, y=1)
p2 = pickle.loads(pickle.dumps(p1, -1))
assert p1 == p2
assert isinstance(p2, Point)
def test_supports_pickling_with_typed_container_fields():
obj = TypedContainerObj(map={'foo': 'bar'}, set=['hello', 'there'], vec=['a', 'b'])
obj2 = pickle.loads(pickle.dumps(obj))
assert obj == obj2
def test_can_remove_optional_member():
p1 = Point(x=1, y=2)
p2 = p1.remove('y')
assert p2 == Point(x=1)
def test_cannot_remove_mandatory_member():
p1 = Point(x=1, y=2)
with pytest.raises(InvariantException):
p1.remove('x')
def test_cannot_remove_non_existing_member():
p1 = Point(x=1)
with pytest.raises(AttributeError):
p1.remove('y')
def test_evolver_without_evolution_returns_original_instance():
p1 = Point(x=1)
e = p1.evolver()
assert e.persistent() is p1
def test_evolver_with_evolution_to_same_element_returns_original_instance():
p1 = Point(x=1)
e = p1.evolver()
e.set('x', p1.x)
assert e.persistent() is p1
def test_evolver_supports_chained_set_and_remove():
p1 = Point(x=1, y=2)
assert p1.evolver().set('x', 3).remove('y').persistent() == Point(x=3)
def test_evolver_supports_dot_notation_for_setting_and_getting_elements():
e = Point(x=1, y=2).evolver()
e.x = 3
assert e.x == 3
assert e.persistent() == Point(x=3, y=2)
class Numbers(CheckedPVector):
__type__ = int
class LinkedList(PClass):
value = field(type='__tests__.class_test.Numbers')
next = field(type=optional('__tests__.class_test.LinkedList'))
def test_string_as_type_specifier():
l = LinkedList(value=[1, 2], next=LinkedList(value=[3, 4], next=None))
assert isinstance(l.value, Numbers)
assert list(l.value) == [1, 2]
assert l.next.next is None
def test_multiple_invariants_on_field():
# If the invariant returns a list of tests the results of running those tests will be
# a tuple containing result data of all failing tests.
class MultiInvariantField(PClass):
one = field(type=int, invariant=lambda x: ((False, 'one_one'),
(False, 'one_two'),
(True, 'one_three')))
two = field(invariant=lambda x: (False, 'two_one'))
try:
MultiInvariantField(one=1, two=2)
assert False
except InvariantException as e:
assert set(e.invariant_errors) == set([('one_one', 'one_two'), 'two_one'])
def test_multiple_global_invariants():
class MultiInvariantGlobal(PClass):
__invariant__ = lambda self: ((False, 'x'), (False, 'y'))
one = field()
try:
MultiInvariantGlobal(one=1)
assert False
except InvariantException as e:
assert e.invariant_errors == (('x', 'y'),)
def test_inherited_global_invariants():
class Distant(object):
def __invariant__(self):
return [(self.distant, "distant")]
class Nearby(Distant):
def __invariant__(self):
return [(self.nearby, "nearby")]
class MultipleInvariantGlobal(Nearby, PClass):
distant = field()
nearby = field()
try:
MultipleInvariantGlobal(distant=False, nearby=False)
assert False
except InvariantException as e:
assert e.invariant_errors == (("nearby",), ("distant",),)
def test_diamond_inherited_global_invariants():
counter = []
class Base(object):
def __invariant__(self):
counter.append(None)
return [(False, "base")]
class Left(Base):
pass
class Right(Base):
pass
class SingleInvariantGlobal(Left, Right, PClass):
pass
try:
SingleInvariantGlobal()
assert False
except InvariantException as e:
assert e.invariant_errors == (("base",),)
assert counter == [None]
def test_supports_weakref():
import weakref
weakref.ref(Point(x=1, y=2))
def test_supports_weakref_with_multi_level_inheritance():
import weakref
class PPoint(Point):
a = field()
weakref.ref(PPoint(x=1, y=2))
def test_supports_lazy_initial_value_for_field():
class MyClass(PClass):
a = field(int, initial=lambda: 2)
assert MyClass() == MyClass(a=2)
def test_type_checks_lazy_initial_value_for_field():
class MyClass(PClass):
a = field(int, initial=lambda: "a")
with pytest.raises(TypeError):
MyClass()
def test_invariant_checks_lazy_initial_value_for_field():
class MyClass(PClass):
a = field(int, invariant=lambda x: (x < 5, "Too large"), initial=lambda: 10)
with pytest.raises(InvariantException):
MyClass()
def test_invariant_checks_static_initial_value():
class MyClass(PClass):
a = field(int, invariant=lambda x: (x < 5, "Too large"), initial=10)
with pytest.raises(InvariantException):
MyClass()
def test_lazy_invariant_message():
class MyClass(PClass):
a = field(int, invariant=lambda x: (x < 5, lambda: "{x} is too large".format(x=x)))
try:
MyClass(a=5)
assert False
except InvariantException as e:
assert '5 is too large' in e.invariant_errors
def test_enum_key_type():
import enum
class Foo(enum.Enum):
Bar = 1
Baz = 2
# This currently fails because the enum is iterable
class MyClass1(PClass):
f = pmap_field(key_type=Foo, value_type=int)
MyClass1()
# This is OK since it's wrapped in a tuple
class MyClass2(PClass):
f = pmap_field(key_type=(Foo,), value_type=int)
MyClass2()
def test_pickle_with_one_way_factory():
thing = UniqueThing(id='25544626-86da-4bce-b6b6-9186c0804d64')
assert pickle.loads(pickle.dumps(thing)) == thing
def test_evolver_with_one_way_factory():
thing = UniqueThing(id='cc65249a-56fe-4995-8719-ea02e124b234')
ev = thing.evolver()
ev.x = 5 # necessary to prevent persistent() returning the original
assert ev.persistent() == UniqueThing(id=str(thing.id), x=5)
def test_set_doesnt_trigger_other_factories():
thing = UniqueThing(id='b413b280-de76-4e28-a8e3-5470ca83ea2c')
thing.set(x=5)
def test_set_does_trigger_factories():
class SquaredPoint(PClass):
x = field(factory=lambda x: x ** 2)
y = field()
sp = SquaredPoint(x=3, y=10)
assert (sp.x, sp.y) == (9, 10)
sp2 = sp.set(x=4)
assert (sp2.x, sp2.y) == (16, 10)
def test_value_can_be_overridden_in_subclass_new():
class X(PClass):
y = pvector_field(int)
def __new__(cls, **kwargs):
items = kwargs.get('y', None)
if items is None:
kwargs['y'] = ()
return super(X, cls).__new__(cls, **kwargs)
a = X(y=[])
b = a.set(y=None)
assert a == b
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