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|
# This file is part of Hypothesis, which may be found at
# https://github.com/HypothesisWorks/hypothesis/
#
# Copyright the Hypothesis Authors.
# Individual contributors are listed in AUTHORS.rst and the git log.
#
# This Source Code Form is subject to the terms of the Mozilla Public License,
# v. 2.0. If a copy of the MPL was not distributed with this file, You can
# obtain one at https://mozilla.org/MPL/2.0/.
import enum
import re
import time
from random import Random
from unittest.mock import Mock
import pytest
from hypothesis import (
HealthCheck,
Phase,
Verbosity,
assume,
given,
settings,
strategies as st,
)
from hypothesis.database import (
InMemoryExampleDatabase,
choices_from_bytes,
choices_to_bytes,
)
from hypothesis.errors import FailedHealthCheck, FlakyStrategyDefinition
from hypothesis.internal.compat import PYPY, bit_count, int_from_bytes
from hypothesis.internal.conjecture import engine as engine_module
from hypothesis.internal.conjecture.data import ConjectureData, Overrun, Status
from hypothesis.internal.conjecture.datatree import compute_max_children
from hypothesis.internal.conjecture.engine import (
MIN_TEST_CALLS,
ConjectureRunner,
ExitReason,
HealthCheckState,
RunIsComplete,
)
from hypothesis.internal.conjecture.junkdrawer import startswith
from hypothesis.internal.conjecture.pareto import DominanceRelation, dominance
from hypothesis.internal.conjecture.shrinker import Shrinker, ShrinkPass
from hypothesis.internal.coverage import IN_COVERAGE_TESTS
from hypothesis.internal.entropy import deterministic_PRNG
from tests.common.debug import minimal
from tests.common.strategies import SLOW, HardToShrink
from tests.common.utils import no_shrink, skipif_time_unpatched
from tests.conjecture.common import (
SOME_LABEL,
buffer_size_limit,
interesting_origin,
nodes,
run_to_nodes,
shrinking_from,
)
runner_settings = settings(
max_examples=100, database=None, suppress_health_check=list(HealthCheck)
)
def test_non_cloneable_intervals():
@run_to_nodes
def nodes(data):
data.draw_bytes(10, 10)
data.draw_bytes(9, 9)
data.mark_interesting(interesting_origin())
assert tuple(n.value for n in nodes) == (bytes(10), bytes(9))
def test_deletable_draws():
@run_to_nodes
def nodes(data):
while True:
x = data.draw_bytes(2, 2)
if x[0] == 255:
data.mark_interesting(interesting_origin())
assert tuple(n.value for n in nodes) == (b"\xff\x00",)
def test_can_load_data_from_a_corpus():
key = b"hi there"
db = InMemoryExampleDatabase()
value = b"=\xc3\xe4l\x81\xe1\xc2H\xc9\xfb\x1a\xb6bM\xa8\x7f"
db.save(key, choices_to_bytes([value]))
def f(data):
if data.draw_bytes() == value:
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(f, settings=settings(database=db), database_key=key)
runner.run()
(last_data,) = runner.interesting_examples.values()
assert last_data.choices == (value,)
assert len(list(db.fetch(key))) == 1
def slow_shrinker():
strat = HardToShrink()
def accept(data):
if data.draw(strat):
data.mark_interesting(interesting_origin())
return accept
@pytest.mark.parametrize("n", [1, 5])
def test_terminates_shrinks(n, monkeypatch):
db = InMemoryExampleDatabase()
def generate_new_examples(self):
self.cached_test_function((255,) * 1000)
monkeypatch.setattr(
ConjectureRunner, "generate_new_examples", generate_new_examples
)
monkeypatch.setattr(engine_module, "MAX_SHRINKS", n)
runner = ConjectureRunner(
slow_shrinker(),
settings=settings(max_examples=5000, database=db),
random=Random(0),
database_key=b"key",
)
runner.run()
(last_data,) = runner.interesting_examples.values()
assert last_data.status == Status.INTERESTING
assert runner.exit_reason == ExitReason.max_shrinks
assert runner.shrinks == n
in_db = set(db.data[runner.secondary_key])
assert len(in_db) == n
def test_detects_flakiness():
failed_once = False
count = 0
def tf(data):
nonlocal count, failed_once
data.draw_bytes(1, 1)
count += 1
if not failed_once:
failed_once = True
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(tf)
runner.run()
assert runner.exit_reason == ExitReason.flaky
assert count == MIN_TEST_CALLS + 1
def recur(i, data):
if i >= 1:
recur(i - 1, data)
@pytest.mark.skipif(PYPY, reason="stack tricks only work reliably on CPython")
@pytest.mark.skipif(
IN_COVERAGE_TESTS, reason="flaky under coverage instrumentation? see #4391"
)
def test_recursion_error_is_not_flaky():
def tf(data):
i = data.draw_integer(0, 2**16 - 1)
try:
recur(i, data)
except RecursionError:
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(tf, settings=settings(derandomize=True))
runner.run()
assert runner.exit_reason == ExitReason.finished
def test_variadic_draw():
def draw_list(data):
result = []
while True:
data.start_span(SOME_LABEL)
d = data.draw_integer(0, 2**8 - 1) & 7
if d:
result.append(data.draw_bytes(d, d))
data.stop_span()
if not d:
break
return result
@run_to_nodes
def nodes(data):
if any(all(d) for d in draw_list(data)):
data.mark_interesting(interesting_origin())
ls = draw_list(ConjectureData.for_choices([n.value for n in nodes]))
assert len(ls) == 1
assert len(ls[0]) == 1
def test_draw_to_overrun():
@run_to_nodes
def nodes(data):
d = (data.draw_bytes(1, 1)[0] - 8) & 0xFF
data.draw_bytes(128 * d, 128 * d)
if d >= 2:
data.mark_interesting(interesting_origin())
assert tuple(n.value for n in nodes) == (bytes([10]),) + (bytes(128 * 2),)
def test_can_navigate_to_a_valid_example():
def f(data):
i = int_from_bytes(data.draw_bytes(2, 2))
data.draw_bytes(i, i)
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(f, settings=settings(max_examples=5000, database=None))
with buffer_size_limit(4):
runner.run()
assert runner.interesting_examples
def test_stops_after_max_examples_when_reading():
key = b"key"
db = InMemoryExampleDatabase()
for i in range(10):
db.save(key, bytes([i]))
seen = []
def f(data):
seen.append(data.draw_bytes(1, 1))
runner = ConjectureRunner(
f, settings=settings(max_examples=1, database=db), database_key=key
)
runner.run()
assert len(seen) == 1
def test_stops_after_max_examples_when_generating():
seen = []
def f(data):
seen.append(data.draw_bytes(1, 1))
runner = ConjectureRunner(f, settings=settings(max_examples=1, database=None))
runner.run()
assert len(seen) == 1
@pytest.mark.parametrize("examples", [1, 5, 20, 50])
def test_stops_after_max_examples_when_generating_more_bugs(examples):
seen = []
err_common = False
err_rare = False
def f(data):
seen.append(data.draw_integer(0, 2**32 - 1))
# Rare, potentially multi-error conditions
nonlocal err_common, err_rare
if seen[-1] > 2**31:
err_rare = True
raise ValueError
err_common = True
raise Exception
runner = ConjectureRunner(
f, settings=settings(max_examples=examples, phases=[Phase.generate])
)
try:
runner.run()
except Exception:
pass
# No matter what, whether examples is larger or smalller than MAX_TEST_CALLS,
# we stop looking at max_examples. (and re-run each failure for the traceback)
assert len(seen) <= examples + err_common + err_rare
def test_interleaving_engines():
children = []
@run_to_nodes
def nodes(data):
rnd = Random(data.draw_bytes(1, 1))
def g(d2):
d2.draw_bytes(1, 1)
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(g, random=rnd)
children.append(runner)
runner.run()
if runner.interesting_examples:
data.mark_interesting(interesting_origin())
assert tuple(n.value for n in nodes) == (b"\0",)
for c in children:
assert not c.interesting_examples
def test_phases_can_disable_shrinking():
seen = set()
def f(data):
seen.add(bytes(data.draw_bytes(32, 32)))
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(
f, settings=settings(database=None, phases=(Phase.reuse, Phase.generate))
)
runner.run()
assert len(seen) == 1
def test_reuse_phase_runs_for_max_examples_if_generation_is_disabled():
with deterministic_PRNG():
db = InMemoryExampleDatabase()
for i in range(256):
db.save(b"key", choices_to_bytes([i]))
seen = set()
def test(data):
seen.add(data.draw_integer(0, 2**8 - 1))
ConjectureRunner(
test,
settings=settings(max_examples=100, database=db, phases=[Phase.reuse]),
database_key=b"key",
).run()
assert len(seen) == 100
def test_erratic_draws():
n = 0
with pytest.raises(FlakyStrategyDefinition):
@run_to_nodes
def nodes(data):
nonlocal n
data.draw_bytes(n, n)
data.draw_bytes(255 - n, 255 - n)
if n == 255:
data.mark_interesting(interesting_origin())
else:
n += 1
def test_no_read_no_shrink():
count = 0
@run_to_nodes
def nodes(data):
nonlocal count
count += 1
data.mark_interesting(interesting_origin())
assert nodes == ()
assert count == 1
def test_one_dead_branch():
with deterministic_PRNG():
seen = set()
@run_to_nodes
def nodes(data):
i = data.draw_bytes(1, 1)[0]
if i > 0:
data.mark_invalid()
i = data.draw_bytes(1, 1)[0]
if len(seen) < 255:
seen.add(i)
elif i not in seen:
data.mark_interesting(interesting_origin())
def test_does_not_save_on_interrupt():
def interrupts(data):
raise KeyboardInterrupt
db = InMemoryExampleDatabase()
runner = ConjectureRunner(
interrupts, settings=settings(database=db), database_key=b"key"
)
with pytest.raises(KeyboardInterrupt):
runner.run()
assert not db.data
def test_saves_on_skip_exceptions_to_reraise():
# skip exceptions should be saved to the db so we spend as little time as
# possible exploring these tests in the future (if eg the skip is guarded
# by a conditional that takes some time to hit). see also
# https://github.com/HypothesisWorks/hypothesis/pull/4316#discussion_r2008912585
def raises(data):
pytest.skip()
db = InMemoryExampleDatabase()
runner = ConjectureRunner(
raises, settings=settings(database=db), database_key=b"key"
)
with pytest.raises(pytest.skip.Exception):
runner.run()
assert len(db.data) == 1
def test_returns_forced():
value = b"\0\1\2\3"
@run_to_nodes
def nodes(data):
data.draw_bytes(len(value), len(value), forced=value)
data.mark_interesting(interesting_origin())
assert tuple(n.value for n in nodes) == (value,)
def fails_health_check(label, **kwargs):
def accept(f):
runner = ConjectureRunner(
f,
settings=settings(
max_examples=100, phases=no_shrink, database=None, **kwargs
),
)
with pytest.raises(FailedHealthCheck) as e:
runner.run()
assert str(label) in str(e.value)
assert not runner.interesting_examples
return accept
def test_fails_health_check_for_all_invalid():
@fails_health_check(HealthCheck.filter_too_much)
def _(data):
data.draw_bytes(2, 2)
data.mark_invalid()
def test_fails_health_check_for_large_base():
@fails_health_check(HealthCheck.large_base_example)
def _(data):
data.draw_bytes(10**6, 10**6)
def test_fails_health_check_for_large_non_base():
@fails_health_check(HealthCheck.data_too_large)
def _(data):
if data.draw_boolean():
data.draw_bytes(10_000, 10_000)
@skipif_time_unpatched
def test_fails_health_check_for_slow_draws():
@fails_health_check(HealthCheck.too_slow)
def _(data):
data.draw(SLOW)
def test_health_check_too_slow_with_invalid_examples():
@st.composite
def s(draw):
n = draw(st.integers())
if n > 0:
assume(False)
time.sleep(0.2)
@given(s())
@settings(derandomize=True, max_examples=100)
def test(x):
pass
with pytest.raises(FailedHealthCheck) as exc:
test()
assert str(HealthCheck.too_slow) in str(exc.value)
assert re.search(r"\d+ invalid inputs", str(exc.value))
def test_health_check_too_slow_with_overrun_examples():
@st.composite
def s(draw):
n = draw(st.integers())
if n > 0:
draw(st.binary(min_size=50))
assume(False)
time.sleep(0.2)
@given(s())
@settings(derandomize=True, max_examples=100)
def test(x):
pass
with buffer_size_limit(10):
with pytest.raises(FailedHealthCheck) as exc:
test()
assert str(HealthCheck.too_slow) in str(exc.value)
assert re.search(
r"\d+ inputs which exceeded the maximum allowed entropy", str(exc.value)
)
@pytest.mark.parametrize("n_large", [1, 5, 8, 15])
def test_can_shrink_variable_draws(n_large):
target = 128 * n_large
@st.composite
def strategy(draw):
n = draw(st.integers(0, 15))
return [draw(st.integers(0, 255)) for _ in range(n)]
ints = minimal(strategy(), lambda ints: sum(ints) >= target)
# should look like [4, 255, 255, 255]
assert ints == [target % 255] + [255] * (len(ints) - 1)
def test_can_shrink_variable_string_draws():
@st.composite
def strategy(draw):
n = draw(st.integers(min_value=0, max_value=20))
return draw(st.text(st.characters(codec="ascii"), min_size=n, max_size=n))
s = minimal(strategy(), lambda s: len(s) >= 10 and "a" in s)
# TODO_BETTER_SHRINK: this should be
# assert s == "0" * 9 + "a"
# but we first shrink to having a single a at the end of the string and then
# fail to apply our special case invalid logic when shrinking the min_size n,
# because that logic removes from the end of the string (which fails our
# precondition).
assert re.match("0+a", s)
def test_variable_size_string_increasing():
# coverage test for min_size increasing during shrinking (because the test
# function inverts n).
# ...except this currently overruns instead and misses that check.
@st.composite
def strategy(draw):
n = 10 - draw(st.integers(0, 10))
return draw(st.text(st.characters(codec="ascii"), min_size=n, max_size=n))
s = minimal(strategy(), lambda s: len(s) >= 5 and "a" in s)
# TODO_BETTER_SHRINK: this should be
# assert s == "0000a"
# but instead shrinks to 00000000a.
assert re.match("0+a", s)
def test_run_nothing():
def f(data):
raise AssertionError
runner = ConjectureRunner(f, settings=settings(phases=()))
runner.run()
assert runner.call_count == 0
class Foo:
def __repr__(self):
return "stuff"
def test_debug_data(capsys):
choices = (0, 1, 2)
def f(data):
for choice in choices:
if data.draw(st.integers(0, 100)) != choice:
data.mark_invalid()
data.start_span(1)
data.stop_span()
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(
f,
settings=settings(
max_examples=5000,
database=None,
suppress_health_check=list(HealthCheck),
verbosity=Verbosity.debug,
),
)
runner.cached_test_function(choices)
runner.run()
out, _ = capsys.readouterr()
assert re.match(r"\d+ choices \(.*\) -> ", out)
assert "INTERESTING" in out
def test_can_write_bytes_towards_the_end():
buf = b"\1\2\3"
def f(data):
if data.draw_boolean():
data.draw_bytes(5, 5)
data.draw_bytes(len(buf), len(buf), forced=buf)
assert data.choices[2] == buf
with buffer_size_limit(15):
ConjectureRunner(f).run()
def test_uniqueness_is_preserved_when_writing_at_beginning():
seen = set()
def f(data):
data.draw_bytes(1, 1, forced=bytes(1))
n = data.draw_integer(0, 2**3 - 1)
assert n not in seen
seen.add(n)
runner = ConjectureRunner(f, settings=settings(max_examples=50))
runner.run()
assert runner.valid_examples == len(seen)
@pytest.mark.parametrize("skip_target", [False, True])
@pytest.mark.parametrize("initial_attempt", [(127,), (128,)])
def test_clears_out_its_database_on_shrinking(
initial_attempt, skip_target, monkeypatch
):
def generate_new_examples(self):
self.cached_test_function(initial_attempt)
monkeypatch.setattr(
ConjectureRunner, "generate_new_examples", generate_new_examples
)
key = b"key"
db = InMemoryExampleDatabase()
def f(data):
if data.draw_integer() >= 127:
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(
f,
settings=settings(database=db, max_examples=256),
database_key=key,
random=Random(0),
)
for n in range(256):
if n != 127 or not skip_target:
db.save(runner.secondary_key, choices_to_bytes([n]))
runner.run()
assert len(runner.interesting_examples) == 1
for b in db.fetch(runner.secondary_key):
assert choices_from_bytes(b)[0] >= 127
assert len(list(db.fetch(runner.database_key))) == 1
def test_shrinks_both_interesting_examples(monkeypatch):
def generate_new_examples(self):
self.cached_test_function((1,))
monkeypatch.setattr(
ConjectureRunner, "generate_new_examples", generate_new_examples
)
def f(data):
n = data.draw_integer(0, 2**8 - 1)
data.mark_interesting(interesting_origin(n & 1))
runner = ConjectureRunner(f, database_key=b"key")
runner.run()
assert runner.interesting_examples[interesting_origin(0)].choices == (0,)
assert runner.interesting_examples[interesting_origin(1)].choices == (1,)
def test_discarding(monkeypatch):
monkeypatch.setattr(Shrinker, "shrink", Shrinker.remove_discarded)
monkeypatch.setattr(
ConjectureRunner,
"generate_new_examples",
lambda runner: runner.cached_test_function((False, True) * 10),
)
@run_to_nodes
def nodes(data):
count = 0
while count < 10:
data.start_span(SOME_LABEL)
b = data.draw_boolean()
if b:
count += 1
data.stop_span(discard=not b)
data.mark_interesting(interesting_origin())
assert tuple(n.value for n in nodes) == (True,) * 10
def test_can_remove_discarded_data():
@shrinking_from((0,) * 10 + (11,))
def shrinker(data: ConjectureData):
while True:
data.start_span(SOME_LABEL)
b = data.draw_integer(0, 2**8 - 1)
data.stop_span(discard=(b == 0))
if b == 11:
break
data.mark_interesting(interesting_origin())
shrinker.remove_discarded()
assert shrinker.choices == (11,)
def test_discarding_iterates_to_fixed_point():
@shrinking_from(list(range(100, -1, -1)))
def shrinker(data: ConjectureData):
data.start_span(0)
data.draw_integer(0, 2**8 - 1)
data.stop_span(discard=True)
while data.draw_integer(0, 2**8 - 1):
pass
data.mark_interesting(interesting_origin())
shrinker.remove_discarded()
assert shrinker.choices == (1, 0)
def test_discarding_is_not_fooled_by_empty_discards():
@shrinking_from((1, 1))
def shrinker(data: ConjectureData):
data.draw_integer(0, 2**1 - 1)
data.start_span(0)
data.stop_span(discard=True)
data.draw_integer(0, 2**1 - 1)
data.mark_interesting(interesting_origin())
shrinker.remove_discarded()
assert shrinker.shrink_target.has_discards
def test_discarding_can_fail():
@shrinking_from((1,))
def shrinker(data: ConjectureData):
data.start_span(0)
data.draw_boolean()
data.stop_span(discard=True)
data.mark_interesting(interesting_origin())
shrinker.remove_discarded()
assert any(e.discarded and e.choice_count > 0 for e in shrinker.shrink_target.spans)
def test_shrinking_from_mostly_zero(monkeypatch):
monkeypatch.setattr(
ConjectureRunner,
"generate_new_examples",
lambda self: self.cached_test_function((0,) * 5 + (2,)),
)
@run_to_nodes
def nodes(data):
s = [data.draw_integer(0, 2**8 - 1) for _ in range(6)]
if any(s):
data.mark_interesting(interesting_origin())
assert tuple(n.value for n in nodes) == (0,) * 5 + (1,)
def test_handles_nesting_of_discard_correctly(monkeypatch):
monkeypatch.setattr(Shrinker, "shrink", Shrinker.remove_discarded)
monkeypatch.setattr(
ConjectureRunner,
"generate_new_examples",
lambda runner: runner.cached_test_function((False, False, True, True)),
)
@run_to_nodes
def nodes(data):
while True:
data.start_span(SOME_LABEL)
succeeded = data.draw_boolean()
data.start_span(SOME_LABEL)
data.draw_boolean()
data.stop_span(discard=not succeeded)
data.stop_span(discard=not succeeded)
if succeeded:
data.mark_interesting(interesting_origin())
assert tuple(n.value for n in nodes) == (True, True)
def test_database_clears_secondary_key():
key = b"key"
database = InMemoryExampleDatabase()
def f(data):
if data.draw_integer() == 10:
data.mark_interesting(interesting_origin())
else:
data.mark_invalid()
runner = ConjectureRunner(
f,
settings=settings(
max_examples=1, database=database, suppress_health_check=list(HealthCheck)
),
database_key=key,
)
for i in range(10):
database.save(runner.secondary_key, choices_to_bytes([i]))
runner.cached_test_function((10,))
assert runner.interesting_examples
assert len(set(database.fetch(key))) == 1
assert len(set(database.fetch(runner.secondary_key))) == 10
runner.clear_secondary_key()
assert len(set(database.fetch(key))) == 1
assert len(set(database.fetch(runner.secondary_key))) == 0
def test_database_uses_values_from_secondary_key():
key = b"key"
database = InMemoryExampleDatabase()
def f(data):
if data.draw_integer() >= 5:
data.mark_interesting(interesting_origin())
else:
data.mark_invalid()
runner = ConjectureRunner(
f,
settings=settings(
max_examples=1, database=database, suppress_health_check=list(HealthCheck)
),
database_key=key,
)
for i in range(10):
database.save(runner.secondary_key, choices_to_bytes([i]))
runner.cached_test_function((10,))
assert runner.interesting_examples
assert len(set(database.fetch(key))) == 1
assert len(set(database.fetch(runner.secondary_key))) == 10
runner.clear_secondary_key()
assert len(set(database.fetch(key))) == 1
assert {
choices_from_bytes(b)[0] for b in database.fetch(runner.secondary_key)
} == set(range(6, 11))
(v,) = runner.interesting_examples.values()
assert v.choices == (5,)
def test_exit_because_max_iterations():
def f(data):
data.draw_integer(0, 2**64 - 1)
data.mark_invalid()
runner = ConjectureRunner(
f,
settings=settings(
max_examples=1, database=None, suppress_health_check=list(HealthCheck)
),
)
runner.run()
assert runner.call_count <= 1000
assert runner.exit_reason == ExitReason.max_iterations
def test_exit_because_shrink_phase_timeout(monkeypatch):
val = 0
def fast_time():
nonlocal val
val += 1000
return val
def f(data):
if data.draw_integer(0, 2**64 - 1) > 2**33:
data.mark_interesting(interesting_origin())
monkeypatch.setattr(time, "perf_counter", fast_time)
runner = ConjectureRunner(f, settings=settings(database=None, max_examples=100_000))
runner.run()
assert runner.exit_reason == ExitReason.very_slow_shrinking
assert runner.statistics["stopped-because"] == "shrinking was very slow"
def test_dependent_block_pairs_can_lower_to_zero():
@shrinking_from((True, 1))
def shrinker(data: ConjectureData):
if data.draw_boolean():
n = data.draw_integer(0, 2**16 - 1)
else:
n = data.draw_integer(0, 2**8 - 1)
if n == 1:
data.mark_interesting(interesting_origin())
shrinker.fixate_shrink_passes([ShrinkPass(shrinker.minimize_individual_choices)])
assert shrinker.choices == (False, 1)
def test_handle_size_too_large_during_dependent_lowering():
@shrinking_from((True, 255, 0))
def shrinker(data: ConjectureData):
if data.draw_boolean():
data.draw_integer(0, 2**16 - 1)
data.mark_interesting(interesting_origin())
else:
data.draw_integer(0, 2**8 - 1)
shrinker.fixate_shrink_passes([ShrinkPass(shrinker.minimize_individual_choices)])
def test_block_may_grow_during_lexical_shrinking():
@shrinking_from((2, 1, 1))
def shrinker(data: ConjectureData):
n = data.draw_integer(0, 2**8 - 1)
if n == 2:
data.draw_integer(0, 2**8 - 1)
data.draw_integer(0, 2**8 - 1)
else:
data.draw_integer(0, 2**16 - 1)
data.mark_interesting(interesting_origin())
shrinker.fixate_shrink_passes([ShrinkPass(shrinker.minimize_individual_choices)])
assert shrinker.choices == (0, 0)
def test_lower_common_node_offset_does_nothing_when_changed_blocks_are_zero():
@shrinking_from((True, False, True, False))
def shrinker(data: ConjectureData):
data.draw_boolean()
data.draw_boolean()
data.draw_boolean()
data.draw_boolean()
data.mark_interesting(interesting_origin())
shrinker.mark_changed(1)
shrinker.mark_changed(3)
shrinker.lower_common_node_offset()
assert shrinker.choices == (True, False, True, False)
def test_lower_common_node_offset_ignores_zeros():
@shrinking_from((2, 2, 0))
def shrinker(data: ConjectureData):
n = data.draw_integer(0, 2**8 - 1)
data.draw_integer(0, 2**8 - 1)
data.draw_integer(0, 2**8 - 1)
if n > 0:
data.mark_interesting(interesting_origin())
for i in range(3):
shrinker.mark_changed(i)
shrinker.lower_common_node_offset()
assert shrinker.choices == (1, 1, 0)
def test_cached_test_function_returns_right_value():
count = 0
def tf(data):
nonlocal count
count += 1
data.draw_integer(0, 3)
data.mark_interesting(interesting_origin())
with deterministic_PRNG():
runner = ConjectureRunner(tf, settings=runner_settings)
for _ in range(2):
for choices in ((0,), (1,)):
d = runner.cached_test_function(choices)
assert d.status == Status.INTERESTING
assert d.choices == choices
assert count == 2
def test_cached_test_function_does_not_reinvoke_on_prefix():
call_count = 0
def test_function(data):
nonlocal call_count
call_count += 1
data.draw_integer(0, 2**8 - 1)
data.draw_bytes(1, 1, forced=bytes([7]))
data.draw_integer(0, 2**8 - 1)
with deterministic_PRNG():
runner = ConjectureRunner(test_function, settings=runner_settings)
data = runner.cached_test_function((0, b"\0", 0))
assert data.status == Status.VALID
for n in [2, 1, 0]:
d = runner.cached_test_function(data.choices[:n])
assert d is Overrun
assert call_count == 1
def test_will_evict_entries_from_the_cache(monkeypatch):
monkeypatch.setattr(engine_module, "CACHE_SIZE", 5)
count = 0
def tf(data):
nonlocal count
data.draw_integer(0, 2**8 - 1)
count += 1
runner = ConjectureRunner(tf, settings=runner_settings)
for _ in range(3):
for n in range(10):
runner.cached_test_function((n,))
# Because we exceeded the cache size, our previous
# calls will have been evicted, so each call to
# cached_test_function will have to reexecute.
assert count == 30
def test_branch_ending_in_write():
seen = set()
def tf(data):
count = 0
while data.draw_boolean():
count += 1
if count > 1:
data.draw_boolean(forced=False)
assert data.nodes not in seen
seen.add(data.nodes)
with deterministic_PRNG():
# max_examples high enough that our for loop below won't hit it
runner = ConjectureRunner(
tf, settings=settings(runner_settings, max_examples=200)
)
for _ in range(100):
prefix = runner.generate_novel_prefix()
attempt = prefix + (False, False)
data = runner.cached_test_function(attempt)
assert data.status is Status.VALID
assert startswith(attempt, data.choices)
def test_exhaust_space():
with deterministic_PRNG():
runner = ConjectureRunner(
lambda data: data.draw_boolean(), settings=runner_settings
)
runner.run()
assert runner.tree.is_exhausted
assert runner.valid_examples == 2
SMALL_COUNT_SETTINGS = settings(runner_settings, max_examples=500)
def test_discards_kill_branches():
seen = set()
def test(data: ConjectureData):
data.start_span(1)
n1 = data.draw_integer(0, 9)
data.stop_span(discard=n1 > 0)
n2 = data.draw_integer(0, 9)
n3 = data.draw_integer(0, 9)
assert (n1, n2, n3) not in seen
seen.add((n1, n2, n3))
runner = ConjectureRunner(test, settings=SMALL_COUNT_SETTINGS)
runner.run()
assert runner.exit_reason is ExitReason.finished
# 10 to explore the initial n1 = 0-9 statespace, then 100 to explore just
# the (0, n1, n2) statespace, because every prefix other than 0 is a discard
# and is not explored. Subtract the overlap, which occurs once at n1 = 0.
assert len(seen) == 100 + 10 - 1
@pytest.mark.parametrize("n", range(1, 32))
def test_number_of_examples_in_integer_range_is_bounded(n):
with deterministic_PRNG():
def test(data):
assert runner.call_count <= 2 * n
data.draw_integer(0, n)
runner = ConjectureRunner(test, settings=SMALL_COUNT_SETTINGS)
runner.run()
def test_prefix_cannot_exceed_buffer_size(monkeypatch):
buffer_size = 10
with deterministic_PRNG():
# NOTE: For compatibility with Python 3.9's LL(1)
# parser, this is written as a nested with-statement,
# instead of a compound one.
with buffer_size_limit(buffer_size):
def test(data):
while data.draw_boolean():
assert data.length <= buffer_size
assert data.length <= buffer_size
runner = ConjectureRunner(test, settings=SMALL_COUNT_SETTINGS)
runner.run()
assert runner.valid_examples == buffer_size
def test_does_not_shrink_multiple_bugs_when_told_not_to():
def test(data):
m = data.draw_integer(0, 2**8 - 1)
n = data.draw_integer(0, 2**8 - 1)
if m > 0:
data.mark_interesting(interesting_origin(1))
if n > 5:
data.mark_interesting(interesting_origin(2))
with deterministic_PRNG():
runner = ConjectureRunner(
test, settings=settings(runner_settings, report_multiple_bugs=False)
)
runner.cached_test_function((255, 255))
runner.shrink_interesting_examples()
results = {d.choices for d in runner.interesting_examples.values()}
assert len(results.intersection({(0, 1), (1, 0)})) == 1
def test_does_not_keep_generating_when_multiple_bugs():
def test(data):
if data.draw_integer(0, 2**20 - 1) > 0:
data.draw_integer(0, 2**20 - 1)
data.mark_interesting(interesting_origin())
with deterministic_PRNG():
runner = ConjectureRunner(
test,
settings=settings(
runner_settings, report_multiple_bugs=False, phases=[Phase.generate]
),
)
runner.run()
assert runner.call_count == 2
def test_shrink_after_max_examples():
"""If we find a bug, keep looking for more, and then hit the valid-example
limit, we should still proceed to shrinking.
"""
max_examples = 100
fail_at = max_examples - 5
seen = set()
bad = set()
post_failure_calls = [0]
def test(data):
if bad:
post_failure_calls[0] += 1
value = data.draw_integer(0, 2**8 - 1)
if value in seen and value not in bad:
return
seen.add(value)
if len(seen) == fail_at:
bad.add(value)
if value in bad:
data.mark_interesting(interesting_origin())
# This shouldn't need to be deterministic, but it makes things much easier
# to debug if anything goes wrong.
with deterministic_PRNG():
runner = ConjectureRunner(
test,
settings=settings(
runner_settings,
max_examples=max_examples,
phases=[Phase.generate, Phase.shrink],
report_multiple_bugs=True,
),
)
runner.shrink_interesting_examples = Mock(name="shrink_interesting_examples")
runner.run()
# First, verify our test assumptions: we found a bug, kept running, and
# then hit max-examples.
assert runner.interesting_examples
assert post_failure_calls[0] >= (max_examples - fail_at)
assert runner.call_count >= max_examples
assert runner.valid_examples == max_examples
# Now check that we still performed shrinking, even after hitting the
# example limit.
assert runner.shrink_interesting_examples.call_count == 1
assert runner.exit_reason == ExitReason.finished
def test_shrink_after_max_iterations():
"""If we find a bug, keep looking for more, and then hit the test call
limit, we should still proceed to shrinking.
"""
max_examples = 10
max_iterations = max_examples * 10
fail_at = max_iterations - 5
invalid = set()
bad = set()
post_failure_calls = [0]
def test(data):
if bad:
post_failure_calls[0] += 1
value = data.draw_integer(0, 2**16 - 1)
if value in invalid:
data.mark_invalid()
if value in bad or (not bad and len(invalid) == fail_at):
bad.add(value)
data.mark_interesting(interesting_origin())
invalid.add(value)
data.mark_invalid()
# This shouldn't need to be deterministic, but it makes things much easier
# to debug if anything goes wrong.
with deterministic_PRNG():
runner = ConjectureRunner(
test,
settings=settings(
runner_settings,
max_examples=max_examples,
phases=[Phase.generate, Phase.shrink],
report_multiple_bugs=True,
),
)
runner.shrink_interesting_examples = Mock(name="shrink_interesting_examples")
runner.run()
# First, verify our test assumptions: we found a bug, kept running, and
# then hit the test call limit.
assert runner.interesting_examples
assert post_failure_calls[0] >= (max_iterations - fail_at) - 1
assert runner.call_count >= max_iterations
assert runner.valid_examples == 0
# Now check that we still performed shrinking, even after hitting the
# test call limit.
assert runner.shrink_interesting_examples.call_count == 1
assert runner.exit_reason == ExitReason.finished
def test_populates_the_pareto_front():
with deterministic_PRNG():
def test(data):
data.target_observations[""] = data.draw_integer(0, 2**4 - 1)
runner = ConjectureRunner(
test,
settings=settings(
max_examples=5000,
database=InMemoryExampleDatabase(),
suppress_health_check=list(HealthCheck),
),
database_key=b"stuff",
)
runner.run()
assert len(runner.pareto_front) == 2**4
def test_pareto_front_contains_smallest_valid():
with deterministic_PRNG():
def test(data):
data.target_observations[""] = 1
data.draw_integer(0, 2**4 - 1)
runner = ConjectureRunner(
test,
settings=settings(
max_examples=5000,
database=InMemoryExampleDatabase(),
suppress_health_check=list(HealthCheck),
),
database_key=b"stuff",
)
runner.run()
assert len(runner.pareto_front) == 1
def test_replaces_all_dominated():
def test(data):
data.target_observations["m"] = 3 - data.draw_integer(0, 3)
data.target_observations["n"] = 3 - data.draw_integer(0, 3)
runner = ConjectureRunner(
test,
settings=settings(runner_settings, database=InMemoryExampleDatabase()),
database_key=b"stuff",
)
d1 = runner.cached_test_function((0, 1)).as_result()
d2 = runner.cached_test_function((1, 0)).as_result()
assert len(runner.pareto_front) == 2
assert runner.pareto_front[0] == d1
assert runner.pareto_front[1] == d2
d3 = runner.cached_test_function((0, 0)).as_result()
assert len(runner.pareto_front) == 1
assert runner.pareto_front[0] == d3
def test_does_not_duplicate_elements():
def test(data):
data.target_observations["m"] = data.draw_integer(0, 2**8 - 1)
runner = ConjectureRunner(
test,
settings=settings(runner_settings, database=InMemoryExampleDatabase()),
database_key=b"stuff",
)
d1 = runner.cached_test_function((1,)).as_result()
assert len(runner.pareto_front) == 1
# This can happen in practice if we e.g. reexecute a test because it has
# expired from the cache. It's easier just to test it directly though
# rather than simulate the failure mode.
assert runner.pareto_front.add(d1)
assert len(runner.pareto_front) == 1
def test_includes_right_hand_side_targets_in_dominance():
def test(data):
if data.draw_integer(0, 2**8 - 1):
data.target_observations[""] = 10
runner = ConjectureRunner(
test,
settings=settings(runner_settings, database=InMemoryExampleDatabase()),
database_key=b"stuff",
)
d1 = runner.cached_test_function((0,)).as_result()
d2 = runner.cached_test_function((1,)).as_result()
assert dominance(d1, d2) == DominanceRelation.NO_DOMINANCE
def test_smaller_interesting_dominates_larger_valid():
def test(data):
if data.draw_integer(0, 2**8 - 1) == 0:
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(
test,
settings=settings(runner_settings, database=InMemoryExampleDatabase()),
database_key=b"stuff",
)
d1 = runner.cached_test_function((0,)).as_result()
d2 = runner.cached_test_function((1,)).as_result()
assert dominance(d1, d2) == DominanceRelation.LEFT_DOMINATES
def test_runs_full_set_of_examples():
def test(data):
data.draw_integer(0, 2**64 - 1)
runner = ConjectureRunner(
test,
settings=settings(runner_settings, database=InMemoryExampleDatabase()),
database_key=b"stuff",
)
runner.run()
assert runner.valid_examples == runner_settings.max_examples
def test_runs_optimisation_even_if_not_generating():
def test(data):
data.target_observations["n"] = data.draw_integer(0, 2**16 - 1)
with deterministic_PRNG():
runner = ConjectureRunner(
test, settings=settings(runner_settings, phases=[Phase.target])
)
runner.cached_test_function((0,))
runner.run()
assert runner.best_observed_targets["n"] == (2**16) - 1
def test_runs_optimisation_once_when_generating():
def test(data):
data.target_observations["n"] = data.draw_integer(0, 2**16 - 1)
with deterministic_PRNG():
runner = ConjectureRunner(
test, settings=settings(runner_settings, max_examples=100)
)
runner.optimise_targets = Mock(name="optimise_targets")
try:
runner.generate_new_examples()
except RunIsComplete:
pass
assert runner.optimise_targets.call_count == 1
def test_does_not_run_optimisation_when_max_examples_is_small():
def test(data):
data.target_observations["n"] = data.draw_integer(0, 2**16 - 1)
with deterministic_PRNG():
runner = ConjectureRunner(
test, settings=settings(runner_settings, max_examples=10)
)
runner.optimise_targets = Mock(name="optimise_targets")
try:
runner.generate_new_examples()
except RunIsComplete:
pass
assert runner.optimise_targets.call_count == 0
def test_does_not_cache_extended_prefix():
def test(data):
data.draw_integer()
data.draw_integer()
with deterministic_PRNG():
runner = ConjectureRunner(test, settings=runner_settings)
d1 = runner.cached_test_function((0,), extend=10)
assert runner.call_count == 1
d2 = runner.cached_test_function((0,), extend=10)
assert runner.call_count == 2
assert d1.status is d2.status is Status.VALID
def test_does_cache_if_extend_is_not_used():
calls = 0
def test(data):
nonlocal calls
calls += 1
data.draw_bytes(1, 1)
with deterministic_PRNG():
runner = ConjectureRunner(test, settings=runner_settings)
d1 = runner.cached_test_function((b"\0"), extend=8)
d2 = runner.cached_test_function((b"\0"), extend=8)
assert d1.status == d2.status == Status.VALID
assert d1.choices == d2.choices
assert calls == 1
def test_does_result_for_reuse():
calls = 0
def test(data):
nonlocal calls
calls += 1
data.draw_bytes(1, 1)
with deterministic_PRNG():
runner = ConjectureRunner(test, settings=runner_settings)
d1 = runner.cached_test_function((b"\0"), extend=8)
d2 = runner.cached_test_function(d1.choices)
assert d1.status == d2.status == Status.VALID
assert d1.nodes == d2.nodes
assert calls == 1
def test_does_not_use_cached_overrun_if_extending():
def test(data):
data.draw_integer()
data.draw_integer()
with deterministic_PRNG():
runner = ConjectureRunner(test, settings=runner_settings)
data = runner.cached_test_function((1,))
assert data.status == Status.OVERRUN
assert runner.call_count == 1
# the choice sequence of (1,) maps to an overrun in the cache, but we
# do not want to use this cache entry if we're extending.
data = runner.cached_test_function((1,), extend=1)
assert data.status == Status.VALID
assert runner.call_count == 2
def test_uses_cached_overrun_if_not_extending():
def test(data):
data.draw_integer()
data.draw_integer()
with deterministic_PRNG():
runner = ConjectureRunner(test, settings=runner_settings)
data = runner.cached_test_function((1,), extend=0)
assert data.status is Status.OVERRUN
assert runner.call_count == 1
data = runner.cached_test_function((1,), extend=0)
assert data.status is Status.OVERRUN
assert runner.call_count == 1
def test_can_be_set_to_ignore_limits():
def test(data):
data.draw_integer(0, 2**8 - 1)
with deterministic_PRNG():
runner = ConjectureRunner(
test, settings=settings(runner_settings, max_examples=1), ignore_limits=True
)
for c in range(256):
runner.cached_test_function((c,))
assert runner.tree.is_exhausted
def test_too_slow_report():
state = HealthCheckState()
assert state.timing_report() == "" # no draws recorded -> no report
state.draw_times = {
"generate:a": [2.0, 0.356789, 0.0],
"generate:b": [0.1111111, 0.0, 0.002345678, 0.05, 0.123456, 0.1, 0.1, 0.1],
"generate:c": [0.03, 0.05, 0.2],
"generate:d": [0.04],
"generate:e": [0.05, 0.01],
"generate:f": [0.06],
"generate:g": [0.07],
"generate:h": [0.08],
"generate:i": [0.09, 0.00001],
}
expected = """
count | fraction | slowest draws (seconds)
a | 3 | 65% | -- -- -- 0.357, 2.000
b | 8 | 16% | 0.100, 0.100, 0.100, 0.111, 0.123
c | 3 | 8% | -- -- 0.030, 0.050, 0.200
i | 2 | 2% | -- -- -- -- 0.090
h | 1 | 2% | -- -- -- -- 0.080
(skipped 4 rows of fast draws)"""
got = state.timing_report()
print(got)
assert expected == got
def _draw(cd, node):
return getattr(cd, f"draw_{node.type}")(**node.constraints)
@given(nodes(was_forced=False))
def test_overruns_with_extend_are_not_cached(node):
assume(compute_max_children(node.type, node.constraints) > 100)
def test(cd):
_draw(cd, node)
_draw(cd, node)
runner = ConjectureRunner(test)
assert runner.call_count == 0
data = runner.cached_test_function([node.value])
assert runner.call_count == 1
assert data.status is Status.OVERRUN
# cache hit
data = runner.cached_test_function([node.value])
assert runner.call_count == 1
assert data.status is Status.OVERRUN
# cache miss
data = runner.cached_test_function([node.value], extend="full")
assert runner.call_count == 2
assert data.status is Status.VALID
def test_simulate_to_evicted_data(monkeypatch):
# test that we do not rely on the false invariant that correctly simulating
# a data to a result means we have that result in the cache, due to e.g.
# cache evictions (but also potentially other trickery).
monkeypatch.setattr(engine_module, "CACHE_SIZE", 1)
def test(data):
data.draw_integer()
runner = ConjectureRunner(test)
runner.cached_test_function([0])
# cache size is 1 so this evicts [0]
runner.cached_test_function([1])
assert runner.call_count == 2
# we dont throw PreviouslyUnseenBehavior when simulating, but the result
# was evicted to the cache so we will still call through to the test function.
runner.tree.simulate_test_function(ConjectureData.for_choices([0]))
runner.cached_test_function([0])
assert runner.call_count == 3
@pytest.mark.parametrize(
"strategy, condition",
[
(st.lists(st.integers(), min_size=5), lambda v: True),
(st.lists(st.text(), min_size=2, unique=True), lambda v: True),
(
st.sampled_from(
enum.Flag("LargeFlag", {f"bit{i}": enum.auto() for i in range(64)})
),
lambda f: bit_count(f.value) > 1,
),
],
)
def test_mildly_complicated_strategies(strategy, condition):
# There are some code paths in engine.py and shrinker.py that are easily
# covered by shrinking any mildly compliated strategy and aren't worth
# testing explicitly for. This covers those.
minimal(strategy, condition)
def test_does_not_shrink_if_replaying_from_database():
db = InMemoryExampleDatabase()
key = b"foo"
def f(data):
if data.draw_integer(0, 255) == 123:
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(f, settings=settings(database=db), database_key=key)
choices = (123,)
runner.save_choices(choices)
runner.shrink_interesting_examples = None
runner.run()
(last_data,) = runner.interesting_examples.values()
assert last_data.choices == choices
def test_does_shrink_if_replaying_inexact_from_database():
db = InMemoryExampleDatabase()
key = b"foo"
def f(data):
data.draw_integer(0, 255)
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(f, settings=settings(database=db), database_key=key)
runner.save_choices((123, 2))
runner.run()
(last_data,) = runner.interesting_examples.values()
assert last_data.choices == (0,)
def test_stops_if_hits_interesting_early_and_only_want_one_bug():
db = InMemoryExampleDatabase()
key = b"foo"
def f(data):
data.draw_integer(0, 255)
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(
f, settings=settings(database=db, report_multiple_bugs=False), database_key=key
)
for i in range(256):
runner.save_choices([i])
runner.run()
assert runner.call_count == 1
def test_skips_secondary_if_interesting_is_found():
db = InMemoryExampleDatabase()
key = b"foo"
def f(data):
data.draw_integer(0, 255)
data.mark_interesting(interesting_origin())
runner = ConjectureRunner(
f,
settings=settings(max_examples=1000, database=db, report_multiple_bugs=True),
database_key=key,
)
for i in range(256):
db.save(
runner.database_key if i < 10 else runner.secondary_key,
choices_to_bytes([i]),
)
runner.reuse_existing_examples()
assert runner.call_count == 10
@pytest.mark.parametrize("key_name", ["database_key", "secondary_key"])
def test_discards_invalid_db_entries(key_name):
with deterministic_PRNG():
def test(data):
data.draw_integer()
data.mark_interesting(interesting_origin())
db = InMemoryExampleDatabase()
runner = ConjectureRunner(
test,
# stop IN_COVERAGE_TESTS from overriding max_examples, which changes
# db behavior
settings=settings(database=db, max_examples=100),
database_key=b"stuff",
)
key = getattr(runner, key_name)
valid = choices_to_bytes([1])
db.save(key, valid)
for n in range(5):
b = bytes([255, n])
# save a bunch of invalid entries under the database key
assert choices_from_bytes(b) is None
db.save(key, b)
assert len(set(db.fetch(key))) == 6
# this will clear out the invalid entries and use the valid one
runner.reuse_existing_examples()
runner.clear_secondary_key()
assert set(db.fetch(runner.database_key)) == {valid}
assert runner.call_count == 1
def test_discards_invalid_db_entries_pareto():
with deterministic_PRNG():
def test(data):
data.draw_integer()
data.mark_interesting(interesting_origin())
db = InMemoryExampleDatabase()
runner = ConjectureRunner(
test,
settings=settings(database=db, max_examples=100),
database_key=b"stuff",
)
for n in range(5):
b = bytes([255, n])
assert choices_from_bytes(b) is None
db.save(runner.pareto_key, b)
assert len(set(db.fetch(runner.pareto_key))) == 5
runner.reuse_existing_examples()
assert not set(db.fetch(runner.database_key))
assert not set(db.fetch(runner.pareto_key))
assert runner.call_count == 0
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