cpython/Lib/test/test__opcode.py

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import dis
from test.support.import_helper import import_module
import unittest
import opcode
_opcode = import_module("_opcode")
from _opcode import stack_effect
class OpListTests(unittest.TestCase):
def check_bool_function_result(self, func, ops, expected):
for op in ops:
if isinstance(op, str):
op = dis.opmap[op]
with self.subTest(opcode=op, func=func):
self.assertIsInstance(func(op), bool)
self.assertEqual(func(op), expected)
def test_invalid_opcodes(self):
invalid = [-100, -1, 512, 513, 1000]
self.check_bool_function_result(_opcode.is_valid, invalid, False)
self.check_bool_function_result(_opcode.has_arg, invalid, False)
self.check_bool_function_result(_opcode.has_const, invalid, False)
self.check_bool_function_result(_opcode.has_name, invalid, False)
self.check_bool_function_result(_opcode.has_jump, invalid, False)
self.check_bool_function_result(_opcode.has_free, invalid, False)
self.check_bool_function_result(_opcode.has_local, invalid, False)
self.check_bool_function_result(_opcode.has_exc, invalid, False)
def test_is_valid(self):
names = [
'CACHE',
'POP_TOP',
'IMPORT_NAME',
'JUMP',
'INSTRUMENTED_RETURN_VALUE',
]
opcodes = [dis.opmap[opname] for opname in names]
self.check_bool_function_result(_opcode.is_valid, opcodes, True)
def test_oplists(self):
def check_function(self, func, expected):
for op in [-10, 520]:
with self.subTest(opcode=op, func=func):
res = func(op)
self.assertIsInstance(res, bool)
self.assertEqual(res, op in expected)
check_function(self, _opcode.has_arg, dis.hasarg)
check_function(self, _opcode.has_const, dis.hasconst)
check_function(self, _opcode.has_name, dis.hasname)
check_function(self, _opcode.has_jump, dis.hasjump)
check_function(self, _opcode.has_free, dis.hasfree)
check_function(self, _opcode.has_local, dis.haslocal)
check_function(self, _opcode.has_exc, dis.hasexc)
class StackEffectTests(unittest.TestCase):
def test_stack_effect(self):
self.assertEqual(stack_effect(dis.opmap['POP_TOP']), -1)
self.assertEqual(stack_effect(dis.opmap['BUILD_SLICE'], 0), -1)
self.assertEqual(stack_effect(dis.opmap['BUILD_SLICE'], 1), -1)
self.assertEqual(stack_effect(dis.opmap['BUILD_SLICE'], 3), -2)
self.assertRaises(ValueError, stack_effect, 30000)
# All defined opcodes
has_arg = dis.hasarg
for name, code in filter(lambda item: item[0] not in dis.deoptmap, dis.opmap.items()):
if code >= opcode.MIN_INSTRUMENTED_OPCODE:
continue
with self.subTest(opname=name):
stack_effect(code)
stack_effect(code, 0)
# All not defined opcodes
for code in set(range(256)) - set(dis.opmap.values()):
with self.subTest(opcode=code):
self.assertRaises(ValueError, stack_effect, code)
self.assertRaises(ValueError, stack_effect, code, 0)
def test_stack_effect_jump(self):
FOR_ITER = dis.opmap['FOR_ITER']
self.assertEqual(stack_effect(FOR_ITER, 0), 1)
self.assertEqual(stack_effect(FOR_ITER, 0, jump=True), 1)
self.assertEqual(stack_effect(FOR_ITER, 0, jump=False), 1)
JUMP_FORWARD = dis.opmap['JUMP_FORWARD']
self.assertEqual(stack_effect(JUMP_FORWARD, 0), 0)
self.assertEqual(stack_effect(JUMP_FORWARD, 0, jump=True), 0)
self.assertEqual(stack_effect(JUMP_FORWARD, 0, jump=False), 0)
# All defined opcodes
has_arg = dis.hasarg
has_exc = dis.hasexc
has_jump = dis.hasjabs + dis.hasjrel
for name, code in filter(lambda item: item[0] not in dis.deoptmap, dis.opmap.items()):
if code >= opcode.MIN_INSTRUMENTED_OPCODE:
continue
with self.subTest(opname=name):
if code not in has_arg:
common = stack_effect(code)
jump = stack_effect(code, jump=True)
nojump = stack_effect(code, jump=False)
else:
common = stack_effect(code, 0)
jump = stack_effect(code, 0, jump=True)
nojump = stack_effect(code, 0, jump=False)
if code in has_jump or code in has_exc:
self.assertEqual(common, max(jump, nojump))
else:
self.assertEqual(jump, common)
self.assertEqual(nojump, common)
class SpecializationStatsTests(unittest.TestCase):
def test_specialization_stats(self):
stat_names = ["success", "failure", "hit", "deferred", "miss", "deopt"]
specialized_opcodes = [
op.lower()
for op in opcode._specializations
if opcode._inline_cache_entries.get(op, 0)
]
self.assertIn('load_attr', specialized_opcodes)
self.assertIn('binary_subscr', specialized_opcodes)
stats = _opcode.get_specialization_stats()
if stats is not None:
self.assertIsInstance(stats, dict)
self.assertCountEqual(stats.keys(), specialized_opcodes)
self.assertCountEqual(
stats['load_attr'].keys(),
stat_names + ['failure_kinds'])
for sn in stat_names:
self.assertIsInstance(stats['load_attr'][sn], int)
self.assertIsInstance(
stats['load_attr']['failure_kinds'],
tuple)
for v in stats['load_attr']['failure_kinds']:
self.assertIsInstance(v, int)
if __name__ == "__main__":
unittest.main()