import dis
import io
import textwrap
import types
from test.support.bytecode_helper import AssemblerTestCase
# Tests for the code-object creation stage of the compiler.
class IsolatedAssembleTests(AssemblerTestCase):
def complete_metadata(self, metadata, filename="myfile.py"):
if metadata is None:
metadata = {}
for key in ['name', 'qualname']:
metadata.setdefault(key, key)
for key in ['consts']:
metadata.setdefault(key, [])
for key in ['names', 'varnames', 'cellvars', 'freevars', 'fasthidden']:
metadata.setdefault(key, {})
for key in ['argcount', 'posonlyargcount', 'kwonlyargcount']:
metadata.setdefault(key, 0)
metadata.setdefault('firstlineno', 1)
metadata.setdefault('filename', filename)
return metadata
def insts_to_code_object(self, insts, metadata):
metadata = self.complete_metadata(metadata)
seq = self.seq_from_insts(insts)
return self.get_code_object(metadata['filename'], seq, metadata)
def assemble_test(self, insts, metadata, expected):
co = self.insts_to_code_object(insts, metadata)
self.assertIsInstance(co, types.CodeType)
expected_metadata = {}
for key, value in metadata.items():
if key == "fasthidden":
# not exposed on code object
continue
if isinstance(value, list):
expected_metadata[key] = tuple(value)
elif isinstance(value, dict):
expected_metadata[key] = tuple(value.keys())
else:
expected_metadata[key] = value
for key, value in expected_metadata.items():
self.assertEqual(getattr(co, "co_" + key), value)
f = types.FunctionType(co, {})
for args, res in expected.items():
self.assertEqual(f(*args), res)
def test_simple_expr(self):
metadata = {
'filename' : 'avg.py',
'name' : 'avg',
'qualname' : 'stats.avg',
'consts' : {2 : 0},
'argcount' : 2,
'varnames' : {'x' : 0, 'y' : 1},
}
# code for "return (x+y)/2"
insts = [
('RESUME', 0),
('LOAD_FAST', 0, 1), # 'x'
('LOAD_FAST', 1, 1), # 'y'
('BINARY_OP', 0, 1), # '+'
('LOAD_CONST', 0, 1), # 2
('BINARY_OP', 11, 1), # '/'
('RETURN_VALUE', None, 1),
]
expected = {(3, 4) : 3.5, (-100, 200) : 50, (10, 18) : 14}
self.assemble_test(insts, metadata, expected)
def test_expression_with_pseudo_instruction_load_closure(self):
def mod_two(x):
def inner():
return x
return inner() % 2
inner_code = mod_two.__code__.co_consts[1]
assert isinstance(inner_code, types.CodeType)
metadata = {
'filename' : 'mod_two.py',
'name' : 'mod_two',
'qualname' : 'nested.mod_two',
'cellvars' : {'x' : 0},
'consts': {None: 0, inner_code: 1, 2: 2},
'argcount' : 1,
'varnames' : {'x' : 0},
}
instructions = [
('RESUME', 0,),
('LOAD_CLOSURE', 0, 1),
('BUILD_TUPLE', 1, 1),
('LOAD_CONST', 1, 1),
('MAKE_FUNCTION', None, 2),
('SET_FUNCTION_ATTRIBUTE', 8, 2),
('PUSH_NULL', None, 1),
('CALL', 0, 2), # (lambda: x)()
('LOAD_CONST', 2, 2), # 2
('BINARY_OP', 6, 2), # %
('RETURN_VALUE', None, 2)
]
expected = {(0,): 0, (1,): 1, (2,): 0, (120,): 0, (121,): 1}
self.assemble_test(instructions, metadata, expected)
def test_exception_table(self):
metadata = {
'filename' : 'exc.py',
'name' : 'exc',
'consts' : {2 : 0},
}
# code for "try: pass\n except: pass"
insts = [
('RESUME', 0),
('SETUP_FINALLY', 3),
('RETURN_CONST', 0),
('SETUP_CLEANUP', 8),
('PUSH_EXC_INFO', None),
('POP_TOP', None),
('POP_EXCEPT', None),
('RETURN_CONST', 0),
('COPY', 3),
('POP_EXCEPT', None),
('RERAISE', 1),
]
co = self.insts_to_code_object(insts, metadata)
output = io.StringIO()
dis.dis(co, file=output)
exc_table = textwrap.dedent("""
ExceptionTable:
L1 to L2 -> L2 [0]
L2 to L3 -> L3 [1] lasti
""")
self.assertTrue(output.getvalue().endswith(exc_table))