cpython/Lib/test/test_symtable.py

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"""
Test the API of the symtable module.
"""
import re
import textwrap
import symtable
import unittest
from test import support
from test.support import os_helper
TEST_CODE = """
import sys
glob = 42
some_var = 12
some_non_assigned_global_var: int
some_assigned_global_var = 11
class Mine:
instance_var = 24
def a_method(p1, p2):
pass
def spam(a, b, *var, **kw):
global bar
global some_assigned_global_var
some_assigned_global_var = 12
bar = 47
some_var = 10
x = 23
glob
def internal():
return x
def other_internal():
nonlocal some_var
some_var = 3
return some_var
return internal
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def foo():
pass
def namespace_test(): pass
def namespace_test(): pass
type Alias = int
type GenericAlias[T] = list[T]
def generic_spam[T](a):
pass
class GenericMine[T: int, U: (int, str) = int]:
pass
"""
TEST_COMPLEX_CLASS_CODE = """
# The following symbols are defined in ComplexClass
# without being introduced by a 'global' statement.
glob_unassigned_meth: Any
glob_unassigned_meth_pep_695: Any
glob_unassigned_async_meth: Any
glob_unassigned_async_meth_pep_695: Any
def glob_assigned_meth(): pass
def glob_assigned_meth_pep_695[T](): pass
async def glob_assigned_async_meth(): pass
async def glob_assigned_async_meth_pep_695[T](): pass
# The following symbols are defined in ComplexClass after
# being introduced by a 'global' statement (and therefore
# are not considered as local symbols of ComplexClass).
glob_unassigned_meth_ignore: Any
glob_unassigned_meth_pep_695_ignore: Any
glob_unassigned_async_meth_ignore: Any
glob_unassigned_async_meth_pep_695_ignore: Any
def glob_assigned_meth_ignore(): pass
def glob_assigned_meth_pep_695_ignore[T](): pass
async def glob_assigned_async_meth_ignore(): pass
async def glob_assigned_async_meth_pep_695_ignore[T](): pass
class ComplexClass:
a_var = 1234
a_genexpr = (x for x in [])
a_lambda = lambda x: x
type a_type_alias = int
type a_type_alias_pep_695[T] = list[T]
class a_class: pass
class a_class_pep_695[T]: pass
def a_method(self): pass
def a_method_pep_695[T](self): pass
async def an_async_method(self): pass
async def an_async_method_pep_695[T](self): pass
@classmethod
def a_classmethod(cls): pass
@classmethod
def a_classmethod_pep_695[T](self): pass
@classmethod
async def an_async_classmethod(cls): pass
@classmethod
async def an_async_classmethod_pep_695[T](self): pass
@staticmethod
def a_staticmethod(): pass
@staticmethod
def a_staticmethod_pep_695[T](self): pass
@staticmethod
async def an_async_staticmethod(): pass
@staticmethod
async def an_async_staticmethod_pep_695[T](self): pass
# These ones will be considered as methods because of the 'def' although
# they are *not* valid methods at runtime since they are not decorated
# with @staticmethod.
def a_fakemethod(): pass
def a_fakemethod_pep_695[T](): pass
async def an_async_fakemethod(): pass
async def an_async_fakemethod_pep_695[T](): pass
# Check that those are still considered as methods
# since they are not using the 'global' keyword.
def glob_unassigned_meth(): pass
def glob_unassigned_meth_pep_695[T](): pass
async def glob_unassigned_async_meth(): pass
async def glob_unassigned_async_meth_pep_695[T](): pass
def glob_assigned_meth(): pass
def glob_assigned_meth_pep_695[T](): pass
async def glob_assigned_async_meth(): pass
async def glob_assigned_async_meth_pep_695[T](): pass
# The following are not picked as local symbols because they are not
# visible by the class at runtime (this is equivalent to having the
# definitions outside of the class).
global glob_unassigned_meth_ignore
def glob_unassigned_meth_ignore(): pass
global glob_unassigned_meth_pep_695_ignore
def glob_unassigned_meth_pep_695_ignore[T](): pass
global glob_unassigned_async_meth_ignore
async def glob_unassigned_async_meth_ignore(): pass
global glob_unassigned_async_meth_pep_695_ignore
async def glob_unassigned_async_meth_pep_695_ignore[T](): pass
global glob_assigned_meth_ignore
def glob_assigned_meth_ignore(): pass
global glob_assigned_meth_pep_695_ignore
def glob_assigned_meth_pep_695_ignore[T](): pass
global glob_assigned_async_meth_ignore
async def glob_assigned_async_meth_ignore(): pass
global glob_assigned_async_meth_pep_695_ignore
async def glob_assigned_async_meth_pep_695_ignore[T](): pass
"""
def find_block(block, name):
for ch in block.get_children():
if ch.get_name() == name:
return ch
class SymtableTest(unittest.TestCase):
top = symtable.symtable(TEST_CODE, "?", "exec")
# These correspond to scopes in TEST_CODE
Mine = find_block(top, "Mine")
a_method = find_block(Mine, "a_method")
spam = find_block(top, "spam")
internal = find_block(spam, "internal")
other_internal = find_block(spam, "other_internal")
foo = find_block(top, "foo")
Alias = find_block(top, "Alias")
GenericAlias = find_block(top, "GenericAlias")
GenericAlias_inner = find_block(GenericAlias, "GenericAlias")
generic_spam = find_block(top, "generic_spam")
generic_spam_inner = find_block(generic_spam, "generic_spam")
GenericMine = find_block(top, "GenericMine")
GenericMine_inner = find_block(GenericMine, "GenericMine")
T = find_block(GenericMine, "T")
U = find_block(GenericMine, "U")
def test_type(self):
self.assertEqual(self.top.get_type(), "module")
self.assertEqual(self.Mine.get_type(), "class")
self.assertEqual(self.a_method.get_type(), "function")
self.assertEqual(self.spam.get_type(), "function")
self.assertEqual(self.internal.get_type(), "function")
self.assertEqual(self.foo.get_type(), "function")
self.assertEqual(self.Alias.get_type(), "type alias")
self.assertEqual(self.GenericAlias.get_type(), "type parameters")
self.assertEqual(self.GenericAlias_inner.get_type(), "type alias")
self.assertEqual(self.generic_spam.get_type(), "type parameters")
self.assertEqual(self.generic_spam_inner.get_type(), "function")
self.assertEqual(self.GenericMine.get_type(), "type parameters")
self.assertEqual(self.GenericMine_inner.get_type(), "class")
self.assertEqual(self.T.get_type(), "type variable")
self.assertEqual(self.U.get_type(), "type variable")
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def test_id(self):
self.assertGreater(self.top.get_id(), 0)
self.assertGreater(self.Mine.get_id(), 0)
self.assertGreater(self.a_method.get_id(), 0)
self.assertGreater(self.spam.get_id(), 0)
self.assertGreater(self.internal.get_id(), 0)
self.assertGreater(self.foo.get_id(), 0)
self.assertGreater(self.Alias.get_id(), 0)
self.assertGreater(self.GenericAlias.get_id(), 0)
self.assertGreater(self.generic_spam.get_id(), 0)
self.assertGreater(self.GenericMine.get_id(), 0)
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def test_optimized(self):
self.assertFalse(self.top.is_optimized())
self.assertTrue(self.spam.is_optimized())
def test_nested(self):
self.assertFalse(self.top.is_nested())
self.assertFalse(self.Mine.is_nested())
self.assertFalse(self.spam.is_nested())
self.assertTrue(self.internal.is_nested())
def test_children(self):
self.assertTrue(self.top.has_children())
self.assertTrue(self.Mine.has_children())
self.assertFalse(self.foo.has_children())
def test_lineno(self):
self.assertEqual(self.top.get_lineno(), 0)
self.assertEqual(self.spam.get_lineno(), 14)
def test_function_info(self):
func = self.spam
self.assertEqual(sorted(func.get_parameters()), ["a", "b", "kw", "var"])
expected = ['a', 'b', 'internal', 'kw', 'other_internal', 'some_var', 'var', 'x']
self.assertEqual(sorted(func.get_locals()), expected)
self.assertEqual(sorted(func.get_globals()), ["bar", "glob", "some_assigned_global_var"])
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self.assertEqual(self.internal.get_frees(), ("x",))
def test_globals(self):
self.assertTrue(self.spam.lookup("glob").is_global())
self.assertFalse(self.spam.lookup("glob").is_declared_global())
self.assertTrue(self.spam.lookup("bar").is_global())
self.assertTrue(self.spam.lookup("bar").is_declared_global())
self.assertFalse(self.internal.lookup("x").is_global())
self.assertFalse(self.Mine.lookup("instance_var").is_global())
self.assertTrue(self.spam.lookup("bar").is_global())
# Module-scope globals are both global and local
self.assertTrue(self.top.lookup("some_non_assigned_global_var").is_global())
self.assertTrue(self.top.lookup("some_assigned_global_var").is_global())
def test_nonlocal(self):
self.assertFalse(self.spam.lookup("some_var").is_nonlocal())
self.assertTrue(self.other_internal.lookup("some_var").is_nonlocal())
expected = ("some_var",)
self.assertEqual(self.other_internal.get_nonlocals(), expected)
def test_local(self):
self.assertTrue(self.spam.lookup("x").is_local())
self.assertFalse(self.spam.lookup("bar").is_local())
# Module-scope globals are both global and local
self.assertTrue(self.top.lookup("some_non_assigned_global_var").is_local())
self.assertTrue(self.top.lookup("some_assigned_global_var").is_local())
def test_free(self):
self.assertTrue(self.internal.lookup("x").is_free())
def test_referenced(self):
self.assertTrue(self.internal.lookup("x").is_referenced())
self.assertTrue(self.spam.lookup("internal").is_referenced())
self.assertFalse(self.spam.lookup("x").is_referenced())
def test_parameters(self):
for sym in ("a", "var", "kw"):
self.assertTrue(self.spam.lookup(sym).is_parameter())
self.assertFalse(self.spam.lookup("x").is_parameter())
def test_symbol_lookup(self):
self.assertEqual(len(self.top.get_identifiers()),
len(self.top.get_symbols()))
self.assertRaises(KeyError, self.top.lookup, "not_here")
def test_namespaces(self):
self.assertTrue(self.top.lookup("Mine").is_namespace())
self.assertTrue(self.Mine.lookup("a_method").is_namespace())
self.assertTrue(self.top.lookup("spam").is_namespace())
self.assertTrue(self.spam.lookup("internal").is_namespace())
self.assertTrue(self.top.lookup("namespace_test").is_namespace())
self.assertFalse(self.spam.lookup("x").is_namespace())
self.assertTrue(self.top.lookup("spam").get_namespace() is self.spam)
ns_test = self.top.lookup("namespace_test")
self.assertEqual(len(ns_test.get_namespaces()), 2)
self.assertRaises(ValueError, ns_test.get_namespace)
ns_test_2 = self.top.lookup("glob")
self.assertEqual(len(ns_test_2.get_namespaces()), 0)
self.assertRaises(ValueError, ns_test_2.get_namespace)
def test_assigned(self):
self.assertTrue(self.spam.lookup("x").is_assigned())
self.assertTrue(self.spam.lookup("bar").is_assigned())
self.assertTrue(self.top.lookup("spam").is_assigned())
self.assertTrue(self.Mine.lookup("a_method").is_assigned())
self.assertFalse(self.internal.lookup("x").is_assigned())
def test_annotated(self):
st1 = symtable.symtable('def f():\n x: int\n', 'test', 'exec')
st2 = st1.get_children()[1]
self.assertEqual(st2.get_type(), "function")
self.assertTrue(st2.lookup('x').is_local())
self.assertTrue(st2.lookup('x').is_annotated())
self.assertFalse(st2.lookup('x').is_global())
st3 = symtable.symtable('def f():\n x = 1\n', 'test', 'exec')
st4 = st3.get_children()[1]
self.assertEqual(st4.get_type(), "function")
self.assertTrue(st4.lookup('x').is_local())
self.assertFalse(st4.lookup('x').is_annotated())
# Test that annotations in the global scope are valid after the
# variable is declared as nonlocal.
st5 = symtable.symtable('global x\nx: int', 'test', 'exec')
self.assertTrue(st5.lookup("x").is_global())
# Test that annotations for nonlocals are valid after the
# variable is declared as nonlocal.
st6 = symtable.symtable('def g():\n'
' x = 2\n'
' def f():\n'
' nonlocal x\n'
' x: int',
'test', 'exec')
def test_imported(self):
self.assertTrue(self.top.lookup("sys").is_imported())
def test_name(self):
self.assertEqual(self.top.get_name(), "top")
self.assertEqual(self.spam.get_name(), "spam")
self.assertEqual(self.spam.lookup("x").get_name(), "x")
self.assertEqual(self.Mine.get_name(), "Mine")
def test_class_get_methods(self):
deprecation_mess = (
re.escape('symtable.Class.get_methods() is deprecated '
'and will be removed in Python 3.16.')
)
with self.assertWarnsRegex(DeprecationWarning, deprecation_mess):
self.assertEqual(self.Mine.get_methods(), ('a_method',))
top = symtable.symtable(TEST_COMPLEX_CLASS_CODE, "?", "exec")
this = find_block(top, "ComplexClass")
with self.assertWarnsRegex(DeprecationWarning, deprecation_mess):
self.assertEqual(this.get_methods(), (
'a_method', 'a_method_pep_695',
'an_async_method', 'an_async_method_pep_695',
'a_classmethod', 'a_classmethod_pep_695',
'an_async_classmethod', 'an_async_classmethod_pep_695',
'a_staticmethod', 'a_staticmethod_pep_695',
'an_async_staticmethod', 'an_async_staticmethod_pep_695',
'a_fakemethod', 'a_fakemethod_pep_695',
'an_async_fakemethod', 'an_async_fakemethod_pep_695',
'glob_unassigned_meth', 'glob_unassigned_meth_pep_695',
'glob_unassigned_async_meth', 'glob_unassigned_async_meth_pep_695',
'glob_assigned_meth', 'glob_assigned_meth_pep_695',
'glob_assigned_async_meth', 'glob_assigned_async_meth_pep_695',
))
# Test generator expressions that are of type TYPE_FUNCTION
# but will not be reported by get_methods() since they are
# not functions per se.
#
# Other kind of comprehensions such as list, set or dict
# expressions do not have the TYPE_FUNCTION type.
def check_body(body, expected_methods):
indented = textwrap.indent(body, ' ' * 4)
top = symtable.symtable(f"class A:\n{indented}", "?", "exec")
this = find_block(top, "A")
with self.assertWarnsRegex(DeprecationWarning, deprecation_mess):
self.assertEqual(this.get_methods(), expected_methods)
# statements with 'genexpr' inside it
GENEXPRS = (
'x = (x for x in [])',
'x = (x async for x in [])',
'type x[genexpr = (x for x in [])] = (x for x in [])',
'type x[genexpr = (x async for x in [])] = (x async for x in [])',
'genexpr = (x for x in [])',
'genexpr = (x async for x in [])',
'type genexpr[genexpr = (x for x in [])] = (x for x in [])',
'type genexpr[genexpr = (x async for x in [])] = (x async for x in [])',
)
for gen in GENEXPRS:
# test generator expression
with self.subTest(gen=gen):
check_body(gen, ())
# test generator expression + variable named 'genexpr'
with self.subTest(gen=gen, isvar=True):
check_body('\n'.join((gen, 'genexpr = 1')), ())
check_body('\n'.join(('genexpr = 1', gen)), ())
for paramlist in ('()', '(x)', '(x, y)', '(z: T)'):
for func in (
f'def genexpr{paramlist}:pass',
f'async def genexpr{paramlist}:pass',
f'def genexpr[T]{paramlist}:pass',
f'async def genexpr[T]{paramlist}:pass',
):
with self.subTest(func=func):
# test function named 'genexpr'
check_body(func, ('genexpr',))
for gen in GENEXPRS:
with self.subTest(gen=gen, func=func):
# test generator expression + function named 'genexpr'
check_body('\n'.join((gen, func)), ('genexpr',))
check_body('\n'.join((func, gen)), ('genexpr',))
def test_filename_correct(self):
### Bug tickler: SyntaxError file name correct whether error raised
### while parsing or building symbol table.
def checkfilename(brokencode, offset):
try:
symtable.symtable(brokencode, "spam", "exec")
except SyntaxError as e:
self.assertEqual(e.filename, "spam")
self.assertEqual(e.lineno, 1)
self.assertEqual(e.offset, offset)
else:
self.fail("no SyntaxError for %r" % (brokencode,))
checkfilename("def f(x): foo)(", 14) # parse-time
checkfilename("def f(x): global x", 11) # symtable-build-time
symtable.symtable("pass", b"spam", "exec")
with self.assertRaises(TypeError):
symtable.symtable("pass", bytearray(b"spam"), "exec")
with self.assertRaises(TypeError):
symtable.symtable("pass", memoryview(b"spam"), "exec")
with self.assertRaises(TypeError):
symtable.symtable("pass", list(b"spam"), "exec")
def test_eval(self):
symbols = symtable.symtable("42", "?", "eval")
def test_single(self):
symbols = symtable.symtable("42", "?", "single")
def test_exec(self):
symbols = symtable.symtable("def f(x): return x", "?", "exec")
def test_bytes(self):
top = symtable.symtable(TEST_CODE.encode('utf8'), "?", "exec")
self.assertIsNotNone(find_block(top, "Mine"))
code = b'# -*- coding: iso8859-15 -*-\nclass \xb4: pass\n'
top = symtable.symtable(code, "?", "exec")
self.assertIsNotNone(find_block(top, "\u017d"))
def test_symtable_repr(self):
self.assertEqual(str(self.top), "<SymbolTable for module ?>")
self.assertEqual(str(self.spam), "<Function SymbolTable for spam in ?>")
def test_symbol_repr(self):
self.assertEqual(repr(self.spam.lookup("glob")),
"<symbol 'glob': GLOBAL_IMPLICIT, USE>")
self.assertEqual(repr(self.spam.lookup("bar")),
"<symbol 'bar': GLOBAL_EXPLICIT, DEF_GLOBAL|DEF_LOCAL>")
self.assertEqual(repr(self.spam.lookup("a")),
"<symbol 'a': LOCAL, DEF_PARAM>")
self.assertEqual(repr(self.spam.lookup("internal")),
"<symbol 'internal': LOCAL, USE|DEF_LOCAL>")
self.assertEqual(repr(self.spam.lookup("other_internal")),
"<symbol 'other_internal': LOCAL, DEF_LOCAL>")
self.assertEqual(repr(self.internal.lookup("x")),
"<symbol 'x': FREE, USE>")
self.assertEqual(repr(self.other_internal.lookup("some_var")),
"<symbol 'some_var': FREE, USE|DEF_NONLOCAL|DEF_LOCAL>")
self.assertEqual(repr(self.GenericMine.lookup("T")),
"<symbol 'T': LOCAL, DEF_LOCAL|DEF_TYPE_PARAM>")
st1 = symtable.symtable("[x for x in [1]]", "?", "exec")
self.assertEqual(repr(st1.lookup("x")),
"<symbol 'x': LOCAL, USE|DEF_LOCAL|DEF_COMP_ITER>")
st2 = symtable.symtable("[(lambda: x) for x in [1]]", "?", "exec")
self.assertEqual(repr(st2.lookup("x")),
"<symbol 'x': CELL, DEF_LOCAL|DEF_COMP_ITER|DEF_COMP_CELL>")
st3 = symtable.symtable("def f():\n"
" x = 1\n"
" class A:\n"
" x = 2\n"
" def method():\n"
" return x\n",
"?", "exec")
# child 0 is for __annotate__
func_f = st3.get_children()[1]
class_A = func_f.get_children()[0]
self.assertEqual(repr(class_A.lookup('x')),
"<symbol 'x': LOCAL, DEF_LOCAL|DEF_FREE_CLASS>")
def test_symtable_entry_repr(self):
expected = f"<symtable entry top({self.top.get_id()}), line {self.top.get_lineno()}>"
self.assertEqual(repr(self.top._table), expected)
class ComprehensionTests(unittest.TestCase):
def get_identifiers_recursive(self, st, res):
res.extend(st.get_identifiers())
for ch in st.get_children():
self.get_identifiers_recursive(ch, res)
def test_loopvar_in_only_one_scope(self):
# ensure that the loop variable appears only once in the symtable
comps = [
"[x for x in [1]]",
"{x for x in [1]}",
"{x:x*x for x in [1]}",
]
for comp in comps:
with self.subTest(comp=comp):
st = symtable.symtable(comp, "?", "exec")
ids = []
self.get_identifiers_recursive(st, ids)
self.assertEqual(len([x for x in ids if x == 'x']), 1)
class CommandLineTest(unittest.TestCase):
maxDiff = None
def test_file(self):
filename = os_helper.TESTFN
self.addCleanup(os_helper.unlink, filename)
with open(filename, 'w') as f:
f.write(TEST_CODE)
with support.captured_stdout() as stdout:
symtable.main([filename])
out = stdout.getvalue()
self.assertIn('\n\n', out)
self.assertNotIn('\n\n\n', out)
lines = out.splitlines()
self.assertIn(f"symbol table for module from file {filename!r}:", lines)
self.assertIn(" local symbol 'glob': def_local", lines)
self.assertIn(" global_implicit symbol 'glob': use", lines)
self.assertIn(" local symbol 'spam': def_local", lines)
self.assertIn(" symbol table for function 'spam':", lines)
def test_stdin(self):
with support.captured_stdin() as stdin:
stdin.write(TEST_CODE)
stdin.seek(0)
with support.captured_stdout() as stdout:
symtable.main([])
out = stdout.getvalue()
stdin.seek(0)
with support.captured_stdout() as stdout:
symtable.main(['-'])
self.assertEqual(stdout.getvalue(), out)
lines = out.splitlines()
self.assertIn("symbol table for module from file '<stdin>':", lines)
if __name__ == '__main__':
unittest.main()