MinDalle_StableDiff/Python310/Lib/test/test_traceback.py

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"""Test cases for traceback module"""
from collections import namedtuple
from io import StringIO
import linecache
import sys
import inspect
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import unittest
import re
from test import support
from test.support import Error, captured_output, cpython_only, ALWAYS_EQ
from test.support.os_helper import TESTFN, unlink
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from test.support.script_helper import assert_python_ok
import textwrap
import traceback
test_code = namedtuple('code', ['co_filename', 'co_name'])
test_frame = namedtuple('frame', ['f_code', 'f_globals', 'f_locals'])
test_tb = namedtuple('tb', ['tb_frame', 'tb_lineno', 'tb_next'])
class TracebackCases(unittest.TestCase):
# For now, a very minimal set of tests. I want to be sure that
# formatting of SyntaxErrors works based on changes for 2.1.
def get_exception_format(self, func, exc):
try:
func()
except exc as value:
return traceback.format_exception_only(exc, value)
else:
raise ValueError("call did not raise exception")
def syntax_error_with_caret(self):
compile("def fact(x):\n\treturn x!\n", "?", "exec")
def syntax_error_with_caret_2(self):
compile("1 +\n", "?", "exec")
def syntax_error_with_caret_range(self):
compile("f(x, y for y in range(30), z)", "?", "exec")
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def syntax_error_bad_indentation(self):
compile("def spam():\n print(1)\n print(2)", "?", "exec")
def syntax_error_with_caret_non_ascii(self):
compile('Python = "\u1e54\xfd\u0163\u0125\xf2\xf1" +', "?", "exec")
def syntax_error_bad_indentation2(self):
compile(" print(2)", "?", "exec")
def tokenizer_error_with_caret_range(self):
compile("blech ( ", "?", "exec")
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def test_caret(self):
err = self.get_exception_format(self.syntax_error_with_caret,
SyntaxError)
self.assertEqual(len(err), 4)
self.assertTrue(err[1].strip() == "return x!")
self.assertIn("^", err[2]) # third line has caret
self.assertEqual(err[1].find("!"), err[2].find("^")) # in the right place
self.assertEqual(err[2].count("^"), 1)
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err = self.get_exception_format(self.syntax_error_with_caret_2,
SyntaxError)
self.assertIn("^", err[2]) # third line has caret
self.assertEqual(err[2].count('\n'), 1) # and no additional newline
self.assertEqual(err[1].find("+") + 1, err[2].find("^")) # in the right place
self.assertEqual(err[2].count("^"), 1)
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err = self.get_exception_format(self.syntax_error_with_caret_non_ascii,
SyntaxError)
self.assertIn("^", err[2]) # third line has caret
self.assertEqual(err[2].count('\n'), 1) # and no additional newline
self.assertEqual(err[1].find("+") + 1, err[2].find("^")) # in the right place
self.assertEqual(err[2].count("^"), 1)
err = self.get_exception_format(self.syntax_error_with_caret_range,
SyntaxError)
self.assertIn("^", err[2]) # third line has caret
self.assertEqual(err[2].count('\n'), 1) # and no additional newline
self.assertEqual(err[1].find("y"), err[2].find("^")) # in the right place
self.assertEqual(err[2].count("^"), len("y for y in range(30)"))
err = self.get_exception_format(self.tokenizer_error_with_caret_range,
SyntaxError)
self.assertIn("^", err[2]) # third line has caret
self.assertEqual(err[2].count('\n'), 1) # and no additional newline
self.assertEqual(err[1].find("("), err[2].find("^")) # in the right place
self.assertEqual(err[2].count("^"), 1)
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def test_nocaret(self):
exc = SyntaxError("error", ("x.py", 23, None, "bad syntax"))
err = traceback.format_exception_only(SyntaxError, exc)
self.assertEqual(len(err), 3)
self.assertEqual(err[1].strip(), "bad syntax")
def test_bad_indentation(self):
err = self.get_exception_format(self.syntax_error_bad_indentation,
IndentationError)
self.assertEqual(len(err), 4)
self.assertEqual(err[1].strip(), "print(2)")
self.assertIn("^", err[2])
self.assertEqual(err[1].find(")") + 1, err[2].find("^"))
# No caret for "unexpected indent"
err = self.get_exception_format(self.syntax_error_bad_indentation2,
IndentationError)
self.assertEqual(len(err), 3)
self.assertEqual(err[1].strip(), "print(2)")
def test_base_exception(self):
# Test that exceptions derived from BaseException are formatted right
e = KeyboardInterrupt()
lst = traceback.format_exception_only(e.__class__, e)
self.assertEqual(lst, ['KeyboardInterrupt\n'])
def test_format_exception_only_bad__str__(self):
class X(Exception):
def __str__(self):
1/0
err = traceback.format_exception_only(X, X())
self.assertEqual(len(err), 1)
str_value = '<unprintable %s object>' % X.__name__
if X.__module__ in ('__main__', 'builtins'):
str_name = X.__qualname__
else:
str_name = '.'.join([X.__module__, X.__qualname__])
self.assertEqual(err[0], "%s: %s\n" % (str_name, str_value))
def test_encoded_file(self):
# Test that tracebacks are correctly printed for encoded source files:
# - correct line number (Issue2384)
# - respect file encoding (Issue3975)
import sys, subprocess
# The spawned subprocess has its stdout redirected to a PIPE, and its
# encoding may be different from the current interpreter, on Windows
# at least.
process = subprocess.Popen([sys.executable, "-c",
"import sys; print(sys.stdout.encoding)"],
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
stdout, stderr = process.communicate()
output_encoding = str(stdout, 'ascii').splitlines()[0]
def do_test(firstlines, message, charset, lineno):
# Raise the message in a subprocess, and catch the output
try:
with open(TESTFN, "w", encoding=charset) as output:
output.write("""{0}if 1:
import traceback;
raise RuntimeError('{1}')
""".format(firstlines, message))
process = subprocess.Popen([sys.executable, TESTFN],
stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
stdout, stderr = process.communicate()
stdout = stdout.decode(output_encoding).splitlines()
finally:
unlink(TESTFN)
# The source lines are encoded with the 'backslashreplace' handler
encoded_message = message.encode(output_encoding,
'backslashreplace')
# and we just decoded them with the output_encoding.
message_ascii = encoded_message.decode(output_encoding)
err_line = "raise RuntimeError('{0}')".format(message_ascii)
err_msg = "RuntimeError: {0}".format(message_ascii)
self.assertIn(("line %s" % lineno), stdout[1],
"Invalid line number: {0!r} instead of {1}".format(
stdout[1], lineno))
self.assertTrue(stdout[2].endswith(err_line),
"Invalid traceback line: {0!r} instead of {1!r}".format(
stdout[2], err_line))
self.assertTrue(stdout[3] == err_msg,
"Invalid error message: {0!r} instead of {1!r}".format(
stdout[3], err_msg))
do_test("", "foo", "ascii", 3)
for charset in ("ascii", "iso-8859-1", "utf-8", "GBK"):
if charset == "ascii":
text = "foo"
elif charset == "GBK":
text = "\u4E02\u5100"
else:
text = "h\xe9 ho"
do_test("# coding: {0}\n".format(charset),
text, charset, 4)
do_test("#!shebang\n# coding: {0}\n".format(charset),
text, charset, 5)
do_test(" \t\f\n# coding: {0}\n".format(charset),
text, charset, 5)
# Issue #18960: coding spec should have no effect
do_test("x=0\n# coding: GBK\n", "h\xe9 ho", 'utf-8', 5)
def test_print_traceback_at_exit(self):
# Issue #22599: Ensure that it is possible to use the traceback module
# to display an exception at Python exit
code = textwrap.dedent("""
import sys
import traceback
class PrintExceptionAtExit(object):
def __init__(self):
try:
x = 1 / 0
except Exception:
self.exc_info = sys.exc_info()
# self.exc_info[1] (traceback) contains frames:
# explicitly clear the reference to self in the current
# frame to break a reference cycle
self = None
def __del__(self):
traceback.print_exception(*self.exc_info)
# Keep a reference in the module namespace to call the destructor
# when the module is unloaded
obj = PrintExceptionAtExit()
""")
rc, stdout, stderr = assert_python_ok('-c', code)
expected = [b'Traceback (most recent call last):',
b' File "<string>", line 8, in __init__',
b'ZeroDivisionError: division by zero']
self.assertEqual(stderr.splitlines(), expected)
def test_print_exception(self):
output = StringIO()
traceback.print_exception(
Exception, Exception("projector"), None, file=output
)
self.assertEqual(output.getvalue(), "Exception: projector\n")
def test_print_exception_exc(self):
output = StringIO()
traceback.print_exception(Exception("projector"), file=output)
self.assertEqual(output.getvalue(), "Exception: projector\n")
def test_format_exception_exc(self):
e = Exception("projector")
output = traceback.format_exception(e)
self.assertEqual(output, ["Exception: projector\n"])
with self.assertRaisesRegex(ValueError, 'Both or neither'):
traceback.format_exception(e.__class__, e)
with self.assertRaisesRegex(ValueError, 'Both or neither'):
traceback.format_exception(e.__class__, tb=e.__traceback__)
with self.assertRaisesRegex(TypeError, 'positional-only'):
traceback.format_exception(exc=e)
def test_format_exception_only_exc(self):
output = traceback.format_exception_only(Exception("projector"))
self.assertEqual(output, ["Exception: projector\n"])
def test_exception_is_None(self):
NONE_EXC_STRING = 'NoneType: None\n'
excfile = StringIO()
traceback.print_exception(None, file=excfile)
self.assertEqual(excfile.getvalue(), NONE_EXC_STRING)
excfile = StringIO()
traceback.print_exception(None, None, None, file=excfile)
self.assertEqual(excfile.getvalue(), NONE_EXC_STRING)
excfile = StringIO()
traceback.print_exc(None, file=excfile)
self.assertEqual(excfile.getvalue(), NONE_EXC_STRING)
self.assertEqual(traceback.format_exc(None), NONE_EXC_STRING)
self.assertEqual(traceback.format_exception(None), [NONE_EXC_STRING])
self.assertEqual(
traceback.format_exception(None, None, None), [NONE_EXC_STRING])
self.assertEqual(
traceback.format_exception_only(None), [NONE_EXC_STRING])
self.assertEqual(
traceback.format_exception_only(None, None), [NONE_EXC_STRING])
def test_signatures(self):
self.assertEqual(
str(inspect.signature(traceback.print_exception)),
('(exc, /, value=<implicit>, tb=<implicit>, '
'limit=None, file=None, chain=True)'))
self.assertEqual(
str(inspect.signature(traceback.format_exception)),
('(exc, /, value=<implicit>, tb=<implicit>, limit=None, '
'chain=True)'))
self.assertEqual(
str(inspect.signature(traceback.format_exception_only)),
'(exc, /, value=<implicit>)')
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class TracebackFormatTests(unittest.TestCase):
def some_exception(self):
raise KeyError('blah')
@cpython_only
def check_traceback_format(self, cleanup_func=None):
from _testcapi import traceback_print
try:
self.some_exception()
except KeyError:
type_, value, tb = sys.exc_info()
if cleanup_func is not None:
# Clear the inner frames, not this one
cleanup_func(tb.tb_next)
traceback_fmt = 'Traceback (most recent call last):\n' + \
''.join(traceback.format_tb(tb))
file_ = StringIO()
traceback_print(tb, file_)
python_fmt = file_.getvalue()
# Call all _tb and _exc functions
with captured_output("stderr") as tbstderr:
traceback.print_tb(tb)
tbfile = StringIO()
traceback.print_tb(tb, file=tbfile)
with captured_output("stderr") as excstderr:
traceback.print_exc()
excfmt = traceback.format_exc()
excfile = StringIO()
traceback.print_exc(file=excfile)
else:
raise Error("unable to create test traceback string")
# Make sure that Python and the traceback module format the same thing
self.assertEqual(traceback_fmt, python_fmt)
# Now verify the _tb func output
self.assertEqual(tbstderr.getvalue(), tbfile.getvalue())
# Now verify the _exc func output
self.assertEqual(excstderr.getvalue(), excfile.getvalue())
self.assertEqual(excfmt, excfile.getvalue())
# Make sure that the traceback is properly indented.
tb_lines = python_fmt.splitlines()
self.assertEqual(len(tb_lines), 5)
banner = tb_lines[0]
location, source_line = tb_lines[-2:]
self.assertTrue(banner.startswith('Traceback'))
self.assertTrue(location.startswith(' File'))
self.assertTrue(source_line.startswith(' raise'))
def test_traceback_format(self):
self.check_traceback_format()
def test_traceback_format_with_cleared_frames(self):
# Check that traceback formatting also works with a clear()ed frame
def cleanup_tb(tb):
tb.tb_frame.clear()
self.check_traceback_format(cleanup_tb)
def test_stack_format(self):
# Verify _stack functions. Note we have to use _getframe(1) to
# compare them without this frame appearing in the output
with captured_output("stderr") as ststderr:
traceback.print_stack(sys._getframe(1))
stfile = StringIO()
traceback.print_stack(sys._getframe(1), file=stfile)
self.assertEqual(ststderr.getvalue(), stfile.getvalue())
stfmt = traceback.format_stack(sys._getframe(1))
self.assertEqual(ststderr.getvalue(), "".join(stfmt))
def test_print_stack(self):
def prn():
traceback.print_stack()
with captured_output("stderr") as stderr:
prn()
lineno = prn.__code__.co_firstlineno
self.assertEqual(stderr.getvalue().splitlines()[-4:], [
' File "%s", line %d, in test_print_stack' % (__file__, lineno+3),
' prn()',
' File "%s", line %d, in prn' % (__file__, lineno+1),
' traceback.print_stack()',
])
# issue 26823 - Shrink recursive tracebacks
def _check_recursive_traceback_display(self, render_exc):
# Always show full diffs when this test fails
# Note that rearranging things may require adjusting
# the relative line numbers in the expected tracebacks
self.maxDiff = None
# Check hitting the recursion limit
def f():
f()
with captured_output("stderr") as stderr_f:
try:
f()
except RecursionError:
render_exc()
else:
self.fail("no recursion occurred")
lineno_f = f.__code__.co_firstlineno
result_f = (
'Traceback (most recent call last):\n'
f' File "{__file__}", line {lineno_f+5}, in _check_recursive_traceback_display\n'
' f()\n'
f' File "{__file__}", line {lineno_f+1}, in f\n'
' f()\n'
f' File "{__file__}", line {lineno_f+1}, in f\n'
' f()\n'
f' File "{__file__}", line {lineno_f+1}, in f\n'
' f()\n'
# XXX: The following line changes depending on whether the tests
# are run through the interactive interpreter or with -m
# It also varies depending on the platform (stack size)
# Fortunately, we don't care about exactness here, so we use regex
r' \[Previous line repeated (\d+) more times\]' '\n'
'RecursionError: maximum recursion depth exceeded\n'
)
expected = result_f.splitlines()
actual = stderr_f.getvalue().splitlines()
# Check the output text matches expectations
# 2nd last line contains the repetition count
self.assertEqual(actual[:-2], expected[:-2])
self.assertRegex(actual[-2], expected[-2])
# last line can have additional text appended
self.assertIn(expected[-1], actual[-1])
# Check the recursion count is roughly as expected
rec_limit = sys.getrecursionlimit()
self.assertIn(int(re.search(r"\d+", actual[-2]).group()), range(rec_limit-60, rec_limit))
# Check a known (limited) number of recursive invocations
def g(count=10):
if count:
return g(count-1)
raise ValueError
with captured_output("stderr") as stderr_g:
try:
g()
except ValueError:
render_exc()
else:
self.fail("no value error was raised")
lineno_g = g.__code__.co_firstlineno
result_g = (
f' File "{__file__}", line {lineno_g+2}, in g\n'
' return g(count-1)\n'
f' File "{__file__}", line {lineno_g+2}, in g\n'
' return g(count-1)\n'
f' File "{__file__}", line {lineno_g+2}, in g\n'
' return g(count-1)\n'
' [Previous line repeated 7 more times]\n'
f' File "{__file__}", line {lineno_g+3}, in g\n'
' raise ValueError\n'
'ValueError\n'
)
tb_line = (
'Traceback (most recent call last):\n'
f' File "{__file__}", line {lineno_g+7}, in _check_recursive_traceback_display\n'
' g()\n'
)
expected = (tb_line + result_g).splitlines()
actual = stderr_g.getvalue().splitlines()
self.assertEqual(actual, expected)
# Check 2 different repetitive sections
def h(count=10):
if count:
return h(count-1)
g()
with captured_output("stderr") as stderr_h:
try:
h()
except ValueError:
render_exc()
else:
self.fail("no value error was raised")
lineno_h = h.__code__.co_firstlineno
result_h = (
'Traceback (most recent call last):\n'
f' File "{__file__}", line {lineno_h+7}, in _check_recursive_traceback_display\n'
' h()\n'
f' File "{__file__}", line {lineno_h+2}, in h\n'
' return h(count-1)\n'
f' File "{__file__}", line {lineno_h+2}, in h\n'
' return h(count-1)\n'
f' File "{__file__}", line {lineno_h+2}, in h\n'
' return h(count-1)\n'
' [Previous line repeated 7 more times]\n'
f' File "{__file__}", line {lineno_h+3}, in h\n'
' g()\n'
)
expected = (result_h + result_g).splitlines()
actual = stderr_h.getvalue().splitlines()
self.assertEqual(actual, expected)
# Check the boundary conditions. First, test just below the cutoff.
with captured_output("stderr") as stderr_g:
try:
g(traceback._RECURSIVE_CUTOFF)
except ValueError:
render_exc()
else:
self.fail("no error raised")
result_g = (
f' File "{__file__}", line {lineno_g+2}, in g\n'
' return g(count-1)\n'
f' File "{__file__}", line {lineno_g+2}, in g\n'
' return g(count-1)\n'
f' File "{__file__}", line {lineno_g+2}, in g\n'
' return g(count-1)\n'
f' File "{__file__}", line {lineno_g+3}, in g\n'
' raise ValueError\n'
'ValueError\n'
)
tb_line = (
'Traceback (most recent call last):\n'
f' File "{__file__}", line {lineno_g+71}, in _check_recursive_traceback_display\n'
' g(traceback._RECURSIVE_CUTOFF)\n'
)
expected = (tb_line + result_g).splitlines()
actual = stderr_g.getvalue().splitlines()
self.assertEqual(actual, expected)
# Second, test just above the cutoff.
with captured_output("stderr") as stderr_g:
try:
g(traceback._RECURSIVE_CUTOFF + 1)
except ValueError:
render_exc()
else:
self.fail("no error raised")
result_g = (
f' File "{__file__}", line {lineno_g+2}, in g\n'
' return g(count-1)\n'
f' File "{__file__}", line {lineno_g+2}, in g\n'
' return g(count-1)\n'
f' File "{__file__}", line {lineno_g+2}, in g\n'
' return g(count-1)\n'
' [Previous line repeated 1 more time]\n'
f' File "{__file__}", line {lineno_g+3}, in g\n'
' raise ValueError\n'
'ValueError\n'
)
tb_line = (
'Traceback (most recent call last):\n'
f' File "{__file__}", line {lineno_g+99}, in _check_recursive_traceback_display\n'
' g(traceback._RECURSIVE_CUTOFF + 1)\n'
)
expected = (tb_line + result_g).splitlines()
actual = stderr_g.getvalue().splitlines()
self.assertEqual(actual, expected)
def test_recursive_traceback_python(self):
self._check_recursive_traceback_display(traceback.print_exc)
@cpython_only
def test_recursive_traceback_cpython_internal(self):
from _testcapi import exception_print
def render_exc():
exc_type, exc_value, exc_tb = sys.exc_info()
exception_print(exc_value)
self._check_recursive_traceback_display(render_exc)
def test_format_stack(self):
def fmt():
return traceback.format_stack()
result = fmt()
lineno = fmt.__code__.co_firstlineno
self.assertEqual(result[-2:], [
' File "%s", line %d, in test_format_stack\n'
' result = fmt()\n' % (__file__, lineno+2),
' File "%s", line %d, in fmt\n'
' return traceback.format_stack()\n' % (__file__, lineno+1),
])
@cpython_only
def test_unhashable(self):
from _testcapi import exception_print
class UnhashableException(Exception):
def __eq__(self, other):
return True
ex1 = UnhashableException('ex1')
ex2 = UnhashableException('ex2')
try:
raise ex2 from ex1
except UnhashableException:
try:
raise ex1
except UnhashableException:
exc_type, exc_val, exc_tb = sys.exc_info()
with captured_output("stderr") as stderr_f:
exception_print(exc_val)
tb = stderr_f.getvalue().strip().splitlines()
self.assertEqual(11, len(tb))
self.assertEqual(context_message.strip(), tb[5])
self.assertIn('UnhashableException: ex2', tb[3])
self.assertIn('UnhashableException: ex1', tb[10])
cause_message = (
"\nThe above exception was the direct cause "
"of the following exception:\n\n")
context_message = (
"\nDuring handling of the above exception, "
"another exception occurred:\n\n")
boundaries = re.compile(
'(%s|%s)' % (re.escape(cause_message), re.escape(context_message)))
class BaseExceptionReportingTests:
def get_exception(self, exception_or_callable):
if isinstance(exception_or_callable, Exception):
return exception_or_callable
try:
exception_or_callable()
except Exception as e:
return e
def zero_div(self):
1/0 # In zero_div
def check_zero_div(self, msg):
lines = msg.splitlines()
self.assertTrue(lines[-3].startswith(' File'))
self.assertIn('1/0 # In zero_div', lines[-2])
self.assertTrue(lines[-1].startswith('ZeroDivisionError'), lines[-1])
def test_simple(self):
try:
1/0 # Marker
except ZeroDivisionError as _:
e = _
lines = self.get_report(e).splitlines()
self.assertEqual(len(lines), 4)
self.assertTrue(lines[0].startswith('Traceback'))
self.assertTrue(lines[1].startswith(' File'))
self.assertIn('1/0 # Marker', lines[2])
self.assertTrue(lines[3].startswith('ZeroDivisionError'))
def test_cause(self):
def inner_raise():
try:
self.zero_div()
except ZeroDivisionError as e:
raise KeyError from e
def outer_raise():
inner_raise() # Marker
blocks = boundaries.split(self.get_report(outer_raise))
self.assertEqual(len(blocks), 3)
self.assertEqual(blocks[1], cause_message)
self.check_zero_div(blocks[0])
self.assertIn('inner_raise() # Marker', blocks[2])
def test_context(self):
def inner_raise():
try:
self.zero_div()
except ZeroDivisionError:
raise KeyError
def outer_raise():
inner_raise() # Marker
blocks = boundaries.split(self.get_report(outer_raise))
self.assertEqual(len(blocks), 3)
self.assertEqual(blocks[1], context_message)
self.check_zero_div(blocks[0])
self.assertIn('inner_raise() # Marker', blocks[2])
def test_context_suppression(self):
try:
try:
raise Exception
except:
raise ZeroDivisionError from None
except ZeroDivisionError as _:
e = _
lines = self.get_report(e).splitlines()
self.assertEqual(len(lines), 4)
self.assertTrue(lines[0].startswith('Traceback'))
self.assertTrue(lines[1].startswith(' File'))
self.assertIn('ZeroDivisionError from None', lines[2])
self.assertTrue(lines[3].startswith('ZeroDivisionError'))
def test_cause_and_context(self):
# When both a cause and a context are set, only the cause should be
# displayed and the context should be muted.
def inner_raise():
try:
self.zero_div()
except ZeroDivisionError as _e:
e = _e
try:
xyzzy
except NameError:
raise KeyError from e
def outer_raise():
inner_raise() # Marker
blocks = boundaries.split(self.get_report(outer_raise))
self.assertEqual(len(blocks), 3)
self.assertEqual(blocks[1], cause_message)
self.check_zero_div(blocks[0])
self.assertIn('inner_raise() # Marker', blocks[2])
def test_cause_recursive(self):
def inner_raise():
try:
try:
self.zero_div()
except ZeroDivisionError as e:
z = e
raise KeyError from e
except KeyError as e:
raise z from e
def outer_raise():
inner_raise() # Marker
blocks = boundaries.split(self.get_report(outer_raise))
self.assertEqual(len(blocks), 3)
self.assertEqual(blocks[1], cause_message)
# The first block is the KeyError raised from the ZeroDivisionError
self.assertIn('raise KeyError from e', blocks[0])
self.assertNotIn('1/0', blocks[0])
# The second block (apart from the boundary) is the ZeroDivisionError
# re-raised from the KeyError
self.assertIn('inner_raise() # Marker', blocks[2])
self.check_zero_div(blocks[2])
def test_syntax_error_offset_at_eol(self):
# See #10186.
def e():
raise SyntaxError('', ('', 0, 5, 'hello'))
msg = self.get_report(e).splitlines()
self.assertEqual(msg[-2], " ^")
def e():
exec("x = 5 | 4 |")
msg = self.get_report(e).splitlines()
self.assertEqual(msg[-2], ' ^')
def test_syntax_error_no_lineno(self):
# See #34463.
# Without filename
e = SyntaxError('bad syntax')
msg = self.get_report(e).splitlines()
self.assertEqual(msg,
['SyntaxError: bad syntax'])
e.lineno = 100
msg = self.get_report(e).splitlines()
self.assertEqual(msg,
[' File "<string>", line 100', 'SyntaxError: bad syntax'])
# With filename
e = SyntaxError('bad syntax')
e.filename = 'myfile.py'
msg = self.get_report(e).splitlines()
self.assertEqual(msg,
['SyntaxError: bad syntax (myfile.py)'])
e.lineno = 100
msg = self.get_report(e).splitlines()
self.assertEqual(msg,
[' File "myfile.py", line 100', 'SyntaxError: bad syntax'])
def test_message_none(self):
# A message that looks like "None" should not be treated specially
err = self.get_report(Exception(None))
self.assertIn('Exception: None\n', err)
err = self.get_report(Exception('None'))
self.assertIn('Exception: None\n', err)
err = self.get_report(Exception())
self.assertIn('Exception\n', err)
err = self.get_report(Exception(''))
self.assertIn('Exception\n', err)
def test_exception_modulename_not_unicode(self):
class X(Exception):
def __str__(self):
return "I am X"
X.__module__ = 42
err = self.get_report(X())
exp = f'<unknown>.{X.__qualname__}: I am X\n'
self.assertEqual(exp, err)
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def test_syntax_error_various_offsets(self):
for offset in range(-5, 10):
for add in [0, 2]:
text = " "*add + "text%d" % offset
expected = [' File "file.py", line 1']
if offset < 1:
expected.append(" %s" % text.lstrip())
elif offset <= 6:
expected.append(" %s" % text.lstrip())
expected.append(" %s^" % (" "*(offset-1)))
else:
expected.append(" %s" % text.lstrip())
expected.append(" %s^" % (" "*5))
expected.append("SyntaxError: msg")
expected.append("")
err = self.get_report(SyntaxError("msg", ("file.py", 1, offset+add, text)))
exp = "\n".join(expected)
self.assertEqual(exp, err)
def test_format_exception_only_qualname(self):
class A:
class B:
class X(Exception):
def __str__(self):
return "I am X"
pass
err = self.get_report(A.B.X())
str_value = 'I am X'
str_name = '.'.join([A.B.X.__module__, A.B.X.__qualname__])
exp = "%s: %s\n" % (str_name, str_value)
self.assertEqual(exp, err)
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class PyExcReportingTests(BaseExceptionReportingTests, unittest.TestCase):
#
# This checks reporting through the 'traceback' module, with both
# format_exception() and print_exception().
#
def get_report(self, e):
e = self.get_exception(e)
s = ''.join(
traceback.format_exception(type(e), e, e.__traceback__))
with captured_output("stderr") as sio:
traceback.print_exception(type(e), e, e.__traceback__)
self.assertEqual(sio.getvalue(), s)
return s
class CExcReportingTests(BaseExceptionReportingTests, unittest.TestCase):
#
# This checks built-in reporting by the interpreter.
#
@cpython_only
def get_report(self, e):
from _testcapi import exception_print
e = self.get_exception(e)
with captured_output("stderr") as s:
exception_print(e)
return s.getvalue()
class LimitTests(unittest.TestCase):
''' Tests for limit argument.
It's enough to test extact_tb, extract_stack and format_exception '''
def last_raises1(self):
raise Exception('Last raised')
def last_raises2(self):
self.last_raises1()
def last_raises3(self):
self.last_raises2()
def last_raises4(self):
self.last_raises3()
def last_raises5(self):
self.last_raises4()
def last_returns_frame1(self):
return sys._getframe()
def last_returns_frame2(self):
return self.last_returns_frame1()
def last_returns_frame3(self):
return self.last_returns_frame2()
def last_returns_frame4(self):
return self.last_returns_frame3()
def last_returns_frame5(self):
return self.last_returns_frame4()
def test_extract_stack(self):
frame = self.last_returns_frame5()
def extract(**kwargs):
return traceback.extract_stack(frame, **kwargs)
def assertEqualExcept(actual, expected, ignore):
self.assertEqual(actual[:ignore], expected[:ignore])
self.assertEqual(actual[ignore+1:], expected[ignore+1:])
self.assertEqual(len(actual), len(expected))
with support.swap_attr(sys, 'tracebacklimit', 1000):
nolim = extract()
self.assertGreater(len(nolim), 5)
self.assertEqual(extract(limit=2), nolim[-2:])
assertEqualExcept(extract(limit=100), nolim[-100:], -5-1)
self.assertEqual(extract(limit=-2), nolim[:2])
assertEqualExcept(extract(limit=-100), nolim[:100], len(nolim)-5-1)
self.assertEqual(extract(limit=0), [])
del sys.tracebacklimit
assertEqualExcept(extract(), nolim, -5-1)
sys.tracebacklimit = 2
self.assertEqual(extract(), nolim[-2:])
self.assertEqual(extract(limit=3), nolim[-3:])
self.assertEqual(extract(limit=-3), nolim[:3])
sys.tracebacklimit = 0
self.assertEqual(extract(), [])
sys.tracebacklimit = -1
self.assertEqual(extract(), [])
def test_extract_tb(self):
try:
self.last_raises5()
except Exception:
exc_type, exc_value, tb = sys.exc_info()
def extract(**kwargs):
return traceback.extract_tb(tb, **kwargs)
with support.swap_attr(sys, 'tracebacklimit', 1000):
nolim = extract()
self.assertEqual(len(nolim), 5+1)
self.assertEqual(extract(limit=2), nolim[:2])
self.assertEqual(extract(limit=10), nolim)
self.assertEqual(extract(limit=-2), nolim[-2:])
self.assertEqual(extract(limit=-10), nolim)
self.assertEqual(extract(limit=0), [])
del sys.tracebacklimit
self.assertEqual(extract(), nolim)
sys.tracebacklimit = 2
self.assertEqual(extract(), nolim[:2])
self.assertEqual(extract(limit=3), nolim[:3])
self.assertEqual(extract(limit=-3), nolim[-3:])
sys.tracebacklimit = 0
self.assertEqual(extract(), [])
sys.tracebacklimit = -1
self.assertEqual(extract(), [])
def test_format_exception(self):
try:
self.last_raises5()
except Exception:
exc_type, exc_value, tb = sys.exc_info()
# [1:-1] to exclude "Traceback (...)" header and
# exception type and value
def extract(**kwargs):
return traceback.format_exception(exc_type, exc_value, tb, **kwargs)[1:-1]
with support.swap_attr(sys, 'tracebacklimit', 1000):
nolim = extract()
self.assertEqual(len(nolim), 5+1)
self.assertEqual(extract(limit=2), nolim[:2])
self.assertEqual(extract(limit=10), nolim)
self.assertEqual(extract(limit=-2), nolim[-2:])
self.assertEqual(extract(limit=-10), nolim)
self.assertEqual(extract(limit=0), [])
del sys.tracebacklimit
self.assertEqual(extract(), nolim)
sys.tracebacklimit = 2
self.assertEqual(extract(), nolim[:2])
self.assertEqual(extract(limit=3), nolim[:3])
self.assertEqual(extract(limit=-3), nolim[-3:])
sys.tracebacklimit = 0
self.assertEqual(extract(), [])
sys.tracebacklimit = -1
self.assertEqual(extract(), [])
class MiscTracebackCases(unittest.TestCase):
#
# Check non-printing functions in traceback module
#
def test_clear(self):
def outer():
middle()
def middle():
inner()
def inner():
i = 1
1/0
try:
outer()
except:
type_, value, tb = sys.exc_info()
# Initial assertion: there's one local in the inner frame.
inner_frame = tb.tb_next.tb_next.tb_next.tb_frame
self.assertEqual(len(inner_frame.f_locals), 1)
# Clear traceback frames
traceback.clear_frames(tb)
# Local variable dict should now be empty.
self.assertEqual(len(inner_frame.f_locals), 0)
def test_extract_stack(self):
def extract():
return traceback.extract_stack()
result = extract()
lineno = extract.__code__.co_firstlineno
self.assertEqual(result[-2:], [
(__file__, lineno+2, 'test_extract_stack', 'result = extract()'),
(__file__, lineno+1, 'extract', 'return traceback.extract_stack()'),
])
self.assertEqual(len(result[0]), 4)
class TestFrame(unittest.TestCase):
def test_basics(self):
linecache.clearcache()
linecache.lazycache("f", globals())
f = traceback.FrameSummary("f", 1, "dummy")
self.assertEqual(f,
("f", 1, "dummy", '"""Test cases for traceback module"""'))
self.assertEqual(tuple(f),
("f", 1, "dummy", '"""Test cases for traceback module"""'))
self.assertEqual(f, traceback.FrameSummary("f", 1, "dummy"))
self.assertEqual(f, tuple(f))
# Since tuple.__eq__ doesn't support FrameSummary, the equality
# operator fallbacks to FrameSummary.__eq__.
self.assertEqual(tuple(f), f)
self.assertIsNone(f.locals)
self.assertNotEqual(f, object())
self.assertEqual(f, ALWAYS_EQ)
def test_lazy_lines(self):
linecache.clearcache()
f = traceback.FrameSummary("f", 1, "dummy", lookup_line=False)
self.assertEqual(None, f._line)
linecache.lazycache("f", globals())
self.assertEqual(
'"""Test cases for traceback module"""',
f.line)
def test_no_line(self):
f = traceback.FrameSummary("f", None, "dummy")
self.assertEqual(f.line, None)
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def test_explicit_line(self):
f = traceback.FrameSummary("f", 1, "dummy", line="line")
self.assertEqual("line", f.line)
def test_len(self):
f = traceback.FrameSummary("f", 1, "dummy", line="line")
self.assertEqual(len(f), 4)
class TestStack(unittest.TestCase):
def test_walk_stack(self):
def deeper():
return list(traceback.walk_stack(None))
s1 = list(traceback.walk_stack(None))
s2 = deeper()
self.assertEqual(len(s2) - len(s1), 1)
self.assertEqual(s2[1:], s1)
def test_walk_tb(self):
try:
1/0
except Exception:
_, _, tb = sys.exc_info()
s = list(traceback.walk_tb(tb))
self.assertEqual(len(s), 1)
def test_extract_stack(self):
s = traceback.StackSummary.extract(traceback.walk_stack(None))
self.assertIsInstance(s, traceback.StackSummary)
def test_extract_stack_limit(self):
s = traceback.StackSummary.extract(traceback.walk_stack(None), limit=5)
self.assertEqual(len(s), 5)
def test_extract_stack_lookup_lines(self):
linecache.clearcache()
linecache.updatecache('/foo.py', globals())
c = test_code('/foo.py', 'method')
f = test_frame(c, None, None)
s = traceback.StackSummary.extract(iter([(f, 6)]), lookup_lines=True)
linecache.clearcache()
self.assertEqual(s[0].line, "import sys")
def test_extract_stackup_deferred_lookup_lines(self):
linecache.clearcache()
c = test_code('/foo.py', 'method')
f = test_frame(c, None, None)
s = traceback.StackSummary.extract(iter([(f, 6)]), lookup_lines=False)
self.assertEqual({}, linecache.cache)
linecache.updatecache('/foo.py', globals())
self.assertEqual(s[0].line, "import sys")
def test_from_list(self):
s = traceback.StackSummary.from_list([('foo.py', 1, 'fred', 'line')])
self.assertEqual(
[' File "foo.py", line 1, in fred\n line\n'],
s.format())
def test_from_list_edited_stack(self):
s = traceback.StackSummary.from_list([('foo.py', 1, 'fred', 'line')])
s[0] = ('foo.py', 2, 'fred', 'line')
s2 = traceback.StackSummary.from_list(s)
self.assertEqual(
[' File "foo.py", line 2, in fred\n line\n'],
s2.format())
def test_format_smoke(self):
# For detailed tests see the format_list tests, which consume the same
# code.
s = traceback.StackSummary.from_list([('foo.py', 1, 'fred', 'line')])
self.assertEqual(
[' File "foo.py", line 1, in fred\n line\n'],
s.format())
def test_locals(self):
linecache.updatecache('/foo.py', globals())
c = test_code('/foo.py', 'method')
f = test_frame(c, globals(), {'something': 1})
s = traceback.StackSummary.extract(iter([(f, 6)]), capture_locals=True)
self.assertEqual(s[0].locals, {'something': '1'})
def test_no_locals(self):
linecache.updatecache('/foo.py', globals())
c = test_code('/foo.py', 'method')
f = test_frame(c, globals(), {'something': 1})
s = traceback.StackSummary.extract(iter([(f, 6)]))
self.assertEqual(s[0].locals, None)
def test_format_locals(self):
def some_inner(k, v):
a = 1
b = 2
return traceback.StackSummary.extract(
traceback.walk_stack(None), capture_locals=True, limit=1)
s = some_inner(3, 4)
self.assertEqual(
[' File "%s", line %d, in some_inner\n'
' return traceback.StackSummary.extract(\n'
' a = 1\n'
' b = 2\n'
' k = 3\n'
' v = 4\n' % (__file__, some_inner.__code__.co_firstlineno + 3)
], s.format())
class TestTracebackException(unittest.TestCase):
def test_smoke(self):
try:
1/0
except Exception:
exc_info = sys.exc_info()
exc = traceback.TracebackException(*exc_info)
expected_stack = traceback.StackSummary.extract(
traceback.walk_tb(exc_info[2]))
self.assertEqual(None, exc.__cause__)
self.assertEqual(None, exc.__context__)
self.assertEqual(False, exc.__suppress_context__)
self.assertEqual(expected_stack, exc.stack)
self.assertEqual(exc_info[0], exc.exc_type)
self.assertEqual(str(exc_info[1]), str(exc))
def test_from_exception(self):
# Check all the parameters are accepted.
def foo():
1/0
try:
foo()
except Exception as e:
exc_info = sys.exc_info()
self.expected_stack = traceback.StackSummary.extract(
traceback.walk_tb(exc_info[2]), limit=1, lookup_lines=False,
capture_locals=True)
self.exc = traceback.TracebackException.from_exception(
e, limit=1, lookup_lines=False, capture_locals=True)
expected_stack = self.expected_stack
exc = self.exc
self.assertEqual(None, exc.__cause__)
self.assertEqual(None, exc.__context__)
self.assertEqual(False, exc.__suppress_context__)
self.assertEqual(expected_stack, exc.stack)
self.assertEqual(exc_info[0], exc.exc_type)
self.assertEqual(str(exc_info[1]), str(exc))
def test_cause(self):
try:
try:
1/0
finally:
exc_info_context = sys.exc_info()
exc_context = traceback.TracebackException(*exc_info_context)
cause = Exception("cause")
raise Exception("uh oh") from cause
except Exception:
exc_info = sys.exc_info()
exc = traceback.TracebackException(*exc_info)
expected_stack = traceback.StackSummary.extract(
traceback.walk_tb(exc_info[2]))
exc_cause = traceback.TracebackException(Exception, cause, None)
self.assertEqual(exc_cause, exc.__cause__)
self.assertEqual(exc_context, exc.__context__)
self.assertEqual(True, exc.__suppress_context__)
self.assertEqual(expected_stack, exc.stack)
self.assertEqual(exc_info[0], exc.exc_type)
self.assertEqual(str(exc_info[1]), str(exc))
def test_context(self):
try:
try:
1/0
finally:
exc_info_context = sys.exc_info()
exc_context = traceback.TracebackException(*exc_info_context)
raise Exception("uh oh")
except Exception:
exc_info = sys.exc_info()
exc = traceback.TracebackException(*exc_info)
expected_stack = traceback.StackSummary.extract(
traceback.walk_tb(exc_info[2]))
self.assertEqual(None, exc.__cause__)
self.assertEqual(exc_context, exc.__context__)
self.assertEqual(False, exc.__suppress_context__)
self.assertEqual(expected_stack, exc.stack)
self.assertEqual(exc_info[0], exc.exc_type)
self.assertEqual(str(exc_info[1]), str(exc))
def test_long_context_chain(self):
def f():
try:
1/0
except:
f()
try:
f()
except RecursionError:
exc_info = sys.exc_info()
else:
self.fail("Exception not raised")
te = traceback.TracebackException(*exc_info)
res = list(te.format())
# many ZeroDiv errors followed by the RecursionError
self.assertGreater(len(res), sys.getrecursionlimit())
self.assertGreater(
len([l for l in res if 'ZeroDivisionError:' in l]),
sys.getrecursionlimit() * 0.5)
self.assertIn(
"RecursionError: maximum recursion depth exceeded", res[-1])
def test_compact_with_cause(self):
try:
try:
1/0
finally:
cause = Exception("cause")
raise Exception("uh oh") from cause
except Exception:
exc_info = sys.exc_info()
exc = traceback.TracebackException(*exc_info, compact=True)
expected_stack = traceback.StackSummary.extract(
traceback.walk_tb(exc_info[2]))
exc_cause = traceback.TracebackException(Exception, cause, None)
self.assertEqual(exc_cause, exc.__cause__)
self.assertEqual(None, exc.__context__)
self.assertEqual(True, exc.__suppress_context__)
self.assertEqual(expected_stack, exc.stack)
self.assertEqual(exc_info[0], exc.exc_type)
self.assertEqual(str(exc_info[1]), str(exc))
def test_compact_no_cause(self):
try:
try:
1/0
finally:
exc_info_context = sys.exc_info()
exc_context = traceback.TracebackException(*exc_info_context)
raise Exception("uh oh")
except Exception:
exc_info = sys.exc_info()
exc = traceback.TracebackException(*exc_info, compact=True)
expected_stack = traceback.StackSummary.extract(
traceback.walk_tb(exc_info[2]))
self.assertEqual(None, exc.__cause__)
self.assertEqual(exc_context, exc.__context__)
self.assertEqual(False, exc.__suppress_context__)
self.assertEqual(expected_stack, exc.stack)
self.assertEqual(exc_info[0], exc.exc_type)
self.assertEqual(str(exc_info[1]), str(exc))
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def test_no_refs_to_exception_and_traceback_objects(self):
try:
1/0
except Exception:
exc_info = sys.exc_info()
refcnt1 = sys.getrefcount(exc_info[1])
refcnt2 = sys.getrefcount(exc_info[2])
exc = traceback.TracebackException(*exc_info)
self.assertEqual(sys.getrefcount(exc_info[1]), refcnt1)
self.assertEqual(sys.getrefcount(exc_info[2]), refcnt2)
def test_comparison_basic(self):
try:
1/0
except Exception:
exc_info = sys.exc_info()
exc = traceback.TracebackException(*exc_info)
exc2 = traceback.TracebackException(*exc_info)
self.assertIsNot(exc, exc2)
self.assertEqual(exc, exc2)
self.assertNotEqual(exc, object())
self.assertEqual(exc, ALWAYS_EQ)
def test_comparison_params_variations(self):
def raise_exc():
try:
raise ValueError('bad value')
except:
raise
def raise_with_locals():
x, y = 1, 2
raise_exc()
try:
raise_with_locals()
except Exception:
exc_info = sys.exc_info()
exc = traceback.TracebackException(*exc_info)
exc1 = traceback.TracebackException(*exc_info, limit=10)
exc2 = traceback.TracebackException(*exc_info, limit=2)
self.assertEqual(exc, exc1) # limit=10 gets all frames
self.assertNotEqual(exc, exc2) # limit=2 truncates the output
# locals change the output
exc3 = traceback.TracebackException(*exc_info, capture_locals=True)
self.assertNotEqual(exc, exc3)
# there are no locals in the innermost frame
exc4 = traceback.TracebackException(*exc_info, limit=-1)
exc5 = traceback.TracebackException(*exc_info, limit=-1, capture_locals=True)
self.assertEqual(exc4, exc5)
# there are locals in the next-to-innermost frame
exc6 = traceback.TracebackException(*exc_info, limit=-2)
exc7 = traceback.TracebackException(*exc_info, limit=-2, capture_locals=True)
self.assertNotEqual(exc6, exc7)
def test_comparison_equivalent_exceptions_are_equal(self):
excs = []
for _ in range(2):
try:
1/0
except:
excs.append(traceback.TracebackException(*sys.exc_info()))
self.assertEqual(excs[0], excs[1])
self.assertEqual(list(excs[0].format()), list(excs[1].format()))
def test_unhashable(self):
class UnhashableException(Exception):
def __eq__(self, other):
return True
ex1 = UnhashableException('ex1')
ex2 = UnhashableException('ex2')
try:
raise ex2 from ex1
except UnhashableException:
try:
raise ex1
except UnhashableException:
exc_info = sys.exc_info()
exc = traceback.TracebackException(*exc_info)
formatted = list(exc.format())
self.assertIn('UnhashableException: ex2\n', formatted[2])
self.assertIn('UnhashableException: ex1\n', formatted[6])
def test_limit(self):
def recurse(n):
if n:
recurse(n-1)
else:
1/0
try:
recurse(10)
except Exception:
exc_info = sys.exc_info()
exc = traceback.TracebackException(*exc_info, limit=5)
expected_stack = traceback.StackSummary.extract(
traceback.walk_tb(exc_info[2]), limit=5)
self.assertEqual(expected_stack, exc.stack)
def test_lookup_lines(self):
linecache.clearcache()
e = Exception("uh oh")
c = test_code('/foo.py', 'method')
f = test_frame(c, None, None)
tb = test_tb(f, 6, None)
exc = traceback.TracebackException(Exception, e, tb, lookup_lines=False)
self.assertEqual(linecache.cache, {})
linecache.updatecache('/foo.py', globals())
self.assertEqual(exc.stack[0].line, "import sys")
def test_locals(self):
linecache.updatecache('/foo.py', globals())
e = Exception("uh oh")
c = test_code('/foo.py', 'method')
f = test_frame(c, globals(), {'something': 1, 'other': 'string'})
tb = test_tb(f, 6, None)
exc = traceback.TracebackException(
Exception, e, tb, capture_locals=True)
self.assertEqual(
exc.stack[0].locals, {'something': '1', 'other': "'string'"})
def test_no_locals(self):
linecache.updatecache('/foo.py', globals())
e = Exception("uh oh")
c = test_code('/foo.py', 'method')
f = test_frame(c, globals(), {'something': 1})
tb = test_tb(f, 6, None)
exc = traceback.TracebackException(Exception, e, tb)
self.assertEqual(exc.stack[0].locals, None)
def test_traceback_header(self):
# do not print a traceback header if exc_traceback is None
# see issue #24695
exc = traceback.TracebackException(Exception, Exception("haven"), None)
self.assertEqual(list(exc.format()), ["Exception: haven\n"])
class MiscTest(unittest.TestCase):
def test_all(self):
expected = set()
denylist = {'print_list'}
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for name in dir(traceback):
if name.startswith('_') or name in denylist:
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continue
module_object = getattr(traceback, name)
if getattr(module_object, '__module__', None) == 'traceback':
expected.add(name)
self.assertCountEqual(traceback.__all__, expected)
if __name__ == "__main__":
unittest.main()