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Jython is an implementation of the high-level, dynamic, object-oriented
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# A test suite for pdb; at the moment, this only validates skipping of
# specified test modules (RFE #5142).
import imp
import sys
import os
import unittest
import subprocess
import textwrap
from test import test_support
# This little helper class is essential for testing pdb under doctest.
from test_doctest import _FakeInput
class PdbTestCase(unittest.TestCase):
def run_pdb(self, script, commands):
"""Run 'script' lines with pdb and the pdb 'commands'."""
filename = 'main.py'
with open(filename, 'w') as f:
f.write(textwrap.dedent(script))
self.addCleanup(test_support.unlink, filename)
cmd = [sys.executable, '-m', 'pdb', filename]
stdout = stderr = None
proc = subprocess.Popen(cmd, stdout=subprocess.PIPE,
stdin=subprocess.PIPE,
stderr=subprocess.STDOUT,
)
stdout, stderr = proc.communicate(commands)
proc.stdout.close()
proc.stdin.close()
return stdout, stderr
def test_issue13183(self):
script = """
from bar import bar
def foo():
bar()
def nope():
pass
def foobar():
foo()
nope()
foobar()
"""
commands = """
from bar import bar
break bar
continue
step
step
quit
"""
bar = """
def bar():
pass
"""
with open('bar.py', 'w') as f:
f.write(textwrap.dedent(bar))
self.addCleanup(test_support.unlink, 'bar.py')
stdout, stderr = self.run_pdb(script, commands)
self.assertTrue(
any('main.py(5)foo()->None' in l for l in stdout.splitlines()),
'Fail to step into the caller after a return')
class PdbTestInput(object):
"""Context manager that makes testing Pdb in doctests easier."""
def __init__(self, input):
self.input = input
def __enter__(self):
self.real_stdin = sys.stdin
sys.stdin = _FakeInput(self.input)
def __exit__(self, *exc):
sys.stdin = self.real_stdin
def write(x):
print x
def test_pdb_displayhook():
"""This tests the custom displayhook for pdb.
>>> def test_function(foo, bar):
... import pdb; pdb.Pdb().set_trace()
... pass
>>> with PdbTestInput([
... 'foo',
... 'bar',
... 'for i in range(5): write(i)',
... 'continue',
... ]):
... test_function(1, None)
> (3)test_function()
-> pass
(Pdb) foo
1
(Pdb) bar
(Pdb) for i in range(5): write(i)
0
1
2
3
4
(Pdb) continue
"""
def test_pdb_breakpoint_commands():
"""Test basic commands related to breakpoints.
>>> def test_function():
... import pdb; pdb.Pdb().set_trace()
... print(1)
... print(2)
... print(3)
... print(4)
First, need to clear bdb state that might be left over from previous tests.
Otherwise, the new breakpoints might get assigned different numbers.
>>> from bdb import Breakpoint
>>> Breakpoint.next = 1
>>> Breakpoint.bplist = {}
>>> Breakpoint.bpbynumber = [None]
Now test the breakpoint commands. NORMALIZE_WHITESPACE is needed because
the breakpoint list outputs a tab for the "stop only" and "ignore next"
lines, which we don't want to put in here.
>>> with PdbTestInput([ # doctest: +NORMALIZE_WHITESPACE
... 'break 3',
... 'disable 1',
... 'ignore 1 10',
... 'condition 1 1 < 2',
... 'break 4',
... 'break 4',
... 'break',
... 'clear 3',
... 'break',
... 'condition 1',
... 'enable 1',
... 'clear 1',
... 'commands 2',
... 'print 42',
... 'end',
... 'continue', # will stop at breakpoint 2 (line 4)
... 'clear', # clear all!
... 'y',
... 'tbreak 5',
... 'continue', # will stop at temporary breakpoint
... 'break', # make sure breakpoint is gone
... 'continue',
... ]):
... test_function()
> (3)test_function()
-> print(1)
(Pdb) break 3
Breakpoint 1 at :3
(Pdb) disable 1
(Pdb) ignore 1 10
Will ignore next 10 crossings of breakpoint 1.
(Pdb) condition 1 1 < 2
(Pdb) break 4
Breakpoint 2 at :4
(Pdb) break 4
Breakpoint 3 at :4
(Pdb) break
Num Type Disp Enb Where
1 breakpoint keep no at :3
stop only if 1 < 2
ignore next 10 hits
2 breakpoint keep yes at :4
3 breakpoint keep yes at :4
(Pdb) clear 3
Deleted breakpoint 3
(Pdb) break
Num Type Disp Enb Where
1 breakpoint keep no at :3
stop only if 1 < 2
ignore next 10 hits
2 breakpoint keep yes at :4
(Pdb) condition 1
Breakpoint 1 is now unconditional.
(Pdb) enable 1
(Pdb) clear 1
Deleted breakpoint 1
(Pdb) commands 2
(com) print 42
(com) end
(Pdb) continue
1
42
> (4)test_function()
-> print(2)
(Pdb) clear
Clear all breaks? y
(Pdb) tbreak 5
Breakpoint 4 at :5
(Pdb) continue
2
Deleted breakpoint 4
> (5)test_function()
-> print(3)
(Pdb) break
(Pdb) continue
3
4
"""
def test_pdb_skip_modules():
"""This illustrates the simple case of module skipping.
>>> def skip_module():
... import string
... import pdb; pdb.Pdb(skip=['string*']).set_trace()
... string.lower('FOO')
>>> with PdbTestInput([
... 'step',
... 'continue',
... ]):
... skip_module()
> (4)skip_module()
-> string.lower('FOO')
(Pdb) step
--Return--
> (4)skip_module()->None
-> string.lower('FOO')
(Pdb) continue
"""
# Module for testing skipping of module that makes a callback
mod = imp.new_module('module_to_skip')
exec 'def foo_pony(callback): x = 1; callback(); return None' in mod.__dict__
def test_pdb_skip_modules_with_callback():
"""This illustrates skipping of modules that call into other code.
>>> def skip_module():
... def callback():
... return None
... import pdb; pdb.Pdb(skip=['module_to_skip*']).set_trace()
... mod.foo_pony(callback)
>>> with PdbTestInput([
... 'step',
... 'step',
... 'step',
... 'step',
... 'step',
... 'continue',
... ]):
... skip_module()
... pass # provides something to "step" to
> (5)skip_module()
-> mod.foo_pony(callback)
(Pdb) step
--Call--
> (2)callback()
-> def callback():
(Pdb) step
> (3)callback()
-> return None
(Pdb) step
--Return--
> (3)callback()->None
-> return None
(Pdb) step
--Return--
> (5)skip_module()->None
-> mod.foo_pony(callback)
(Pdb) step
> (10)()
-> pass # provides something to "step" to
(Pdb) continue
"""
def test_pdb_continue_in_bottomframe():
"""Test that "continue" and "next" work properly in bottom frame (issue #5294).
>>> def test_function():
... import pdb, sys; inst = pdb.Pdb()
... inst.set_trace()
... inst.botframe = sys._getframe() # hackery to get the right botframe
... print(1)
... print(2)
... print(3)
... print(4)
First, need to clear bdb state that might be left over from previous tests.
Otherwise, the new breakpoints might get assigned different numbers.
>>> from bdb import Breakpoint
>>> Breakpoint.next = 1
>>> Breakpoint.bplist = {}
>>> Breakpoint.bpbynumber = [None]
>>> with PdbTestInput([
... 'next',
... 'break 7',
... 'continue',
... 'next',
... 'continue',
... 'continue',
... ]):
... test_function()
> (4)test_function()
-> inst.botframe = sys._getframe() # hackery to get the right botframe
(Pdb) next
> (5)test_function()
-> print(1)
(Pdb) break 7
Breakpoint 1 at :7
(Pdb) continue
1
2
> (7)test_function()
-> print(3)
(Pdb) next
3
> (8)test_function()
-> print(4)
(Pdb) continue
4
"""
class ModuleInitTester(unittest.TestCase):
def test_filename_correct(self):
"""
In issue 7750, it was found that if the filename has a sequence that
resolves to an escape character in a Python string (such as \t), it
will be treated as the escaped character.
"""
# the test_fn must contain something like \t
# on Windows, this will create 'test_mod.py' in the current directory.
# on Unix, this will create '.\test_mod.py' in the current directory.
test_fn = '.\\test_mod.py'
code = 'print("testing pdb")'
with open(test_fn, 'w') as f:
f.write(code)
self.addCleanup(os.remove, test_fn)
cmd = [sys.executable, '-m', 'pdb', test_fn,]
proc = subprocess.Popen(cmd,
stdout=subprocess.PIPE,
stdin=subprocess.PIPE,
stderr=subprocess.STDOUT,
)
stdout, stderr = proc.communicate('quit\n')
self.assertIn(code, stdout, "pdb munged the filename")
def test_main():
from test import test_pdb
test_support.run_doctest(test_pdb, verbosity=True)
test_support.run_unittest(
PdbTestCase,
ModuleInitTester)
if __name__ == '__main__':
test_main()