cpython/Lib/test/test_getpath.py

911 lines
30 KiB
Python

import copy
import ntpath
import pathlib
import posixpath
import sys
import unittest
from test.support import verbose
try:
# If we are in a source tree, use the original source file for tests
SOURCE = (pathlib.Path(__file__).absolute().parent.parent.parent / "Modules/getpath.py").read_bytes()
except FileNotFoundError:
# Try from _testcapimodule instead
from _testinternalcapi import get_getpath_codeobject
SOURCE = get_getpath_codeobject()
class MockGetPathTests(unittest.TestCase):
def __init__(self, *a, **kw):
super().__init__(*a, **kw)
self.maxDiff = None
def test_normal_win32(self):
"Test a 'standard' install layout on Windows."
ns = MockNTNamespace(
argv0=r"C:\Python\python.exe",
real_executable=r"C:\Python\python.exe",
)
ns.add_known_xfile(r"C:\Python\python.exe")
ns.add_known_file(r"C:\Python\Lib\os.py")
ns.add_known_dir(r"C:\Python\DLLs")
expected = dict(
executable=r"C:\Python\python.exe",
base_executable=r"C:\Python\python.exe",
prefix=r"C:\Python",
exec_prefix=r"C:\Python",
module_search_paths_set=1,
module_search_paths=[
r"C:\Python\python98.zip",
r"C:\Python\Lib",
r"C:\Python\DLLs",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_buildtree_win32(self):
"Test an in-build-tree layout on Windows."
ns = MockNTNamespace(
argv0=r"C:\CPython\PCbuild\amd64\python.exe",
real_executable=r"C:\CPython\PCbuild\amd64\python.exe",
)
ns.add_known_xfile(r"C:\CPython\PCbuild\amd64\python.exe")
ns.add_known_file(r"C:\CPython\Lib\os.py")
ns.add_known_file(r"C:\CPython\PCbuild\amd64\pybuilddir.txt", [""])
expected = dict(
executable=r"C:\CPython\PCbuild\amd64\python.exe",
base_executable=r"C:\CPython\PCbuild\amd64\python.exe",
prefix=r"C:\CPython",
exec_prefix=r"C:\CPython",
build_prefix=r"C:\CPython",
_is_python_build=1,
module_search_paths_set=1,
module_search_paths=[
r"C:\CPython\PCbuild\amd64\python98.zip",
r"C:\CPython\Lib",
r"C:\CPython\PCbuild\amd64",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_venv_win32(self):
"""Test a venv layout on Windows.
This layout is discovered by the presence of %__PYVENV_LAUNCHER__%,
specifying the original launcher executable. site.py is responsible
for updating prefix and exec_prefix.
"""
ns = MockNTNamespace(
argv0=r"C:\Python\python.exe",
ENV___PYVENV_LAUNCHER__=r"C:\venv\Scripts\python.exe",
real_executable=r"C:\Python\python.exe",
)
ns.add_known_xfile(r"C:\Python\python.exe")
ns.add_known_xfile(r"C:\venv\Scripts\python.exe")
ns.add_known_file(r"C:\Python\Lib\os.py")
ns.add_known_dir(r"C:\Python\DLLs")
ns.add_known_file(r"C:\venv\pyvenv.cfg", [
r"home = C:\Python"
])
expected = dict(
executable=r"C:\venv\Scripts\python.exe",
prefix=r"C:\Python",
exec_prefix=r"C:\Python",
base_executable=r"C:\Python\python.exe",
base_prefix=r"C:\Python",
base_exec_prefix=r"C:\Python",
module_search_paths_set=1,
module_search_paths=[
r"C:\Python\python98.zip",
r"C:\Python\DLLs",
r"C:\Python\Lib",
r"C:\Python",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_registry_win32(self):
"""Test registry lookup on Windows.
On Windows there are registry entries that are intended for other
applications to register search paths.
"""
hkey = rf"HKLM\Software\Python\PythonCore\9.8-XY\PythonPath"
winreg = MockWinreg({
hkey: None,
f"{hkey}\\Path1": "path1-dir",
f"{hkey}\\Path1\\Subdir": "not-subdirs",
})
ns = MockNTNamespace(
argv0=r"C:\Python\python.exe",
real_executable=r"C:\Python\python.exe",
winreg=winreg,
)
ns.add_known_xfile(r"C:\Python\python.exe")
ns.add_known_file(r"C:\Python\Lib\os.py")
ns.add_known_dir(r"C:\Python\DLLs")
expected = dict(
module_search_paths_set=1,
module_search_paths=[
r"C:\Python\python98.zip",
"path1-dir",
# should not contain not-subdirs
r"C:\Python\Lib",
r"C:\Python\DLLs",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
ns["config"]["use_environment"] = 0
ns["config"]["module_search_paths_set"] = 0
ns["config"]["module_search_paths"] = None
expected = dict(
module_search_paths_set=1,
module_search_paths=[
r"C:\Python\python98.zip",
r"C:\Python\Lib",
r"C:\Python\DLLs",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_symlink_normal_win32(self):
"Test a 'standard' install layout via symlink on Windows."
ns = MockNTNamespace(
argv0=r"C:\LinkedFrom\python.exe",
real_executable=r"C:\Python\python.exe",
)
ns.add_known_xfile(r"C:\LinkedFrom\python.exe")
ns.add_known_xfile(r"C:\Python\python.exe")
ns.add_known_link(r"C:\LinkedFrom\python.exe", r"C:\Python\python.exe")
ns.add_known_file(r"C:\Python\Lib\os.py")
ns.add_known_dir(r"C:\Python\DLLs")
expected = dict(
executable=r"C:\LinkedFrom\python.exe",
base_executable=r"C:\LinkedFrom\python.exe",
prefix=r"C:\Python",
exec_prefix=r"C:\Python",
module_search_paths_set=1,
module_search_paths=[
r"C:\Python\python98.zip",
r"C:\Python\Lib",
r"C:\Python\DLLs",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_symlink_buildtree_win32(self):
"Test an in-build-tree layout via symlink on Windows."
ns = MockNTNamespace(
argv0=r"C:\LinkedFrom\python.exe",
real_executable=r"C:\CPython\PCbuild\amd64\python.exe",
)
ns.add_known_xfile(r"C:\LinkedFrom\python.exe")
ns.add_known_xfile(r"C:\CPython\PCbuild\amd64\python.exe")
ns.add_known_link(r"C:\LinkedFrom\python.exe", r"C:\CPython\PCbuild\amd64\python.exe")
ns.add_known_file(r"C:\CPython\Lib\os.py")
ns.add_known_file(r"C:\CPython\PCbuild\amd64\pybuilddir.txt", [""])
expected = dict(
executable=r"C:\LinkedFrom\python.exe",
base_executable=r"C:\LinkedFrom\python.exe",
prefix=r"C:\CPython",
exec_prefix=r"C:\CPython",
build_prefix=r"C:\CPython",
_is_python_build=1,
module_search_paths_set=1,
module_search_paths=[
r"C:\CPython\PCbuild\amd64\python98.zip",
r"C:\CPython\Lib",
r"C:\CPython\PCbuild\amd64",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_buildtree_pythonhome_win32(self):
"Test an out-of-build-tree layout on Windows with PYTHONHOME override."
ns = MockNTNamespace(
argv0=r"C:\Out\python.exe",
real_executable=r"C:\Out\python.exe",
ENV_PYTHONHOME=r"C:\CPython",
)
ns.add_known_xfile(r"C:\Out\python.exe")
ns.add_known_file(r"C:\CPython\Lib\os.py")
ns.add_known_file(r"C:\Out\pybuilddir.txt", [""])
expected = dict(
executable=r"C:\Out\python.exe",
base_executable=r"C:\Out\python.exe",
prefix=r"C:\CPython",
exec_prefix=r"C:\CPython",
# This build_prefix is a miscalculation, because we have
# moved the output direction out of the prefix.
# Specify PYTHONHOME to get the correct prefix/exec_prefix
build_prefix="C:\\",
_is_python_build=1,
module_search_paths_set=1,
module_search_paths=[
r"C:\Out\python98.zip",
r"C:\CPython\Lib",
r"C:\Out",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_normal_posix(self):
"Test a 'standard' install layout on *nix"
ns = MockPosixNamespace(
PREFIX="/usr",
argv0="python",
ENV_PATH="/usr/bin",
)
ns.add_known_xfile("/usr/bin/python")
ns.add_known_file("/usr/lib/python9.8/os.py")
ns.add_known_dir("/usr/lib/python9.8/lib-dynload")
expected = dict(
executable="/usr/bin/python",
base_executable="/usr/bin/python",
prefix="/usr",
exec_prefix="/usr",
module_search_paths_set=1,
module_search_paths=[
"/usr/lib/python98.zip",
"/usr/lib/python9.8",
"/usr/lib/python9.8/lib-dynload",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_buildpath_posix(self):
"""Test an in-build-tree layout on POSIX.
This layout is discovered from the presence of pybuilddir.txt, which
contains the relative path from the executable's directory to the
platstdlib path.
"""
ns = MockPosixNamespace(
argv0=r"/home/cpython/python",
PREFIX="/usr/local",
)
ns.add_known_xfile("/home/cpython/python")
ns.add_known_xfile("/usr/local/bin/python")
ns.add_known_file("/home/cpython/pybuilddir.txt", ["build/lib.linux-x86_64-9.8"])
ns.add_known_file("/home/cpython/Lib/os.py")
ns.add_known_dir("/home/cpython/lib-dynload")
expected = dict(
executable="/home/cpython/python",
prefix="/usr/local",
exec_prefix="/usr/local",
base_executable="/home/cpython/python",
build_prefix="/home/cpython",
_is_python_build=1,
module_search_paths_set=1,
module_search_paths=[
"/usr/local/lib/python98.zip",
"/home/cpython/Lib",
"/home/cpython/build/lib.linux-x86_64-9.8",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_venv_posix(self):
"Test a venv layout on *nix."
ns = MockPosixNamespace(
argv0="python",
PREFIX="/usr",
ENV_PATH="/venv/bin:/usr/bin",
)
ns.add_known_xfile("/usr/bin/python")
ns.add_known_xfile("/venv/bin/python")
ns.add_known_file("/usr/lib/python9.8/os.py")
ns.add_known_dir("/usr/lib/python9.8/lib-dynload")
ns.add_known_file("/venv/pyvenv.cfg", [
r"home = /usr/bin"
])
expected = dict(
executable="/venv/bin/python",
prefix="/usr",
exec_prefix="/usr",
base_executable="/usr/bin/python",
base_prefix="/usr",
base_exec_prefix="/usr",
module_search_paths_set=1,
module_search_paths=[
"/usr/lib/python98.zip",
"/usr/lib/python9.8",
"/usr/lib/python9.8/lib-dynload",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_symlink_normal_posix(self):
"Test a 'standard' install layout via symlink on *nix"
ns = MockPosixNamespace(
PREFIX="/usr",
argv0="/linkfrom/python",
)
ns.add_known_xfile("/linkfrom/python")
ns.add_known_xfile("/usr/bin/python")
ns.add_known_link("/linkfrom/python", "/usr/bin/python")
ns.add_known_file("/usr/lib/python9.8/os.py")
ns.add_known_dir("/usr/lib/python9.8/lib-dynload")
expected = dict(
executable="/linkfrom/python",
base_executable="/linkfrom/python",
prefix="/usr",
exec_prefix="/usr",
module_search_paths_set=1,
module_search_paths=[
"/usr/lib/python98.zip",
"/usr/lib/python9.8",
"/usr/lib/python9.8/lib-dynload",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_symlink_buildpath_posix(self):
"""Test an in-build-tree layout on POSIX.
This layout is discovered from the presence of pybuilddir.txt, which
contains the relative path from the executable's directory to the
platstdlib path.
"""
ns = MockPosixNamespace(
argv0=r"/linkfrom/python",
PREFIX="/usr/local",
)
ns.add_known_xfile("/linkfrom/python")
ns.add_known_xfile("/home/cpython/python")
ns.add_known_link("/linkfrom/python", "/home/cpython/python")
ns.add_known_xfile("/usr/local/bin/python")
ns.add_known_file("/home/cpython/pybuilddir.txt", ["build/lib.linux-x86_64-9.8"])
ns.add_known_file("/home/cpython/Lib/os.py")
ns.add_known_dir("/home/cpython/lib-dynload")
expected = dict(
executable="/linkfrom/python",
prefix="/usr/local",
exec_prefix="/usr/local",
base_executable="/linkfrom/python",
build_prefix="/home/cpython",
_is_python_build=1,
module_search_paths_set=1,
module_search_paths=[
"/usr/local/lib/python98.zip",
"/home/cpython/Lib",
"/home/cpython/build/lib.linux-x86_64-9.8",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_custom_platlibdir_posix(self):
"Test an install with custom platlibdir on *nix"
ns = MockPosixNamespace(
PREFIX="/usr",
argv0="/linkfrom/python",
PLATLIBDIR="lib64",
)
ns.add_known_xfile("/usr/bin/python")
ns.add_known_file("/usr/lib64/python9.8/os.py")
ns.add_known_dir("/usr/lib64/python9.8/lib-dynload")
expected = dict(
executable="/linkfrom/python",
base_executable="/linkfrom/python",
prefix="/usr",
exec_prefix="/usr",
module_search_paths_set=1,
module_search_paths=[
"/usr/lib64/python98.zip",
"/usr/lib64/python9.8",
"/usr/lib64/python9.8/lib-dynload",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_venv_macos(self):
"""Test a venv layout on macOS.
This layout is discovered when 'executable' and 'real_executable' match,
but $__PYVENV_LAUNCHER__ has been set to the original process.
"""
ns = MockPosixNamespace(
os_name="darwin",
argv0="/usr/bin/python",
PREFIX="/usr",
ENV___PYVENV_LAUNCHER__="/framework/Python9.8/python",
real_executable="/usr/bin/python",
)
ns.add_known_xfile("/usr/bin/python")
ns.add_known_xfile("/framework/Python9.8/python")
ns.add_known_file("/usr/lib/python9.8/os.py")
ns.add_known_dir("/usr/lib/python9.8/lib-dynload")
ns.add_known_file("/framework/Python9.8/pyvenv.cfg", [
"home = /usr/bin"
])
expected = dict(
executable="/framework/Python9.8/python",
prefix="/usr",
exec_prefix="/usr",
base_executable="/usr/bin/python",
base_prefix="/usr",
base_exec_prefix="/usr",
module_search_paths_set=1,
module_search_paths=[
"/usr/lib/python98.zip",
"/usr/lib/python9.8",
"/usr/lib/python9.8/lib-dynload",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_symlink_normal_macos(self):
"Test a 'standard' install layout via symlink on macOS"
ns = MockPosixNamespace(
os_name="darwin",
PREFIX="/usr",
argv0="python",
ENV_PATH="/linkfrom:/usr/bin",
# real_executable on macOS matches the invocation path
real_executable="/linkfrom/python",
)
ns.add_known_xfile("/linkfrom/python")
ns.add_known_xfile("/usr/bin/python")
ns.add_known_link("/linkfrom/python", "/usr/bin/python")
ns.add_known_file("/usr/lib/python9.8/os.py")
ns.add_known_dir("/usr/lib/python9.8/lib-dynload")
expected = dict(
executable="/linkfrom/python",
base_executable="/linkfrom/python",
prefix="/usr",
exec_prefix="/usr",
module_search_paths_set=1,
module_search_paths=[
"/usr/lib/python98.zip",
"/usr/lib/python9.8",
"/usr/lib/python9.8/lib-dynload",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
def test_symlink_buildpath_macos(self):
"""Test an in-build-tree layout via symlink on macOS.
This layout is discovered from the presence of pybuilddir.txt, which
contains the relative path from the executable's directory to the
platstdlib path.
"""
ns = MockPosixNamespace(
os_name="darwin",
argv0=r"python",
ENV_PATH="/linkfrom:/usr/bin",
PREFIX="/usr/local",
# real_executable on macOS matches the invocation path
real_executable="/linkfrom/python",
)
ns.add_known_xfile("/linkfrom/python")
ns.add_known_xfile("/home/cpython/python")
ns.add_known_link("/linkfrom/python", "/home/cpython/python")
ns.add_known_xfile("/usr/local/bin/python")
ns.add_known_file("/home/cpython/pybuilddir.txt", ["build/lib.macos-9.8"])
ns.add_known_file("/home/cpython/Lib/os.py")
ns.add_known_dir("/home/cpython/lib-dynload")
expected = dict(
executable="/linkfrom/python",
prefix="/usr/local",
exec_prefix="/usr/local",
base_executable="/linkfrom/python",
build_prefix="/home/cpython",
_is_python_build=1,
module_search_paths_set=1,
module_search_paths=[
"/usr/local/lib/python98.zip",
"/home/cpython/Lib",
"/home/cpython/build/lib.macos-9.8",
],
)
actual = getpath(ns, expected)
self.assertEqual(expected, actual)
# ******************************************************************************
DEFAULT_NAMESPACE = dict(
PREFIX="",
EXEC_PREFIX="",
PYTHONPATH="",
VPATH="",
PLATLIBDIR="",
PYDEBUGEXT="",
VERSION_MAJOR=9, # fixed version number for ease
VERSION_MINOR=8, # of testing
PYWINVER=None,
EXE_SUFFIX=None,
ENV_PATH="",
ENV_PYTHONHOME="",
ENV_PYTHONEXECUTABLE="",
ENV___PYVENV_LAUNCHER__="",
argv0="",
py_setpath="",
real_executable="",
executable_dir="",
library="",
winreg=None,
build_prefix=None,
venv_prefix=None,
)
DEFAULT_CONFIG = dict(
home=None,
platlibdir=None,
pythonpath=None,
program_name=None,
prefix=None,
exec_prefix=None,
base_prefix=None,
base_exec_prefix=None,
executable=None,
base_executable="",
stdlib_dir=None,
platstdlib_dir=None,
module_search_paths=None,
module_search_paths_set=0,
pythonpath_env=None,
argv=None,
orig_argv=None,
isolated=0,
use_environment=1,
use_site=1,
)
class MockNTNamespace(dict):
def __init__(self, *a, argv0=None, config=None, **kw):
self.update(DEFAULT_NAMESPACE)
self["config"] = DEFAULT_CONFIG.copy()
self["os_name"] = "nt"
self["PLATLIBDIR"] = "DLLs"
self["PYWINVER"] = "9.8-XY"
self["VPATH"] = r"..\.."
super().__init__(*a, **kw)
if argv0:
self["config"]["orig_argv"] = [argv0]
if config:
self["config"].update(config)
self._files = {}
self._links = {}
self._dirs = set()
self._warnings = []
def add_known_file(self, path, lines=None):
self._files[path.casefold()] = list(lines or ())
self.add_known_dir(path.rpartition("\\")[0])
def add_known_xfile(self, path):
self.add_known_file(path)
def add_known_link(self, path, target):
self._links[path.casefold()] = target
def add_known_dir(self, path):
p = path.rstrip("\\").casefold()
while p:
self._dirs.add(p)
p = p.rpartition("\\")[0]
def __missing__(self, key):
try:
return getattr(self, key)
except AttributeError:
raise KeyError(key) from None
def abspath(self, path):
if self.isabs(path):
return path
return self.joinpath("C:\\Absolute", path)
def basename(self, path):
return path.rpartition("\\")[2]
def dirname(self, path):
name = path.rstrip("\\").rpartition("\\")[0]
if name[1:] == ":":
return name + "\\"
return name
def hassuffix(self, path, suffix):
return path.casefold().endswith(suffix.casefold())
def isabs(self, path):
return path[1:3] == ":\\"
def isdir(self, path):
if verbose:
print("Check if", path, "is a dir")
return path.casefold() in self._dirs
def isfile(self, path):
if verbose:
print("Check if", path, "is a file")
return path.casefold() in self._files
def ismodule(self, path):
if verbose:
print("Check if", path, "is a module")
path = path.casefold()
return path in self._files and path.rpartition(".")[2] == "py".casefold()
def isxfile(self, path):
if verbose:
print("Check if", path, "is a executable")
path = path.casefold()
return path in self._files and path.rpartition(".")[2] == "exe".casefold()
def joinpath(self, *path):
return ntpath.normpath(ntpath.join(*path))
def readlines(self, path):
try:
return self._files[path.casefold()]
except KeyError:
raise FileNotFoundError(path) from None
def realpath(self, path, _trail=None):
if verbose:
print("Read link from", path)
try:
link = self._links[path.casefold()]
except KeyError:
return path
if _trail is None:
_trail = set()
elif link.casefold() in _trail:
raise OSError("circular link")
_trail.add(link.casefold())
return self.realpath(link, _trail)
def warn(self, message):
self._warnings.append(message)
if verbose:
print(message)
class MockWinreg:
HKEY_LOCAL_MACHINE = "HKLM"
HKEY_CURRENT_USER = "HKCU"
def __init__(self, keys):
self.keys = {k.casefold(): v for k, v in keys.items()}
self.open = {}
def __repr__(self):
return "<MockWinreg>"
def __eq__(self, other):
return isinstance(other, type(self))
def open_keys(self):
return list(self.open)
def OpenKeyEx(self, hkey, subkey):
if verbose:
print(f"OpenKeyEx({hkey}, {subkey})")
key = f"{hkey}\\{subkey}".casefold()
if key in self.keys:
self.open[key] = self.open.get(key, 0) + 1
return key
raise FileNotFoundError()
def CloseKey(self, hkey):
if verbose:
print(f"CloseKey({hkey})")
hkey = hkey.casefold()
if hkey not in self.open:
raise RuntimeError("key is not open")
self.open[hkey] -= 1
if not self.open[hkey]:
del self.open[hkey]
def EnumKey(self, hkey, i):
if verbose:
print(f"EnumKey({hkey}, {i})")
hkey = hkey.casefold()
if hkey not in self.open:
raise RuntimeError("key is not open")
prefix = f'{hkey}\\'
subkeys = [k[len(prefix):] for k in sorted(self.keys) if k.startswith(prefix)]
subkeys[:] = [k for k in subkeys if '\\' not in k]
for j, n in enumerate(subkeys):
if j == i:
return n.removeprefix(prefix)
raise OSError("end of enumeration")
def QueryValue(self, hkey):
if verbose:
print(f"QueryValue({hkey})")
hkey = hkey.casefold()
if hkey not in self.open:
raise RuntimeError("key is not open")
try:
return self.keys[hkey]
except KeyError:
raise OSError()
class MockPosixNamespace(dict):
def __init__(self, *a, argv0=None, config=None, **kw):
self.update(DEFAULT_NAMESPACE)
self["config"] = DEFAULT_CONFIG.copy()
self["os_name"] = "posix"
self["PLATLIBDIR"] = "lib"
super().__init__(*a, **kw)
if argv0:
self["config"]["orig_argv"] = [argv0]
if config:
self["config"].update(config)
self._files = {}
self._xfiles = set()
self._links = {}
self._dirs = set()
self._warnings = []
def add_known_file(self, path, lines=None):
self._files[path] = list(lines or ())
self.add_known_dir(path.rpartition("/")[0])
def add_known_xfile(self, path):
self.add_known_file(path)
self._xfiles.add(path)
def add_known_link(self, path, target):
self._links[path] = target
def add_known_dir(self, path):
p = path.rstrip("/")
while p:
self._dirs.add(p)
p = p.rpartition("/")[0]
def __missing__(self, key):
try:
return getattr(self, key)
except AttributeError:
raise KeyError(key) from None
def abspath(self, path):
if self.isabs(path):
return path
return self.joinpath("/Absolute", path)
def basename(self, path):
return path.rpartition("/")[2]
def dirname(self, path):
return path.rstrip("/").rpartition("/")[0]
def hassuffix(self, path, suffix):
return path.endswith(suffix)
def isabs(self, path):
return path[0:1] == "/"
def isdir(self, path):
if verbose:
print("Check if", path, "is a dir")
return path in self._dirs
def isfile(self, path):
if verbose:
print("Check if", path, "is a file")
return path in self._files
def ismodule(self, path):
if verbose:
print("Check if", path, "is a module")
return path in self._files and path.rpartition(".")[2] == "py"
def isxfile(self, path):
if verbose:
print("Check if", path, "is an xfile")
return path in self._xfiles
def joinpath(self, *path):
return posixpath.normpath(posixpath.join(*path))
def readlines(self, path):
try:
return self._files[path]
except KeyError:
raise FileNotFoundError(path) from None
def realpath(self, path, _trail=None):
if verbose:
print("Read link from", path)
try:
link = self._links[path]
except KeyError:
return path
if _trail is None:
_trail = set()
elif link in _trail:
raise OSError("circular link")
_trail.add(link)
return self.realpath(link, _trail)
def warn(self, message):
self._warnings.append(message)
if verbose:
print(message)
def diff_dict(before, after, prefix="global"):
diff = []
for k in sorted(before):
if k[:2] == "__":
continue
if k == "config":
diff_dict(before[k], after[k], prefix="config")
continue
if k in after and after[k] != before[k]:
diff.append((k, before[k], after[k]))
if not diff:
return
max_k = max(len(k) for k, _, _ in diff)
indent = " " * (len(prefix) + 1 + max_k)
if verbose:
for k, b, a in diff:
if b:
print("{}.{} -{!r}\n{} +{!r}".format(prefix, k.ljust(max_k), b, indent, a))
else:
print("{}.{} +{!r}".format(prefix, k.ljust(max_k), a))
def dump_dict(before, after, prefix="global"):
if not verbose or not after:
return
max_k = max(len(k) for k in after)
for k, v in sorted(after.items(), key=lambda i: i[0]):
if k[:2] == "__":
continue
if k == "config":
dump_dict(before[k], after[k], prefix="config")
continue
try:
if v != before[k]:
print("{}.{} {!r} (was {!r})".format(prefix, k.ljust(max_k), v, before[k]))
continue
except KeyError:
pass
print("{}.{} {!r}".format(prefix, k.ljust(max_k), v))
def getpath(ns, keys):
before = copy.deepcopy(ns)
failed = True
try:
exec(SOURCE, ns)
failed = False
finally:
if failed:
dump_dict(before, ns)
else:
diff_dict(before, ns)
return {
k: ns['config'].get(k, ns.get(k, ...))
for k in keys
}