OpenHome/venv/Lib/site-packages/pip/_internal/locations/_sysconfig.py

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2021-07-21 21:33:05 +02:00
import distutils.util # FIXME: For change_root.
import logging
import os
import sys
import sysconfig
import typing
from pip._internal.exceptions import InvalidSchemeCombination, UserInstallationInvalid
from pip._internal.models.scheme import SCHEME_KEYS, Scheme
from pip._internal.utils.virtualenv import running_under_virtualenv
from .base import get_major_minor_version
logger = logging.getLogger(__name__)
# Notes on _infer_* functions.
# Unfortunately ``_get_default_scheme()`` is private, so there's no way to
# ask things like "what is the '_prefix' scheme on this platform". These
# functions try to answer that with some heuristics while accounting for ad-hoc
# platforms not covered by CPython's default sysconfig implementation. If the
# ad-hoc implementation does not fully implement sysconfig, we'll fall back to
# a POSIX scheme.
_AVAILABLE_SCHEMES = set(sysconfig.get_scheme_names())
def _infer_prefix():
# type: () -> str
"""Try to find a prefix scheme for the current platform.
This tries:
* Implementation + OS, used by PyPy on Windows (``pypy_nt``).
* Implementation without OS, used by PyPy on POSIX (``pypy``).
* OS + "prefix", used by CPython on POSIX (``posix_prefix``).
* Just the OS name, used by CPython on Windows (``nt``).
If none of the above works, fall back to ``posix_prefix``.
"""
implementation_suffixed = f"{sys.implementation.name}_{os.name}"
if implementation_suffixed in _AVAILABLE_SCHEMES:
return implementation_suffixed
if sys.implementation.name in _AVAILABLE_SCHEMES:
return sys.implementation.name
suffixed = f"{os.name}_prefix"
if suffixed in _AVAILABLE_SCHEMES:
return suffixed
if os.name in _AVAILABLE_SCHEMES: # On Windows, prefx is just called "nt".
return os.name
return "posix_prefix"
def _infer_user():
# type: () -> str
"""Try to find a user scheme for the current platform."""
suffixed = f"{os.name}_user"
if suffixed in _AVAILABLE_SCHEMES:
return suffixed
if "posix_user" not in _AVAILABLE_SCHEMES: # User scheme unavailable.
raise UserInstallationInvalid()
return "posix_user"
def _infer_home():
# type: () -> str
"""Try to find a home for the current platform."""
suffixed = f"{os.name}_home"
if suffixed in _AVAILABLE_SCHEMES:
return suffixed
return "posix_home"
# Update these keys if the user sets a custom home.
_HOME_KEYS = [
"installed_base",
"base",
"installed_platbase",
"platbase",
"prefix",
"exec_prefix",
]
if sysconfig.get_config_var("userbase") is not None:
_HOME_KEYS.append("userbase")
def get_scheme(
dist_name, # type: str
user=False, # type: bool
home=None, # type: typing.Optional[str]
root=None, # type: typing.Optional[str]
isolated=False, # type: bool
prefix=None, # type: typing.Optional[str]
):
# type: (...) -> Scheme
"""
Get the "scheme" corresponding to the input parameters.
:param dist_name: the name of the package to retrieve the scheme for, used
in the headers scheme path
:param user: indicates to use the "user" scheme
:param home: indicates to use the "home" scheme
:param root: root under which other directories are re-based
:param isolated: ignored, but kept for distutils compatibility (where
this controls whether the user-site pydistutils.cfg is honored)
:param prefix: indicates to use the "prefix" scheme and provides the
base directory for the same
"""
if user and prefix:
raise InvalidSchemeCombination("--user", "--prefix")
if home and prefix:
raise InvalidSchemeCombination("--home", "--prefix")
if home is not None:
scheme_name = _infer_home()
elif user:
scheme_name = _infer_user()
else:
scheme_name = _infer_prefix()
if home is not None:
variables = {k: home for k in _HOME_KEYS}
elif prefix is not None:
variables = {k: prefix for k in _HOME_KEYS}
else:
variables = {}
paths = sysconfig.get_paths(scheme=scheme_name, vars=variables)
# Logic here is very arbitrary, we're doing it for compatibility, don't ask.
# 1. Pip historically uses a special header path in virtual environments.
# 2. If the distribution name is not known, distutils uses 'UNKNOWN'. We
# only do the same when not running in a virtual environment because
# pip's historical header path logic (see point 1) did not do this.
if running_under_virtualenv():
if user:
base = variables.get("userbase", sys.prefix)
else:
base = variables.get("base", sys.prefix)
python_xy = f"python{get_major_minor_version()}"
paths["include"] = os.path.join(base, "include", "site", python_xy)
elif not dist_name:
dist_name = "UNKNOWN"
scheme = Scheme(
platlib=paths["platlib"],
purelib=paths["purelib"],
headers=os.path.join(paths["include"], dist_name),
scripts=paths["scripts"],
data=paths["data"],
)
if root is not None:
for key in SCHEME_KEYS:
value = distutils.util.change_root(root, getattr(scheme, key))
setattr(scheme, key, value)
return scheme
def get_bin_prefix():
# type: () -> str
# Forcing to use /usr/local/bin for standard macOS framework installs.
if sys.platform[:6] == "darwin" and sys.prefix[:16] == "/System/Library/":
return "/usr/local/bin"
return sysconfig.get_paths()["scripts"]
def get_purelib():
# type: () -> str
return sysconfig.get_paths()["purelib"]
def get_platlib():
# type: () -> str
return sysconfig.get_paths()["platlib"]
def get_prefixed_libs(prefix):
# type: (str) -> typing.Tuple[str, str]
paths = sysconfig.get_paths(vars={"base": prefix, "platbase": prefix})
return (paths["purelib"], paths["platlib"])