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omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/packaging/utils.py | # This file is dual licensed under the terms of the Apache License, Version
# 2.0, and the BSD License. See the LICENSE file in the root of this repository
# for complete details.
import re
from typing import FrozenSet, NewType, Tuple, Union, cast
from .tags import Tag, parse_tag
from .version import InvalidVersion, Version
BuildTag = Union[Tuple[()], Tuple[int, str]]
NormalizedName = NewType("NormalizedName", str)
class InvalidWheelFilename(ValueError):
"""
An invalid wheel filename was found, users should refer to PEP 427.
"""
class InvalidSdistFilename(ValueError):
"""
An invalid sdist filename was found, users should refer to the packaging user guide.
"""
_canonicalize_regex = re.compile(r"[-_.]+")
# PEP 427: The build number must start with a digit.
_build_tag_regex = re.compile(r"(\d+)(.*)")
def canonicalize_name(name: str) -> NormalizedName:
# This is taken from PEP 503.
value = _canonicalize_regex.sub("-", name).lower()
return cast(NormalizedName, value)
def canonicalize_version(
version: Union[Version, str], *, strip_trailing_zero: bool = True
) -> str:
"""
This is very similar to Version.__str__, but has one subtle difference
with the way it handles the release segment.
"""
if isinstance(version, str):
try:
parsed = Version(version)
except InvalidVersion:
# Legacy versions cannot be normalized
return version
else:
parsed = version
parts = []
# Epoch
if parsed.epoch != 0:
parts.append(f"{parsed.epoch}!")
# Release segment
release_segment = ".".join(str(x) for x in parsed.release)
if strip_trailing_zero:
# NB: This strips trailing '.0's to normalize
release_segment = re.sub(r"(\.0)+$", "", release_segment)
parts.append(release_segment)
# Pre-release
if parsed.pre is not None:
parts.append("".join(str(x) for x in parsed.pre))
# Post-release
if parsed.post is not None:
parts.append(f".post{parsed.post}")
# Development release
if parsed.dev is not None:
parts.append(f".dev{parsed.dev}")
# Local version segment
if parsed.local is not None:
parts.append(f"+{parsed.local}")
return "".join(parts)
def parse_wheel_filename(
filename: str,
) -> Tuple[NormalizedName, Version, BuildTag, FrozenSet[Tag]]:
if not filename.endswith(".whl"):
raise InvalidWheelFilename(
f"Invalid wheel filename (extension must be '.whl'): {filename}"
)
filename = filename[:-4]
dashes = filename.count("-")
if dashes not in (4, 5):
raise InvalidWheelFilename(
f"Invalid wheel filename (wrong number of parts): {filename}"
)
parts = filename.split("-", dashes - 2)
name_part = parts[0]
# See PEP 427 for the rules on escaping the project name
if "__" in name_part or re.match(r"^[\w\d._]*$", name_part, re.UNICODE) is None:
raise InvalidWheelFilename(f"Invalid project name: {filename}")
name = canonicalize_name(name_part)
version = Version(parts[1])
if dashes == 5:
build_part = parts[2]
build_match = _build_tag_regex.match(build_part)
if build_match is None:
raise InvalidWheelFilename(
f"Invalid build number: {build_part} in '{filename}'"
)
build = cast(BuildTag, (int(build_match.group(1)), build_match.group(2)))
else:
build = ()
tags = parse_tag(parts[-1])
return (name, version, build, tags)
def parse_sdist_filename(filename: str) -> Tuple[NormalizedName, Version]:
if filename.endswith(".tar.gz"):
file_stem = filename[: -len(".tar.gz")]
elif filename.endswith(".zip"):
file_stem = filename[: -len(".zip")]
else:
raise InvalidSdistFilename(
f"Invalid sdist filename (extension must be '.tar.gz' or '.zip'):"
f" {filename}"
)
# We are requiring a PEP 440 version, which cannot contain dashes,
# so we split on the last dash.
name_part, sep, version_part = file_stem.rpartition("-")
if not sep:
raise InvalidSdistFilename(f"Invalid sdist filename: {filename}")
name = canonicalize_name(name_part)
version = Version(version_part)
return (name, version)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/packaging/_manylinux.py | import collections
import contextlib
import functools
import os
import re
import sys
import warnings
from typing import Dict, Generator, Iterator, NamedTuple, Optional, Tuple
from ._elffile import EIClass, EIData, ELFFile, EMachine
EF_ARM_ABIMASK = 0xFF000000
EF_ARM_ABI_VER5 = 0x05000000
EF_ARM_ABI_FLOAT_HARD = 0x00000400
# `os.PathLike` not a generic type until Python 3.9, so sticking with `str`
# as the type for `path` until then.
@contextlib.contextmanager
def _parse_elf(path: str) -> Generator[Optional[ELFFile], None, None]:
try:
with open(path, "rb") as f:
yield ELFFile(f)
except (OSError, TypeError, ValueError):
yield None
def _is_linux_armhf(executable: str) -> bool:
# hard-float ABI can be detected from the ELF header of the running
# process
# https://static.docs.arm.com/ihi0044/g/aaelf32.pdf
with _parse_elf(executable) as f:
return (
f is not None
and f.capacity == EIClass.C32
and f.encoding == EIData.Lsb
and f.machine == EMachine.Arm
and f.flags & EF_ARM_ABIMASK == EF_ARM_ABI_VER5
and f.flags & EF_ARM_ABI_FLOAT_HARD == EF_ARM_ABI_FLOAT_HARD
)
def _is_linux_i686(executable: str) -> bool:
with _parse_elf(executable) as f:
return (
f is not None
and f.capacity == EIClass.C32
and f.encoding == EIData.Lsb
and f.machine == EMachine.I386
)
def _have_compatible_abi(executable: str, arch: str) -> bool:
if arch == "armv7l":
return _is_linux_armhf(executable)
if arch == "i686":
return _is_linux_i686(executable)
return arch in {"x86_64", "aarch64", "ppc64", "ppc64le", "s390x"}
# If glibc ever changes its major version, we need to know what the last
# minor version was, so we can build the complete list of all versions.
# For now, guess what the highest minor version might be, assume it will
# be 50 for testing. Once this actually happens, update the dictionary
# with the actual value.
_LAST_GLIBC_MINOR: Dict[int, int] = collections.defaultdict(lambda: 50)
class _GLibCVersion(NamedTuple):
major: int
minor: int
def _glibc_version_string_confstr() -> Optional[str]:
"""
Primary implementation of glibc_version_string using os.confstr.
"""
# os.confstr is quite a bit faster than ctypes.DLL. It's also less likely
# to be broken or missing. This strategy is used in the standard library
# platform module.
# https://github.com/python/cpython/blob/fcf1d003bf4f0100c/Lib/platform.py#L175-L183
try:
# Should be a string like "glibc 2.17".
version_string: str = getattr(os, "confstr")("CS_GNU_LIBC_VERSION")
assert version_string is not None
_, version = version_string.rsplit()
except (AssertionError, AttributeError, OSError, ValueError):
# os.confstr() or CS_GNU_LIBC_VERSION not available (or a bad value)...
return None
return version
def _glibc_version_string_ctypes() -> Optional[str]:
"""
Fallback implementation of glibc_version_string using ctypes.
"""
try:
import ctypes
except ImportError:
return None
# ctypes.CDLL(None) internally calls dlopen(NULL), and as the dlopen
# manpage says, "If filename is NULL, then the returned handle is for the
# main program". This way we can let the linker do the work to figure out
# which libc our process is actually using.
#
# We must also handle the special case where the executable is not a
# dynamically linked executable. This can occur when using musl libc,
# for example. In this situation, dlopen() will error, leading to an
# OSError. Interestingly, at least in the case of musl, there is no
# errno set on the OSError. The single string argument used to construct
# OSError comes from libc itself and is therefore not portable to
# hard code here. In any case, failure to call dlopen() means we
# can proceed, so we bail on our attempt.
try:
process_namespace = ctypes.CDLL(None)
except OSError:
return None
try:
gnu_get_libc_version = process_namespace.gnu_get_libc_version
except AttributeError:
# Symbol doesn't exist -> therefore, we are not linked to
# glibc.
return None
# Call gnu_get_libc_version, which returns a string like "2.5"
gnu_get_libc_version.restype = ctypes.c_char_p
version_str: str = gnu_get_libc_version()
# py2 / py3 compatibility:
if not isinstance(version_str, str):
version_str = version_str.decode("ascii")
return version_str
def _glibc_version_string() -> Optional[str]:
"""Returns glibc version string, or None if not using glibc."""
return _glibc_version_string_confstr() or _glibc_version_string_ctypes()
def _parse_glibc_version(version_str: str) -> Tuple[int, int]:
"""Parse glibc version.
We use a regexp instead of str.split because we want to discard any
random junk that might come after the minor version -- this might happen
in patched/forked versions of glibc (e.g. Linaro's version of glibc
uses version strings like "2.20-2014.11"). See gh-3588.
"""
m = re.match(r"(?P<major>[0-9]+)\.(?P<minor>[0-9]+)", version_str)
if not m:
warnings.warn(
f"Expected glibc version with 2 components major.minor,"
f" got: {version_str}",
RuntimeWarning,
)
return -1, -1
return int(m.group("major")), int(m.group("minor"))
@functools.lru_cache()
def _get_glibc_version() -> Tuple[int, int]:
version_str = _glibc_version_string()
if version_str is None:
return (-1, -1)
return _parse_glibc_version(version_str)
# From PEP 513, PEP 600
def _is_compatible(name: str, arch: str, version: _GLibCVersion) -> bool:
sys_glibc = _get_glibc_version()
if sys_glibc < version:
return False
# Check for presence of _manylinux module.
try:
import _manylinux # noqa
except ImportError:
return True
if hasattr(_manylinux, "manylinux_compatible"):
result = _manylinux.manylinux_compatible(version[0], version[1], arch)
if result is not None:
return bool(result)
return True
if version == _GLibCVersion(2, 5):
if hasattr(_manylinux, "manylinux1_compatible"):
return bool(_manylinux.manylinux1_compatible)
if version == _GLibCVersion(2, 12):
if hasattr(_manylinux, "manylinux2010_compatible"):
return bool(_manylinux.manylinux2010_compatible)
if version == _GLibCVersion(2, 17):
if hasattr(_manylinux, "manylinux2014_compatible"):
return bool(_manylinux.manylinux2014_compatible)
return True
_LEGACY_MANYLINUX_MAP = {
# CentOS 7 w/ glibc 2.17 (PEP 599)
(2, 17): "manylinux2014",
# CentOS 6 w/ glibc 2.12 (PEP 571)
(2, 12): "manylinux2010",
# CentOS 5 w/ glibc 2.5 (PEP 513)
(2, 5): "manylinux1",
}
def platform_tags(linux: str, arch: str) -> Iterator[str]:
if not _have_compatible_abi(sys.executable, arch):
return
# Oldest glibc to be supported regardless of architecture is (2, 17).
too_old_glibc2 = _GLibCVersion(2, 16)
if arch in {"x86_64", "i686"}:
# On x86/i686 also oldest glibc to be supported is (2, 5).
too_old_glibc2 = _GLibCVersion(2, 4)
current_glibc = _GLibCVersion(*_get_glibc_version())
glibc_max_list = [current_glibc]
# We can assume compatibility across glibc major versions.
# https://sourceware.org/bugzilla/show_bug.cgi?id=24636
#
# Build a list of maximum glibc versions so that we can
# output the canonical list of all glibc from current_glibc
# down to too_old_glibc2, including all intermediary versions.
for glibc_major in range(current_glibc.major - 1, 1, -1):
glibc_minor = _LAST_GLIBC_MINOR[glibc_major]
glibc_max_list.append(_GLibCVersion(glibc_major, glibc_minor))
for glibc_max in glibc_max_list:
if glibc_max.major == too_old_glibc2.major:
min_minor = too_old_glibc2.minor
else:
# For other glibc major versions oldest supported is (x, 0).
min_minor = -1
for glibc_minor in range(glibc_max.minor, min_minor, -1):
glibc_version = _GLibCVersion(glibc_max.major, glibc_minor)
tag = "manylinux_{}_{}".format(*glibc_version)
if _is_compatible(tag, arch, glibc_version):
yield linux.replace("linux", tag)
# Handle the legacy manylinux1, manylinux2010, manylinux2014 tags.
if glibc_version in _LEGACY_MANYLINUX_MAP:
legacy_tag = _LEGACY_MANYLINUX_MAP[glibc_version]
if _is_compatible(legacy_tag, arch, glibc_version):
yield linux.replace("linux", legacy_tag)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/packaging/_musllinux.py | """PEP 656 support.
This module implements logic to detect if the currently running Python is
linked against musl, and what musl version is used.
"""
import functools
import re
import subprocess
import sys
from typing import Iterator, NamedTuple, Optional
from ._elffile import ELFFile
class _MuslVersion(NamedTuple):
major: int
minor: int
def _parse_musl_version(output: str) -> Optional[_MuslVersion]:
lines = [n for n in (n.strip() for n in output.splitlines()) if n]
if len(lines) < 2 or lines[0][:4] != "musl":
return None
m = re.match(r"Version (\d+)\.(\d+)", lines[1])
if not m:
return None
return _MuslVersion(major=int(m.group(1)), minor=int(m.group(2)))
@functools.lru_cache()
def _get_musl_version(executable: str) -> Optional[_MuslVersion]:
"""Detect currently-running musl runtime version.
This is done by checking the specified executable's dynamic linking
information, and invoking the loader to parse its output for a version
string. If the loader is musl, the output would be something like::
musl libc (x86_64)
Version 1.2.2
Dynamic Program Loader
"""
try:
with open(executable, "rb") as f:
ld = ELFFile(f).interpreter
except (OSError, TypeError, ValueError):
return None
if ld is None or "musl" not in ld:
return None
proc = subprocess.run([ld], stderr=subprocess.PIPE, universal_newlines=True)
return _parse_musl_version(proc.stderr)
def platform_tags(arch: str) -> Iterator[str]:
"""Generate musllinux tags compatible to the current platform.
:param arch: Should be the part of platform tag after the ``linux_``
prefix, e.g. ``x86_64``. The ``linux_`` prefix is assumed as a
prerequisite for the current platform to be musllinux-compatible.
:returns: An iterator of compatible musllinux tags.
"""
sys_musl = _get_musl_version(sys.executable)
if sys_musl is None: # Python not dynamically linked against musl.
return
for minor in range(sys_musl.minor, -1, -1):
yield f"musllinux_{sys_musl.major}_{minor}_{arch}"
if __name__ == "__main__": # pragma: no cover
import sysconfig
plat = sysconfig.get_platform()
assert plat.startswith("linux-"), "not linux"
print("plat:", plat)
print("musl:", _get_musl_version(sys.executable))
print("tags:", end=" ")
for t in platform_tags(re.sub(r"[.-]", "_", plat.split("-", 1)[-1])):
print(t, end="\n ")
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/packaging/tags.py | # This file is dual licensed under the terms of the Apache License, Version
# 2.0, and the BSD License. See the LICENSE file in the root of this repository
# for complete details.
import logging
import platform
import subprocess
import sys
import sysconfig
from importlib.machinery import EXTENSION_SUFFIXES
from typing import (
Dict,
FrozenSet,
Iterable,
Iterator,
List,
Optional,
Sequence,
Tuple,
Union,
cast,
)
from . import _manylinux, _musllinux
logger = logging.getLogger(__name__)
PythonVersion = Sequence[int]
MacVersion = Tuple[int, int]
INTERPRETER_SHORT_NAMES: Dict[str, str] = {
"python": "py", # Generic.
"cpython": "cp",
"pypy": "pp",
"ironpython": "ip",
"jython": "jy",
}
_32_BIT_INTERPRETER = sys.maxsize <= 2**32
class Tag:
"""
A representation of the tag triple for a wheel.
Instances are considered immutable and thus are hashable. Equality checking
is also supported.
"""
__slots__ = ["_interpreter", "_abi", "_platform", "_hash"]
def __init__(self, interpreter: str, abi: str, platform: str) -> None:
self._interpreter = interpreter.lower()
self._abi = abi.lower()
self._platform = platform.lower()
# The __hash__ of every single element in a Set[Tag] will be evaluated each time
# that a set calls its `.disjoint()` method, which may be called hundreds of
# times when scanning a page of links for packages with tags matching that
# Set[Tag]. Pre-computing the value here produces significant speedups for
# downstream consumers.
self._hash = hash((self._interpreter, self._abi, self._platform))
@property
def interpreter(self) -> str:
return self._interpreter
@property
def abi(self) -> str:
return self._abi
@property
def platform(self) -> str:
return self._platform
def __eq__(self, other: object) -> bool:
if not isinstance(other, Tag):
return NotImplemented
return (
(self._hash == other._hash) # Short-circuit ASAP for perf reasons.
and (self._platform == other._platform)
and (self._abi == other._abi)
and (self._interpreter == other._interpreter)
)
def __hash__(self) -> int:
return self._hash
def __str__(self) -> str:
return f"{self._interpreter}-{self._abi}-{self._platform}"
def __repr__(self) -> str:
return f"<{self} @ {id(self)}>"
def parse_tag(tag: str) -> FrozenSet[Tag]:
"""
Parses the provided tag (e.g. `py3-none-any`) into a frozenset of Tag instances.
Returning a set is required due to the possibility that the tag is a
compressed tag set.
"""
tags = set()
interpreters, abis, platforms = tag.split("-")
for interpreter in interpreters.split("."):
for abi in abis.split("."):
for platform_ in platforms.split("."):
tags.add(Tag(interpreter, abi, platform_))
return frozenset(tags)
def _get_config_var(name: str, warn: bool = False) -> Union[int, str, None]:
value: Union[int, str, None] = sysconfig.get_config_var(name)
if value is None and warn:
logger.debug(
"Config variable '%s' is unset, Python ABI tag may be incorrect", name
)
return value
def _normalize_string(string: str) -> str:
return string.replace(".", "_").replace("-", "_").replace(" ", "_")
def _abi3_applies(python_version: PythonVersion) -> bool:
"""
Determine if the Python version supports abi3.
PEP 384 was first implemented in Python 3.2.
"""
return len(python_version) > 1 and tuple(python_version) >= (3, 2)
def _cpython_abis(py_version: PythonVersion, warn: bool = False) -> List[str]:
py_version = tuple(py_version) # To allow for version comparison.
abis = []
version = _version_nodot(py_version[:2])
debug = pymalloc = ucs4 = ""
with_debug = _get_config_var("Py_DEBUG", warn)
has_refcount = hasattr(sys, "gettotalrefcount")
# Windows doesn't set Py_DEBUG, so checking for support of debug-compiled
# extension modules is the best option.
# https://github.com/pypa/pip/issues/3383#issuecomment-173267692
has_ext = "_d.pyd" in EXTENSION_SUFFIXES
if with_debug or (with_debug is None and (has_refcount or has_ext)):
debug = "d"
if py_version < (3, 8):
with_pymalloc = _get_config_var("WITH_PYMALLOC", warn)
if with_pymalloc or with_pymalloc is None:
pymalloc = "m"
if py_version < (3, 3):
unicode_size = _get_config_var("Py_UNICODE_SIZE", warn)
if unicode_size == 4 or (
unicode_size is None and sys.maxunicode == 0x10FFFF
):
ucs4 = "u"
elif debug:
# Debug builds can also load "normal" extension modules.
# We can also assume no UCS-4 or pymalloc requirement.
abis.append(f"cp{version}")
abis.insert(
0,
"cp{version}{debug}{pymalloc}{ucs4}".format(
version=version, debug=debug, pymalloc=pymalloc, ucs4=ucs4
),
)
return abis
def cpython_tags(
python_version: Optional[PythonVersion] = None,
abis: Optional[Iterable[str]] = None,
platforms: Optional[Iterable[str]] = None,
*,
warn: bool = False,
) -> Iterator[Tag]:
"""
Yields the tags for a CPython interpreter.
The tags consist of:
- cp<python_version>-<abi>-<platform>
- cp<python_version>-abi3-<platform>
- cp<python_version>-none-<platform>
- cp<less than python_version>-abi3-<platform> # Older Python versions down to 3.2.
If python_version only specifies a major version then user-provided ABIs and
the 'none' ABItag will be used.
If 'abi3' or 'none' are specified in 'abis' then they will be yielded at
their normal position and not at the beginning.
"""
if not python_version:
python_version = sys.version_info[:2]
interpreter = f"cp{_version_nodot(python_version[:2])}"
if abis is None:
if len(python_version) > 1:
abis = _cpython_abis(python_version, warn)
else:
abis = []
abis = list(abis)
# 'abi3' and 'none' are explicitly handled later.
for explicit_abi in ("abi3", "none"):
try:
abis.remove(explicit_abi)
except ValueError:
pass
platforms = list(platforms or platform_tags())
for abi in abis:
for platform_ in platforms:
yield Tag(interpreter, abi, platform_)
if _abi3_applies(python_version):
yield from (Tag(interpreter, "abi3", platform_) for platform_ in platforms)
yield from (Tag(interpreter, "none", platform_) for platform_ in platforms)
if _abi3_applies(python_version):
for minor_version in range(python_version[1] - 1, 1, -1):
for platform_ in platforms:
interpreter = "cp{version}".format(
version=_version_nodot((python_version[0], minor_version))
)
yield Tag(interpreter, "abi3", platform_)
def _generic_abi() -> List[str]:
"""
Return the ABI tag based on EXT_SUFFIX.
"""
# The following are examples of `EXT_SUFFIX`.
# We want to keep the parts which are related to the ABI and remove the
# parts which are related to the platform:
# - linux: '.cpython-310-x86_64-linux-gnu.so' => cp310
# - mac: '.cpython-310-darwin.so' => cp310
# - win: '.cp310-win_amd64.pyd' => cp310
# - win: '.pyd' => cp37 (uses _cpython_abis())
# - pypy: '.pypy38-pp73-x86_64-linux-gnu.so' => pypy38_pp73
# - graalpy: '.graalpy-38-native-x86_64-darwin.dylib'
# => graalpy_38_native
ext_suffix = _get_config_var("EXT_SUFFIX", warn=True)
if not isinstance(ext_suffix, str) or ext_suffix[0] != ".":
raise SystemError("invalid sysconfig.get_config_var('EXT_SUFFIX')")
parts = ext_suffix.split(".")
if len(parts) < 3:
# CPython3.7 and earlier uses ".pyd" on Windows.
return _cpython_abis(sys.version_info[:2])
soabi = parts[1]
if soabi.startswith("cpython"):
# non-windows
abi = "cp" + soabi.split("-")[1]
elif soabi.startswith("cp"):
# windows
abi = soabi.split("-")[0]
elif soabi.startswith("pypy"):
abi = "-".join(soabi.split("-")[:2])
elif soabi.startswith("graalpy"):
abi = "-".join(soabi.split("-")[:3])
elif soabi:
# pyston, ironpython, others?
abi = soabi
else:
return []
return [_normalize_string(abi)]
def generic_tags(
interpreter: Optional[str] = None,
abis: Optional[Iterable[str]] = None,
platforms: Optional[Iterable[str]] = None,
*,
warn: bool = False,
) -> Iterator[Tag]:
"""
Yields the tags for a generic interpreter.
The tags consist of:
- <interpreter>-<abi>-<platform>
The "none" ABI will be added if it was not explicitly provided.
"""
if not interpreter:
interp_name = interpreter_name()
interp_version = interpreter_version(warn=warn)
interpreter = "".join([interp_name, interp_version])
if abis is None:
abis = _generic_abi()
else:
abis = list(abis)
platforms = list(platforms or platform_tags())
if "none" not in abis:
abis.append("none")
for abi in abis:
for platform_ in platforms:
yield Tag(interpreter, abi, platform_)
def _py_interpreter_range(py_version: PythonVersion) -> Iterator[str]:
"""
Yields Python versions in descending order.
After the latest version, the major-only version will be yielded, and then
all previous versions of that major version.
"""
if len(py_version) > 1:
yield f"py{_version_nodot(py_version[:2])}"
yield f"py{py_version[0]}"
if len(py_version) > 1:
for minor in range(py_version[1] - 1, -1, -1):
yield f"py{_version_nodot((py_version[0], minor))}"
def compatible_tags(
python_version: Optional[PythonVersion] = None,
interpreter: Optional[str] = None,
platforms: Optional[Iterable[str]] = None,
) -> Iterator[Tag]:
"""
Yields the sequence of tags that are compatible with a specific version of Python.
The tags consist of:
- py*-none-<platform>
- <interpreter>-none-any # ... if `interpreter` is provided.
- py*-none-any
"""
if not python_version:
python_version = sys.version_info[:2]
platforms = list(platforms or platform_tags())
for version in _py_interpreter_range(python_version):
for platform_ in platforms:
yield Tag(version, "none", platform_)
if interpreter:
yield Tag(interpreter, "none", "any")
for version in _py_interpreter_range(python_version):
yield Tag(version, "none", "any")
def _mac_arch(arch: str, is_32bit: bool = _32_BIT_INTERPRETER) -> str:
if not is_32bit:
return arch
if arch.startswith("ppc"):
return "ppc"
return "i386"
def _mac_binary_formats(version: MacVersion, cpu_arch: str) -> List[str]:
formats = [cpu_arch]
if cpu_arch == "x86_64":
if version < (10, 4):
return []
formats.extend(["intel", "fat64", "fat32"])
elif cpu_arch == "i386":
if version < (10, 4):
return []
formats.extend(["intel", "fat32", "fat"])
elif cpu_arch == "ppc64":
# TODO: Need to care about 32-bit PPC for ppc64 through 10.2?
if version > (10, 5) or version < (10, 4):
return []
formats.append("fat64")
elif cpu_arch == "ppc":
if version > (10, 6):
return []
formats.extend(["fat32", "fat"])
if cpu_arch in {"arm64", "x86_64"}:
formats.append("universal2")
if cpu_arch in {"x86_64", "i386", "ppc64", "ppc", "intel"}:
formats.append("universal")
return formats
def mac_platforms(
version: Optional[MacVersion] = None, arch: Optional[str] = None
) -> Iterator[str]:
"""
Yields the platform tags for a macOS system.
The `version` parameter is a two-item tuple specifying the macOS version to
generate platform tags for. The `arch` parameter is the CPU architecture to
generate platform tags for. Both parameters default to the appropriate value
for the current system.
"""
version_str, _, cpu_arch = platform.mac_ver()
if version is None:
version = cast("MacVersion", tuple(map(int, version_str.split(".")[:2])))
if version == (10, 16):
# When built against an older macOS SDK, Python will report macOS 10.16
# instead of the real version.
version_str = subprocess.run(
[
sys.executable,
"-sS",
"-c",
"import platform; print(platform.mac_ver()[0])",
],
check=True,
env={"SYSTEM_VERSION_COMPAT": "0"},
stdout=subprocess.PIPE,
universal_newlines=True,
).stdout
version = cast("MacVersion", tuple(map(int, version_str.split(".")[:2])))
else:
version = version
if arch is None:
arch = _mac_arch(cpu_arch)
else:
arch = arch
if (10, 0) <= version and version < (11, 0):
# Prior to Mac OS 11, each yearly release of Mac OS bumped the
# "minor" version number. The major version was always 10.
for minor_version in range(version[1], -1, -1):
compat_version = 10, minor_version
binary_formats = _mac_binary_formats(compat_version, arch)
for binary_format in binary_formats:
yield "macosx_{major}_{minor}_{binary_format}".format(
major=10, minor=minor_version, binary_format=binary_format
)
if version >= (11, 0):
# Starting with Mac OS 11, each yearly release bumps the major version
# number. The minor versions are now the midyear updates.
for major_version in range(version[0], 10, -1):
compat_version = major_version, 0
binary_formats = _mac_binary_formats(compat_version, arch)
for binary_format in binary_formats:
yield "macosx_{major}_{minor}_{binary_format}".format(
major=major_version, minor=0, binary_format=binary_format
)
if version >= (11, 0):
# Mac OS 11 on x86_64 is compatible with binaries from previous releases.
# Arm64 support was introduced in 11.0, so no Arm binaries from previous
# releases exist.
#
# However, the "universal2" binary format can have a
# macOS version earlier than 11.0 when the x86_64 part of the binary supports
# that version of macOS.
if arch == "x86_64":
for minor_version in range(16, 3, -1):
compat_version = 10, minor_version
binary_formats = _mac_binary_formats(compat_version, arch)
for binary_format in binary_formats:
yield "macosx_{major}_{minor}_{binary_format}".format(
major=compat_version[0],
minor=compat_version[1],
binary_format=binary_format,
)
else:
for minor_version in range(16, 3, -1):
compat_version = 10, minor_version
binary_format = "universal2"
yield "macosx_{major}_{minor}_{binary_format}".format(
major=compat_version[0],
minor=compat_version[1],
binary_format=binary_format,
)
def _linux_platforms(is_32bit: bool = _32_BIT_INTERPRETER) -> Iterator[str]:
linux = _normalize_string(sysconfig.get_platform())
if is_32bit:
if linux == "linux_x86_64":
linux = "linux_i686"
elif linux == "linux_aarch64":
linux = "linux_armv7l"
_, arch = linux.split("_", 1)
yield from _manylinux.platform_tags(linux, arch)
yield from _musllinux.platform_tags(arch)
yield linux
def _generic_platforms() -> Iterator[str]:
yield _normalize_string(sysconfig.get_platform())
def platform_tags() -> Iterator[str]:
"""
Provides the platform tags for this installation.
"""
if platform.system() == "Darwin":
return mac_platforms()
elif platform.system() == "Linux":
return _linux_platforms()
else:
return _generic_platforms()
def interpreter_name() -> str:
"""
Returns the name of the running interpreter.
Some implementations have a reserved, two-letter abbreviation which will
be returned when appropriate.
"""
name = sys.implementation.name
return INTERPRETER_SHORT_NAMES.get(name) or name
def interpreter_version(*, warn: bool = False) -> str:
"""
Returns the version of the running interpreter.
"""
version = _get_config_var("py_version_nodot", warn=warn)
if version:
version = str(version)
else:
version = _version_nodot(sys.version_info[:2])
return version
def _version_nodot(version: PythonVersion) -> str:
return "".join(map(str, version))
def sys_tags(*, warn: bool = False) -> Iterator[Tag]:
"""
Returns the sequence of tag triples for the running interpreter.
The order of the sequence corresponds to priority order for the
interpreter, from most to least important.
"""
interp_name = interpreter_name()
if interp_name == "cp":
yield from cpython_tags(warn=warn)
else:
yield from generic_tags()
if interp_name == "pp":
interp = "pp3"
elif interp_name == "cp":
interp = "cp" + interpreter_version(warn=warn)
else:
interp = None
yield from compatible_tags(interpreter=interp)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/packaging/metadata.py | import email.feedparser
import email.header
import email.message
import email.parser
import email.policy
import sys
import typing
from typing import Dict, List, Optional, Tuple, Union, cast
if sys.version_info >= (3, 8): # pragma: no cover
from typing import TypedDict
else: # pragma: no cover
if typing.TYPE_CHECKING:
from typing_extensions import TypedDict
else:
try:
from typing_extensions import TypedDict
except ImportError:
class TypedDict:
def __init_subclass__(*_args, **_kwargs):
pass
# The RawMetadata class attempts to make as few assumptions about the underlying
# serialization formats as possible. The idea is that as long as a serialization
# formats offer some very basic primitives in *some* way then we can support
# serializing to and from that format.
class RawMetadata(TypedDict, total=False):
"""A dictionary of raw core metadata.
Each field in core metadata maps to a key of this dictionary (when data is
provided). The key is lower-case and underscores are used instead of dashes
compared to the equivalent core metadata field. Any core metadata field that
can be specified multiple times or can hold multiple values in a single
field have a key with a plural name.
Core metadata fields that can be specified multiple times are stored as a
list or dict depending on which is appropriate for the field. Any fields
which hold multiple values in a single field are stored as a list.
"""
# Metadata 1.0 - PEP 241
metadata_version: str
name: str
version: str
platforms: List[str]
summary: str
description: str
keywords: List[str]
home_page: str
author: str
author_email: str
license: str
# Metadata 1.1 - PEP 314
supported_platforms: List[str]
download_url: str
classifiers: List[str]
requires: List[str]
provides: List[str]
obsoletes: List[str]
# Metadata 1.2 - PEP 345
maintainer: str
maintainer_email: str
requires_dist: List[str]
provides_dist: List[str]
obsoletes_dist: List[str]
requires_python: str
requires_external: List[str]
project_urls: Dict[str, str]
# Metadata 2.0
# PEP 426 attempted to completely revamp the metadata format
# but got stuck without ever being able to build consensus on
# it and ultimately ended up withdrawn.
#
# However, a number of tools had started emiting METADATA with
# `2.0` Metadata-Version, so for historical reasons, this version
# was skipped.
# Metadata 2.1 - PEP 566
description_content_type: str
provides_extra: List[str]
# Metadata 2.2 - PEP 643
dynamic: List[str]
# Metadata 2.3 - PEP 685
# No new fields were added in PEP 685, just some edge case were
# tightened up to provide better interoptability.
_STRING_FIELDS = {
"author",
"author_email",
"description",
"description_content_type",
"download_url",
"home_page",
"license",
"maintainer",
"maintainer_email",
"metadata_version",
"name",
"requires_python",
"summary",
"version",
}
_LIST_STRING_FIELDS = {
"classifiers",
"dynamic",
"obsoletes",
"obsoletes_dist",
"platforms",
"provides",
"provides_dist",
"provides_extra",
"requires",
"requires_dist",
"requires_external",
"supported_platforms",
}
def _parse_keywords(data: str) -> List[str]:
"""Split a string of comma-separate keyboards into a list of keywords."""
return [k.strip() for k in data.split(",")]
def _parse_project_urls(data: List[str]) -> Dict[str, str]:
"""Parse a list of label/URL string pairings separated by a comma."""
urls = {}
for pair in data:
# Our logic is slightly tricky here as we want to try and do
# *something* reasonable with malformed data.
#
# The main thing that we have to worry about, is data that does
# not have a ',' at all to split the label from the Value. There
# isn't a singular right answer here, and we will fail validation
# later on (if the caller is validating) so it doesn't *really*
# matter, but since the missing value has to be an empty str
# and our return value is dict[str, str], if we let the key
# be the missing value, then they'd have multiple '' values that
# overwrite each other in a accumulating dict.
#
# The other potentional issue is that it's possible to have the
# same label multiple times in the metadata, with no solid "right"
# answer with what to do in that case. As such, we'll do the only
# thing we can, which is treat the field as unparseable and add it
# to our list of unparsed fields.
parts = [p.strip() for p in pair.split(",", 1)]
parts.extend([""] * (max(0, 2 - len(parts)))) # Ensure 2 items
# TODO: The spec doesn't say anything about if the keys should be
# considered case sensitive or not... logically they should
# be case-preserving and case-insensitive, but doing that
# would open up more cases where we might have duplicate
# entries.
label, url = parts
if label in urls:
# The label already exists in our set of urls, so this field
# is unparseable, and we can just add the whole thing to our
# unparseable data and stop processing it.
raise KeyError("duplicate labels in project urls")
urls[label] = url
return urls
def _get_payload(msg: email.message.Message, source: Union[bytes, str]) -> str:
"""Get the body of the message."""
# If our source is a str, then our caller has managed encodings for us,
# and we don't need to deal with it.
if isinstance(source, str):
payload: str = msg.get_payload()
return payload
# If our source is a bytes, then we're managing the encoding and we need
# to deal with it.
else:
bpayload: bytes = msg.get_payload(decode=True)
try:
return bpayload.decode("utf8", "strict")
except UnicodeDecodeError:
raise ValueError("payload in an invalid encoding")
# The various parse_FORMAT functions here are intended to be as lenient as
# possible in their parsing, while still returning a correctly typed
# RawMetadata.
#
# To aid in this, we also generally want to do as little touching of the
# data as possible, except where there are possibly some historic holdovers
# that make valid data awkward to work with.
#
# While this is a lower level, intermediate format than our ``Metadata``
# class, some light touch ups can make a massive difference in usability.
# Map METADATA fields to RawMetadata.
_EMAIL_TO_RAW_MAPPING = {
"author": "author",
"author-email": "author_email",
"classifier": "classifiers",
"description": "description",
"description-content-type": "description_content_type",
"download-url": "download_url",
"dynamic": "dynamic",
"home-page": "home_page",
"keywords": "keywords",
"license": "license",
"maintainer": "maintainer",
"maintainer-email": "maintainer_email",
"metadata-version": "metadata_version",
"name": "name",
"obsoletes": "obsoletes",
"obsoletes-dist": "obsoletes_dist",
"platform": "platforms",
"project-url": "project_urls",
"provides": "provides",
"provides-dist": "provides_dist",
"provides-extra": "provides_extra",
"requires": "requires",
"requires-dist": "requires_dist",
"requires-external": "requires_external",
"requires-python": "requires_python",
"summary": "summary",
"supported-platform": "supported_platforms",
"version": "version",
}
def parse_email(data: Union[bytes, str]) -> Tuple[RawMetadata, Dict[str, List[str]]]:
"""Parse a distribution's metadata.
This function returns a two-item tuple of dicts. The first dict is of
recognized fields from the core metadata specification. Fields that can be
parsed and translated into Python's built-in types are converted
appropriately. All other fields are left as-is. Fields that are allowed to
appear multiple times are stored as lists.
The second dict contains all other fields from the metadata. This includes
any unrecognized fields. It also includes any fields which are expected to
be parsed into a built-in type but were not formatted appropriately. Finally,
any fields that are expected to appear only once but are repeated are
included in this dict.
"""
raw: Dict[str, Union[str, List[str], Dict[str, str]]] = {}
unparsed: Dict[str, List[str]] = {}
if isinstance(data, str):
parsed = email.parser.Parser(policy=email.policy.compat32).parsestr(data)
else:
parsed = email.parser.BytesParser(policy=email.policy.compat32).parsebytes(data)
# We have to wrap parsed.keys() in a set, because in the case of multiple
# values for a key (a list), the key will appear multiple times in the
# list of keys, but we're avoiding that by using get_all().
for name in frozenset(parsed.keys()):
# Header names in RFC are case insensitive, so we'll normalize to all
# lower case to make comparisons easier.
name = name.lower()
# We use get_all() here, even for fields that aren't multiple use,
# because otherwise someone could have e.g. two Name fields, and we
# would just silently ignore it rather than doing something about it.
headers = parsed.get_all(name)
# The way the email module works when parsing bytes is that it
# unconditionally decodes the bytes as ascii using the surrogateescape
# handler. When you pull that data back out (such as with get_all() ),
# it looks to see if the str has any surrogate escapes, and if it does
# it wraps it in a Header object instead of returning the string.
#
# As such, we'll look for those Header objects, and fix up the encoding.
value = []
# Flag if we have run into any issues processing the headers, thus
# signalling that the data belongs in 'unparsed'.
valid_encoding = True
for h in headers:
# It's unclear if this can return more types than just a Header or
# a str, so we'll just assert here to make sure.
assert isinstance(h, (email.header.Header, str))
# If it's a header object, we need to do our little dance to get
# the real data out of it. In cases where there is invalid data
# we're going to end up with mojibake, but there's no obvious, good
# way around that without reimplementing parts of the Header object
# ourselves.
#
# That should be fine since, if mojibacked happens, this key is
# going into the unparsed dict anyways.
if isinstance(h, email.header.Header):
# The Header object stores it's data as chunks, and each chunk
# can be independently encoded, so we'll need to check each
# of them.
chunks: List[Tuple[bytes, Optional[str]]] = []
for bin, encoding in email.header.decode_header(h):
try:
bin.decode("utf8", "strict")
except UnicodeDecodeError:
# Enable mojibake.
encoding = "latin1"
valid_encoding = False
else:
encoding = "utf8"
chunks.append((bin, encoding))
# Turn our chunks back into a Header object, then let that
# Header object do the right thing to turn them into a
# string for us.
value.append(str(email.header.make_header(chunks)))
# This is already a string, so just add it.
else:
value.append(h)
# We've processed all of our values to get them into a list of str,
# but we may have mojibake data, in which case this is an unparsed
# field.
if not valid_encoding:
unparsed[name] = value
continue
raw_name = _EMAIL_TO_RAW_MAPPING.get(name)
if raw_name is None:
# This is a bit of a weird situation, we've encountered a key that
# we don't know what it means, so we don't know whether it's meant
# to be a list or not.
#
# Since we can't really tell one way or another, we'll just leave it
# as a list, even though it may be a single item list, because that's
# what makes the most sense for email headers.
unparsed[name] = value
continue
# If this is one of our string fields, then we'll check to see if our
# value is a list of a single item. If it is then we'll assume that
# it was emitted as a single string, and unwrap the str from inside
# the list.
#
# If it's any other kind of data, then we haven't the faintest clue
# what we should parse it as, and we have to just add it to our list
# of unparsed stuff.
if raw_name in _STRING_FIELDS and len(value) == 1:
raw[raw_name] = value[0]
# If this is one of our list of string fields, then we can just assign
# the value, since email *only* has strings, and our get_all() call
# above ensures that this is a list.
elif raw_name in _LIST_STRING_FIELDS:
raw[raw_name] = value
# Special Case: Keywords
# The keywords field is implemented in the metadata spec as a str,
# but it conceptually is a list of strings, and is serialized using
# ", ".join(keywords), so we'll do some light data massaging to turn
# this into what it logically is.
elif raw_name == "keywords" and len(value) == 1:
raw[raw_name] = _parse_keywords(value[0])
# Special Case: Project-URL
# The project urls is implemented in the metadata spec as a list of
# specially-formatted strings that represent a key and a value, which
# is fundamentally a mapping, however the email format doesn't support
# mappings in a sane way, so it was crammed into a list of strings
# instead.
#
# We will do a little light data massaging to turn this into a map as
# it logically should be.
elif raw_name == "project_urls":
try:
raw[raw_name] = _parse_project_urls(value)
except KeyError:
unparsed[name] = value
# Nothing that we've done has managed to parse this, so it'll just
# throw it in our unparseable data and move on.
else:
unparsed[name] = value
# We need to support getting the Description from the message payload in
# addition to getting it from the the headers. This does mean, though, there
# is the possibility of it being set both ways, in which case we put both
# in 'unparsed' since we don't know which is right.
try:
payload = _get_payload(parsed, data)
except ValueError:
unparsed.setdefault("description", []).append(
parsed.get_payload(decode=isinstance(data, bytes))
)
else:
if payload:
# Check to see if we've already got a description, if so then both
# it, and this body move to unparseable.
if "description" in raw:
description_header = cast(str, raw.pop("description"))
unparsed.setdefault("description", []).extend(
[description_header, payload]
)
elif "description" in unparsed:
unparsed["description"].append(payload)
else:
raw["description"] = payload
# We need to cast our `raw` to a metadata, because a TypedDict only support
# literal key names, but we're computing our key names on purpose, but the
# way this function is implemented, our `TypedDict` can only have valid key
# names.
return cast(RawMetadata, raw), unparsed
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/packaging/_elffile.py | """
ELF file parser.
This provides a class ``ELFFile`` that parses an ELF executable in a similar
interface to ``ZipFile``. Only the read interface is implemented.
Based on: https://gist.github.com/lyssdod/f51579ae8d93c8657a5564aefc2ffbca
ELF header: https://refspecs.linuxfoundation.org/elf/gabi4+/ch4.eheader.html
"""
import enum
import os
import struct
from typing import IO, Optional, Tuple
class ELFInvalid(ValueError):
pass
class EIClass(enum.IntEnum):
C32 = 1
C64 = 2
class EIData(enum.IntEnum):
Lsb = 1
Msb = 2
class EMachine(enum.IntEnum):
I386 = 3
S390 = 22
Arm = 40
X8664 = 62
AArc64 = 183
class ELFFile:
"""
Representation of an ELF executable.
"""
def __init__(self, f: IO[bytes]) -> None:
self._f = f
try:
ident = self._read("16B")
except struct.error:
raise ELFInvalid("unable to parse identification")
magic = bytes(ident[:4])
if magic != b"\x7fELF":
raise ELFInvalid(f"invalid magic: {magic!r}")
self.capacity = ident[4] # Format for program header (bitness).
self.encoding = ident[5] # Data structure encoding (endianness).
try:
# e_fmt: Format for program header.
# p_fmt: Format for section header.
# p_idx: Indexes to find p_type, p_offset, and p_filesz.
e_fmt, self._p_fmt, self._p_idx = {
(1, 1): ("<HHIIIIIHHH", "<IIIIIIII", (0, 1, 4)), # 32-bit LSB.
(1, 2): (">HHIIIIIHHH", ">IIIIIIII", (0, 1, 4)), # 32-bit MSB.
(2, 1): ("<HHIQQQIHHH", "<IIQQQQQQ", (0, 2, 5)), # 64-bit LSB.
(2, 2): (">HHIQQQIHHH", ">IIQQQQQQ", (0, 2, 5)), # 64-bit MSB.
}[(self.capacity, self.encoding)]
except KeyError:
raise ELFInvalid(
f"unrecognized capacity ({self.capacity}) or "
f"encoding ({self.encoding})"
)
try:
(
_,
self.machine, # Architecture type.
_,
_,
self._e_phoff, # Offset of program header.
_,
self.flags, # Processor-specific flags.
_,
self._e_phentsize, # Size of section.
self._e_phnum, # Number of sections.
) = self._read(e_fmt)
except struct.error as e:
raise ELFInvalid("unable to parse machine and section information") from e
def _read(self, fmt: str) -> Tuple[int, ...]:
return struct.unpack(fmt, self._f.read(struct.calcsize(fmt)))
@property
def interpreter(self) -> Optional[str]:
"""
The path recorded in the ``PT_INTERP`` section header.
"""
for index in range(self._e_phnum):
self._f.seek(self._e_phoff + self._e_phentsize * index)
try:
data = self._read(self._p_fmt)
except struct.error:
continue
if data[self._p_idx[0]] != 3: # Not PT_INTERP.
continue
self._f.seek(data[self._p_idx[1]])
return os.fsdecode(self._f.read(data[self._p_idx[2]])).strip("\0")
return None
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/packaging/_parser.py | """Handwritten parser of dependency specifiers.
The docstring for each __parse_* function contains ENBF-inspired grammar representing
the implementation.
"""
import ast
from typing import Any, List, NamedTuple, Optional, Tuple, Union
from ._tokenizer import DEFAULT_RULES, Tokenizer
class Node:
def __init__(self, value: str) -> None:
self.value = value
def __str__(self) -> str:
return self.value
def __repr__(self) -> str:
return f"<{self.__class__.__name__}('{self}')>"
def serialize(self) -> str:
raise NotImplementedError
class Variable(Node):
def serialize(self) -> str:
return str(self)
class Value(Node):
def serialize(self) -> str:
return f'"{self}"'
class Op(Node):
def serialize(self) -> str:
return str(self)
MarkerVar = Union[Variable, Value]
MarkerItem = Tuple[MarkerVar, Op, MarkerVar]
# MarkerAtom = Union[MarkerItem, List["MarkerAtom"]]
# MarkerList = List[Union["MarkerList", MarkerAtom, str]]
# mypy does not support recursive type definition
# https://github.com/python/mypy/issues/731
MarkerAtom = Any
MarkerList = List[Any]
class ParsedRequirement(NamedTuple):
name: str
url: str
extras: List[str]
specifier: str
marker: Optional[MarkerList]
# --------------------------------------------------------------------------------------
# Recursive descent parser for dependency specifier
# --------------------------------------------------------------------------------------
def parse_requirement(source: str) -> ParsedRequirement:
return _parse_requirement(Tokenizer(source, rules=DEFAULT_RULES))
def _parse_requirement(tokenizer: Tokenizer) -> ParsedRequirement:
"""
requirement = WS? IDENTIFIER WS? extras WS? requirement_details
"""
tokenizer.consume("WS")
name_token = tokenizer.expect(
"IDENTIFIER", expected="package name at the start of dependency specifier"
)
name = name_token.text
tokenizer.consume("WS")
extras = _parse_extras(tokenizer)
tokenizer.consume("WS")
url, specifier, marker = _parse_requirement_details(tokenizer)
tokenizer.expect("END", expected="end of dependency specifier")
return ParsedRequirement(name, url, extras, specifier, marker)
def _parse_requirement_details(
tokenizer: Tokenizer,
) -> Tuple[str, str, Optional[MarkerList]]:
"""
requirement_details = AT URL (WS requirement_marker?)?
| specifier WS? (requirement_marker)?
"""
specifier = ""
url = ""
marker = None
if tokenizer.check("AT"):
tokenizer.read()
tokenizer.consume("WS")
url_start = tokenizer.position
url = tokenizer.expect("URL", expected="URL after @").text
if tokenizer.check("END", peek=True):
return (url, specifier, marker)
tokenizer.expect("WS", expected="whitespace after URL")
# The input might end after whitespace.
if tokenizer.check("END", peek=True):
return (url, specifier, marker)
marker = _parse_requirement_marker(
tokenizer, span_start=url_start, after="URL and whitespace"
)
else:
specifier_start = tokenizer.position
specifier = _parse_specifier(tokenizer)
tokenizer.consume("WS")
if tokenizer.check("END", peek=True):
return (url, specifier, marker)
marker = _parse_requirement_marker(
tokenizer,
span_start=specifier_start,
after=(
"version specifier"
if specifier
else "name and no valid version specifier"
),
)
return (url, specifier, marker)
def _parse_requirement_marker(
tokenizer: Tokenizer, *, span_start: int, after: str
) -> MarkerList:
"""
requirement_marker = SEMICOLON marker WS?
"""
if not tokenizer.check("SEMICOLON"):
tokenizer.raise_syntax_error(
f"Expected end or semicolon (after {after})",
span_start=span_start,
)
tokenizer.read()
marker = _parse_marker(tokenizer)
tokenizer.consume("WS")
return marker
def _parse_extras(tokenizer: Tokenizer) -> List[str]:
"""
extras = (LEFT_BRACKET wsp* extras_list? wsp* RIGHT_BRACKET)?
"""
if not tokenizer.check("LEFT_BRACKET", peek=True):
return []
with tokenizer.enclosing_tokens(
"LEFT_BRACKET",
"RIGHT_BRACKET",
around="extras",
):
tokenizer.consume("WS")
extras = _parse_extras_list(tokenizer)
tokenizer.consume("WS")
return extras
def _parse_extras_list(tokenizer: Tokenizer) -> List[str]:
"""
extras_list = identifier (wsp* ',' wsp* identifier)*
"""
extras: List[str] = []
if not tokenizer.check("IDENTIFIER"):
return extras
extras.append(tokenizer.read().text)
while True:
tokenizer.consume("WS")
if tokenizer.check("IDENTIFIER", peek=True):
tokenizer.raise_syntax_error("Expected comma between extra names")
elif not tokenizer.check("COMMA"):
break
tokenizer.read()
tokenizer.consume("WS")
extra_token = tokenizer.expect("IDENTIFIER", expected="extra name after comma")
extras.append(extra_token.text)
return extras
def _parse_specifier(tokenizer: Tokenizer) -> str:
"""
specifier = LEFT_PARENTHESIS WS? version_many WS? RIGHT_PARENTHESIS
| WS? version_many WS?
"""
with tokenizer.enclosing_tokens(
"LEFT_PARENTHESIS",
"RIGHT_PARENTHESIS",
around="version specifier",
):
tokenizer.consume("WS")
parsed_specifiers = _parse_version_many(tokenizer)
tokenizer.consume("WS")
return parsed_specifiers
def _parse_version_many(tokenizer: Tokenizer) -> str:
"""
version_many = (SPECIFIER (WS? COMMA WS? SPECIFIER)*)?
"""
parsed_specifiers = ""
while tokenizer.check("SPECIFIER"):
span_start = tokenizer.position
parsed_specifiers += tokenizer.read().text
if tokenizer.check("VERSION_PREFIX_TRAIL", peek=True):
tokenizer.raise_syntax_error(
".* suffix can only be used with `==` or `!=` operators",
span_start=span_start,
span_end=tokenizer.position + 1,
)
if tokenizer.check("VERSION_LOCAL_LABEL_TRAIL", peek=True):
tokenizer.raise_syntax_error(
"Local version label can only be used with `==` or `!=` operators",
span_start=span_start,
span_end=tokenizer.position,
)
tokenizer.consume("WS")
if not tokenizer.check("COMMA"):
break
parsed_specifiers += tokenizer.read().text
tokenizer.consume("WS")
return parsed_specifiers
# --------------------------------------------------------------------------------------
# Recursive descent parser for marker expression
# --------------------------------------------------------------------------------------
def parse_marker(source: str) -> MarkerList:
return _parse_marker(Tokenizer(source, rules=DEFAULT_RULES))
def _parse_marker(tokenizer: Tokenizer) -> MarkerList:
"""
marker = marker_atom (BOOLOP marker_atom)+
"""
expression = [_parse_marker_atom(tokenizer)]
while tokenizer.check("BOOLOP"):
token = tokenizer.read()
expr_right = _parse_marker_atom(tokenizer)
expression.extend((token.text, expr_right))
return expression
def _parse_marker_atom(tokenizer: Tokenizer) -> MarkerAtom:
"""
marker_atom = WS? LEFT_PARENTHESIS WS? marker WS? RIGHT_PARENTHESIS WS?
| WS? marker_item WS?
"""
tokenizer.consume("WS")
if tokenizer.check("LEFT_PARENTHESIS", peek=True):
with tokenizer.enclosing_tokens(
"LEFT_PARENTHESIS",
"RIGHT_PARENTHESIS",
around="marker expression",
):
tokenizer.consume("WS")
marker: MarkerAtom = _parse_marker(tokenizer)
tokenizer.consume("WS")
else:
marker = _parse_marker_item(tokenizer)
tokenizer.consume("WS")
return marker
def _parse_marker_item(tokenizer: Tokenizer) -> MarkerItem:
"""
marker_item = WS? marker_var WS? marker_op WS? marker_var WS?
"""
tokenizer.consume("WS")
marker_var_left = _parse_marker_var(tokenizer)
tokenizer.consume("WS")
marker_op = _parse_marker_op(tokenizer)
tokenizer.consume("WS")
marker_var_right = _parse_marker_var(tokenizer)
tokenizer.consume("WS")
return (marker_var_left, marker_op, marker_var_right)
def _parse_marker_var(tokenizer: Tokenizer) -> MarkerVar:
"""
marker_var = VARIABLE | QUOTED_STRING
"""
if tokenizer.check("VARIABLE"):
return process_env_var(tokenizer.read().text.replace(".", "_"))
elif tokenizer.check("QUOTED_STRING"):
return process_python_str(tokenizer.read().text)
else:
tokenizer.raise_syntax_error(
message="Expected a marker variable or quoted string"
)
def process_env_var(env_var: str) -> Variable:
if (
env_var == "platform_python_implementation"
or env_var == "python_implementation"
):
return Variable("platform_python_implementation")
else:
return Variable(env_var)
def process_python_str(python_str: str) -> Value:
value = ast.literal_eval(python_str)
return Value(str(value))
def _parse_marker_op(tokenizer: Tokenizer) -> Op:
"""
marker_op = IN | NOT IN | OP
"""
if tokenizer.check("IN"):
tokenizer.read()
return Op("in")
elif tokenizer.check("NOT"):
tokenizer.read()
tokenizer.expect("WS", expected="whitespace after 'not'")
tokenizer.expect("IN", expected="'in' after 'not'")
return Op("not in")
elif tokenizer.check("OP"):
return Op(tokenizer.read().text)
else:
return tokenizer.raise_syntax_error(
"Expected marker operator, one of "
"<=, <, !=, ==, >=, >, ~=, ===, in, not in"
)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/importlib_resources/abc.py | import abc
import io
import itertools
import pathlib
from typing import Any, BinaryIO, Iterable, Iterator, NoReturn, Text, Optional
from ._compat import runtime_checkable, Protocol, StrPath
__all__ = ["ResourceReader", "Traversable", "TraversableResources"]
class ResourceReader(metaclass=abc.ABCMeta):
"""Abstract base class for loaders to provide resource reading support."""
@abc.abstractmethod
def open_resource(self, resource: Text) -> BinaryIO:
"""Return an opened, file-like object for binary reading.
The 'resource' argument is expected to represent only a file name.
If the resource cannot be found, FileNotFoundError is raised.
"""
# This deliberately raises FileNotFoundError instead of
# NotImplementedError so that if this method is accidentally called,
# it'll still do the right thing.
raise FileNotFoundError
@abc.abstractmethod
def resource_path(self, resource: Text) -> Text:
"""Return the file system path to the specified resource.
The 'resource' argument is expected to represent only a file name.
If the resource does not exist on the file system, raise
FileNotFoundError.
"""
# This deliberately raises FileNotFoundError instead of
# NotImplementedError so that if this method is accidentally called,
# it'll still do the right thing.
raise FileNotFoundError
@abc.abstractmethod
def is_resource(self, path: Text) -> bool:
"""Return True if the named 'path' is a resource.
Files are resources, directories are not.
"""
raise FileNotFoundError
@abc.abstractmethod
def contents(self) -> Iterable[str]:
"""Return an iterable of entries in `package`."""
raise FileNotFoundError
class TraversalError(Exception):
pass
@runtime_checkable
class Traversable(Protocol):
"""
An object with a subset of pathlib.Path methods suitable for
traversing directories and opening files.
Any exceptions that occur when accessing the backing resource
may propagate unaltered.
"""
@abc.abstractmethod
def iterdir(self) -> Iterator["Traversable"]:
"""
Yield Traversable objects in self
"""
def read_bytes(self) -> bytes:
"""
Read contents of self as bytes
"""
with self.open('rb') as strm:
return strm.read()
def read_text(self, encoding: Optional[str] = None) -> str:
"""
Read contents of self as text
"""
with self.open(encoding=encoding) as strm:
return strm.read()
@abc.abstractmethod
def is_dir(self) -> bool:
"""
Return True if self is a directory
"""
@abc.abstractmethod
def is_file(self) -> bool:
"""
Return True if self is a file
"""
def joinpath(self, *descendants: StrPath) -> "Traversable":
"""
Return Traversable resolved with any descendants applied.
Each descendant should be a path segment relative to self
and each may contain multiple levels separated by
``posixpath.sep`` (``/``).
"""
if not descendants:
return self
names = itertools.chain.from_iterable(
path.parts for path in map(pathlib.PurePosixPath, descendants)
)
target = next(names)
matches = (
traversable for traversable in self.iterdir() if traversable.name == target
)
try:
match = next(matches)
except StopIteration:
raise TraversalError(
"Target not found during traversal.", target, list(names)
)
return match.joinpath(*names)
def __truediv__(self, child: StrPath) -> "Traversable":
"""
Return Traversable child in self
"""
return self.joinpath(child)
@abc.abstractmethod
def open(self, mode='r', *args, **kwargs):
"""
mode may be 'r' or 'rb' to open as text or binary. Return a handle
suitable for reading (same as pathlib.Path.open).
When opening as text, accepts encoding parameters such as those
accepted by io.TextIOWrapper.
"""
@property
@abc.abstractmethod
def name(self) -> str:
"""
The base name of this object without any parent references.
"""
class TraversableResources(ResourceReader):
"""
The required interface for providing traversable
resources.
"""
@abc.abstractmethod
def files(self) -> "Traversable":
"""Return a Traversable object for the loaded package."""
def open_resource(self, resource: StrPath) -> io.BufferedReader:
return self.files().joinpath(resource).open('rb')
def resource_path(self, resource: Any) -> NoReturn:
raise FileNotFoundError(resource)
def is_resource(self, path: StrPath) -> bool:
return self.files().joinpath(path).is_file()
def contents(self) -> Iterator[str]:
return (item.name for item in self.files().iterdir())
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/importlib_resources/_itertools.py | from itertools import filterfalse
from typing import (
Callable,
Iterable,
Iterator,
Optional,
Set,
TypeVar,
Union,
)
# Type and type variable definitions
_T = TypeVar('_T')
_U = TypeVar('_U')
def unique_everseen(
iterable: Iterable[_T], key: Optional[Callable[[_T], _U]] = None
) -> Iterator[_T]:
"List unique elements, preserving order. Remember all elements ever seen."
# unique_everseen('AAAABBBCCDAABBB') --> A B C D
# unique_everseen('ABBCcAD', str.lower) --> A B C D
seen: Set[Union[_T, _U]] = set()
seen_add = seen.add
if key is None:
for element in filterfalse(seen.__contains__, iterable):
seen_add(element)
yield element
else:
for element in iterable:
k = key(element)
if k not in seen:
seen_add(k)
yield element
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/importlib_resources/_compat.py | # flake8: noqa
import abc
import os
import sys
import pathlib
from contextlib import suppress
from typing import Union
if sys.version_info >= (3, 10):
from zipfile import Path as ZipPath # type: ignore
else:
from ..zipp import Path as ZipPath # type: ignore
try:
from typing import runtime_checkable # type: ignore
except ImportError:
def runtime_checkable(cls): # type: ignore
return cls
try:
from typing import Protocol # type: ignore
except ImportError:
Protocol = abc.ABC # type: ignore
class TraversableResourcesLoader:
"""
Adapt loaders to provide TraversableResources and other
compatibility.
Used primarily for Python 3.9 and earlier where the native
loaders do not yet implement TraversableResources.
"""
def __init__(self, spec):
self.spec = spec
@property
def path(self):
return self.spec.origin
def get_resource_reader(self, name):
from . import readers, _adapters
def _zip_reader(spec):
with suppress(AttributeError):
return readers.ZipReader(spec.loader, spec.name)
def _namespace_reader(spec):
with suppress(AttributeError, ValueError):
return readers.NamespaceReader(spec.submodule_search_locations)
def _available_reader(spec):
with suppress(AttributeError):
return spec.loader.get_resource_reader(spec.name)
def _native_reader(spec):
reader = _available_reader(spec)
return reader if hasattr(reader, 'files') else None
def _file_reader(spec):
try:
path = pathlib.Path(self.path)
except TypeError:
return None
if path.exists():
return readers.FileReader(self)
return (
# native reader if it supplies 'files'
_native_reader(self.spec)
or
# local ZipReader if a zip module
_zip_reader(self.spec)
or
# local NamespaceReader if a namespace module
_namespace_reader(self.spec)
or
# local FileReader
_file_reader(self.spec)
# fallback - adapt the spec ResourceReader to TraversableReader
or _adapters.CompatibilityFiles(self.spec)
)
def wrap_spec(package):
"""
Construct a package spec with traversable compatibility
on the spec/loader/reader.
Supersedes _adapters.wrap_spec to use TraversableResourcesLoader
from above for older Python compatibility (<3.10).
"""
from . import _adapters
return _adapters.SpecLoaderAdapter(package.__spec__, TraversableResourcesLoader)
if sys.version_info >= (3, 9):
StrPath = Union[str, os.PathLike[str]]
else:
# PathLike is only subscriptable at runtime in 3.9+
StrPath = Union[str, "os.PathLike[str]"]
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/importlib_resources/__init__.py | """Read resources contained within a package."""
from ._common import (
as_file,
files,
Package,
)
from ._legacy import (
contents,
open_binary,
read_binary,
open_text,
read_text,
is_resource,
path,
Resource,
)
from .abc import ResourceReader
__all__ = [
'Package',
'Resource',
'ResourceReader',
'as_file',
'contents',
'files',
'is_resource',
'open_binary',
'open_text',
'path',
'read_binary',
'read_text',
]
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/importlib_resources/_common.py | import os
import pathlib
import tempfile
import functools
import contextlib
import types
import importlib
import inspect
import warnings
import itertools
from typing import Union, Optional, cast
from .abc import ResourceReader, Traversable
from ._compat import wrap_spec
Package = Union[types.ModuleType, str]
Anchor = Package
def package_to_anchor(func):
"""
Replace 'package' parameter as 'anchor' and warn about the change.
Other errors should fall through.
>>> files('a', 'b')
Traceback (most recent call last):
TypeError: files() takes from 0 to 1 positional arguments but 2 were given
"""
undefined = object()
@functools.wraps(func)
def wrapper(anchor=undefined, package=undefined):
if package is not undefined:
if anchor is not undefined:
return func(anchor, package)
warnings.warn(
"First parameter to files is renamed to 'anchor'",
DeprecationWarning,
stacklevel=2,
)
return func(package)
elif anchor is undefined:
return func()
return func(anchor)
return wrapper
@package_to_anchor
def files(anchor: Optional[Anchor] = None) -> Traversable:
"""
Get a Traversable resource for an anchor.
"""
return from_package(resolve(anchor))
def get_resource_reader(package: types.ModuleType) -> Optional[ResourceReader]:
"""
Return the package's loader if it's a ResourceReader.
"""
# We can't use
# a issubclass() check here because apparently abc.'s __subclasscheck__()
# hook wants to create a weak reference to the object, but
# zipimport.zipimporter does not support weak references, resulting in a
# TypeError. That seems terrible.
spec = package.__spec__
reader = getattr(spec.loader, 'get_resource_reader', None) # type: ignore
if reader is None:
return None
return reader(spec.name) # type: ignore
@functools.singledispatch
def resolve(cand: Optional[Anchor]) -> types.ModuleType:
return cast(types.ModuleType, cand)
@resolve.register
def _(cand: str) -> types.ModuleType:
return importlib.import_module(cand)
@resolve.register
def _(cand: None) -> types.ModuleType:
return resolve(_infer_caller().f_globals['__name__'])
def _infer_caller():
"""
Walk the stack and find the frame of the first caller not in this module.
"""
def is_this_file(frame_info):
return frame_info.filename == __file__
def is_wrapper(frame_info):
return frame_info.function == 'wrapper'
not_this_file = itertools.filterfalse(is_this_file, inspect.stack())
# also exclude 'wrapper' due to singledispatch in the call stack
callers = itertools.filterfalse(is_wrapper, not_this_file)
return next(callers).frame
def from_package(package: types.ModuleType):
"""
Return a Traversable object for the given package.
"""
spec = wrap_spec(package)
reader = spec.loader.get_resource_reader(spec.name)
return reader.files()
@contextlib.contextmanager
def _tempfile(
reader,
suffix='',
# gh-93353: Keep a reference to call os.remove() in late Python
# finalization.
*,
_os_remove=os.remove,
):
# Not using tempfile.NamedTemporaryFile as it leads to deeper 'try'
# blocks due to the need to close the temporary file to work on Windows
# properly.
fd, raw_path = tempfile.mkstemp(suffix=suffix)
try:
try:
os.write(fd, reader())
finally:
os.close(fd)
del reader
yield pathlib.Path(raw_path)
finally:
try:
_os_remove(raw_path)
except FileNotFoundError:
pass
def _temp_file(path):
return _tempfile(path.read_bytes, suffix=path.name)
def _is_present_dir(path: Traversable) -> bool:
"""
Some Traversables implement ``is_dir()`` to raise an
exception (i.e. ``FileNotFoundError``) when the
directory doesn't exist. This function wraps that call
to always return a boolean and only return True
if there's a dir and it exists.
"""
with contextlib.suppress(FileNotFoundError):
return path.is_dir()
return False
@functools.singledispatch
def as_file(path):
"""
Given a Traversable object, return that object as a
path on the local file system in a context manager.
"""
return _temp_dir(path) if _is_present_dir(path) else _temp_file(path)
@as_file.register(pathlib.Path)
@contextlib.contextmanager
def _(path):
"""
Degenerate behavior for pathlib.Path objects.
"""
yield path
@contextlib.contextmanager
def _temp_path(dir: tempfile.TemporaryDirectory):
"""
Wrap tempfile.TemporyDirectory to return a pathlib object.
"""
with dir as result:
yield pathlib.Path(result)
@contextlib.contextmanager
def _temp_dir(path):
"""
Given a traversable dir, recursively replicate the whole tree
to the file system in a context manager.
"""
assert path.is_dir()
with _temp_path(tempfile.TemporaryDirectory()) as temp_dir:
yield _write_contents(temp_dir, path)
def _write_contents(target, source):
child = target.joinpath(source.name)
if source.is_dir():
child.mkdir()
for item in source.iterdir():
_write_contents(child, item)
else:
child.write_bytes(source.read_bytes())
return child
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/importlib_resources/_legacy.py | import functools
import os
import pathlib
import types
import warnings
from typing import Union, Iterable, ContextManager, BinaryIO, TextIO, Any
from . import _common
Package = Union[types.ModuleType, str]
Resource = str
def deprecated(func):
@functools.wraps(func)
def wrapper(*args, **kwargs):
warnings.warn(
f"{func.__name__} is deprecated. Use files() instead. "
"Refer to https://importlib-resources.readthedocs.io"
"/en/latest/using.html#migrating-from-legacy for migration advice.",
DeprecationWarning,
stacklevel=2,
)
return func(*args, **kwargs)
return wrapper
def normalize_path(path: Any) -> str:
"""Normalize a path by ensuring it is a string.
If the resulting string contains path separators, an exception is raised.
"""
str_path = str(path)
parent, file_name = os.path.split(str_path)
if parent:
raise ValueError(f'{path!r} must be only a file name')
return file_name
@deprecated
def open_binary(package: Package, resource: Resource) -> BinaryIO:
"""Return a file-like object opened for binary reading of the resource."""
return (_common.files(package) / normalize_path(resource)).open('rb')
@deprecated
def read_binary(package: Package, resource: Resource) -> bytes:
"""Return the binary contents of the resource."""
return (_common.files(package) / normalize_path(resource)).read_bytes()
@deprecated
def open_text(
package: Package,
resource: Resource,
encoding: str = 'utf-8',
errors: str = 'strict',
) -> TextIO:
"""Return a file-like object opened for text reading of the resource."""
return (_common.files(package) / normalize_path(resource)).open(
'r', encoding=encoding, errors=errors
)
@deprecated
def read_text(
package: Package,
resource: Resource,
encoding: str = 'utf-8',
errors: str = 'strict',
) -> str:
"""Return the decoded string of the resource.
The decoding-related arguments have the same semantics as those of
bytes.decode().
"""
with open_text(package, resource, encoding, errors) as fp:
return fp.read()
@deprecated
def contents(package: Package) -> Iterable[str]:
"""Return an iterable of entries in `package`.
Note that not all entries are resources. Specifically, directories are
not considered resources. Use `is_resource()` on each entry returned here
to check if it is a resource or not.
"""
return [path.name for path in _common.files(package).iterdir()]
@deprecated
def is_resource(package: Package, name: str) -> bool:
"""True if `name` is a resource inside `package`.
Directories are *not* resources.
"""
resource = normalize_path(name)
return any(
traversable.name == resource and traversable.is_file()
for traversable in _common.files(package).iterdir()
)
@deprecated
def path(
package: Package,
resource: Resource,
) -> ContextManager[pathlib.Path]:
"""A context manager providing a file path object to the resource.
If the resource does not already exist on its own on the file system,
a temporary file will be created. If the file was created, the file
will be deleted upon exiting the context manager (no exception is
raised if the file was deleted prior to the context manager
exiting).
"""
return _common.as_file(_common.files(package) / normalize_path(resource))
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/importlib_resources/_adapters.py | from contextlib import suppress
from io import TextIOWrapper
from . import abc
class SpecLoaderAdapter:
"""
Adapt a package spec to adapt the underlying loader.
"""
def __init__(self, spec, adapter=lambda spec: spec.loader):
self.spec = spec
self.loader = adapter(spec)
def __getattr__(self, name):
return getattr(self.spec, name)
class TraversableResourcesLoader:
"""
Adapt a loader to provide TraversableResources.
"""
def __init__(self, spec):
self.spec = spec
def get_resource_reader(self, name):
return CompatibilityFiles(self.spec)._native()
def _io_wrapper(file, mode='r', *args, **kwargs):
if mode == 'r':
return TextIOWrapper(file, *args, **kwargs)
elif mode == 'rb':
return file
raise ValueError(
"Invalid mode value '{}', only 'r' and 'rb' are supported".format(mode)
)
class CompatibilityFiles:
"""
Adapter for an existing or non-existent resource reader
to provide a compatibility .files().
"""
class SpecPath(abc.Traversable):
"""
Path tied to a module spec.
Can be read and exposes the resource reader children.
"""
def __init__(self, spec, reader):
self._spec = spec
self._reader = reader
def iterdir(self):
if not self._reader:
return iter(())
return iter(
CompatibilityFiles.ChildPath(self._reader, path)
for path in self._reader.contents()
)
def is_file(self):
return False
is_dir = is_file
def joinpath(self, other):
if not self._reader:
return CompatibilityFiles.OrphanPath(other)
return CompatibilityFiles.ChildPath(self._reader, other)
@property
def name(self):
return self._spec.name
def open(self, mode='r', *args, **kwargs):
return _io_wrapper(self._reader.open_resource(None), mode, *args, **kwargs)
class ChildPath(abc.Traversable):
"""
Path tied to a resource reader child.
Can be read but doesn't expose any meaningful children.
"""
def __init__(self, reader, name):
self._reader = reader
self._name = name
def iterdir(self):
return iter(())
def is_file(self):
return self._reader.is_resource(self.name)
def is_dir(self):
return not self.is_file()
def joinpath(self, other):
return CompatibilityFiles.OrphanPath(self.name, other)
@property
def name(self):
return self._name
def open(self, mode='r', *args, **kwargs):
return _io_wrapper(
self._reader.open_resource(self.name), mode, *args, **kwargs
)
class OrphanPath(abc.Traversable):
"""
Orphan path, not tied to a module spec or resource reader.
Can't be read and doesn't expose any meaningful children.
"""
def __init__(self, *path_parts):
if len(path_parts) < 1:
raise ValueError('Need at least one path part to construct a path')
self._path = path_parts
def iterdir(self):
return iter(())
def is_file(self):
return False
is_dir = is_file
def joinpath(self, other):
return CompatibilityFiles.OrphanPath(*self._path, other)
@property
def name(self):
return self._path[-1]
def open(self, mode='r', *args, **kwargs):
raise FileNotFoundError("Can't open orphan path")
def __init__(self, spec):
self.spec = spec
@property
def _reader(self):
with suppress(AttributeError):
return self.spec.loader.get_resource_reader(self.spec.name)
def _native(self):
"""
Return the native reader if it supports files().
"""
reader = self._reader
return reader if hasattr(reader, 'files') else self
def __getattr__(self, attr):
return getattr(self._reader, attr)
def files(self):
return CompatibilityFiles.SpecPath(self.spec, self._reader)
def wrap_spec(package):
"""
Construct a package spec with traversable compatibility
on the spec/loader/reader.
"""
return SpecLoaderAdapter(package.__spec__, TraversableResourcesLoader)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/importlib_resources/simple.py | """
Interface adapters for low-level readers.
"""
import abc
import io
import itertools
from typing import BinaryIO, List
from .abc import Traversable, TraversableResources
class SimpleReader(abc.ABC):
"""
The minimum, low-level interface required from a resource
provider.
"""
@property
@abc.abstractmethod
def package(self) -> str:
"""
The name of the package for which this reader loads resources.
"""
@abc.abstractmethod
def children(self) -> List['SimpleReader']:
"""
Obtain an iterable of SimpleReader for available
child containers (e.g. directories).
"""
@abc.abstractmethod
def resources(self) -> List[str]:
"""
Obtain available named resources for this virtual package.
"""
@abc.abstractmethod
def open_binary(self, resource: str) -> BinaryIO:
"""
Obtain a File-like for a named resource.
"""
@property
def name(self):
return self.package.split('.')[-1]
class ResourceContainer(Traversable):
"""
Traversable container for a package's resources via its reader.
"""
def __init__(self, reader: SimpleReader):
self.reader = reader
def is_dir(self):
return True
def is_file(self):
return False
def iterdir(self):
files = (ResourceHandle(self, name) for name in self.reader.resources)
dirs = map(ResourceContainer, self.reader.children())
return itertools.chain(files, dirs)
def open(self, *args, **kwargs):
raise IsADirectoryError()
class ResourceHandle(Traversable):
"""
Handle to a named resource in a ResourceReader.
"""
def __init__(self, parent: ResourceContainer, name: str):
self.parent = parent
self.name = name # type: ignore
def is_file(self):
return True
def is_dir(self):
return False
def open(self, mode='r', *args, **kwargs):
stream = self.parent.reader.open_binary(self.name)
if 'b' not in mode:
stream = io.TextIOWrapper(*args, **kwargs)
return stream
def joinpath(self, name):
raise RuntimeError("Cannot traverse into a resource")
class TraversableReader(TraversableResources, SimpleReader):
"""
A TraversableResources based on SimpleReader. Resource providers
may derive from this class to provide the TraversableResources
interface by supplying the SimpleReader interface.
"""
def files(self):
return ResourceContainer(self)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/importlib_resources/readers.py | import collections
import pathlib
import operator
from . import abc
from ._itertools import unique_everseen
from ._compat import ZipPath
def remove_duplicates(items):
return iter(collections.OrderedDict.fromkeys(items))
class FileReader(abc.TraversableResources):
def __init__(self, loader):
self.path = pathlib.Path(loader.path).parent
def resource_path(self, resource):
"""
Return the file system path to prevent
`resources.path()` from creating a temporary
copy.
"""
return str(self.path.joinpath(resource))
def files(self):
return self.path
class ZipReader(abc.TraversableResources):
def __init__(self, loader, module):
_, _, name = module.rpartition('.')
self.prefix = loader.prefix.replace('\\', '/') + name + '/'
self.archive = loader.archive
def open_resource(self, resource):
try:
return super().open_resource(resource)
except KeyError as exc:
raise FileNotFoundError(exc.args[0])
def is_resource(self, path):
# workaround for `zipfile.Path.is_file` returning true
# for non-existent paths.
target = self.files().joinpath(path)
return target.is_file() and target.exists()
def files(self):
return ZipPath(self.archive, self.prefix)
class MultiplexedPath(abc.Traversable):
"""
Given a series of Traversable objects, implement a merged
version of the interface across all objects. Useful for
namespace packages which may be multihomed at a single
name.
"""
def __init__(self, *paths):
self._paths = list(map(pathlib.Path, remove_duplicates(paths)))
if not self._paths:
message = 'MultiplexedPath must contain at least one path'
raise FileNotFoundError(message)
if not all(path.is_dir() for path in self._paths):
raise NotADirectoryError('MultiplexedPath only supports directories')
def iterdir(self):
files = (file for path in self._paths for file in path.iterdir())
return unique_everseen(files, key=operator.attrgetter('name'))
def read_bytes(self):
raise FileNotFoundError(f'{self} is not a file')
def read_text(self, *args, **kwargs):
raise FileNotFoundError(f'{self} is not a file')
def is_dir(self):
return True
def is_file(self):
return False
def joinpath(self, *descendants):
try:
return super().joinpath(*descendants)
except abc.TraversalError:
# One of the paths did not resolve (a directory does not exist).
# Just return something that will not exist.
return self._paths[0].joinpath(*descendants)
def open(self, *args, **kwargs):
raise FileNotFoundError(f'{self} is not a file')
@property
def name(self):
return self._paths[0].name
def __repr__(self):
paths = ', '.join(f"'{path}'" for path in self._paths)
return f'MultiplexedPath({paths})'
class NamespaceReader(abc.TraversableResources):
def __init__(self, namespace_path):
if 'NamespacePath' not in str(namespace_path):
raise ValueError('Invalid path')
self.path = MultiplexedPath(*list(namespace_path))
def resource_path(self, resource):
"""
Return the file system path to prevent
`resources.path()` from creating a temporary
copy.
"""
return str(self.path.joinpath(resource))
def files(self):
return self.path
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/jaraco/__init__.py | |
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/jaraco/functools.py | import functools
import time
import inspect
import collections
import types
import itertools
import warnings
import pkg_resources.extern.more_itertools
from typing import Callable, TypeVar
CallableT = TypeVar("CallableT", bound=Callable[..., object])
def compose(*funcs):
"""
Compose any number of unary functions into a single unary function.
>>> import textwrap
>>> expected = str.strip(textwrap.dedent(compose.__doc__))
>>> strip_and_dedent = compose(str.strip, textwrap.dedent)
>>> strip_and_dedent(compose.__doc__) == expected
True
Compose also allows the innermost function to take arbitrary arguments.
>>> round_three = lambda x: round(x, ndigits=3)
>>> f = compose(round_three, int.__truediv__)
>>> [f(3*x, x+1) for x in range(1,10)]
[1.5, 2.0, 2.25, 2.4, 2.5, 2.571, 2.625, 2.667, 2.7]
"""
def compose_two(f1, f2):
return lambda *args, **kwargs: f1(f2(*args, **kwargs))
return functools.reduce(compose_two, funcs)
def method_caller(method_name, *args, **kwargs):
"""
Return a function that will call a named method on the
target object with optional positional and keyword
arguments.
>>> lower = method_caller('lower')
>>> lower('MyString')
'mystring'
"""
def call_method(target):
func = getattr(target, method_name)
return func(*args, **kwargs)
return call_method
def once(func):
"""
Decorate func so it's only ever called the first time.
This decorator can ensure that an expensive or non-idempotent function
will not be expensive on subsequent calls and is idempotent.
>>> add_three = once(lambda a: a+3)
>>> add_three(3)
6
>>> add_three(9)
6
>>> add_three('12')
6
To reset the stored value, simply clear the property ``saved_result``.
>>> del add_three.saved_result
>>> add_three(9)
12
>>> add_three(8)
12
Or invoke 'reset()' on it.
>>> add_three.reset()
>>> add_three(-3)
0
>>> add_three(0)
0
"""
@functools.wraps(func)
def wrapper(*args, **kwargs):
if not hasattr(wrapper, 'saved_result'):
wrapper.saved_result = func(*args, **kwargs)
return wrapper.saved_result
wrapper.reset = lambda: vars(wrapper).__delitem__('saved_result')
return wrapper
def method_cache(
method: CallableT,
cache_wrapper: Callable[
[CallableT], CallableT
] = functools.lru_cache(), # type: ignore[assignment]
) -> CallableT:
"""
Wrap lru_cache to support storing the cache data in the object instances.
Abstracts the common paradigm where the method explicitly saves an
underscore-prefixed protected property on first call and returns that
subsequently.
>>> class MyClass:
... calls = 0
...
... @method_cache
... def method(self, value):
... self.calls += 1
... return value
>>> a = MyClass()
>>> a.method(3)
3
>>> for x in range(75):
... res = a.method(x)
>>> a.calls
75
Note that the apparent behavior will be exactly like that of lru_cache
except that the cache is stored on each instance, so values in one
instance will not flush values from another, and when an instance is
deleted, so are the cached values for that instance.
>>> b = MyClass()
>>> for x in range(35):
... res = b.method(x)
>>> b.calls
35
>>> a.method(0)
0
>>> a.calls
75
Note that if method had been decorated with ``functools.lru_cache()``,
a.calls would have been 76 (due to the cached value of 0 having been
flushed by the 'b' instance).
Clear the cache with ``.cache_clear()``
>>> a.method.cache_clear()
Same for a method that hasn't yet been called.
>>> c = MyClass()
>>> c.method.cache_clear()
Another cache wrapper may be supplied:
>>> cache = functools.lru_cache(maxsize=2)
>>> MyClass.method2 = method_cache(lambda self: 3, cache_wrapper=cache)
>>> a = MyClass()
>>> a.method2()
3
Caution - do not subsequently wrap the method with another decorator, such
as ``@property``, which changes the semantics of the function.
See also
http://code.activestate.com/recipes/577452-a-memoize-decorator-for-instance-methods/
for another implementation and additional justification.
"""
def wrapper(self: object, *args: object, **kwargs: object) -> object:
# it's the first call, replace the method with a cached, bound method
bound_method: CallableT = types.MethodType( # type: ignore[assignment]
method, self
)
cached_method = cache_wrapper(bound_method)
setattr(self, method.__name__, cached_method)
return cached_method(*args, **kwargs)
# Support cache clear even before cache has been created.
wrapper.cache_clear = lambda: None # type: ignore[attr-defined]
return ( # type: ignore[return-value]
_special_method_cache(method, cache_wrapper) or wrapper
)
def _special_method_cache(method, cache_wrapper):
"""
Because Python treats special methods differently, it's not
possible to use instance attributes to implement the cached
methods.
Instead, install the wrapper method under a different name
and return a simple proxy to that wrapper.
https://github.com/jaraco/jaraco.functools/issues/5
"""
name = method.__name__
special_names = '__getattr__', '__getitem__'
if name not in special_names:
return
wrapper_name = '__cached' + name
def proxy(self, *args, **kwargs):
if wrapper_name not in vars(self):
bound = types.MethodType(method, self)
cache = cache_wrapper(bound)
setattr(self, wrapper_name, cache)
else:
cache = getattr(self, wrapper_name)
return cache(*args, **kwargs)
return proxy
def apply(transform):
"""
Decorate a function with a transform function that is
invoked on results returned from the decorated function.
>>> @apply(reversed)
... def get_numbers(start):
... "doc for get_numbers"
... return range(start, start+3)
>>> list(get_numbers(4))
[6, 5, 4]
>>> get_numbers.__doc__
'doc for get_numbers'
"""
def wrap(func):
return functools.wraps(func)(compose(transform, func))
return wrap
def result_invoke(action):
r"""
Decorate a function with an action function that is
invoked on the results returned from the decorated
function (for its side-effect), then return the original
result.
>>> @result_invoke(print)
... def add_two(a, b):
... return a + b
>>> x = add_two(2, 3)
5
>>> x
5
"""
def wrap(func):
@functools.wraps(func)
def wrapper(*args, **kwargs):
result = func(*args, **kwargs)
action(result)
return result
return wrapper
return wrap
def invoke(f, *args, **kwargs):
"""
Call a function for its side effect after initialization.
The benefit of using the decorator instead of simply invoking a function
after defining it is that it makes explicit the author's intent for the
function to be called immediately. Whereas if one simply calls the
function immediately, it's less obvious if that was intentional or
incidental. It also avoids repeating the name - the two actions, defining
the function and calling it immediately are modeled separately, but linked
by the decorator construct.
The benefit of having a function construct (opposed to just invoking some
behavior inline) is to serve as a scope in which the behavior occurs. It
avoids polluting the global namespace with local variables, provides an
anchor on which to attach documentation (docstring), keeps the behavior
logically separated (instead of conceptually separated or not separated at
all), and provides potential to re-use the behavior for testing or other
purposes.
This function is named as a pithy way to communicate, "call this function
primarily for its side effect", or "while defining this function, also
take it aside and call it". It exists because there's no Python construct
for "define and call" (nor should there be, as decorators serve this need
just fine). The behavior happens immediately and synchronously.
>>> @invoke
... def func(): print("called")
called
>>> func()
called
Use functools.partial to pass parameters to the initial call
>>> @functools.partial(invoke, name='bingo')
... def func(name): print("called with", name)
called with bingo
"""
f(*args, **kwargs)
return f
def call_aside(*args, **kwargs):
"""
Deprecated name for invoke.
"""
warnings.warn("call_aside is deprecated, use invoke", DeprecationWarning)
return invoke(*args, **kwargs)
class Throttler:
"""
Rate-limit a function (or other callable)
"""
def __init__(self, func, max_rate=float('Inf')):
if isinstance(func, Throttler):
func = func.func
self.func = func
self.max_rate = max_rate
self.reset()
def reset(self):
self.last_called = 0
def __call__(self, *args, **kwargs):
self._wait()
return self.func(*args, **kwargs)
def _wait(self):
"ensure at least 1/max_rate seconds from last call"
elapsed = time.time() - self.last_called
must_wait = 1 / self.max_rate - elapsed
time.sleep(max(0, must_wait))
self.last_called = time.time()
def __get__(self, obj, type=None):
return first_invoke(self._wait, functools.partial(self.func, obj))
def first_invoke(func1, func2):
"""
Return a function that when invoked will invoke func1 without
any parameters (for its side-effect) and then invoke func2
with whatever parameters were passed, returning its result.
"""
def wrapper(*args, **kwargs):
func1()
return func2(*args, **kwargs)
return wrapper
def retry_call(func, cleanup=lambda: None, retries=0, trap=()):
"""
Given a callable func, trap the indicated exceptions
for up to 'retries' times, invoking cleanup on the
exception. On the final attempt, allow any exceptions
to propagate.
"""
attempts = itertools.count() if retries == float('inf') else range(retries)
for attempt in attempts:
try:
return func()
except trap:
cleanup()
return func()
def retry(*r_args, **r_kwargs):
"""
Decorator wrapper for retry_call. Accepts arguments to retry_call
except func and then returns a decorator for the decorated function.
Ex:
>>> @retry(retries=3)
... def my_func(a, b):
... "this is my funk"
... print(a, b)
>>> my_func.__doc__
'this is my funk'
"""
def decorate(func):
@functools.wraps(func)
def wrapper(*f_args, **f_kwargs):
bound = functools.partial(func, *f_args, **f_kwargs)
return retry_call(bound, *r_args, **r_kwargs)
return wrapper
return decorate
def print_yielded(func):
"""
Convert a generator into a function that prints all yielded elements
>>> @print_yielded
... def x():
... yield 3; yield None
>>> x()
3
None
"""
print_all = functools.partial(map, print)
print_results = compose(more_itertools.consume, print_all, func)
return functools.wraps(func)(print_results)
def pass_none(func):
"""
Wrap func so it's not called if its first param is None
>>> print_text = pass_none(print)
>>> print_text('text')
text
>>> print_text(None)
"""
@functools.wraps(func)
def wrapper(param, *args, **kwargs):
if param is not None:
return func(param, *args, **kwargs)
return wrapper
def assign_params(func, namespace):
"""
Assign parameters from namespace where func solicits.
>>> def func(x, y=3):
... print(x, y)
>>> assigned = assign_params(func, dict(x=2, z=4))
>>> assigned()
2 3
The usual errors are raised if a function doesn't receive
its required parameters:
>>> assigned = assign_params(func, dict(y=3, z=4))
>>> assigned()
Traceback (most recent call last):
TypeError: func() ...argument...
It even works on methods:
>>> class Handler:
... def meth(self, arg):
... print(arg)
>>> assign_params(Handler().meth, dict(arg='crystal', foo='clear'))()
crystal
"""
sig = inspect.signature(func)
params = sig.parameters.keys()
call_ns = {k: namespace[k] for k in params if k in namespace}
return functools.partial(func, **call_ns)
def save_method_args(method):
"""
Wrap a method such that when it is called, the args and kwargs are
saved on the method.
>>> class MyClass:
... @save_method_args
... def method(self, a, b):
... print(a, b)
>>> my_ob = MyClass()
>>> my_ob.method(1, 2)
1 2
>>> my_ob._saved_method.args
(1, 2)
>>> my_ob._saved_method.kwargs
{}
>>> my_ob.method(a=3, b='foo')
3 foo
>>> my_ob._saved_method.args
()
>>> my_ob._saved_method.kwargs == dict(a=3, b='foo')
True
The arguments are stored on the instance, allowing for
different instance to save different args.
>>> your_ob = MyClass()
>>> your_ob.method({str('x'): 3}, b=[4])
{'x': 3} [4]
>>> your_ob._saved_method.args
({'x': 3},)
>>> my_ob._saved_method.args
()
"""
args_and_kwargs = collections.namedtuple('args_and_kwargs', 'args kwargs')
@functools.wraps(method)
def wrapper(self, *args, **kwargs):
attr_name = '_saved_' + method.__name__
attr = args_and_kwargs(args, kwargs)
setattr(self, attr_name, attr)
return method(self, *args, **kwargs)
return wrapper
def except_(*exceptions, replace=None, use=None):
"""
Replace the indicated exceptions, if raised, with the indicated
literal replacement or evaluated expression (if present).
>>> safe_int = except_(ValueError)(int)
>>> safe_int('five')
>>> safe_int('5')
5
Specify a literal replacement with ``replace``.
>>> safe_int_r = except_(ValueError, replace=0)(int)
>>> safe_int_r('five')
0
Provide an expression to ``use`` to pass through particular parameters.
>>> safe_int_pt = except_(ValueError, use='args[0]')(int)
>>> safe_int_pt('five')
'five'
"""
def decorate(func):
@functools.wraps(func)
def wrapper(*args, **kwargs):
try:
return func(*args, **kwargs)
except exceptions:
try:
return eval(use)
except TypeError:
return replace
return wrapper
return decorate
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/jaraco/context.py | import os
import subprocess
import contextlib
import functools
import tempfile
import shutil
import operator
import warnings
@contextlib.contextmanager
def pushd(dir):
"""
>>> tmp_path = getfixture('tmp_path')
>>> with pushd(tmp_path):
... assert os.getcwd() == os.fspath(tmp_path)
>>> assert os.getcwd() != os.fspath(tmp_path)
"""
orig = os.getcwd()
os.chdir(dir)
try:
yield dir
finally:
os.chdir(orig)
@contextlib.contextmanager
def tarball_context(url, target_dir=None, runner=None, pushd=pushd):
"""
Get a tarball, extract it, change to that directory, yield, then
clean up.
`runner` is the function to invoke commands.
`pushd` is a context manager for changing the directory.
"""
if target_dir is None:
target_dir = os.path.basename(url).replace('.tar.gz', '').replace('.tgz', '')
if runner is None:
runner = functools.partial(subprocess.check_call, shell=True)
else:
warnings.warn("runner parameter is deprecated", DeprecationWarning)
# In the tar command, use --strip-components=1 to strip the first path and
# then
# use -C to cause the files to be extracted to {target_dir}. This ensures
# that we always know where the files were extracted.
runner('mkdir {target_dir}'.format(**vars()))
try:
getter = 'wget {url} -O -'
extract = 'tar x{compression} --strip-components=1 -C {target_dir}'
cmd = ' | '.join((getter, extract))
runner(cmd.format(compression=infer_compression(url), **vars()))
with pushd(target_dir):
yield target_dir
finally:
runner('rm -Rf {target_dir}'.format(**vars()))
def infer_compression(url):
"""
Given a URL or filename, infer the compression code for tar.
>>> infer_compression('http://foo/bar.tar.gz')
'z'
>>> infer_compression('http://foo/bar.tgz')
'z'
>>> infer_compression('file.bz')
'j'
>>> infer_compression('file.xz')
'J'
"""
# cheat and just assume it's the last two characters
compression_indicator = url[-2:]
mapping = dict(gz='z', bz='j', xz='J')
# Assume 'z' (gzip) if no match
return mapping.get(compression_indicator, 'z')
@contextlib.contextmanager
def temp_dir(remover=shutil.rmtree):
"""
Create a temporary directory context. Pass a custom remover
to override the removal behavior.
>>> import pathlib
>>> with temp_dir() as the_dir:
... assert os.path.isdir(the_dir)
... _ = pathlib.Path(the_dir).joinpath('somefile').write_text('contents')
>>> assert not os.path.exists(the_dir)
"""
temp_dir = tempfile.mkdtemp()
try:
yield temp_dir
finally:
remover(temp_dir)
@contextlib.contextmanager
def repo_context(url, branch=None, quiet=True, dest_ctx=temp_dir):
"""
Check out the repo indicated by url.
If dest_ctx is supplied, it should be a context manager
to yield the target directory for the check out.
"""
exe = 'git' if 'git' in url else 'hg'
with dest_ctx() as repo_dir:
cmd = [exe, 'clone', url, repo_dir]
if branch:
cmd.extend(['--branch', branch])
devnull = open(os.path.devnull, 'w')
stdout = devnull if quiet else None
subprocess.check_call(cmd, stdout=stdout)
yield repo_dir
@contextlib.contextmanager
def null():
"""
A null context suitable to stand in for a meaningful context.
>>> with null() as value:
... assert value is None
"""
yield
class ExceptionTrap:
"""
A context manager that will catch certain exceptions and provide an
indication they occurred.
>>> with ExceptionTrap() as trap:
... raise Exception()
>>> bool(trap)
True
>>> with ExceptionTrap() as trap:
... pass
>>> bool(trap)
False
>>> with ExceptionTrap(ValueError) as trap:
... raise ValueError("1 + 1 is not 3")
>>> bool(trap)
True
>>> trap.value
ValueError('1 + 1 is not 3')
>>> trap.tb
<traceback object at ...>
>>> with ExceptionTrap(ValueError) as trap:
... raise Exception()
Traceback (most recent call last):
...
Exception
>>> bool(trap)
False
"""
exc_info = None, None, None
def __init__(self, exceptions=(Exception,)):
self.exceptions = exceptions
def __enter__(self):
return self
@property
def type(self):
return self.exc_info[0]
@property
def value(self):
return self.exc_info[1]
@property
def tb(self):
return self.exc_info[2]
def __exit__(self, *exc_info):
type = exc_info[0]
matches = type and issubclass(type, self.exceptions)
if matches:
self.exc_info = exc_info
return matches
def __bool__(self):
return bool(self.type)
def raises(self, func, *, _test=bool):
"""
Wrap func and replace the result with the truth
value of the trap (True if an exception occurred).
First, give the decorator an alias to support Python 3.8
Syntax.
>>> raises = ExceptionTrap(ValueError).raises
Now decorate a function that always fails.
>>> @raises
... def fail():
... raise ValueError('failed')
>>> fail()
True
"""
@functools.wraps(func)
def wrapper(*args, **kwargs):
with ExceptionTrap(self.exceptions) as trap:
func(*args, **kwargs)
return _test(trap)
return wrapper
def passes(self, func):
"""
Wrap func and replace the result with the truth
value of the trap (True if no exception).
First, give the decorator an alias to support Python 3.8
Syntax.
>>> passes = ExceptionTrap(ValueError).passes
Now decorate a function that always fails.
>>> @passes
... def fail():
... raise ValueError('failed')
>>> fail()
False
"""
return self.raises(func, _test=operator.not_)
class suppress(contextlib.suppress, contextlib.ContextDecorator):
"""
A version of contextlib.suppress with decorator support.
>>> @suppress(KeyError)
... def key_error():
... {}['']
>>> key_error()
"""
class on_interrupt(contextlib.ContextDecorator):
"""
Replace a KeyboardInterrupt with SystemExit(1)
>>> def do_interrupt():
... raise KeyboardInterrupt()
>>> on_interrupt('error')(do_interrupt)()
Traceback (most recent call last):
...
SystemExit: 1
>>> on_interrupt('error', code=255)(do_interrupt)()
Traceback (most recent call last):
...
SystemExit: 255
>>> on_interrupt('suppress')(do_interrupt)()
>>> with __import__('pytest').raises(KeyboardInterrupt):
... on_interrupt('ignore')(do_interrupt)()
"""
def __init__(
self,
action='error',
# py3.7 compat
# /,
code=1,
):
self.action = action
self.code = code
def __enter__(self):
return self
def __exit__(self, exctype, excinst, exctb):
if exctype is not KeyboardInterrupt or self.action == 'ignore':
return
elif self.action == 'error':
raise SystemExit(self.code) from excinst
return self.action == 'suppress'
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/_vendor/jaraco/text/__init__.py | import re
import itertools
import textwrap
import functools
try:
from importlib.resources import files # type: ignore
except ImportError: # pragma: nocover
from pkg_resources.extern.importlib_resources import files # type: ignore
from pkg_resources.extern.jaraco.functools import compose, method_cache
from pkg_resources.extern.jaraco.context import ExceptionTrap
def substitution(old, new):
"""
Return a function that will perform a substitution on a string
"""
return lambda s: s.replace(old, new)
def multi_substitution(*substitutions):
"""
Take a sequence of pairs specifying substitutions, and create
a function that performs those substitutions.
>>> multi_substitution(('foo', 'bar'), ('bar', 'baz'))('foo')
'baz'
"""
substitutions = itertools.starmap(substitution, substitutions)
# compose function applies last function first, so reverse the
# substitutions to get the expected order.
substitutions = reversed(tuple(substitutions))
return compose(*substitutions)
class FoldedCase(str):
"""
A case insensitive string class; behaves just like str
except compares equal when the only variation is case.
>>> s = FoldedCase('hello world')
>>> s == 'Hello World'
True
>>> 'Hello World' == s
True
>>> s != 'Hello World'
False
>>> s.index('O')
4
>>> s.split('O')
['hell', ' w', 'rld']
>>> sorted(map(FoldedCase, ['GAMMA', 'alpha', 'Beta']))
['alpha', 'Beta', 'GAMMA']
Sequence membership is straightforward.
>>> "Hello World" in [s]
True
>>> s in ["Hello World"]
True
You may test for set inclusion, but candidate and elements
must both be folded.
>>> FoldedCase("Hello World") in {s}
True
>>> s in {FoldedCase("Hello World")}
True
String inclusion works as long as the FoldedCase object
is on the right.
>>> "hello" in FoldedCase("Hello World")
True
But not if the FoldedCase object is on the left:
>>> FoldedCase('hello') in 'Hello World'
False
In that case, use ``in_``:
>>> FoldedCase('hello').in_('Hello World')
True
>>> FoldedCase('hello') > FoldedCase('Hello')
False
"""
def __lt__(self, other):
return self.lower() < other.lower()
def __gt__(self, other):
return self.lower() > other.lower()
def __eq__(self, other):
return self.lower() == other.lower()
def __ne__(self, other):
return self.lower() != other.lower()
def __hash__(self):
return hash(self.lower())
def __contains__(self, other):
return super().lower().__contains__(other.lower())
def in_(self, other):
"Does self appear in other?"
return self in FoldedCase(other)
# cache lower since it's likely to be called frequently.
@method_cache
def lower(self):
return super().lower()
def index(self, sub):
return self.lower().index(sub.lower())
def split(self, splitter=' ', maxsplit=0):
pattern = re.compile(re.escape(splitter), re.I)
return pattern.split(self, maxsplit)
# Python 3.8 compatibility
_unicode_trap = ExceptionTrap(UnicodeDecodeError)
@_unicode_trap.passes
def is_decodable(value):
r"""
Return True if the supplied value is decodable (using the default
encoding).
>>> is_decodable(b'\xff')
False
>>> is_decodable(b'\x32')
True
"""
value.decode()
def is_binary(value):
r"""
Return True if the value appears to be binary (that is, it's a byte
string and isn't decodable).
>>> is_binary(b'\xff')
True
>>> is_binary('\xff')
False
"""
return isinstance(value, bytes) and not is_decodable(value)
def trim(s):
r"""
Trim something like a docstring to remove the whitespace that
is common due to indentation and formatting.
>>> trim("\n\tfoo = bar\n\t\tbar = baz\n")
'foo = bar\n\tbar = baz'
"""
return textwrap.dedent(s).strip()
def wrap(s):
"""
Wrap lines of text, retaining existing newlines as
paragraph markers.
>>> print(wrap(lorem_ipsum))
Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do
eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad
minim veniam, quis nostrud exercitation ullamco laboris nisi ut
aliquip ex ea commodo consequat. Duis aute irure dolor in
reprehenderit in voluptate velit esse cillum dolore eu fugiat nulla
pariatur. Excepteur sint occaecat cupidatat non proident, sunt in
culpa qui officia deserunt mollit anim id est laborum.
<BLANKLINE>
Curabitur pretium tincidunt lacus. Nulla gravida orci a odio. Nullam
varius, turpis et commodo pharetra, est eros bibendum elit, nec luctus
magna felis sollicitudin mauris. Integer in mauris eu nibh euismod
gravida. Duis ac tellus et risus vulputate vehicula. Donec lobortis
risus a elit. Etiam tempor. Ut ullamcorper, ligula eu tempor congue,
eros est euismod turpis, id tincidunt sapien risus a quam. Maecenas
fermentum consequat mi. Donec fermentum. Pellentesque malesuada nulla
a mi. Duis sapien sem, aliquet nec, commodo eget, consequat quis,
neque. Aliquam faucibus, elit ut dictum aliquet, felis nisl adipiscing
sapien, sed malesuada diam lacus eget erat. Cras mollis scelerisque
nunc. Nullam arcu. Aliquam consequat. Curabitur augue lorem, dapibus
quis, laoreet et, pretium ac, nisi. Aenean magna nisl, mollis quis,
molestie eu, feugiat in, orci. In hac habitasse platea dictumst.
"""
paragraphs = s.splitlines()
wrapped = ('\n'.join(textwrap.wrap(para)) for para in paragraphs)
return '\n\n'.join(wrapped)
def unwrap(s):
r"""
Given a multi-line string, return an unwrapped version.
>>> wrapped = wrap(lorem_ipsum)
>>> wrapped.count('\n')
20
>>> unwrapped = unwrap(wrapped)
>>> unwrapped.count('\n')
1
>>> print(unwrapped)
Lorem ipsum dolor sit amet, consectetur adipiscing ...
Curabitur pretium tincidunt lacus. Nulla gravida orci ...
"""
paragraphs = re.split(r'\n\n+', s)
cleaned = (para.replace('\n', ' ') for para in paragraphs)
return '\n'.join(cleaned)
class Splitter(object):
"""object that will split a string with the given arguments for each call
>>> s = Splitter(',')
>>> s('hello, world, this is your, master calling')
['hello', ' world', ' this is your', ' master calling']
"""
def __init__(self, *args):
self.args = args
def __call__(self, s):
return s.split(*self.args)
def indent(string, prefix=' ' * 4):
"""
>>> indent('foo')
' foo'
"""
return prefix + string
class WordSet(tuple):
"""
Given an identifier, return the words that identifier represents,
whether in camel case, underscore-separated, etc.
>>> WordSet.parse("camelCase")
('camel', 'Case')
>>> WordSet.parse("under_sep")
('under', 'sep')
Acronyms should be retained
>>> WordSet.parse("firstSNL")
('first', 'SNL')
>>> WordSet.parse("you_and_I")
('you', 'and', 'I')
>>> WordSet.parse("A simple test")
('A', 'simple', 'test')
Multiple caps should not interfere with the first cap of another word.
>>> WordSet.parse("myABCClass")
('my', 'ABC', 'Class')
The result is a WordSet, so you can get the form you need.
>>> WordSet.parse("myABCClass").underscore_separated()
'my_ABC_Class'
>>> WordSet.parse('a-command').camel_case()
'ACommand'
>>> WordSet.parse('someIdentifier').lowered().space_separated()
'some identifier'
Slices of the result should return another WordSet.
>>> WordSet.parse('taken-out-of-context')[1:].underscore_separated()
'out_of_context'
>>> WordSet.from_class_name(WordSet()).lowered().space_separated()
'word set'
>>> example = WordSet.parse('figured it out')
>>> example.headless_camel_case()
'figuredItOut'
>>> example.dash_separated()
'figured-it-out'
"""
_pattern = re.compile('([A-Z]?[a-z]+)|([A-Z]+(?![a-z]))')
def capitalized(self):
return WordSet(word.capitalize() for word in self)
def lowered(self):
return WordSet(word.lower() for word in self)
def camel_case(self):
return ''.join(self.capitalized())
def headless_camel_case(self):
words = iter(self)
first = next(words).lower()
new_words = itertools.chain((first,), WordSet(words).camel_case())
return ''.join(new_words)
def underscore_separated(self):
return '_'.join(self)
def dash_separated(self):
return '-'.join(self)
def space_separated(self):
return ' '.join(self)
def trim_right(self, item):
"""
Remove the item from the end of the set.
>>> WordSet.parse('foo bar').trim_right('foo')
('foo', 'bar')
>>> WordSet.parse('foo bar').trim_right('bar')
('foo',)
>>> WordSet.parse('').trim_right('bar')
()
"""
return self[:-1] if self and self[-1] == item else self
def trim_left(self, item):
"""
Remove the item from the beginning of the set.
>>> WordSet.parse('foo bar').trim_left('foo')
('bar',)
>>> WordSet.parse('foo bar').trim_left('bar')
('foo', 'bar')
>>> WordSet.parse('').trim_left('bar')
()
"""
return self[1:] if self and self[0] == item else self
def trim(self, item):
"""
>>> WordSet.parse('foo bar').trim('foo')
('bar',)
"""
return self.trim_left(item).trim_right(item)
def __getitem__(self, item):
result = super(WordSet, self).__getitem__(item)
if isinstance(item, slice):
result = WordSet(result)
return result
@classmethod
def parse(cls, identifier):
matches = cls._pattern.finditer(identifier)
return WordSet(match.group(0) for match in matches)
@classmethod
def from_class_name(cls, subject):
return cls.parse(subject.__class__.__name__)
# for backward compatibility
words = WordSet.parse
def simple_html_strip(s):
r"""
Remove HTML from the string `s`.
>>> str(simple_html_strip(''))
''
>>> print(simple_html_strip('A <bold>stormy</bold> day in paradise'))
A stormy day in paradise
>>> print(simple_html_strip('Somebody <!-- do not --> tell the truth.'))
Somebody tell the truth.
>>> print(simple_html_strip('What about<br/>\nmultiple lines?'))
What about
multiple lines?
"""
html_stripper = re.compile('(<!--.*?-->)|(<[^>]*>)|([^<]+)', re.DOTALL)
texts = (match.group(3) or '' for match in html_stripper.finditer(s))
return ''.join(texts)
class SeparatedValues(str):
"""
A string separated by a separator. Overrides __iter__ for getting
the values.
>>> list(SeparatedValues('a,b,c'))
['a', 'b', 'c']
Whitespace is stripped and empty values are discarded.
>>> list(SeparatedValues(' a, b , c, '))
['a', 'b', 'c']
"""
separator = ','
def __iter__(self):
parts = self.split(self.separator)
return filter(None, (part.strip() for part in parts))
class Stripper:
r"""
Given a series of lines, find the common prefix and strip it from them.
>>> lines = [
... 'abcdefg\n',
... 'abc\n',
... 'abcde\n',
... ]
>>> res = Stripper.strip_prefix(lines)
>>> res.prefix
'abc'
>>> list(res.lines)
['defg\n', '\n', 'de\n']
If no prefix is common, nothing should be stripped.
>>> lines = [
... 'abcd\n',
... '1234\n',
... ]
>>> res = Stripper.strip_prefix(lines)
>>> res.prefix = ''
>>> list(res.lines)
['abcd\n', '1234\n']
"""
def __init__(self, prefix, lines):
self.prefix = prefix
self.lines = map(self, lines)
@classmethod
def strip_prefix(cls, lines):
prefix_lines, lines = itertools.tee(lines)
prefix = functools.reduce(cls.common_prefix, prefix_lines)
return cls(prefix, lines)
def __call__(self, line):
if not self.prefix:
return line
null, prefix, rest = line.partition(self.prefix)
return rest
@staticmethod
def common_prefix(s1, s2):
"""
Return the common prefix of two lines.
"""
index = min(len(s1), len(s2))
while s1[:index] != s2[:index]:
index -= 1
return s1[:index]
def remove_prefix(text, prefix):
"""
Remove the prefix from the text if it exists.
>>> remove_prefix('underwhelming performance', 'underwhelming ')
'performance'
>>> remove_prefix('something special', 'sample')
'something special'
"""
null, prefix, rest = text.rpartition(prefix)
return rest
def remove_suffix(text, suffix):
"""
Remove the suffix from the text if it exists.
>>> remove_suffix('name.git', '.git')
'name'
>>> remove_suffix('something special', 'sample')
'something special'
"""
rest, suffix, null = text.partition(suffix)
return rest
def normalize_newlines(text):
r"""
Replace alternate newlines with the canonical newline.
>>> normalize_newlines('Lorem Ipsum\u2029')
'Lorem Ipsum\n'
>>> normalize_newlines('Lorem Ipsum\r\n')
'Lorem Ipsum\n'
>>> normalize_newlines('Lorem Ipsum\x85')
'Lorem Ipsum\n'
"""
newlines = ['\r\n', '\r', '\n', '\u0085', '\u2028', '\u2029']
pattern = '|'.join(newlines)
return re.sub(pattern, '\n', text)
def _nonblank(str):
return str and not str.startswith('#')
@functools.singledispatch
def yield_lines(iterable):
r"""
Yield valid lines of a string or iterable.
>>> list(yield_lines(''))
[]
>>> list(yield_lines(['foo', 'bar']))
['foo', 'bar']
>>> list(yield_lines('foo\nbar'))
['foo', 'bar']
>>> list(yield_lines('\nfoo\n#bar\nbaz #comment'))
['foo', 'baz #comment']
>>> list(yield_lines(['foo\nbar', 'baz', 'bing\n\n\n']))
['foo', 'bar', 'baz', 'bing']
"""
return itertools.chain.from_iterable(map(yield_lines, iterable))
@yield_lines.register(str)
def _(text):
return filter(_nonblank, map(str.strip, text.splitlines()))
def drop_comment(line):
"""
Drop comments.
>>> drop_comment('foo # bar')
'foo'
A hash without a space may be in a URL.
>>> drop_comment('http://example.com/foo#bar')
'http://example.com/foo#bar'
"""
return line.partition(' #')[0]
def join_continuation(lines):
r"""
Join lines continued by a trailing backslash.
>>> list(join_continuation(['foo \\', 'bar', 'baz']))
['foobar', 'baz']
>>> list(join_continuation(['foo \\', 'bar', 'baz']))
['foobar', 'baz']
>>> list(join_continuation(['foo \\', 'bar \\', 'baz']))
['foobarbaz']
Not sure why, but...
The character preceeding the backslash is also elided.
>>> list(join_continuation(['goo\\', 'dly']))
['godly']
A terrible idea, but...
If no line is available to continue, suppress the lines.
>>> list(join_continuation(['foo', 'bar\\', 'baz\\']))
['foo']
"""
lines = iter(lines)
for item in lines:
while item.endswith('\\'):
try:
item = item[:-2].strip() + next(lines)
except StopIteration:
return
yield item
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pkg_resources/extern/__init__.py | import importlib.util
import sys
class VendorImporter:
"""
A PEP 302 meta path importer for finding optionally-vendored
or otherwise naturally-installed packages from root_name.
"""
def __init__(self, root_name, vendored_names=(), vendor_pkg=None):
self.root_name = root_name
self.vendored_names = set(vendored_names)
self.vendor_pkg = vendor_pkg or root_name.replace('extern', '_vendor')
@property
def search_path(self):
"""
Search first the vendor package then as a natural package.
"""
yield self.vendor_pkg + '.'
yield ''
def _module_matches_namespace(self, fullname):
"""Figure out if the target module is vendored."""
root, base, target = fullname.partition(self.root_name + '.')
return not root and any(map(target.startswith, self.vendored_names))
def load_module(self, fullname):
"""
Iterate over the search path to locate and load fullname.
"""
root, base, target = fullname.partition(self.root_name + '.')
for prefix in self.search_path:
try:
extant = prefix + target
__import__(extant)
mod = sys.modules[extant]
sys.modules[fullname] = mod
return mod
except ImportError:
pass
else:
raise ImportError(
"The '{target}' package is required; "
"normally this is bundled with this package so if you get "
"this warning, consult the packager of your "
"distribution.".format(**locals())
)
def create_module(self, spec):
return self.load_module(spec.name)
def exec_module(self, module):
pass
def find_spec(self, fullname, path=None, target=None):
"""Return a module spec for vendored names."""
return (
importlib.util.spec_from_loader(fullname, self)
if self._module_matches_namespace(fullname)
else None
)
def install(self):
"""
Install this importer into sys.meta_path if not already present.
"""
if self not in sys.meta_path:
sys.meta_path.append(self)
names = (
'packaging',
'platformdirs',
'jaraco',
'importlib_resources',
'more_itertools',
)
VendorImporter(__name__, names).install()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/_distutils_hack/__init__.py | # don't import any costly modules
import sys
import os
is_pypy = '__pypy__' in sys.builtin_module_names
def warn_distutils_present():
if 'distutils' not in sys.modules:
return
if is_pypy and sys.version_info < (3, 7):
# PyPy for 3.6 unconditionally imports distutils, so bypass the warning
# https://foss.heptapod.net/pypy/pypy/-/blob/be829135bc0d758997b3566062999ee8b23872b4/lib-python/3/site.py#L250
return
import warnings
warnings.warn(
"Distutils was imported before Setuptools, but importing Setuptools "
"also replaces the `distutils` module in `sys.modules`. This may lead "
"to undesirable behaviors or errors. To avoid these issues, avoid "
"using distutils directly, ensure that setuptools is installed in the "
"traditional way (e.g. not an editable install), and/or make sure "
"that setuptools is always imported before distutils."
)
def clear_distutils():
if 'distutils' not in sys.modules:
return
import warnings
warnings.warn("Setuptools is replacing distutils.")
mods = [
name
for name in sys.modules
if name == "distutils" or name.startswith("distutils.")
]
for name in mods:
del sys.modules[name]
def enabled():
"""
Allow selection of distutils by environment variable.
"""
which = os.environ.get('SETUPTOOLS_USE_DISTUTILS', 'local')
return which == 'local'
def ensure_local_distutils():
import importlib
clear_distutils()
# With the DistutilsMetaFinder in place,
# perform an import to cause distutils to be
# loaded from setuptools._distutils. Ref #2906.
with shim():
importlib.import_module('distutils')
# check that submodules load as expected
core = importlib.import_module('distutils.core')
assert '_distutils' in core.__file__, core.__file__
assert 'setuptools._distutils.log' not in sys.modules
def do_override():
"""
Ensure that the local copy of distutils is preferred over stdlib.
See https://github.com/pypa/setuptools/issues/417#issuecomment-392298401
for more motivation.
"""
if enabled():
warn_distutils_present()
ensure_local_distutils()
class _TrivialRe:
def __init__(self, *patterns):
self._patterns = patterns
def match(self, string):
return all(pat in string for pat in self._patterns)
class DistutilsMetaFinder:
def find_spec(self, fullname, path, target=None):
# optimization: only consider top level modules and those
# found in the CPython test suite.
if path is not None and not fullname.startswith('test.'):
return
method_name = 'spec_for_{fullname}'.format(**locals())
method = getattr(self, method_name, lambda: None)
return method()
def spec_for_distutils(self):
if self.is_cpython():
return
import importlib
import importlib.abc
import importlib.util
try:
mod = importlib.import_module('setuptools._distutils')
except Exception:
# There are a couple of cases where setuptools._distutils
# may not be present:
# - An older Setuptools without a local distutils is
# taking precedence. Ref #2957.
# - Path manipulation during sitecustomize removes
# setuptools from the path but only after the hook
# has been loaded. Ref #2980.
# In either case, fall back to stdlib behavior.
return
class DistutilsLoader(importlib.abc.Loader):
def create_module(self, spec):
mod.__name__ = 'distutils'
return mod
def exec_module(self, module):
pass
return importlib.util.spec_from_loader(
'distutils', DistutilsLoader(), origin=mod.__file__
)
@staticmethod
def is_cpython():
"""
Suppress supplying distutils for CPython (build and tests).
Ref #2965 and #3007.
"""
return os.path.isfile('pybuilddir.txt')
def spec_for_pip(self):
"""
Ensure stdlib distutils when running under pip.
See pypa/pip#8761 for rationale.
"""
if sys.version_info >= (3, 12) or self.pip_imported_during_build():
return
clear_distutils()
self.spec_for_distutils = lambda: None
@classmethod
def pip_imported_during_build(cls):
"""
Detect if pip is being imported in a build script. Ref #2355.
"""
import traceback
return any(
cls.frame_file_is_setup(frame) for frame, line in traceback.walk_stack(None)
)
@staticmethod
def frame_file_is_setup(frame):
"""
Return True if the indicated frame suggests a setup.py file.
"""
# some frames may not have __file__ (#2940)
return frame.f_globals.get('__file__', '').endswith('setup.py')
def spec_for_sensitive_tests(self):
"""
Ensure stdlib distutils when running select tests under CPython.
python/cpython#91169
"""
clear_distutils()
self.spec_for_distutils = lambda: None
sensitive_tests = (
[
'test.test_distutils',
'test.test_peg_generator',
'test.test_importlib',
]
if sys.version_info < (3, 10)
else [
'test.test_distutils',
]
)
for name in DistutilsMetaFinder.sensitive_tests:
setattr(
DistutilsMetaFinder,
f'spec_for_{name}',
DistutilsMetaFinder.spec_for_sensitive_tests,
)
DISTUTILS_FINDER = DistutilsMetaFinder()
def add_shim():
DISTUTILS_FINDER in sys.meta_path or insert_shim()
class shim:
def __enter__(self):
insert_shim()
def __exit__(self, exc, value, tb):
_remove_shim()
def insert_shim():
sys.meta_path.insert(0, DISTUTILS_FINDER)
def _remove_shim():
try:
sys.meta_path.remove(DISTUTILS_FINDER)
except ValueError:
pass
if sys.version_info < (3, 12):
# DistutilsMetaFinder can only be disabled in Python < 3.12 (PEP 632)
remove_shim = _remove_shim
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/_distutils_hack/override.py | __import__('_distutils_hack').do_override()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/certifi-2023.5.7.dist-info/top_level.txt | certifi
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pytz/exceptions.py | '''
Custom exceptions raised by pytz.
'''
__all__ = [
'UnknownTimeZoneError', 'InvalidTimeError', 'AmbiguousTimeError',
'NonExistentTimeError',
]
class Error(Exception):
'''Base class for all exceptions raised by the pytz library'''
class UnknownTimeZoneError(KeyError, Error):
'''Exception raised when pytz is passed an unknown timezone.
>>> isinstance(UnknownTimeZoneError(), LookupError)
True
This class is actually a subclass of KeyError to provide backwards
compatibility with code relying on the undocumented behavior of earlier
pytz releases.
>>> isinstance(UnknownTimeZoneError(), KeyError)
True
And also a subclass of pytz.exceptions.Error, as are other pytz
exceptions.
>>> isinstance(UnknownTimeZoneError(), Error)
True
'''
pass
class InvalidTimeError(Error):
'''Base class for invalid time exceptions.'''
class AmbiguousTimeError(InvalidTimeError):
'''Exception raised when attempting to create an ambiguous wallclock time.
At the end of a DST transition period, a particular wallclock time will
occur twice (once before the clocks are set back, once after). Both
possibilities may be correct, unless further information is supplied.
See DstTzInfo.normalize() for more info
'''
class NonExistentTimeError(InvalidTimeError):
'''Exception raised when attempting to create a wallclock time that
cannot exist.
At the start of a DST transition period, the wallclock time jumps forward.
The instants jumped over never occur.
'''
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pytz/tzinfo.py | '''Base classes and helpers for building zone specific tzinfo classes'''
from datetime import datetime, timedelta, tzinfo
from bisect import bisect_right
try:
set
except NameError:
from sets import Set as set
import pytz
from pytz.exceptions import AmbiguousTimeError, NonExistentTimeError
__all__ = []
_timedelta_cache = {}
def memorized_timedelta(seconds):
'''Create only one instance of each distinct timedelta'''
try:
return _timedelta_cache[seconds]
except KeyError:
delta = timedelta(seconds=seconds)
_timedelta_cache[seconds] = delta
return delta
_epoch = datetime.utcfromtimestamp(0)
_datetime_cache = {0: _epoch}
def memorized_datetime(seconds):
'''Create only one instance of each distinct datetime'''
try:
return _datetime_cache[seconds]
except KeyError:
# NB. We can't just do datetime.utcfromtimestamp(seconds) as this
# fails with negative values under Windows (Bug #90096)
dt = _epoch + timedelta(seconds=seconds)
_datetime_cache[seconds] = dt
return dt
_ttinfo_cache = {}
def memorized_ttinfo(*args):
'''Create only one instance of each distinct tuple'''
try:
return _ttinfo_cache[args]
except KeyError:
ttinfo = (
memorized_timedelta(args[0]),
memorized_timedelta(args[1]),
args[2]
)
_ttinfo_cache[args] = ttinfo
return ttinfo
_notime = memorized_timedelta(0)
def _to_seconds(td):
'''Convert a timedelta to seconds'''
return td.seconds + td.days * 24 * 60 * 60
class BaseTzInfo(tzinfo):
# Overridden in subclass
_utcoffset = None
_tzname = None
zone = None
def __str__(self):
return self.zone
class StaticTzInfo(BaseTzInfo):
'''A timezone that has a constant offset from UTC
These timezones are rare, as most locations have changed their
offset at some point in their history
'''
def fromutc(self, dt):
'''See datetime.tzinfo.fromutc'''
if dt.tzinfo is not None and dt.tzinfo is not self:
raise ValueError('fromutc: dt.tzinfo is not self')
return (dt + self._utcoffset).replace(tzinfo=self)
def utcoffset(self, dt, is_dst=None):
'''See datetime.tzinfo.utcoffset
is_dst is ignored for StaticTzInfo, and exists only to
retain compatibility with DstTzInfo.
'''
return self._utcoffset
def dst(self, dt, is_dst=None):
'''See datetime.tzinfo.dst
is_dst is ignored for StaticTzInfo, and exists only to
retain compatibility with DstTzInfo.
'''
return _notime
def tzname(self, dt, is_dst=None):
'''See datetime.tzinfo.tzname
is_dst is ignored for StaticTzInfo, and exists only to
retain compatibility with DstTzInfo.
'''
return self._tzname
def localize(self, dt, is_dst=False):
'''Convert naive time to local time'''
if dt.tzinfo is not None:
raise ValueError('Not naive datetime (tzinfo is already set)')
return dt.replace(tzinfo=self)
def normalize(self, dt, is_dst=False):
'''Correct the timezone information on the given datetime.
This is normally a no-op, as StaticTzInfo timezones never have
ambiguous cases to correct:
>>> from pytz import timezone
>>> gmt = timezone('GMT')
>>> isinstance(gmt, StaticTzInfo)
True
>>> dt = datetime(2011, 5, 8, 1, 2, 3, tzinfo=gmt)
>>> gmt.normalize(dt) is dt
True
The supported method of converting between timezones is to use
datetime.astimezone(). Currently normalize() also works:
>>> la = timezone('America/Los_Angeles')
>>> dt = la.localize(datetime(2011, 5, 7, 1, 2, 3))
>>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)'
>>> gmt.normalize(dt).strftime(fmt)
'2011-05-07 08:02:03 GMT (+0000)'
'''
if dt.tzinfo is self:
return dt
if dt.tzinfo is None:
raise ValueError('Naive time - no tzinfo set')
return dt.astimezone(self)
def __repr__(self):
return '<StaticTzInfo %r>' % (self.zone,)
def __reduce__(self):
# Special pickle to zone remains a singleton and to cope with
# database changes.
return pytz._p, (self.zone,)
class DstTzInfo(BaseTzInfo):
'''A timezone that has a variable offset from UTC
The offset might change if daylight saving time comes into effect,
or at a point in history when the region decides to change their
timezone definition.
'''
# Overridden in subclass
# Sorted list of DST transition times, UTC
_utc_transition_times = None
# [(utcoffset, dstoffset, tzname)] corresponding to
# _utc_transition_times entries
_transition_info = None
zone = None
# Set in __init__
_tzinfos = None
_dst = None # DST offset
def __init__(self, _inf=None, _tzinfos=None):
if _inf:
self._tzinfos = _tzinfos
self._utcoffset, self._dst, self._tzname = _inf
else:
_tzinfos = {}
self._tzinfos = _tzinfos
self._utcoffset, self._dst, self._tzname = (
self._transition_info[0])
_tzinfos[self._transition_info[0]] = self
for inf in self._transition_info[1:]:
if inf not in _tzinfos:
_tzinfos[inf] = self.__class__(inf, _tzinfos)
def fromutc(self, dt):
'''See datetime.tzinfo.fromutc'''
if (dt.tzinfo is not None and
getattr(dt.tzinfo, '_tzinfos', None) is not self._tzinfos):
raise ValueError('fromutc: dt.tzinfo is not self')
dt = dt.replace(tzinfo=None)
idx = max(0, bisect_right(self._utc_transition_times, dt) - 1)
inf = self._transition_info[idx]
return (dt + inf[0]).replace(tzinfo=self._tzinfos[inf])
def normalize(self, dt):
'''Correct the timezone information on the given datetime
If date arithmetic crosses DST boundaries, the tzinfo
is not magically adjusted. This method normalizes the
tzinfo to the correct one.
To test, first we need to do some setup
>>> from pytz import timezone
>>> utc = timezone('UTC')
>>> eastern = timezone('US/Eastern')
>>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)'
We next create a datetime right on an end-of-DST transition point,
the instant when the wallclocks are wound back one hour.
>>> utc_dt = datetime(2002, 10, 27, 6, 0, 0, tzinfo=utc)
>>> loc_dt = utc_dt.astimezone(eastern)
>>> loc_dt.strftime(fmt)
'2002-10-27 01:00:00 EST (-0500)'
Now, if we subtract a few minutes from it, note that the timezone
information has not changed.
>>> before = loc_dt - timedelta(minutes=10)
>>> before.strftime(fmt)
'2002-10-27 00:50:00 EST (-0500)'
But we can fix that by calling the normalize method
>>> before = eastern.normalize(before)
>>> before.strftime(fmt)
'2002-10-27 01:50:00 EDT (-0400)'
The supported method of converting between timezones is to use
datetime.astimezone(). Currently, normalize() also works:
>>> th = timezone('Asia/Bangkok')
>>> am = timezone('Europe/Amsterdam')
>>> dt = th.localize(datetime(2011, 5, 7, 1, 2, 3))
>>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)'
>>> am.normalize(dt).strftime(fmt)
'2011-05-06 20:02:03 CEST (+0200)'
'''
if dt.tzinfo is None:
raise ValueError('Naive time - no tzinfo set')
# Convert dt in localtime to UTC
offset = dt.tzinfo._utcoffset
dt = dt.replace(tzinfo=None)
dt = dt - offset
# convert it back, and return it
return self.fromutc(dt)
def localize(self, dt, is_dst=False):
'''Convert naive time to local time.
This method should be used to construct localtimes, rather
than passing a tzinfo argument to a datetime constructor.
is_dst is used to determine the correct timezone in the ambigous
period at the end of daylight saving time.
>>> from pytz import timezone
>>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)'
>>> amdam = timezone('Europe/Amsterdam')
>>> dt = datetime(2004, 10, 31, 2, 0, 0)
>>> loc_dt1 = amdam.localize(dt, is_dst=True)
>>> loc_dt2 = amdam.localize(dt, is_dst=False)
>>> loc_dt1.strftime(fmt)
'2004-10-31 02:00:00 CEST (+0200)'
>>> loc_dt2.strftime(fmt)
'2004-10-31 02:00:00 CET (+0100)'
>>> str(loc_dt2 - loc_dt1)
'1:00:00'
Use is_dst=None to raise an AmbiguousTimeError for ambiguous
times at the end of daylight saving time
>>> try:
... loc_dt1 = amdam.localize(dt, is_dst=None)
... except AmbiguousTimeError:
... print('Ambiguous')
Ambiguous
is_dst defaults to False
>>> amdam.localize(dt) == amdam.localize(dt, False)
True
is_dst is also used to determine the correct timezone in the
wallclock times jumped over at the start of daylight saving time.
>>> pacific = timezone('US/Pacific')
>>> dt = datetime(2008, 3, 9, 2, 0, 0)
>>> ploc_dt1 = pacific.localize(dt, is_dst=True)
>>> ploc_dt2 = pacific.localize(dt, is_dst=False)
>>> ploc_dt1.strftime(fmt)
'2008-03-09 02:00:00 PDT (-0700)'
>>> ploc_dt2.strftime(fmt)
'2008-03-09 02:00:00 PST (-0800)'
>>> str(ploc_dt2 - ploc_dt1)
'1:00:00'
Use is_dst=None to raise a NonExistentTimeError for these skipped
times.
>>> try:
... loc_dt1 = pacific.localize(dt, is_dst=None)
... except NonExistentTimeError:
... print('Non-existent')
Non-existent
'''
if dt.tzinfo is not None:
raise ValueError('Not naive datetime (tzinfo is already set)')
# Find the two best possibilities.
possible_loc_dt = set()
for delta in [timedelta(days=-1), timedelta(days=1)]:
loc_dt = dt + delta
idx = max(0, bisect_right(
self._utc_transition_times, loc_dt) - 1)
inf = self._transition_info[idx]
tzinfo = self._tzinfos[inf]
loc_dt = tzinfo.normalize(dt.replace(tzinfo=tzinfo))
if loc_dt.replace(tzinfo=None) == dt:
possible_loc_dt.add(loc_dt)
if len(possible_loc_dt) == 1:
return possible_loc_dt.pop()
# If there are no possibly correct timezones, we are attempting
# to convert a time that never happened - the time period jumped
# during the start-of-DST transition period.
if len(possible_loc_dt) == 0:
# If we refuse to guess, raise an exception.
if is_dst is None:
raise NonExistentTimeError(dt)
# If we are forcing the pre-DST side of the DST transition, we
# obtain the correct timezone by winding the clock forward a few
# hours.
elif is_dst:
return self.localize(
dt + timedelta(hours=6), is_dst=True) - timedelta(hours=6)
# If we are forcing the post-DST side of the DST transition, we
# obtain the correct timezone by winding the clock back.
else:
return self.localize(
dt - timedelta(hours=6),
is_dst=False) + timedelta(hours=6)
# If we get this far, we have multiple possible timezones - this
# is an ambiguous case occuring during the end-of-DST transition.
# If told to be strict, raise an exception since we have an
# ambiguous case
if is_dst is None:
raise AmbiguousTimeError(dt)
# Filter out the possiblilities that don't match the requested
# is_dst
filtered_possible_loc_dt = [
p for p in possible_loc_dt if bool(p.tzinfo._dst) == is_dst
]
# Hopefully we only have one possibility left. Return it.
if len(filtered_possible_loc_dt) == 1:
return filtered_possible_loc_dt[0]
if len(filtered_possible_loc_dt) == 0:
filtered_possible_loc_dt = list(possible_loc_dt)
# If we get this far, we have in a wierd timezone transition
# where the clocks have been wound back but is_dst is the same
# in both (eg. Europe/Warsaw 1915 when they switched to CET).
# At this point, we just have to guess unless we allow more
# hints to be passed in (such as the UTC offset or abbreviation),
# but that is just getting silly.
#
# Choose the earliest (by UTC) applicable timezone if is_dst=True
# Choose the latest (by UTC) applicable timezone if is_dst=False
# i.e., behave like end-of-DST transition
dates = {} # utc -> local
for local_dt in filtered_possible_loc_dt:
utc_time = (
local_dt.replace(tzinfo=None) - local_dt.tzinfo._utcoffset)
assert utc_time not in dates
dates[utc_time] = local_dt
return dates[[min, max][not is_dst](dates)]
def utcoffset(self, dt, is_dst=None):
'''See datetime.tzinfo.utcoffset
The is_dst parameter may be used to remove ambiguity during DST
transitions.
>>> from pytz import timezone
>>> tz = timezone('America/St_Johns')
>>> ambiguous = datetime(2009, 10, 31, 23, 30)
>>> str(tz.utcoffset(ambiguous, is_dst=False))
'-1 day, 20:30:00'
>>> str(tz.utcoffset(ambiguous, is_dst=True))
'-1 day, 21:30:00'
>>> try:
... tz.utcoffset(ambiguous)
... except AmbiguousTimeError:
... print('Ambiguous')
Ambiguous
'''
if dt is None:
return None
elif dt.tzinfo is not self:
dt = self.localize(dt, is_dst)
return dt.tzinfo._utcoffset
else:
return self._utcoffset
def dst(self, dt, is_dst=None):
'''See datetime.tzinfo.dst
The is_dst parameter may be used to remove ambiguity during DST
transitions.
>>> from pytz import timezone
>>> tz = timezone('America/St_Johns')
>>> normal = datetime(2009, 9, 1)
>>> str(tz.dst(normal))
'1:00:00'
>>> str(tz.dst(normal, is_dst=False))
'1:00:00'
>>> str(tz.dst(normal, is_dst=True))
'1:00:00'
>>> ambiguous = datetime(2009, 10, 31, 23, 30)
>>> str(tz.dst(ambiguous, is_dst=False))
'0:00:00'
>>> str(tz.dst(ambiguous, is_dst=True))
'1:00:00'
>>> try:
... tz.dst(ambiguous)
... except AmbiguousTimeError:
... print('Ambiguous')
Ambiguous
'''
if dt is None:
return None
elif dt.tzinfo is not self:
dt = self.localize(dt, is_dst)
return dt.tzinfo._dst
else:
return self._dst
def tzname(self, dt, is_dst=None):
'''See datetime.tzinfo.tzname
The is_dst parameter may be used to remove ambiguity during DST
transitions.
>>> from pytz import timezone
>>> tz = timezone('America/St_Johns')
>>> normal = datetime(2009, 9, 1)
>>> tz.tzname(normal)
'NDT'
>>> tz.tzname(normal, is_dst=False)
'NDT'
>>> tz.tzname(normal, is_dst=True)
'NDT'
>>> ambiguous = datetime(2009, 10, 31, 23, 30)
>>> tz.tzname(ambiguous, is_dst=False)
'NST'
>>> tz.tzname(ambiguous, is_dst=True)
'NDT'
>>> try:
... tz.tzname(ambiguous)
... except AmbiguousTimeError:
... print('Ambiguous')
Ambiguous
'''
if dt is None:
return self.zone
elif dt.tzinfo is not self:
dt = self.localize(dt, is_dst)
return dt.tzinfo._tzname
else:
return self._tzname
def __repr__(self):
if self._dst:
dst = 'DST'
else:
dst = 'STD'
if self._utcoffset > _notime:
return '<DstTzInfo %r %s+%s %s>' % (
self.zone, self._tzname, self._utcoffset, dst
)
else:
return '<DstTzInfo %r %s%s %s>' % (
self.zone, self._tzname, self._utcoffset, dst
)
def __reduce__(self):
# Special pickle to zone remains a singleton and to cope with
# database changes.
return pytz._p, (
self.zone,
_to_seconds(self._utcoffset),
_to_seconds(self._dst),
self._tzname
)
def unpickler(zone, utcoffset=None, dstoffset=None, tzname=None):
"""Factory function for unpickling pytz tzinfo instances.
This is shared for both StaticTzInfo and DstTzInfo instances, because
database changes could cause a zones implementation to switch between
these two base classes and we can't break pickles on a pytz version
upgrade.
"""
# Raises a KeyError if zone no longer exists, which should never happen
# and would be a bug.
tz = pytz.timezone(zone)
# A StaticTzInfo - just return it
if utcoffset is None:
return tz
# This pickle was created from a DstTzInfo. We need to
# determine which of the list of tzinfo instances for this zone
# to use in order to restore the state of any datetime instances using
# it correctly.
utcoffset = memorized_timedelta(utcoffset)
dstoffset = memorized_timedelta(dstoffset)
try:
return tz._tzinfos[(utcoffset, dstoffset, tzname)]
except KeyError:
# The particular state requested in this timezone no longer exists.
# This indicates a corrupt pickle, or the timezone database has been
# corrected violently enough to make this particular
# (utcoffset,dstoffset) no longer exist in the zone, or the
# abbreviation has been changed.
pass
# See if we can find an entry differing only by tzname. Abbreviations
# get changed from the initial guess by the database maintainers to
# match reality when this information is discovered.
for localized_tz in tz._tzinfos.values():
if (localized_tz._utcoffset == utcoffset and
localized_tz._dst == dstoffset):
return localized_tz
# This (utcoffset, dstoffset) information has been removed from the
# zone. Add it back. This might occur when the database maintainers have
# corrected incorrect information. datetime instances using this
# incorrect information will continue to do so, exactly as they were
# before being pickled. This is purely an overly paranoid safety net - I
# doubt this will ever been needed in real life.
inf = (utcoffset, dstoffset, tzname)
tz._tzinfos[inf] = tz.__class__(inf, tz._tzinfos)
return tz._tzinfos[inf]
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pytz/__init__.py | '''
datetime.tzinfo timezone definitions generated from the
Olson timezone database:
ftp://elsie.nci.nih.gov/pub/tz*.tar.gz
See the datetime section of the Python Library Reference for information
on how to use these modules.
'''
import sys
import datetime
import os.path
from pytz.exceptions import AmbiguousTimeError
from pytz.exceptions import InvalidTimeError
from pytz.exceptions import NonExistentTimeError
from pytz.exceptions import UnknownTimeZoneError
from pytz.lazy import LazyDict, LazyList, LazySet # noqa
from pytz.tzinfo import unpickler, BaseTzInfo
from pytz.tzfile import build_tzinfo
# The IANA (nee Olson) database is updated several times a year.
OLSON_VERSION = '2022g'
VERSION = '2022.7.1' # pip compatible version number.
__version__ = VERSION
OLSEN_VERSION = OLSON_VERSION # Old releases had this misspelling
__all__ = [
'timezone', 'utc', 'country_timezones', 'country_names',
'AmbiguousTimeError', 'InvalidTimeError',
'NonExistentTimeError', 'UnknownTimeZoneError',
'all_timezones', 'all_timezones_set',
'common_timezones', 'common_timezones_set',
'BaseTzInfo', 'FixedOffset',
]
if sys.version_info[0] > 2: # Python 3.x
# Python 3.x doesn't have unicode(), making writing code
# for Python 2.3 and Python 3.x a pain.
unicode = str
def ascii(s):
r"""
>>> ascii('Hello')
'Hello'
>>> ascii('\N{TRADE MARK SIGN}') #doctest: +IGNORE_EXCEPTION_DETAIL
Traceback (most recent call last):
...
UnicodeEncodeError: ...
"""
if type(s) == bytes:
s = s.decode('ASCII')
else:
s.encode('ASCII') # Raise an exception if not ASCII
return s # But the string - not a byte string.
else: # Python 2.x
def ascii(s):
r"""
>>> ascii('Hello')
'Hello'
>>> ascii(u'Hello')
'Hello'
>>> ascii(u'\N{TRADE MARK SIGN}') #doctest: +IGNORE_EXCEPTION_DETAIL
Traceback (most recent call last):
...
UnicodeEncodeError: ...
"""
return s.encode('ASCII')
def open_resource(name):
"""Open a resource from the zoneinfo subdir for reading.
Uses the pkg_resources module if available and no standard file
found at the calculated location.
It is possible to specify different location for zoneinfo
subdir by using the PYTZ_TZDATADIR environment variable.
"""
name_parts = name.lstrip('/').split('/')
for part in name_parts:
if part == os.path.pardir or os.sep in part:
raise ValueError('Bad path segment: %r' % part)
zoneinfo_dir = os.environ.get('PYTZ_TZDATADIR', None)
if zoneinfo_dir is not None:
filename = os.path.join(zoneinfo_dir, *name_parts)
else:
filename = os.path.join(os.path.dirname(__file__),
'zoneinfo', *name_parts)
if not os.path.exists(filename):
# http://bugs.launchpad.net/bugs/383171 - we avoid using this
# unless absolutely necessary to help when a broken version of
# pkg_resources is installed.
try:
from pkg_resources import resource_stream
except ImportError:
resource_stream = None
if resource_stream is not None:
return resource_stream(__name__, 'zoneinfo/' + name)
return open(filename, 'rb')
def resource_exists(name):
"""Return true if the given resource exists"""
try:
if os.environ.get('PYTZ_SKIPEXISTSCHECK', ''):
# In "standard" distributions, we can assume that
# all the listed timezones are present. As an
# import-speed optimization, you can set the
# PYTZ_SKIPEXISTSCHECK flag to skip checking
# for the presence of the resource file on disk.
return True
open_resource(name).close()
return True
except IOError:
return False
_tzinfo_cache = {}
def timezone(zone):
r''' Return a datetime.tzinfo implementation for the given timezone
>>> from datetime import datetime, timedelta
>>> utc = timezone('UTC')
>>> eastern = timezone('US/Eastern')
>>> eastern.zone
'US/Eastern'
>>> timezone(unicode('US/Eastern')) is eastern
True
>>> utc_dt = datetime(2002, 10, 27, 6, 0, 0, tzinfo=utc)
>>> loc_dt = utc_dt.astimezone(eastern)
>>> fmt = '%Y-%m-%d %H:%M:%S %Z (%z)'
>>> loc_dt.strftime(fmt)
'2002-10-27 01:00:00 EST (-0500)'
>>> (loc_dt - timedelta(minutes=10)).strftime(fmt)
'2002-10-27 00:50:00 EST (-0500)'
>>> eastern.normalize(loc_dt - timedelta(minutes=10)).strftime(fmt)
'2002-10-27 01:50:00 EDT (-0400)'
>>> (loc_dt + timedelta(minutes=10)).strftime(fmt)
'2002-10-27 01:10:00 EST (-0500)'
Raises UnknownTimeZoneError if passed an unknown zone.
>>> try:
... timezone('Asia/Shangri-La')
... except UnknownTimeZoneError:
... print('Unknown')
Unknown
>>> try:
... timezone(unicode('\N{TRADE MARK SIGN}'))
... except UnknownTimeZoneError:
... print('Unknown')
Unknown
'''
if zone is None:
raise UnknownTimeZoneError(None)
if zone.upper() == 'UTC':
return utc
try:
zone = ascii(zone)
except UnicodeEncodeError:
# All valid timezones are ASCII
raise UnknownTimeZoneError(zone)
zone = _case_insensitive_zone_lookup(_unmunge_zone(zone))
if zone not in _tzinfo_cache:
if zone in all_timezones_set: # noqa
fp = open_resource(zone)
try:
_tzinfo_cache[zone] = build_tzinfo(zone, fp)
finally:
fp.close()
else:
raise UnknownTimeZoneError(zone)
return _tzinfo_cache[zone]
def _unmunge_zone(zone):
"""Undo the time zone name munging done by older versions of pytz."""
return zone.replace('_plus_', '+').replace('_minus_', '-')
_all_timezones_lower_to_standard = None
def _case_insensitive_zone_lookup(zone):
"""case-insensitively matching timezone, else return zone unchanged"""
global _all_timezones_lower_to_standard
if _all_timezones_lower_to_standard is None:
_all_timezones_lower_to_standard = dict((tz.lower(), tz) for tz in _all_timezones_unchecked) # noqa
return _all_timezones_lower_to_standard.get(zone.lower()) or zone # noqa
ZERO = datetime.timedelta(0)
HOUR = datetime.timedelta(hours=1)
class UTC(BaseTzInfo):
"""UTC
Optimized UTC implementation. It unpickles using the single module global
instance defined beneath this class declaration.
"""
zone = "UTC"
_utcoffset = ZERO
_dst = ZERO
_tzname = zone
def fromutc(self, dt):
if dt.tzinfo is None:
return self.localize(dt)
return super(utc.__class__, self).fromutc(dt)
def utcoffset(self, dt):
return ZERO
def tzname(self, dt):
return "UTC"
def dst(self, dt):
return ZERO
def __reduce__(self):
return _UTC, ()
def localize(self, dt, is_dst=False):
'''Convert naive time to local time'''
if dt.tzinfo is not None:
raise ValueError('Not naive datetime (tzinfo is already set)')
return dt.replace(tzinfo=self)
def normalize(self, dt, is_dst=False):
'''Correct the timezone information on the given datetime'''
if dt.tzinfo is self:
return dt
if dt.tzinfo is None:
raise ValueError('Naive time - no tzinfo set')
return dt.astimezone(self)
def __repr__(self):
return "<UTC>"
def __str__(self):
return "UTC"
UTC = utc = UTC() # UTC is a singleton
def _UTC():
"""Factory function for utc unpickling.
Makes sure that unpickling a utc instance always returns the same
module global.
These examples belong in the UTC class above, but it is obscured; or in
the README.rst, but we are not depending on Python 2.4 so integrating
the README.rst examples with the unit tests is not trivial.
>>> import datetime, pickle
>>> dt = datetime.datetime(2005, 3, 1, 14, 13, 21, tzinfo=utc)
>>> naive = dt.replace(tzinfo=None)
>>> p = pickle.dumps(dt, 1)
>>> naive_p = pickle.dumps(naive, 1)
>>> len(p) - len(naive_p)
17
>>> new = pickle.loads(p)
>>> new == dt
True
>>> new is dt
False
>>> new.tzinfo is dt.tzinfo
True
>>> utc is UTC is timezone('UTC')
True
>>> utc is timezone('GMT')
False
"""
return utc
_UTC.__safe_for_unpickling__ = True
def _p(*args):
"""Factory function for unpickling pytz tzinfo instances.
Just a wrapper around tzinfo.unpickler to save a few bytes in each pickle
by shortening the path.
"""
return unpickler(*args)
_p.__safe_for_unpickling__ = True
class _CountryTimezoneDict(LazyDict):
"""Map ISO 3166 country code to a list of timezone names commonly used
in that country.
iso3166_code is the two letter code used to identify the country.
>>> def print_list(list_of_strings):
... 'We use a helper so doctests work under Python 2.3 -> 3.x'
... for s in list_of_strings:
... print(s)
>>> print_list(country_timezones['nz'])
Pacific/Auckland
Pacific/Chatham
>>> print_list(country_timezones['ch'])
Europe/Zurich
>>> print_list(country_timezones['CH'])
Europe/Zurich
>>> print_list(country_timezones[unicode('ch')])
Europe/Zurich
>>> print_list(country_timezones['XXX'])
Traceback (most recent call last):
...
KeyError: 'XXX'
Previously, this information was exposed as a function rather than a
dictionary. This is still supported::
>>> print_list(country_timezones('nz'))
Pacific/Auckland
Pacific/Chatham
"""
def __call__(self, iso3166_code):
"""Backwards compatibility."""
return self[iso3166_code]
def _fill(self):
data = {}
zone_tab = open_resource('zone.tab')
try:
for line in zone_tab:
line = line.decode('UTF-8')
if line.startswith('#'):
continue
code, coordinates, zone = line.split(None, 4)[:3]
if zone not in all_timezones_set: # noqa
continue
try:
data[code].append(zone)
except KeyError:
data[code] = [zone]
self.data = data
finally:
zone_tab.close()
country_timezones = _CountryTimezoneDict()
class _CountryNameDict(LazyDict):
'''Dictionary proving ISO3166 code -> English name.
>>> print(country_names['au'])
Australia
'''
def _fill(self):
data = {}
zone_tab = open_resource('iso3166.tab')
try:
for line in zone_tab.readlines():
line = line.decode('UTF-8')
if line.startswith('#'):
continue
code, name = line.split(None, 1)
data[code] = name.strip()
self.data = data
finally:
zone_tab.close()
country_names = _CountryNameDict()
# Time-zone info based solely on fixed offsets
class _FixedOffset(datetime.tzinfo):
zone = None # to match the standard pytz API
def __init__(self, minutes):
if abs(minutes) >= 1440:
raise ValueError("absolute offset is too large", minutes)
self._minutes = minutes
self._offset = datetime.timedelta(minutes=minutes)
def utcoffset(self, dt):
return self._offset
def __reduce__(self):
return FixedOffset, (self._minutes, )
def dst(self, dt):
return ZERO
def tzname(self, dt):
return None
def __repr__(self):
return 'pytz.FixedOffset(%d)' % self._minutes
def localize(self, dt, is_dst=False):
'''Convert naive time to local time'''
if dt.tzinfo is not None:
raise ValueError('Not naive datetime (tzinfo is already set)')
return dt.replace(tzinfo=self)
def normalize(self, dt, is_dst=False):
'''Correct the timezone information on the given datetime'''
if dt.tzinfo is self:
return dt
if dt.tzinfo is None:
raise ValueError('Naive time - no tzinfo set')
return dt.astimezone(self)
def FixedOffset(offset, _tzinfos={}):
"""return a fixed-offset timezone based off a number of minutes.
>>> one = FixedOffset(-330)
>>> one
pytz.FixedOffset(-330)
>>> str(one.utcoffset(datetime.datetime.now()))
'-1 day, 18:30:00'
>>> str(one.dst(datetime.datetime.now()))
'0:00:00'
>>> two = FixedOffset(1380)
>>> two
pytz.FixedOffset(1380)
>>> str(two.utcoffset(datetime.datetime.now()))
'23:00:00'
>>> str(two.dst(datetime.datetime.now()))
'0:00:00'
The datetime.timedelta must be between the range of -1 and 1 day,
non-inclusive.
>>> FixedOffset(1440)
Traceback (most recent call last):
...
ValueError: ('absolute offset is too large', 1440)
>>> FixedOffset(-1440)
Traceback (most recent call last):
...
ValueError: ('absolute offset is too large', -1440)
An offset of 0 is special-cased to return UTC.
>>> FixedOffset(0) is UTC
True
There should always be only one instance of a FixedOffset per timedelta.
This should be true for multiple creation calls.
>>> FixedOffset(-330) is one
True
>>> FixedOffset(1380) is two
True
It should also be true for pickling.
>>> import pickle
>>> pickle.loads(pickle.dumps(one)) is one
True
>>> pickle.loads(pickle.dumps(two)) is two
True
"""
if offset == 0:
return UTC
info = _tzinfos.get(offset)
if info is None:
# We haven't seen this one before. we need to save it.
# Use setdefault to avoid a race condition and make sure we have
# only one
info = _tzinfos.setdefault(offset, _FixedOffset(offset))
return info
FixedOffset.__safe_for_unpickling__ = True
def _test():
import doctest
sys.path.insert(0, os.pardir)
import pytz
return doctest.testmod(pytz)
if __name__ == '__main__':
_test()
_all_timezones_unchecked = \
['Africa/Abidjan',
'Africa/Accra',
'Africa/Addis_Ababa',
'Africa/Algiers',
'Africa/Asmara',
'Africa/Asmera',
'Africa/Bamako',
'Africa/Bangui',
'Africa/Banjul',
'Africa/Bissau',
'Africa/Blantyre',
'Africa/Brazzaville',
'Africa/Bujumbura',
'Africa/Cairo',
'Africa/Casablanca',
'Africa/Ceuta',
'Africa/Conakry',
'Africa/Dakar',
'Africa/Dar_es_Salaam',
'Africa/Djibouti',
'Africa/Douala',
'Africa/El_Aaiun',
'Africa/Freetown',
'Africa/Gaborone',
'Africa/Harare',
'Africa/Johannesburg',
'Africa/Juba',
'Africa/Kampala',
'Africa/Khartoum',
'Africa/Kigali',
'Africa/Kinshasa',
'Africa/Lagos',
'Africa/Libreville',
'Africa/Lome',
'Africa/Luanda',
'Africa/Lubumbashi',
'Africa/Lusaka',
'Africa/Malabo',
'Africa/Maputo',
'Africa/Maseru',
'Africa/Mbabane',
'Africa/Mogadishu',
'Africa/Monrovia',
'Africa/Nairobi',
'Africa/Ndjamena',
'Africa/Niamey',
'Africa/Nouakchott',
'Africa/Ouagadougou',
'Africa/Porto-Novo',
'Africa/Sao_Tome',
'Africa/Timbuktu',
'Africa/Tripoli',
'Africa/Tunis',
'Africa/Windhoek',
'America/Adak',
'America/Anchorage',
'America/Anguilla',
'America/Antigua',
'America/Araguaina',
'America/Argentina/Buenos_Aires',
'America/Argentina/Catamarca',
'America/Argentina/ComodRivadavia',
'America/Argentina/Cordoba',
'America/Argentina/Jujuy',
'America/Argentina/La_Rioja',
'America/Argentina/Mendoza',
'America/Argentina/Rio_Gallegos',
'America/Argentina/Salta',
'America/Argentina/San_Juan',
'America/Argentina/San_Luis',
'America/Argentina/Tucuman',
'America/Argentina/Ushuaia',
'America/Aruba',
'America/Asuncion',
'America/Atikokan',
'America/Atka',
'America/Bahia',
'America/Bahia_Banderas',
'America/Barbados',
'America/Belem',
'America/Belize',
'America/Blanc-Sablon',
'America/Boa_Vista',
'America/Bogota',
'America/Boise',
'America/Buenos_Aires',
'America/Cambridge_Bay',
'America/Campo_Grande',
'America/Cancun',
'America/Caracas',
'America/Catamarca',
'America/Cayenne',
'America/Cayman',
'America/Chicago',
'America/Chihuahua',
'America/Ciudad_Juarez',
'America/Coral_Harbour',
'America/Cordoba',
'America/Costa_Rica',
'America/Creston',
'America/Cuiaba',
'America/Curacao',
'America/Danmarkshavn',
'America/Dawson',
'America/Dawson_Creek',
'America/Denver',
'America/Detroit',
'America/Dominica',
'America/Edmonton',
'America/Eirunepe',
'America/El_Salvador',
'America/Ensenada',
'America/Fort_Nelson',
'America/Fort_Wayne',
'America/Fortaleza',
'America/Glace_Bay',
'America/Godthab',
'America/Goose_Bay',
'America/Grand_Turk',
'America/Grenada',
'America/Guadeloupe',
'America/Guatemala',
'America/Guayaquil',
'America/Guyana',
'America/Halifax',
'America/Havana',
'America/Hermosillo',
'America/Indiana/Indianapolis',
'America/Indiana/Knox',
'America/Indiana/Marengo',
'America/Indiana/Petersburg',
'America/Indiana/Tell_City',
'America/Indiana/Vevay',
'America/Indiana/Vincennes',
'America/Indiana/Winamac',
'America/Indianapolis',
'America/Inuvik',
'America/Iqaluit',
'America/Jamaica',
'America/Jujuy',
'America/Juneau',
'America/Kentucky/Louisville',
'America/Kentucky/Monticello',
'America/Knox_IN',
'America/Kralendijk',
'America/La_Paz',
'America/Lima',
'America/Los_Angeles',
'America/Louisville',
'America/Lower_Princes',
'America/Maceio',
'America/Managua',
'America/Manaus',
'America/Marigot',
'America/Martinique',
'America/Matamoros',
'America/Mazatlan',
'America/Mendoza',
'America/Menominee',
'America/Merida',
'America/Metlakatla',
'America/Mexico_City',
'America/Miquelon',
'America/Moncton',
'America/Monterrey',
'America/Montevideo',
'America/Montreal',
'America/Montserrat',
'America/Nassau',
'America/New_York',
'America/Nipigon',
'America/Nome',
'America/Noronha',
'America/North_Dakota/Beulah',
'America/North_Dakota/Center',
'America/North_Dakota/New_Salem',
'America/Nuuk',
'America/Ojinaga',
'America/Panama',
'America/Pangnirtung',
'America/Paramaribo',
'America/Phoenix',
'America/Port-au-Prince',
'America/Port_of_Spain',
'America/Porto_Acre',
'America/Porto_Velho',
'America/Puerto_Rico',
'America/Punta_Arenas',
'America/Rainy_River',
'America/Rankin_Inlet',
'America/Recife',
'America/Regina',
'America/Resolute',
'America/Rio_Branco',
'America/Rosario',
'America/Santa_Isabel',
'America/Santarem',
'America/Santiago',
'America/Santo_Domingo',
'America/Sao_Paulo',
'America/Scoresbysund',
'America/Shiprock',
'America/Sitka',
'America/St_Barthelemy',
'America/St_Johns',
'America/St_Kitts',
'America/St_Lucia',
'America/St_Thomas',
'America/St_Vincent',
'America/Swift_Current',
'America/Tegucigalpa',
'America/Thule',
'America/Thunder_Bay',
'America/Tijuana',
'America/Toronto',
'America/Tortola',
'America/Vancouver',
'America/Virgin',
'America/Whitehorse',
'America/Winnipeg',
'America/Yakutat',
'America/Yellowknife',
'Antarctica/Casey',
'Antarctica/Davis',
'Antarctica/DumontDUrville',
'Antarctica/Macquarie',
'Antarctica/Mawson',
'Antarctica/McMurdo',
'Antarctica/Palmer',
'Antarctica/Rothera',
'Antarctica/South_Pole',
'Antarctica/Syowa',
'Antarctica/Troll',
'Antarctica/Vostok',
'Arctic/Longyearbyen',
'Asia/Aden',
'Asia/Almaty',
'Asia/Amman',
'Asia/Anadyr',
'Asia/Aqtau',
'Asia/Aqtobe',
'Asia/Ashgabat',
'Asia/Ashkhabad',
'Asia/Atyrau',
'Asia/Baghdad',
'Asia/Bahrain',
'Asia/Baku',
'Asia/Bangkok',
'Asia/Barnaul',
'Asia/Beirut',
'Asia/Bishkek',
'Asia/Brunei',
'Asia/Calcutta',
'Asia/Chita',
'Asia/Choibalsan',
'Asia/Chongqing',
'Asia/Chungking',
'Asia/Colombo',
'Asia/Dacca',
'Asia/Damascus',
'Asia/Dhaka',
'Asia/Dili',
'Asia/Dubai',
'Asia/Dushanbe',
'Asia/Famagusta',
'Asia/Gaza',
'Asia/Harbin',
'Asia/Hebron',
'Asia/Ho_Chi_Minh',
'Asia/Hong_Kong',
'Asia/Hovd',
'Asia/Irkutsk',
'Asia/Istanbul',
'Asia/Jakarta',
'Asia/Jayapura',
'Asia/Jerusalem',
'Asia/Kabul',
'Asia/Kamchatka',
'Asia/Karachi',
'Asia/Kashgar',
'Asia/Kathmandu',
'Asia/Katmandu',
'Asia/Khandyga',
'Asia/Kolkata',
'Asia/Krasnoyarsk',
'Asia/Kuala_Lumpur',
'Asia/Kuching',
'Asia/Kuwait',
'Asia/Macao',
'Asia/Macau',
'Asia/Magadan',
'Asia/Makassar',
'Asia/Manila',
'Asia/Muscat',
'Asia/Nicosia',
'Asia/Novokuznetsk',
'Asia/Novosibirsk',
'Asia/Omsk',
'Asia/Oral',
'Asia/Phnom_Penh',
'Asia/Pontianak',
'Asia/Pyongyang',
'Asia/Qatar',
'Asia/Qostanay',
'Asia/Qyzylorda',
'Asia/Rangoon',
'Asia/Riyadh',
'Asia/Saigon',
'Asia/Sakhalin',
'Asia/Samarkand',
'Asia/Seoul',
'Asia/Shanghai',
'Asia/Singapore',
'Asia/Srednekolymsk',
'Asia/Taipei',
'Asia/Tashkent',
'Asia/Tbilisi',
'Asia/Tehran',
'Asia/Tel_Aviv',
'Asia/Thimbu',
'Asia/Thimphu',
'Asia/Tokyo',
'Asia/Tomsk',
'Asia/Ujung_Pandang',
'Asia/Ulaanbaatar',
'Asia/Ulan_Bator',
'Asia/Urumqi',
'Asia/Ust-Nera',
'Asia/Vientiane',
'Asia/Vladivostok',
'Asia/Yakutsk',
'Asia/Yangon',
'Asia/Yekaterinburg',
'Asia/Yerevan',
'Atlantic/Azores',
'Atlantic/Bermuda',
'Atlantic/Canary',
'Atlantic/Cape_Verde',
'Atlantic/Faeroe',
'Atlantic/Faroe',
'Atlantic/Jan_Mayen',
'Atlantic/Madeira',
'Atlantic/Reykjavik',
'Atlantic/South_Georgia',
'Atlantic/St_Helena',
'Atlantic/Stanley',
'Australia/ACT',
'Australia/Adelaide',
'Australia/Brisbane',
'Australia/Broken_Hill',
'Australia/Canberra',
'Australia/Currie',
'Australia/Darwin',
'Australia/Eucla',
'Australia/Hobart',
'Australia/LHI',
'Australia/Lindeman',
'Australia/Lord_Howe',
'Australia/Melbourne',
'Australia/NSW',
'Australia/North',
'Australia/Perth',
'Australia/Queensland',
'Australia/South',
'Australia/Sydney',
'Australia/Tasmania',
'Australia/Victoria',
'Australia/West',
'Australia/Yancowinna',
'Brazil/Acre',
'Brazil/DeNoronha',
'Brazil/East',
'Brazil/West',
'CET',
'CST6CDT',
'Canada/Atlantic',
'Canada/Central',
'Canada/Eastern',
'Canada/Mountain',
'Canada/Newfoundland',
'Canada/Pacific',
'Canada/Saskatchewan',
'Canada/Yukon',
'Chile/Continental',
'Chile/EasterIsland',
'Cuba',
'EET',
'EST',
'EST5EDT',
'Egypt',
'Eire',
'Etc/GMT',
'Etc/GMT+0',
'Etc/GMT+1',
'Etc/GMT+10',
'Etc/GMT+11',
'Etc/GMT+12',
'Etc/GMT+2',
'Etc/GMT+3',
'Etc/GMT+4',
'Etc/GMT+5',
'Etc/GMT+6',
'Etc/GMT+7',
'Etc/GMT+8',
'Etc/GMT+9',
'Etc/GMT-0',
'Etc/GMT-1',
'Etc/GMT-10',
'Etc/GMT-11',
'Etc/GMT-12',
'Etc/GMT-13',
'Etc/GMT-14',
'Etc/GMT-2',
'Etc/GMT-3',
'Etc/GMT-4',
'Etc/GMT-5',
'Etc/GMT-6',
'Etc/GMT-7',
'Etc/GMT-8',
'Etc/GMT-9',
'Etc/GMT0',
'Etc/Greenwich',
'Etc/UCT',
'Etc/UTC',
'Etc/Universal',
'Etc/Zulu',
'Europe/Amsterdam',
'Europe/Andorra',
'Europe/Astrakhan',
'Europe/Athens',
'Europe/Belfast',
'Europe/Belgrade',
'Europe/Berlin',
'Europe/Bratislava',
'Europe/Brussels',
'Europe/Bucharest',
'Europe/Budapest',
'Europe/Busingen',
'Europe/Chisinau',
'Europe/Copenhagen',
'Europe/Dublin',
'Europe/Gibraltar',
'Europe/Guernsey',
'Europe/Helsinki',
'Europe/Isle_of_Man',
'Europe/Istanbul',
'Europe/Jersey',
'Europe/Kaliningrad',
'Europe/Kiev',
'Europe/Kirov',
'Europe/Kyiv',
'Europe/Lisbon',
'Europe/Ljubljana',
'Europe/London',
'Europe/Luxembourg',
'Europe/Madrid',
'Europe/Malta',
'Europe/Mariehamn',
'Europe/Minsk',
'Europe/Monaco',
'Europe/Moscow',
'Europe/Nicosia',
'Europe/Oslo',
'Europe/Paris',
'Europe/Podgorica',
'Europe/Prague',
'Europe/Riga',
'Europe/Rome',
'Europe/Samara',
'Europe/San_Marino',
'Europe/Sarajevo',
'Europe/Saratov',
'Europe/Simferopol',
'Europe/Skopje',
'Europe/Sofia',
'Europe/Stockholm',
'Europe/Tallinn',
'Europe/Tirane',
'Europe/Tiraspol',
'Europe/Ulyanovsk',
'Europe/Uzhgorod',
'Europe/Vaduz',
'Europe/Vatican',
'Europe/Vienna',
'Europe/Vilnius',
'Europe/Volgograd',
'Europe/Warsaw',
'Europe/Zagreb',
'Europe/Zaporozhye',
'Europe/Zurich',
'GB',
'GB-Eire',
'GMT',
'GMT+0',
'GMT-0',
'GMT0',
'Greenwich',
'HST',
'Hongkong',
'Iceland',
'Indian/Antananarivo',
'Indian/Chagos',
'Indian/Christmas',
'Indian/Cocos',
'Indian/Comoro',
'Indian/Kerguelen',
'Indian/Mahe',
'Indian/Maldives',
'Indian/Mauritius',
'Indian/Mayotte',
'Indian/Reunion',
'Iran',
'Israel',
'Jamaica',
'Japan',
'Kwajalein',
'Libya',
'MET',
'MST',
'MST7MDT',
'Mexico/BajaNorte',
'Mexico/BajaSur',
'Mexico/General',
'NZ',
'NZ-CHAT',
'Navajo',
'PRC',
'PST8PDT',
'Pacific/Apia',
'Pacific/Auckland',
'Pacific/Bougainville',
'Pacific/Chatham',
'Pacific/Chuuk',
'Pacific/Easter',
'Pacific/Efate',
'Pacific/Enderbury',
'Pacific/Fakaofo',
'Pacific/Fiji',
'Pacific/Funafuti',
'Pacific/Galapagos',
'Pacific/Gambier',
'Pacific/Guadalcanal',
'Pacific/Guam',
'Pacific/Honolulu',
'Pacific/Johnston',
'Pacific/Kanton',
'Pacific/Kiritimati',
'Pacific/Kosrae',
'Pacific/Kwajalein',
'Pacific/Majuro',
'Pacific/Marquesas',
'Pacific/Midway',
'Pacific/Nauru',
'Pacific/Niue',
'Pacific/Norfolk',
'Pacific/Noumea',
'Pacific/Pago_Pago',
'Pacific/Palau',
'Pacific/Pitcairn',
'Pacific/Pohnpei',
'Pacific/Ponape',
'Pacific/Port_Moresby',
'Pacific/Rarotonga',
'Pacific/Saipan',
'Pacific/Samoa',
'Pacific/Tahiti',
'Pacific/Tarawa',
'Pacific/Tongatapu',
'Pacific/Truk',
'Pacific/Wake',
'Pacific/Wallis',
'Pacific/Yap',
'Poland',
'Portugal',
'ROC',
'ROK',
'Singapore',
'Turkey',
'UCT',
'US/Alaska',
'US/Aleutian',
'US/Arizona',
'US/Central',
'US/East-Indiana',
'US/Eastern',
'US/Hawaii',
'US/Indiana-Starke',
'US/Michigan',
'US/Mountain',
'US/Pacific',
'US/Samoa',
'UTC',
'Universal',
'W-SU',
'WET',
'Zulu']
all_timezones = LazyList(
tz for tz in _all_timezones_unchecked if resource_exists(tz))
all_timezones_set = LazySet(all_timezones)
common_timezones = \
['Africa/Abidjan',
'Africa/Accra',
'Africa/Addis_Ababa',
'Africa/Algiers',
'Africa/Asmara',
'Africa/Bamako',
'Africa/Bangui',
'Africa/Banjul',
'Africa/Bissau',
'Africa/Blantyre',
'Africa/Brazzaville',
'Africa/Bujumbura',
'Africa/Cairo',
'Africa/Casablanca',
'Africa/Ceuta',
'Africa/Conakry',
'Africa/Dakar',
'Africa/Dar_es_Salaam',
'Africa/Djibouti',
'Africa/Douala',
'Africa/El_Aaiun',
'Africa/Freetown',
'Africa/Gaborone',
'Africa/Harare',
'Africa/Johannesburg',
'Africa/Juba',
'Africa/Kampala',
'Africa/Khartoum',
'Africa/Kigali',
'Africa/Kinshasa',
'Africa/Lagos',
'Africa/Libreville',
'Africa/Lome',
'Africa/Luanda',
'Africa/Lubumbashi',
'Africa/Lusaka',
'Africa/Malabo',
'Africa/Maputo',
'Africa/Maseru',
'Africa/Mbabane',
'Africa/Mogadishu',
'Africa/Monrovia',
'Africa/Nairobi',
'Africa/Ndjamena',
'Africa/Niamey',
'Africa/Nouakchott',
'Africa/Ouagadougou',
'Africa/Porto-Novo',
'Africa/Sao_Tome',
'Africa/Tripoli',
'Africa/Tunis',
'Africa/Windhoek',
'America/Adak',
'America/Anchorage',
'America/Anguilla',
'America/Antigua',
'America/Araguaina',
'America/Argentina/Buenos_Aires',
'America/Argentina/Catamarca',
'America/Argentina/Cordoba',
'America/Argentina/Jujuy',
'America/Argentina/La_Rioja',
'America/Argentina/Mendoza',
'America/Argentina/Rio_Gallegos',
'America/Argentina/Salta',
'America/Argentina/San_Juan',
'America/Argentina/San_Luis',
'America/Argentina/Tucuman',
'America/Argentina/Ushuaia',
'America/Aruba',
'America/Asuncion',
'America/Atikokan',
'America/Bahia',
'America/Bahia_Banderas',
'America/Barbados',
'America/Belem',
'America/Belize',
'America/Blanc-Sablon',
'America/Boa_Vista',
'America/Bogota',
'America/Boise',
'America/Cambridge_Bay',
'America/Campo_Grande',
'America/Cancun',
'America/Caracas',
'America/Cayenne',
'America/Cayman',
'America/Chicago',
'America/Chihuahua',
'America/Ciudad_Juarez',
'America/Costa_Rica',
'America/Creston',
'America/Cuiaba',
'America/Curacao',
'America/Danmarkshavn',
'America/Dawson',
'America/Dawson_Creek',
'America/Denver',
'America/Detroit',
'America/Dominica',
'America/Edmonton',
'America/Eirunepe',
'America/El_Salvador',
'America/Fort_Nelson',
'America/Fortaleza',
'America/Glace_Bay',
'America/Goose_Bay',
'America/Grand_Turk',
'America/Grenada',
'America/Guadeloupe',
'America/Guatemala',
'America/Guayaquil',
'America/Guyana',
'America/Halifax',
'America/Havana',
'America/Hermosillo',
'America/Indiana/Indianapolis',
'America/Indiana/Knox',
'America/Indiana/Marengo',
'America/Indiana/Petersburg',
'America/Indiana/Tell_City',
'America/Indiana/Vevay',
'America/Indiana/Vincennes',
'America/Indiana/Winamac',
'America/Inuvik',
'America/Iqaluit',
'America/Jamaica',
'America/Juneau',
'America/Kentucky/Louisville',
'America/Kentucky/Monticello',
'America/Kralendijk',
'America/La_Paz',
'America/Lima',
'America/Los_Angeles',
'America/Lower_Princes',
'America/Maceio',
'America/Managua',
'America/Manaus',
'America/Marigot',
'America/Martinique',
'America/Matamoros',
'America/Mazatlan',
'America/Menominee',
'America/Merida',
'America/Metlakatla',
'America/Mexico_City',
'America/Miquelon',
'America/Moncton',
'America/Monterrey',
'America/Montevideo',
'America/Montserrat',
'America/Nassau',
'America/New_York',
'America/Nome',
'America/Noronha',
'America/North_Dakota/Beulah',
'America/North_Dakota/Center',
'America/North_Dakota/New_Salem',
'America/Nuuk',
'America/Ojinaga',
'America/Panama',
'America/Paramaribo',
'America/Phoenix',
'America/Port-au-Prince',
'America/Port_of_Spain',
'America/Porto_Velho',
'America/Puerto_Rico',
'America/Punta_Arenas',
'America/Rankin_Inlet',
'America/Recife',
'America/Regina',
'America/Resolute',
'America/Rio_Branco',
'America/Santarem',
'America/Santiago',
'America/Santo_Domingo',
'America/Sao_Paulo',
'America/Scoresbysund',
'America/Sitka',
'America/St_Barthelemy',
'America/St_Johns',
'America/St_Kitts',
'America/St_Lucia',
'America/St_Thomas',
'America/St_Vincent',
'America/Swift_Current',
'America/Tegucigalpa',
'America/Thule',
'America/Tijuana',
'America/Toronto',
'America/Tortola',
'America/Vancouver',
'America/Whitehorse',
'America/Winnipeg',
'America/Yakutat',
'America/Yellowknife',
'Antarctica/Casey',
'Antarctica/Davis',
'Antarctica/DumontDUrville',
'Antarctica/Macquarie',
'Antarctica/Mawson',
'Antarctica/McMurdo',
'Antarctica/Palmer',
'Antarctica/Rothera',
'Antarctica/Syowa',
'Antarctica/Troll',
'Antarctica/Vostok',
'Arctic/Longyearbyen',
'Asia/Aden',
'Asia/Almaty',
'Asia/Amman',
'Asia/Anadyr',
'Asia/Aqtau',
'Asia/Aqtobe',
'Asia/Ashgabat',
'Asia/Atyrau',
'Asia/Baghdad',
'Asia/Bahrain',
'Asia/Baku',
'Asia/Bangkok',
'Asia/Barnaul',
'Asia/Beirut',
'Asia/Bishkek',
'Asia/Brunei',
'Asia/Chita',
'Asia/Choibalsan',
'Asia/Colombo',
'Asia/Damascus',
'Asia/Dhaka',
'Asia/Dili',
'Asia/Dubai',
'Asia/Dushanbe',
'Asia/Famagusta',
'Asia/Gaza',
'Asia/Hebron',
'Asia/Ho_Chi_Minh',
'Asia/Hong_Kong',
'Asia/Hovd',
'Asia/Irkutsk',
'Asia/Jakarta',
'Asia/Jayapura',
'Asia/Jerusalem',
'Asia/Kabul',
'Asia/Kamchatka',
'Asia/Karachi',
'Asia/Kathmandu',
'Asia/Khandyga',
'Asia/Kolkata',
'Asia/Krasnoyarsk',
'Asia/Kuala_Lumpur',
'Asia/Kuching',
'Asia/Kuwait',
'Asia/Macau',
'Asia/Magadan',
'Asia/Makassar',
'Asia/Manila',
'Asia/Muscat',
'Asia/Nicosia',
'Asia/Novokuznetsk',
'Asia/Novosibirsk',
'Asia/Omsk',
'Asia/Oral',
'Asia/Phnom_Penh',
'Asia/Pontianak',
'Asia/Pyongyang',
'Asia/Qatar',
'Asia/Qostanay',
'Asia/Qyzylorda',
'Asia/Riyadh',
'Asia/Sakhalin',
'Asia/Samarkand',
'Asia/Seoul',
'Asia/Shanghai',
'Asia/Singapore',
'Asia/Srednekolymsk',
'Asia/Taipei',
'Asia/Tashkent',
'Asia/Tbilisi',
'Asia/Tehran',
'Asia/Thimphu',
'Asia/Tokyo',
'Asia/Tomsk',
'Asia/Ulaanbaatar',
'Asia/Urumqi',
'Asia/Ust-Nera',
'Asia/Vientiane',
'Asia/Vladivostok',
'Asia/Yakutsk',
'Asia/Yangon',
'Asia/Yekaterinburg',
'Asia/Yerevan',
'Atlantic/Azores',
'Atlantic/Bermuda',
'Atlantic/Canary',
'Atlantic/Cape_Verde',
'Atlantic/Faroe',
'Atlantic/Madeira',
'Atlantic/Reykjavik',
'Atlantic/South_Georgia',
'Atlantic/St_Helena',
'Atlantic/Stanley',
'Australia/Adelaide',
'Australia/Brisbane',
'Australia/Broken_Hill',
'Australia/Darwin',
'Australia/Eucla',
'Australia/Hobart',
'Australia/Lindeman',
'Australia/Lord_Howe',
'Australia/Melbourne',
'Australia/Perth',
'Australia/Sydney',
'Canada/Atlantic',
'Canada/Central',
'Canada/Eastern',
'Canada/Mountain',
'Canada/Newfoundland',
'Canada/Pacific',
'Europe/Amsterdam',
'Europe/Andorra',
'Europe/Astrakhan',
'Europe/Athens',
'Europe/Belgrade',
'Europe/Berlin',
'Europe/Bratislava',
'Europe/Brussels',
'Europe/Bucharest',
'Europe/Budapest',
'Europe/Busingen',
'Europe/Chisinau',
'Europe/Copenhagen',
'Europe/Dublin',
'Europe/Gibraltar',
'Europe/Guernsey',
'Europe/Helsinki',
'Europe/Isle_of_Man',
'Europe/Istanbul',
'Europe/Jersey',
'Europe/Kaliningrad',
'Europe/Kirov',
'Europe/Kyiv',
'Europe/Lisbon',
'Europe/Ljubljana',
'Europe/London',
'Europe/Luxembourg',
'Europe/Madrid',
'Europe/Malta',
'Europe/Mariehamn',
'Europe/Minsk',
'Europe/Monaco',
'Europe/Moscow',
'Europe/Oslo',
'Europe/Paris',
'Europe/Podgorica',
'Europe/Prague',
'Europe/Riga',
'Europe/Rome',
'Europe/Samara',
'Europe/San_Marino',
'Europe/Sarajevo',
'Europe/Saratov',
'Europe/Simferopol',
'Europe/Skopje',
'Europe/Sofia',
'Europe/Stockholm',
'Europe/Tallinn',
'Europe/Tirane',
'Europe/Ulyanovsk',
'Europe/Vaduz',
'Europe/Vatican',
'Europe/Vienna',
'Europe/Vilnius',
'Europe/Volgograd',
'Europe/Warsaw',
'Europe/Zagreb',
'Europe/Zurich',
'GMT',
'Indian/Antananarivo',
'Indian/Chagos',
'Indian/Christmas',
'Indian/Cocos',
'Indian/Comoro',
'Indian/Kerguelen',
'Indian/Mahe',
'Indian/Maldives',
'Indian/Mauritius',
'Indian/Mayotte',
'Indian/Reunion',
'Pacific/Apia',
'Pacific/Auckland',
'Pacific/Bougainville',
'Pacific/Chatham',
'Pacific/Chuuk',
'Pacific/Easter',
'Pacific/Efate',
'Pacific/Fakaofo',
'Pacific/Fiji',
'Pacific/Funafuti',
'Pacific/Galapagos',
'Pacific/Gambier',
'Pacific/Guadalcanal',
'Pacific/Guam',
'Pacific/Honolulu',
'Pacific/Kanton',
'Pacific/Kiritimati',
'Pacific/Kosrae',
'Pacific/Kwajalein',
'Pacific/Majuro',
'Pacific/Marquesas',
'Pacific/Midway',
'Pacific/Nauru',
'Pacific/Niue',
'Pacific/Norfolk',
'Pacific/Noumea',
'Pacific/Pago_Pago',
'Pacific/Palau',
'Pacific/Pitcairn',
'Pacific/Pohnpei',
'Pacific/Port_Moresby',
'Pacific/Rarotonga',
'Pacific/Saipan',
'Pacific/Tahiti',
'Pacific/Tarawa',
'Pacific/Tongatapu',
'Pacific/Wake',
'Pacific/Wallis',
'US/Alaska',
'US/Arizona',
'US/Central',
'US/Eastern',
'US/Hawaii',
'US/Mountain',
'US/Pacific',
'UTC']
common_timezones = LazyList(
tz for tz in common_timezones if tz in all_timezones)
common_timezones_set = LazySet(common_timezones)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pytz/tzfile.py | '''
$Id: tzfile.py,v 1.8 2004/06/03 00:15:24 zenzen Exp $
'''
from datetime import datetime
from struct import unpack, calcsize
from pytz.tzinfo import StaticTzInfo, DstTzInfo, memorized_ttinfo
from pytz.tzinfo import memorized_datetime, memorized_timedelta
def _byte_string(s):
"""Cast a string or byte string to an ASCII byte string."""
return s.encode('ASCII')
_NULL = _byte_string('\0')
def _std_string(s):
"""Cast a string or byte string to an ASCII string."""
return str(s.decode('ASCII'))
def build_tzinfo(zone, fp):
head_fmt = '>4s c 15x 6l'
head_size = calcsize(head_fmt)
(magic, format, ttisgmtcnt, ttisstdcnt, leapcnt, timecnt,
typecnt, charcnt) = unpack(head_fmt, fp.read(head_size))
# Make sure it is a tzfile(5) file
assert magic == _byte_string('TZif'), 'Got magic %s' % repr(magic)
# Read out the transition times, localtime indices and ttinfo structures.
data_fmt = '>%(timecnt)dl %(timecnt)dB %(ttinfo)s %(charcnt)ds' % dict(
timecnt=timecnt, ttinfo='lBB' * typecnt, charcnt=charcnt)
data_size = calcsize(data_fmt)
data = unpack(data_fmt, fp.read(data_size))
# make sure we unpacked the right number of values
assert len(data) == 2 * timecnt + 3 * typecnt + 1
transitions = [memorized_datetime(trans)
for trans in data[:timecnt]]
lindexes = list(data[timecnt:2 * timecnt])
ttinfo_raw = data[2 * timecnt:-1]
tznames_raw = data[-1]
del data
# Process ttinfo into separate structs
ttinfo = []
tznames = {}
i = 0
while i < len(ttinfo_raw):
# have we looked up this timezone name yet?
tzname_offset = ttinfo_raw[i + 2]
if tzname_offset not in tznames:
nul = tznames_raw.find(_NULL, tzname_offset)
if nul < 0:
nul = len(tznames_raw)
tznames[tzname_offset] = _std_string(
tznames_raw[tzname_offset:nul])
ttinfo.append((ttinfo_raw[i],
bool(ttinfo_raw[i + 1]),
tznames[tzname_offset]))
i += 3
# Now build the timezone object
if len(ttinfo) == 1 or len(transitions) == 0:
ttinfo[0][0], ttinfo[0][2]
cls = type(zone, (StaticTzInfo,), dict(
zone=zone,
_utcoffset=memorized_timedelta(ttinfo[0][0]),
_tzname=ttinfo[0][2]))
else:
# Early dates use the first standard time ttinfo
i = 0
while ttinfo[i][1]:
i += 1
if ttinfo[i] == ttinfo[lindexes[0]]:
transitions[0] = datetime.min
else:
transitions.insert(0, datetime.min)
lindexes.insert(0, i)
# calculate transition info
transition_info = []
for i in range(len(transitions)):
inf = ttinfo[lindexes[i]]
utcoffset = inf[0]
if not inf[1]:
dst = 0
else:
for j in range(i - 1, -1, -1):
prev_inf = ttinfo[lindexes[j]]
if not prev_inf[1]:
break
dst = inf[0] - prev_inf[0] # dst offset
# Bad dst? Look further. DST > 24 hours happens when
# a timzone has moved across the international dateline.
if dst <= 0 or dst > 3600 * 3:
for j in range(i + 1, len(transitions)):
stdinf = ttinfo[lindexes[j]]
if not stdinf[1]:
dst = inf[0] - stdinf[0]
if dst > 0:
break # Found a useful std time.
tzname = inf[2]
# Round utcoffset and dst to the nearest minute or the
# datetime library will complain. Conversions to these timezones
# might be up to plus or minus 30 seconds out, but it is
# the best we can do.
utcoffset = int((utcoffset + 30) // 60) * 60
dst = int((dst + 30) // 60) * 60
transition_info.append(memorized_ttinfo(utcoffset, dst, tzname))
cls = type(zone, (DstTzInfo,), dict(
zone=zone,
_utc_transition_times=transitions,
_transition_info=transition_info))
return cls()
if __name__ == '__main__':
import os.path
from pprint import pprint
base = os.path.join(os.path.dirname(__file__), 'zoneinfo')
tz = build_tzinfo('Australia/Melbourne',
open(os.path.join(base, 'Australia', 'Melbourne'), 'rb'))
tz = build_tzinfo('US/Eastern',
open(os.path.join(base, 'US', 'Eastern'), 'rb'))
pprint(tz._utc_transition_times)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pytz/lazy.py | from threading import RLock
try:
from collections.abc import Mapping as DictMixin
except ImportError: # Python < 3.3
try:
from UserDict import DictMixin # Python 2
except ImportError: # Python 3.0-3.3
from collections import Mapping as DictMixin
# With lazy loading, we might end up with multiple threads triggering
# it at the same time. We need a lock.
_fill_lock = RLock()
class LazyDict(DictMixin):
"""Dictionary populated on first use."""
data = None
def __getitem__(self, key):
if self.data is None:
_fill_lock.acquire()
try:
if self.data is None:
self._fill()
finally:
_fill_lock.release()
return self.data[key.upper()]
def __contains__(self, key):
if self.data is None:
_fill_lock.acquire()
try:
if self.data is None:
self._fill()
finally:
_fill_lock.release()
return key in self.data
def __iter__(self):
if self.data is None:
_fill_lock.acquire()
try:
if self.data is None:
self._fill()
finally:
_fill_lock.release()
return iter(self.data)
def __len__(self):
if self.data is None:
_fill_lock.acquire()
try:
if self.data is None:
self._fill()
finally:
_fill_lock.release()
return len(self.data)
def keys(self):
if self.data is None:
_fill_lock.acquire()
try:
if self.data is None:
self._fill()
finally:
_fill_lock.release()
return self.data.keys()
class LazyList(list):
"""List populated on first use."""
_props = [
'__str__', '__repr__', '__unicode__',
'__hash__', '__sizeof__', '__cmp__',
'__lt__', '__le__', '__eq__', '__ne__', '__gt__', '__ge__',
'append', 'count', 'index', 'extend', 'insert', 'pop', 'remove',
'reverse', 'sort', '__add__', '__radd__', '__iadd__', '__mul__',
'__rmul__', '__imul__', '__contains__', '__len__', '__nonzero__',
'__getitem__', '__setitem__', '__delitem__', '__iter__',
'__reversed__', '__getslice__', '__setslice__', '__delslice__']
def __new__(cls, fill_iter=None):
if fill_iter is None:
return list()
# We need a new class as we will be dynamically messing with its
# methods.
class LazyList(list):
pass
fill_iter = [fill_iter]
def lazy(name):
def _lazy(self, *args, **kw):
_fill_lock.acquire()
try:
if len(fill_iter) > 0:
list.extend(self, fill_iter.pop())
for method_name in cls._props:
delattr(LazyList, method_name)
finally:
_fill_lock.release()
return getattr(list, name)(self, *args, **kw)
return _lazy
for name in cls._props:
setattr(LazyList, name, lazy(name))
new_list = LazyList()
return new_list
# Not all versions of Python declare the same magic methods.
# Filter out properties that don't exist in this version of Python
# from the list.
LazyList._props = [prop for prop in LazyList._props if hasattr(list, prop)]
class LazySet(set):
"""Set populated on first use."""
_props = (
'__str__', '__repr__', '__unicode__',
'__hash__', '__sizeof__', '__cmp__',
'__lt__', '__le__', '__eq__', '__ne__', '__gt__', '__ge__',
'__contains__', '__len__', '__nonzero__',
'__getitem__', '__setitem__', '__delitem__', '__iter__',
'__sub__', '__and__', '__xor__', '__or__',
'__rsub__', '__rand__', '__rxor__', '__ror__',
'__isub__', '__iand__', '__ixor__', '__ior__',
'add', 'clear', 'copy', 'difference', 'difference_update',
'discard', 'intersection', 'intersection_update', 'isdisjoint',
'issubset', 'issuperset', 'pop', 'remove',
'symmetric_difference', 'symmetric_difference_update',
'union', 'update')
def __new__(cls, fill_iter=None):
if fill_iter is None:
return set()
class LazySet(set):
pass
fill_iter = [fill_iter]
def lazy(name):
def _lazy(self, *args, **kw):
_fill_lock.acquire()
try:
if len(fill_iter) > 0:
for i in fill_iter.pop():
set.add(self, i)
for method_name in cls._props:
delattr(LazySet, method_name)
finally:
_fill_lock.release()
return getattr(set, name)(self, *args, **kw)
return _lazy
for name in cls._props:
setattr(LazySet, name, lazy(name))
new_set = LazySet()
return new_set
# Not all versions of Python declare the same magic methods.
# Filter out properties that don't exist in this version of Python
# from the list.
LazySet._props = [prop for prop in LazySet._props if hasattr(set, prop)]
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/pytz/reference.py | '''
Reference tzinfo implementations from the Python docs.
Used for testing against as they are only correct for the years
1987 to 2006. Do not use these for real code.
'''
from datetime import tzinfo, timedelta, datetime
from pytz import HOUR, ZERO, UTC
__all__ = [
'FixedOffset',
'LocalTimezone',
'USTimeZone',
'Eastern',
'Central',
'Mountain',
'Pacific',
'UTC'
]
# A class building tzinfo objects for fixed-offset time zones.
# Note that FixedOffset(0, "UTC") is a different way to build a
# UTC tzinfo object.
class FixedOffset(tzinfo):
"""Fixed offset in minutes east from UTC."""
def __init__(self, offset, name):
self.__offset = timedelta(minutes=offset)
self.__name = name
def utcoffset(self, dt):
return self.__offset
def tzname(self, dt):
return self.__name
def dst(self, dt):
return ZERO
import time as _time
STDOFFSET = timedelta(seconds=-_time.timezone)
if _time.daylight:
DSTOFFSET = timedelta(seconds=-_time.altzone)
else:
DSTOFFSET = STDOFFSET
DSTDIFF = DSTOFFSET - STDOFFSET
# A class capturing the platform's idea of local time.
class LocalTimezone(tzinfo):
def utcoffset(self, dt):
if self._isdst(dt):
return DSTOFFSET
else:
return STDOFFSET
def dst(self, dt):
if self._isdst(dt):
return DSTDIFF
else:
return ZERO
def tzname(self, dt):
return _time.tzname[self._isdst(dt)]
def _isdst(self, dt):
tt = (dt.year, dt.month, dt.day,
dt.hour, dt.minute, dt.second,
dt.weekday(), 0, -1)
stamp = _time.mktime(tt)
tt = _time.localtime(stamp)
return tt.tm_isdst > 0
Local = LocalTimezone()
def first_sunday_on_or_after(dt):
days_to_go = 6 - dt.weekday()
if days_to_go:
dt += timedelta(days_to_go)
return dt
# In the US, DST starts at 2am (standard time) on the first Sunday in April.
DSTSTART = datetime(1, 4, 1, 2)
# and ends at 2am (DST time; 1am standard time) on the last Sunday of Oct.
# which is the first Sunday on or after Oct 25.
DSTEND = datetime(1, 10, 25, 1)
# A complete implementation of current DST rules for major US time zones.
class USTimeZone(tzinfo):
def __init__(self, hours, reprname, stdname, dstname):
self.stdoffset = timedelta(hours=hours)
self.reprname = reprname
self.stdname = stdname
self.dstname = dstname
def __repr__(self):
return self.reprname
def tzname(self, dt):
if self.dst(dt):
return self.dstname
else:
return self.stdname
def utcoffset(self, dt):
return self.stdoffset + self.dst(dt)
def dst(self, dt):
if dt is None or dt.tzinfo is None:
# An exception may be sensible here, in one or both cases.
# It depends on how you want to treat them. The default
# fromutc() implementation (called by the default astimezone()
# implementation) passes a datetime with dt.tzinfo is self.
return ZERO
assert dt.tzinfo is self
# Find first Sunday in April & the last in October.
start = first_sunday_on_or_after(DSTSTART.replace(year=dt.year))
end = first_sunday_on_or_after(DSTEND.replace(year=dt.year))
# Can't compare naive to aware objects, so strip the timezone from
# dt first.
if start <= dt.replace(tzinfo=None) < end:
return HOUR
else:
return ZERO
Eastern = USTimeZone(-5, "Eastern", "EST", "EDT")
Central = USTimeZone(-6, "Central", "CST", "CDT")
Mountain = USTimeZone(-7, "Mountain", "MST", "MDT")
Pacific = USTimeZone(-8, "Pacific", "PST", "PDT")
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/aiodns/__init__.py |
import asyncio
import functools
import pycares
from typing import (
Any,
List,
Optional,
)
# TODO: Work out mypy no attribute error and remove ignore
from . import error # type: ignore
__version__ = '2.0.0'
__all__ = ('DNSResolver', 'error')
READ = 1
WRITE = 2
query_type_map = {'A' : pycares.QUERY_TYPE_A,
'AAAA' : pycares.QUERY_TYPE_AAAA,
'ANY' : pycares.QUERY_TYPE_ANY,
'CNAME' : pycares.QUERY_TYPE_CNAME,
'MX' : pycares.QUERY_TYPE_MX,
'NAPTR' : pycares.QUERY_TYPE_NAPTR,
'NS' : pycares.QUERY_TYPE_NS,
'PTR' : pycares.QUERY_TYPE_PTR,
'SOA' : pycares.QUERY_TYPE_SOA,
'SRV' : pycares.QUERY_TYPE_SRV,
'TXT' : pycares.QUERY_TYPE_TXT
}
class DNSResolver:
def __init__(self, nameservers=None, loop=None, **kwargs):
# type: (Optional[List[str]], Optional[asyncio.AbstractEventLoop], Any) -> None
self.loop = loop or asyncio.get_event_loop()
assert self.loop is not None
kwargs.pop('sock_state_cb', None)
self._channel = pycares.Channel(sock_state_cb=self._sock_state_cb, **kwargs)
if nameservers:
self.nameservers = nameservers
self._read_fds = set() # type: Set[int]
self._write_fds = set() # type: Set[int]
self._timer = None
@property
def nameservers(self):
# type: () -> pycares.Channel
return self._channel.servers
@nameservers.setter
def nameservers(self, value):
# type: (List[str]) -> None
self._channel.servers = value
@staticmethod
def _callback(fut, result, errorno):
# type: (asyncio.Future, Any, int) -> None
if fut.cancelled():
return
if errorno is not None:
fut.set_exception(error.DNSError(errorno, pycares.errno.strerror(errorno)))
else:
fut.set_result(result)
def query(self, host, qtype):
# type: (str, str) -> asyncio.Future
try:
qtype = query_type_map[qtype]
except KeyError:
raise ValueError('invalid query type: {}'.format(qtype))
fut = asyncio.Future(loop=self.loop)
cb = functools.partial(self._callback, fut)
self._channel.query(host, qtype, cb)
return fut
def gethostbyname(self, host, family):
# type: (str, str) -> asyncio.Future
fut = asyncio.Future(loop=self.loop)
cb = functools.partial(self._callback, fut)
self._channel.gethostbyname(host, family, cb)
return fut
def gethostbyaddr(self, name):
# type: (str) -> asyncio.Future
fut = asyncio.Future(loop=self.loop)
cb = functools.partial(self._callback, fut)
self._channel.gethostbyaddr(name, cb)
return fut
def cancel(self):
# type: () -> None
self._channel.cancel()
def _sock_state_cb(self, fd, readable, writable):
# type: (int, bool, bool) -> None
if readable or writable:
if readable:
self.loop.add_reader(fd, self._handle_event, fd, READ)
self._read_fds.add(fd)
if writable:
self.loop.add_writer(fd, self._handle_event, fd, WRITE)
self._write_fds.add(fd)
if self._timer is None:
self._timer = self.loop.call_later(1.0, self._timer_cb)
else:
# socket is now closed
if fd in self._read_fds:
self._read_fds.discard(fd)
self.loop.remove_reader(fd)
if fd in self._write_fds:
self._write_fds.discard(fd)
self.loop.remove_writer(fd)
if not self._read_fds and not self._write_fds and self._timer is not None:
self._timer.cancel()
self._timer = None
def _handle_event(self, fd, event):
# type: (int, Any) -> None
read_fd = pycares.ARES_SOCKET_BAD
write_fd = pycares.ARES_SOCKET_BAD
if event == READ:
read_fd = fd
elif event == WRITE:
write_fd = fd
self._channel.process_fd(read_fd, write_fd)
def _timer_cb(self):
# type: () -> None
if self._read_fds or self._write_fds:
self._channel.process_fd(pycares.ARES_SOCKET_BAD, pycares.ARES_SOCKET_BAD)
self._timer = self.loop.call_later(1.0, self._timer_cb)
else:
self._timer = None
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/aiodns/error.py |
import pycares
for code, name in pycares.errno.errorcode.items():
globals()[name] = code
class DNSError(Exception):
pass
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/python_dateutil-2.8.2.dist-info/top_level.txt | dateutil
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/to_thread.py | from __future__ import annotations
from typing import Callable, TypeVar
from warnings import warn
from ._core._eventloop import get_asynclib
from .abc import CapacityLimiter
T_Retval = TypeVar("T_Retval")
async def run_sync(
func: Callable[..., T_Retval],
*args: object,
cancellable: bool = False,
limiter: CapacityLimiter | None = None,
) -> T_Retval:
"""
Call the given function with the given arguments in a worker thread.
If the ``cancellable`` option is enabled and the task waiting for its completion is cancelled,
the thread will still run its course but its return value (or any raised exception) will be
ignored.
:param func: a callable
:param args: positional arguments for the callable
:param cancellable: ``True`` to allow cancellation of the operation
:param limiter: capacity limiter to use to limit the total amount of threads running
(if omitted, the default limiter is used)
:return: an awaitable that yields the return value of the function.
"""
return await get_asynclib().run_sync_in_worker_thread(
func, *args, cancellable=cancellable, limiter=limiter
)
async def run_sync_in_worker_thread(
func: Callable[..., T_Retval],
*args: object,
cancellable: bool = False,
limiter: CapacityLimiter | None = None,
) -> T_Retval:
warn(
"run_sync_in_worker_thread() has been deprecated, use anyio.to_thread.run_sync() instead",
DeprecationWarning,
)
return await run_sync(func, *args, cancellable=cancellable, limiter=limiter)
def current_default_thread_limiter() -> CapacityLimiter:
"""
Return the capacity limiter that is used by default to limit the number of concurrent threads.
:return: a capacity limiter object
"""
return get_asynclib().current_default_thread_limiter()
def current_default_worker_thread_limiter() -> CapacityLimiter:
warn(
"current_default_worker_thread_limiter() has been deprecated, "
"use anyio.to_thread.current_default_thread_limiter() instead",
DeprecationWarning,
)
return current_default_thread_limiter()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/to_process.py | from __future__ import annotations
import os
import pickle
import subprocess
import sys
from collections import deque
from importlib.util import module_from_spec, spec_from_file_location
from typing import Callable, TypeVar, cast
from ._core._eventloop import current_time, get_asynclib, get_cancelled_exc_class
from ._core._exceptions import BrokenWorkerProcess
from ._core._subprocesses import open_process
from ._core._synchronization import CapacityLimiter
from ._core._tasks import CancelScope, fail_after
from .abc import ByteReceiveStream, ByteSendStream, Process
from .lowlevel import RunVar, checkpoint_if_cancelled
from .streams.buffered import BufferedByteReceiveStream
WORKER_MAX_IDLE_TIME = 300 # 5 minutes
T_Retval = TypeVar("T_Retval")
_process_pool_workers: RunVar[set[Process]] = RunVar("_process_pool_workers")
_process_pool_idle_workers: RunVar[deque[tuple[Process, float]]] = RunVar(
"_process_pool_idle_workers"
)
_default_process_limiter: RunVar[CapacityLimiter] = RunVar("_default_process_limiter")
async def run_sync(
func: Callable[..., T_Retval],
*args: object,
cancellable: bool = False,
limiter: CapacityLimiter | None = None,
) -> T_Retval:
"""
Call the given function with the given arguments in a worker process.
If the ``cancellable`` option is enabled and the task waiting for its completion is cancelled,
the worker process running it will be abruptly terminated using SIGKILL (or
``terminateProcess()`` on Windows).
:param func: a callable
:param args: positional arguments for the callable
:param cancellable: ``True`` to allow cancellation of the operation while it's running
:param limiter: capacity limiter to use to limit the total amount of processes running
(if omitted, the default limiter is used)
:return: an awaitable that yields the return value of the function.
"""
async def send_raw_command(pickled_cmd: bytes) -> object:
try:
await stdin.send(pickled_cmd)
response = await buffered.receive_until(b"\n", 50)
status, length = response.split(b" ")
if status not in (b"RETURN", b"EXCEPTION"):
raise RuntimeError(
f"Worker process returned unexpected response: {response!r}"
)
pickled_response = await buffered.receive_exactly(int(length))
except BaseException as exc:
workers.discard(process)
try:
process.kill()
with CancelScope(shield=True):
await process.aclose()
except ProcessLookupError:
pass
if isinstance(exc, get_cancelled_exc_class()):
raise
else:
raise BrokenWorkerProcess from exc
retval = pickle.loads(pickled_response)
if status == b"EXCEPTION":
assert isinstance(retval, BaseException)
raise retval
else:
return retval
# First pickle the request before trying to reserve a worker process
await checkpoint_if_cancelled()
request = pickle.dumps(("run", func, args), protocol=pickle.HIGHEST_PROTOCOL)
# If this is the first run in this event loop thread, set up the necessary variables
try:
workers = _process_pool_workers.get()
idle_workers = _process_pool_idle_workers.get()
except LookupError:
workers = set()
idle_workers = deque()
_process_pool_workers.set(workers)
_process_pool_idle_workers.set(idle_workers)
get_asynclib().setup_process_pool_exit_at_shutdown(workers)
async with (limiter or current_default_process_limiter()):
# Pop processes from the pool (starting from the most recently used) until we find one that
# hasn't exited yet
process: Process
while idle_workers:
process, idle_since = idle_workers.pop()
if process.returncode is None:
stdin = cast(ByteSendStream, process.stdin)
buffered = BufferedByteReceiveStream(
cast(ByteReceiveStream, process.stdout)
)
# Prune any other workers that have been idle for WORKER_MAX_IDLE_TIME seconds or
# longer
now = current_time()
killed_processes: list[Process] = []
while idle_workers:
if now - idle_workers[0][1] < WORKER_MAX_IDLE_TIME:
break
process, idle_since = idle_workers.popleft()
process.kill()
workers.remove(process)
killed_processes.append(process)
with CancelScope(shield=True):
for process in killed_processes:
await process.aclose()
break
workers.remove(process)
else:
command = [sys.executable, "-u", "-m", __name__]
process = await open_process(
command, stdin=subprocess.PIPE, stdout=subprocess.PIPE
)
try:
stdin = cast(ByteSendStream, process.stdin)
buffered = BufferedByteReceiveStream(
cast(ByteReceiveStream, process.stdout)
)
with fail_after(20):
message = await buffered.receive(6)
if message != b"READY\n":
raise BrokenWorkerProcess(
f"Worker process returned unexpected response: {message!r}"
)
main_module_path = getattr(sys.modules["__main__"], "__file__", None)
pickled = pickle.dumps(
("init", sys.path, main_module_path),
protocol=pickle.HIGHEST_PROTOCOL,
)
await send_raw_command(pickled)
except (BrokenWorkerProcess, get_cancelled_exc_class()):
raise
except BaseException as exc:
process.kill()
raise BrokenWorkerProcess(
"Error during worker process initialization"
) from exc
workers.add(process)
with CancelScope(shield=not cancellable):
try:
return cast(T_Retval, await send_raw_command(request))
finally:
if process in workers:
idle_workers.append((process, current_time()))
def current_default_process_limiter() -> CapacityLimiter:
"""
Return the capacity limiter that is used by default to limit the number of worker processes.
:return: a capacity limiter object
"""
try:
return _default_process_limiter.get()
except LookupError:
limiter = CapacityLimiter(os.cpu_count() or 2)
_default_process_limiter.set(limiter)
return limiter
def process_worker() -> None:
# Redirect standard streams to os.devnull so that user code won't interfere with the
# parent-worker communication
stdin = sys.stdin
stdout = sys.stdout
sys.stdin = open(os.devnull)
sys.stdout = open(os.devnull, "w")
stdout.buffer.write(b"READY\n")
while True:
retval = exception = None
try:
command, *args = pickle.load(stdin.buffer)
except EOFError:
return
except BaseException as exc:
exception = exc
else:
if command == "run":
func, args = args
try:
retval = func(*args)
except BaseException as exc:
exception = exc
elif command == "init":
main_module_path: str | None
sys.path, main_module_path = args
del sys.modules["__main__"]
if main_module_path:
# Load the parent's main module but as __mp_main__ instead of __main__
# (like multiprocessing does) to avoid infinite recursion
try:
spec = spec_from_file_location("__mp_main__", main_module_path)
if spec and spec.loader:
main = module_from_spec(spec)
spec.loader.exec_module(main)
sys.modules["__main__"] = main
except BaseException as exc:
exception = exc
try:
if exception is not None:
status = b"EXCEPTION"
pickled = pickle.dumps(exception, pickle.HIGHEST_PROTOCOL)
else:
status = b"RETURN"
pickled = pickle.dumps(retval, pickle.HIGHEST_PROTOCOL)
except BaseException as exc:
exception = exc
status = b"EXCEPTION"
pickled = pickle.dumps(exc, pickle.HIGHEST_PROTOCOL)
stdout.buffer.write(b"%s %d\n" % (status, len(pickled)))
stdout.buffer.write(pickled)
# Respect SIGTERM
if isinstance(exception, SystemExit):
raise exception
if __name__ == "__main__":
process_worker()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/__init__.py | from __future__ import annotations
__all__ = (
"maybe_async",
"maybe_async_cm",
"run",
"sleep",
"sleep_forever",
"sleep_until",
"current_time",
"get_all_backends",
"get_cancelled_exc_class",
"BrokenResourceError",
"BrokenWorkerProcess",
"BusyResourceError",
"ClosedResourceError",
"DelimiterNotFound",
"EndOfStream",
"ExceptionGroup",
"IncompleteRead",
"TypedAttributeLookupError",
"WouldBlock",
"AsyncFile",
"Path",
"open_file",
"wrap_file",
"aclose_forcefully",
"open_signal_receiver",
"connect_tcp",
"connect_unix",
"create_tcp_listener",
"create_unix_listener",
"create_udp_socket",
"create_connected_udp_socket",
"getaddrinfo",
"getnameinfo",
"wait_socket_readable",
"wait_socket_writable",
"create_memory_object_stream",
"run_process",
"open_process",
"create_lock",
"CapacityLimiter",
"CapacityLimiterStatistics",
"Condition",
"ConditionStatistics",
"Event",
"EventStatistics",
"Lock",
"LockStatistics",
"Semaphore",
"SemaphoreStatistics",
"create_condition",
"create_event",
"create_semaphore",
"create_capacity_limiter",
"open_cancel_scope",
"fail_after",
"move_on_after",
"current_effective_deadline",
"TASK_STATUS_IGNORED",
"CancelScope",
"create_task_group",
"TaskInfo",
"get_current_task",
"get_running_tasks",
"wait_all_tasks_blocked",
"run_sync_in_worker_thread",
"run_async_from_thread",
"run_sync_from_thread",
"current_default_worker_thread_limiter",
"create_blocking_portal",
"start_blocking_portal",
"typed_attribute",
"TypedAttributeSet",
"TypedAttributeProvider",
)
from typing import Any
from ._core._compat import maybe_async, maybe_async_cm
from ._core._eventloop import (
current_time,
get_all_backends,
get_cancelled_exc_class,
run,
sleep,
sleep_forever,
sleep_until,
)
from ._core._exceptions import (
BrokenResourceError,
BrokenWorkerProcess,
BusyResourceError,
ClosedResourceError,
DelimiterNotFound,
EndOfStream,
ExceptionGroup,
IncompleteRead,
TypedAttributeLookupError,
WouldBlock,
)
from ._core._fileio import AsyncFile, Path, open_file, wrap_file
from ._core._resources import aclose_forcefully
from ._core._signals import open_signal_receiver
from ._core._sockets import (
connect_tcp,
connect_unix,
create_connected_udp_socket,
create_tcp_listener,
create_udp_socket,
create_unix_listener,
getaddrinfo,
getnameinfo,
wait_socket_readable,
wait_socket_writable,
)
from ._core._streams import create_memory_object_stream
from ._core._subprocesses import open_process, run_process
from ._core._synchronization import (
CapacityLimiter,
CapacityLimiterStatistics,
Condition,
ConditionStatistics,
Event,
EventStatistics,
Lock,
LockStatistics,
Semaphore,
SemaphoreStatistics,
create_capacity_limiter,
create_condition,
create_event,
create_lock,
create_semaphore,
)
from ._core._tasks import (
TASK_STATUS_IGNORED,
CancelScope,
create_task_group,
current_effective_deadline,
fail_after,
move_on_after,
open_cancel_scope,
)
from ._core._testing import (
TaskInfo,
get_current_task,
get_running_tasks,
wait_all_tasks_blocked,
)
from ._core._typedattr import TypedAttributeProvider, TypedAttributeSet, typed_attribute
# Re-exported here, for backwards compatibility
# isort: off
from .to_thread import current_default_worker_thread_limiter, run_sync_in_worker_thread
from .from_thread import (
create_blocking_portal,
run_async_from_thread,
run_sync_from_thread,
start_blocking_portal,
)
# Re-export imports so they look like they live directly in this package
key: str
value: Any
for key, value in list(locals().items()):
if getattr(value, "__module__", "").startswith("anyio."):
value.__module__ = __name__
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/pytest_plugin.py | from __future__ import annotations
from contextlib import contextmanager
from inspect import isasyncgenfunction, iscoroutinefunction
from typing import Any, Dict, Generator, Tuple, cast
import pytest
import sniffio
from ._core._eventloop import get_all_backends, get_asynclib
from .abc import TestRunner
_current_runner: TestRunner | None = None
def extract_backend_and_options(backend: object) -> tuple[str, dict[str, Any]]:
if isinstance(backend, str):
return backend, {}
elif isinstance(backend, tuple) and len(backend) == 2:
if isinstance(backend[0], str) and isinstance(backend[1], dict):
return cast(Tuple[str, Dict[str, Any]], backend)
raise TypeError("anyio_backend must be either a string or tuple of (string, dict)")
@contextmanager
def get_runner(
backend_name: str, backend_options: dict[str, Any]
) -> Generator[TestRunner, object, None]:
global _current_runner
if _current_runner:
yield _current_runner
return
asynclib = get_asynclib(backend_name)
token = None
if sniffio.current_async_library_cvar.get(None) is None:
# Since we're in control of the event loop, we can cache the name of the async library
token = sniffio.current_async_library_cvar.set(backend_name)
try:
backend_options = backend_options or {}
with asynclib.TestRunner(**backend_options) as runner:
_current_runner = runner
yield runner
finally:
_current_runner = None
if token:
sniffio.current_async_library_cvar.reset(token)
def pytest_configure(config: Any) -> None:
config.addinivalue_line(
"markers",
"anyio: mark the (coroutine function) test to be run "
"asynchronously via anyio.",
)
def pytest_fixture_setup(fixturedef: Any, request: Any) -> None:
def wrapper(*args, anyio_backend, **kwargs): # type: ignore[no-untyped-def]
backend_name, backend_options = extract_backend_and_options(anyio_backend)
if has_backend_arg:
kwargs["anyio_backend"] = anyio_backend
with get_runner(backend_name, backend_options) as runner:
if isasyncgenfunction(func):
yield from runner.run_asyncgen_fixture(func, kwargs)
else:
yield runner.run_fixture(func, kwargs)
# Only apply this to coroutine functions and async generator functions in requests that involve
# the anyio_backend fixture
func = fixturedef.func
if isasyncgenfunction(func) or iscoroutinefunction(func):
if "anyio_backend" in request.fixturenames:
has_backend_arg = "anyio_backend" in fixturedef.argnames
fixturedef.func = wrapper
if not has_backend_arg:
fixturedef.argnames += ("anyio_backend",)
@pytest.hookimpl(tryfirst=True)
def pytest_pycollect_makeitem(collector: Any, name: Any, obj: Any) -> None:
if collector.istestfunction(obj, name):
inner_func = obj.hypothesis.inner_test if hasattr(obj, "hypothesis") else obj
if iscoroutinefunction(inner_func):
marker = collector.get_closest_marker("anyio")
own_markers = getattr(obj, "pytestmark", ())
if marker or any(marker.name == "anyio" for marker in own_markers):
pytest.mark.usefixtures("anyio_backend")(obj)
@pytest.hookimpl(tryfirst=True)
def pytest_pyfunc_call(pyfuncitem: Any) -> bool | None:
def run_with_hypothesis(**kwargs: Any) -> None:
with get_runner(backend_name, backend_options) as runner:
runner.run_test(original_func, kwargs)
backend = pyfuncitem.funcargs.get("anyio_backend")
if backend:
backend_name, backend_options = extract_backend_and_options(backend)
if hasattr(pyfuncitem.obj, "hypothesis"):
# Wrap the inner test function unless it's already wrapped
original_func = pyfuncitem.obj.hypothesis.inner_test
if original_func.__qualname__ != run_with_hypothesis.__qualname__:
if iscoroutinefunction(original_func):
pyfuncitem.obj.hypothesis.inner_test = run_with_hypothesis
return None
if iscoroutinefunction(pyfuncitem.obj):
funcargs = pyfuncitem.funcargs
testargs = {arg: funcargs[arg] for arg in pyfuncitem._fixtureinfo.argnames}
with get_runner(backend_name, backend_options) as runner:
runner.run_test(pyfuncitem.obj, testargs)
return True
return None
@pytest.fixture(params=get_all_backends())
def anyio_backend(request: Any) -> Any:
return request.param
@pytest.fixture
def anyio_backend_name(anyio_backend: Any) -> str:
if isinstance(anyio_backend, str):
return anyio_backend
else:
return anyio_backend[0]
@pytest.fixture
def anyio_backend_options(anyio_backend: Any) -> dict[str, Any]:
if isinstance(anyio_backend, str):
return {}
else:
return anyio_backend[1]
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/lowlevel.py | from __future__ import annotations
import enum
import sys
from dataclasses import dataclass
from typing import Any, Generic, TypeVar, overload
from weakref import WeakKeyDictionary
from ._core._eventloop import get_asynclib
if sys.version_info >= (3, 8):
from typing import Literal
else:
from typing_extensions import Literal
T = TypeVar("T")
D = TypeVar("D")
async def checkpoint() -> None:
"""
Check for cancellation and allow the scheduler to switch to another task.
Equivalent to (but more efficient than)::
await checkpoint_if_cancelled()
await cancel_shielded_checkpoint()
.. versionadded:: 3.0
"""
await get_asynclib().checkpoint()
async def checkpoint_if_cancelled() -> None:
"""
Enter a checkpoint if the enclosing cancel scope has been cancelled.
This does not allow the scheduler to switch to a different task.
.. versionadded:: 3.0
"""
await get_asynclib().checkpoint_if_cancelled()
async def cancel_shielded_checkpoint() -> None:
"""
Allow the scheduler to switch to another task but without checking for cancellation.
Equivalent to (but potentially more efficient than)::
with CancelScope(shield=True):
await checkpoint()
.. versionadded:: 3.0
"""
await get_asynclib().cancel_shielded_checkpoint()
def current_token() -> object:
"""Return a backend specific token object that can be used to get back to the event loop."""
return get_asynclib().current_token()
_run_vars: WeakKeyDictionary[Any, dict[str, Any]] = WeakKeyDictionary()
_token_wrappers: dict[Any, _TokenWrapper] = {}
@dataclass(frozen=True)
class _TokenWrapper:
__slots__ = "_token", "__weakref__"
_token: object
class _NoValueSet(enum.Enum):
NO_VALUE_SET = enum.auto()
class RunvarToken(Generic[T]):
__slots__ = "_var", "_value", "_redeemed"
def __init__(self, var: RunVar[T], value: T | Literal[_NoValueSet.NO_VALUE_SET]):
self._var = var
self._value: T | Literal[_NoValueSet.NO_VALUE_SET] = value
self._redeemed = False
class RunVar(Generic[T]):
"""
Like a :class:`~contextvars.ContextVar`, except scoped to the running event loop.
"""
__slots__ = "_name", "_default"
NO_VALUE_SET: Literal[_NoValueSet.NO_VALUE_SET] = _NoValueSet.NO_VALUE_SET
_token_wrappers: set[_TokenWrapper] = set()
def __init__(
self,
name: str,
default: T | Literal[_NoValueSet.NO_VALUE_SET] = NO_VALUE_SET,
):
self._name = name
self._default = default
@property
def _current_vars(self) -> dict[str, T]:
token = current_token()
while True:
try:
return _run_vars[token]
except TypeError:
# Happens when token isn't weak referable (TrioToken).
# This workaround does mean that some memory will leak on Trio until the problem
# is fixed on their end.
token = _TokenWrapper(token)
self._token_wrappers.add(token)
except KeyError:
run_vars = _run_vars[token] = {}
return run_vars
@overload
def get(self, default: D) -> T | D:
...
@overload
def get(self) -> T:
...
def get(
self, default: D | Literal[_NoValueSet.NO_VALUE_SET] = NO_VALUE_SET
) -> T | D:
try:
return self._current_vars[self._name]
except KeyError:
if default is not RunVar.NO_VALUE_SET:
return default
elif self._default is not RunVar.NO_VALUE_SET:
return self._default
raise LookupError(
f'Run variable "{self._name}" has no value and no default set'
)
def set(self, value: T) -> RunvarToken[T]:
current_vars = self._current_vars
token = RunvarToken(self, current_vars.get(self._name, RunVar.NO_VALUE_SET))
current_vars[self._name] = value
return token
def reset(self, token: RunvarToken[T]) -> None:
if token._var is not self:
raise ValueError("This token does not belong to this RunVar")
if token._redeemed:
raise ValueError("This token has already been used")
if token._value is _NoValueSet.NO_VALUE_SET:
try:
del self._current_vars[self._name]
except KeyError:
pass
else:
self._current_vars[self._name] = token._value
token._redeemed = True
def __repr__(self) -> str:
return f"<RunVar name={self._name!r}>"
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/from_thread.py | from __future__ import annotations
import threading
from asyncio import iscoroutine
from concurrent.futures import FIRST_COMPLETED, Future, ThreadPoolExecutor, wait
from contextlib import AbstractContextManager, contextmanager
from types import TracebackType
from typing import (
Any,
AsyncContextManager,
Awaitable,
Callable,
ContextManager,
Generator,
Generic,
Iterable,
TypeVar,
cast,
overload,
)
from warnings import warn
from ._core import _eventloop
from ._core._eventloop import get_asynclib, get_cancelled_exc_class, threadlocals
from ._core._synchronization import Event
from ._core._tasks import CancelScope, create_task_group
from .abc._tasks import TaskStatus
T_Retval = TypeVar("T_Retval")
T_co = TypeVar("T_co")
def run(func: Callable[..., Awaitable[T_Retval]], *args: object) -> T_Retval:
"""
Call a coroutine function from a worker thread.
:param func: a coroutine function
:param args: positional arguments for the callable
:return: the return value of the coroutine function
"""
try:
asynclib = threadlocals.current_async_module
except AttributeError:
raise RuntimeError("This function can only be run from an AnyIO worker thread")
return asynclib.run_async_from_thread(func, *args)
def run_async_from_thread(
func: Callable[..., Awaitable[T_Retval]], *args: object
) -> T_Retval:
warn(
"run_async_from_thread() has been deprecated, use anyio.from_thread.run() instead",
DeprecationWarning,
)
return run(func, *args)
def run_sync(func: Callable[..., T_Retval], *args: object) -> T_Retval:
"""
Call a function in the event loop thread from a worker thread.
:param func: a callable
:param args: positional arguments for the callable
:return: the return value of the callable
"""
try:
asynclib = threadlocals.current_async_module
except AttributeError:
raise RuntimeError("This function can only be run from an AnyIO worker thread")
return asynclib.run_sync_from_thread(func, *args)
def run_sync_from_thread(func: Callable[..., T_Retval], *args: object) -> T_Retval:
warn(
"run_sync_from_thread() has been deprecated, use anyio.from_thread.run_sync() instead",
DeprecationWarning,
)
return run_sync(func, *args)
class _BlockingAsyncContextManager(Generic[T_co], AbstractContextManager):
_enter_future: Future
_exit_future: Future
_exit_event: Event
_exit_exc_info: tuple[
type[BaseException] | None, BaseException | None, TracebackType | None
] = (None, None, None)
def __init__(self, async_cm: AsyncContextManager[T_co], portal: BlockingPortal):
self._async_cm = async_cm
self._portal = portal
async def run_async_cm(self) -> bool | None:
try:
self._exit_event = Event()
value = await self._async_cm.__aenter__()
except BaseException as exc:
self._enter_future.set_exception(exc)
raise
else:
self._enter_future.set_result(value)
try:
# Wait for the sync context manager to exit.
# This next statement can raise `get_cancelled_exc_class()` if
# something went wrong in a task group in this async context
# manager.
await self._exit_event.wait()
finally:
# In case of cancellation, it could be that we end up here before
# `_BlockingAsyncContextManager.__exit__` is called, and an
# `_exit_exc_info` has been set.
result = await self._async_cm.__aexit__(*self._exit_exc_info)
return result
def __enter__(self) -> T_co:
self._enter_future = Future()
self._exit_future = self._portal.start_task_soon(self.run_async_cm)
cm = self._enter_future.result()
return cast(T_co, cm)
def __exit__(
self,
__exc_type: type[BaseException] | None,
__exc_value: BaseException | None,
__traceback: TracebackType | None,
) -> bool | None:
self._exit_exc_info = __exc_type, __exc_value, __traceback
self._portal.call(self._exit_event.set)
return self._exit_future.result()
class _BlockingPortalTaskStatus(TaskStatus):
def __init__(self, future: Future):
self._future = future
def started(self, value: object = None) -> None:
self._future.set_result(value)
class BlockingPortal:
"""An object that lets external threads run code in an asynchronous event loop."""
def __new__(cls) -> BlockingPortal:
return get_asynclib().BlockingPortal()
def __init__(self) -> None:
self._event_loop_thread_id: int | None = threading.get_ident()
self._stop_event = Event()
self._task_group = create_task_group()
self._cancelled_exc_class = get_cancelled_exc_class()
async def __aenter__(self) -> BlockingPortal:
await self._task_group.__aenter__()
return self
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
await self.stop()
return await self._task_group.__aexit__(exc_type, exc_val, exc_tb)
def _check_running(self) -> None:
if self._event_loop_thread_id is None:
raise RuntimeError("This portal is not running")
if self._event_loop_thread_id == threading.get_ident():
raise RuntimeError(
"This method cannot be called from the event loop thread"
)
async def sleep_until_stopped(self) -> None:
"""Sleep until :meth:`stop` is called."""
await self._stop_event.wait()
async def stop(self, cancel_remaining: bool = False) -> None:
"""
Signal the portal to shut down.
This marks the portal as no longer accepting new calls and exits from
:meth:`sleep_until_stopped`.
:param cancel_remaining: ``True`` to cancel all the remaining tasks, ``False`` to let them
finish before returning
"""
self._event_loop_thread_id = None
self._stop_event.set()
if cancel_remaining:
self._task_group.cancel_scope.cancel()
async def _call_func(
self, func: Callable, args: tuple, kwargs: dict[str, Any], future: Future
) -> None:
def callback(f: Future) -> None:
if f.cancelled() and self._event_loop_thread_id not in (
None,
threading.get_ident(),
):
self.call(scope.cancel)
try:
retval = func(*args, **kwargs)
if iscoroutine(retval):
with CancelScope() as scope:
if future.cancelled():
scope.cancel()
else:
future.add_done_callback(callback)
retval = await retval
except self._cancelled_exc_class:
future.cancel()
except BaseException as exc:
if not future.cancelled():
future.set_exception(exc)
# Let base exceptions fall through
if not isinstance(exc, Exception):
raise
else:
if not future.cancelled():
future.set_result(retval)
finally:
scope = None # type: ignore[assignment]
def _spawn_task_from_thread(
self,
func: Callable,
args: tuple,
kwargs: dict[str, Any],
name: object,
future: Future,
) -> None:
"""
Spawn a new task using the given callable.
Implementors must ensure that the future is resolved when the task finishes.
:param func: a callable
:param args: positional arguments to be passed to the callable
:param kwargs: keyword arguments to be passed to the callable
:param name: name of the task (will be coerced to a string if not ``None``)
:param future: a future that will resolve to the return value of the callable, or the
exception raised during its execution
"""
raise NotImplementedError
@overload
def call(self, func: Callable[..., Awaitable[T_Retval]], *args: object) -> T_Retval:
...
@overload
def call(self, func: Callable[..., T_Retval], *args: object) -> T_Retval:
...
def call(
self, func: Callable[..., Awaitable[T_Retval] | T_Retval], *args: object
) -> T_Retval:
"""
Call the given function in the event loop thread.
If the callable returns a coroutine object, it is awaited on.
:param func: any callable
:raises RuntimeError: if the portal is not running or if this method is called from within
the event loop thread
"""
return cast(T_Retval, self.start_task_soon(func, *args).result())
@overload
def spawn_task(
self,
func: Callable[..., Awaitable[T_Retval]],
*args: object,
name: object = None,
) -> Future[T_Retval]:
...
@overload
def spawn_task(
self, func: Callable[..., T_Retval], *args: object, name: object = None
) -> Future[T_Retval]:
...
def spawn_task(
self,
func: Callable[..., Awaitable[T_Retval] | T_Retval],
*args: object,
name: object = None,
) -> Future[T_Retval]:
"""
Start a task in the portal's task group.
:param func: the target coroutine function
:param args: positional arguments passed to ``func``
:param name: name of the task (will be coerced to a string if not ``None``)
:return: a future that resolves with the return value of the callable if the task completes
successfully, or with the exception raised in the task
:raises RuntimeError: if the portal is not running or if this method is called from within
the event loop thread
.. versionadded:: 2.1
.. deprecated:: 3.0
Use :meth:`start_task_soon` instead. If your code needs AnyIO 2 compatibility, you
can keep using this until AnyIO 4.
"""
warn(
"spawn_task() is deprecated -- use start_task_soon() instead",
DeprecationWarning,
)
return self.start_task_soon(func, *args, name=name) # type: ignore[arg-type]
@overload
def start_task_soon(
self,
func: Callable[..., Awaitable[T_Retval]],
*args: object,
name: object = None,
) -> Future[T_Retval]:
...
@overload
def start_task_soon(
self, func: Callable[..., T_Retval], *args: object, name: object = None
) -> Future[T_Retval]:
...
def start_task_soon(
self,
func: Callable[..., Awaitable[T_Retval] | T_Retval],
*args: object,
name: object = None,
) -> Future[T_Retval]:
"""
Start a task in the portal's task group.
The task will be run inside a cancel scope which can be cancelled by cancelling the
returned future.
:param func: the target function
:param args: positional arguments passed to ``func``
:param name: name of the task (will be coerced to a string if not ``None``)
:return: a future that resolves with the return value of the callable if the
task completes successfully, or with the exception raised in the task
:raises RuntimeError: if the portal is not running or if this method is called
from within the event loop thread
:rtype: concurrent.futures.Future[T_Retval]
.. versionadded:: 3.0
"""
self._check_running()
f: Future = Future()
self._spawn_task_from_thread(func, args, {}, name, f)
return f
def start_task(
self, func: Callable[..., Awaitable[Any]], *args: object, name: object = None
) -> tuple[Future[Any], Any]:
"""
Start a task in the portal's task group and wait until it signals for readiness.
This method works the same way as :meth:`.abc.TaskGroup.start`.
:param func: the target function
:param args: positional arguments passed to ``func``
:param name: name of the task (will be coerced to a string if not ``None``)
:return: a tuple of (future, task_status_value) where the ``task_status_value``
is the value passed to ``task_status.started()`` from within the target
function
:rtype: tuple[concurrent.futures.Future[Any], Any]
.. versionadded:: 3.0
"""
def task_done(future: Future) -> None:
if not task_status_future.done():
if future.cancelled():
task_status_future.cancel()
elif future.exception():
task_status_future.set_exception(future.exception())
else:
exc = RuntimeError(
"Task exited without calling task_status.started()"
)
task_status_future.set_exception(exc)
self._check_running()
task_status_future: Future = Future()
task_status = _BlockingPortalTaskStatus(task_status_future)
f: Future = Future()
f.add_done_callback(task_done)
self._spawn_task_from_thread(func, args, {"task_status": task_status}, name, f)
return f, task_status_future.result()
def wrap_async_context_manager(
self, cm: AsyncContextManager[T_co]
) -> ContextManager[T_co]:
"""
Wrap an async context manager as a synchronous context manager via this portal.
Spawns a task that will call both ``__aenter__()`` and ``__aexit__()``, stopping in the
middle until the synchronous context manager exits.
:param cm: an asynchronous context manager
:return: a synchronous context manager
.. versionadded:: 2.1
"""
return _BlockingAsyncContextManager(cm, self)
def create_blocking_portal() -> BlockingPortal:
"""
Create a portal for running functions in the event loop thread from external threads.
Use this function in asynchronous code when you need to allow external threads access to the
event loop where your asynchronous code is currently running.
.. deprecated:: 3.0
Use :class:`.BlockingPortal` directly.
"""
warn(
"create_blocking_portal() has been deprecated -- use anyio.from_thread.BlockingPortal() "
"directly",
DeprecationWarning,
)
return BlockingPortal()
@contextmanager
def start_blocking_portal(
backend: str = "asyncio", backend_options: dict[str, Any] | None = None
) -> Generator[BlockingPortal, Any, None]:
"""
Start a new event loop in a new thread and run a blocking portal in its main task.
The parameters are the same as for :func:`~anyio.run`.
:param backend: name of the backend
:param backend_options: backend options
:return: a context manager that yields a blocking portal
.. versionchanged:: 3.0
Usage as a context manager is now required.
"""
async def run_portal() -> None:
async with BlockingPortal() as portal_:
if future.set_running_or_notify_cancel():
future.set_result(portal_)
await portal_.sleep_until_stopped()
future: Future[BlockingPortal] = Future()
with ThreadPoolExecutor(1) as executor:
run_future = executor.submit(
_eventloop.run,
run_portal, # type: ignore[arg-type]
backend=backend,
backend_options=backend_options,
)
try:
wait(
cast(Iterable[Future], [run_future, future]),
return_when=FIRST_COMPLETED,
)
except BaseException:
future.cancel()
run_future.cancel()
raise
if future.done():
portal = future.result()
cancel_remaining_tasks = False
try:
yield portal
except BaseException:
cancel_remaining_tasks = True
raise
finally:
try:
portal.call(portal.stop, cancel_remaining_tasks)
except RuntimeError:
pass
run_future.result()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/abc/_subprocesses.py | from __future__ import annotations
from abc import abstractmethod
from signal import Signals
from ._resources import AsyncResource
from ._streams import ByteReceiveStream, ByteSendStream
class Process(AsyncResource):
"""An asynchronous version of :class:`subprocess.Popen`."""
@abstractmethod
async def wait(self) -> int:
"""
Wait until the process exits.
:return: the exit code of the process
"""
@abstractmethod
def terminate(self) -> None:
"""
Terminates the process, gracefully if possible.
On Windows, this calls ``TerminateProcess()``.
On POSIX systems, this sends ``SIGTERM`` to the process.
.. seealso:: :meth:`subprocess.Popen.terminate`
"""
@abstractmethod
def kill(self) -> None:
"""
Kills the process.
On Windows, this calls ``TerminateProcess()``.
On POSIX systems, this sends ``SIGKILL`` to the process.
.. seealso:: :meth:`subprocess.Popen.kill`
"""
@abstractmethod
def send_signal(self, signal: Signals) -> None:
"""
Send a signal to the subprocess.
.. seealso:: :meth:`subprocess.Popen.send_signal`
:param signal: the signal number (e.g. :data:`signal.SIGHUP`)
"""
@property
@abstractmethod
def pid(self) -> int:
"""The process ID of the process."""
@property
@abstractmethod
def returncode(self) -> int | None:
"""
The return code of the process. If the process has not yet terminated, this will be
``None``.
"""
@property
@abstractmethod
def stdin(self) -> ByteSendStream | None:
"""The stream for the standard input of the process."""
@property
@abstractmethod
def stdout(self) -> ByteReceiveStream | None:
"""The stream for the standard output of the process."""
@property
@abstractmethod
def stderr(self) -> ByteReceiveStream | None:
"""The stream for the standard error output of the process."""
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/abc/_testing.py | from __future__ import annotations
import types
from abc import ABCMeta, abstractmethod
from collections.abc import AsyncGenerator, Iterable
from typing import Any, Callable, Coroutine, TypeVar
_T = TypeVar("_T")
class TestRunner(metaclass=ABCMeta):
"""
Encapsulates a running event loop. Every call made through this object will use the same event
loop.
"""
def __enter__(self) -> TestRunner:
return self
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: types.TracebackType | None,
) -> bool | None:
self.close()
return None
@abstractmethod
def close(self) -> None:
"""Close the event loop."""
@abstractmethod
def run_asyncgen_fixture(
self,
fixture_func: Callable[..., AsyncGenerator[_T, Any]],
kwargs: dict[str, Any],
) -> Iterable[_T]:
"""
Run an async generator fixture.
:param fixture_func: the fixture function
:param kwargs: keyword arguments to call the fixture function with
:return: an iterator yielding the value yielded from the async generator
"""
@abstractmethod
def run_fixture(
self,
fixture_func: Callable[..., Coroutine[Any, Any, _T]],
kwargs: dict[str, Any],
) -> _T:
"""
Run an async fixture.
:param fixture_func: the fixture function
:param kwargs: keyword arguments to call the fixture function with
:return: the return value of the fixture function
"""
@abstractmethod
def run_test(
self, test_func: Callable[..., Coroutine[Any, Any, Any]], kwargs: dict[str, Any]
) -> None:
"""
Run an async test function.
:param test_func: the test function
:param kwargs: keyword arguments to call the test function with
"""
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/abc/__init__.py | from __future__ import annotations
__all__ = (
"AsyncResource",
"IPAddressType",
"IPSockAddrType",
"SocketAttribute",
"SocketStream",
"SocketListener",
"UDPSocket",
"UNIXSocketStream",
"UDPPacketType",
"ConnectedUDPSocket",
"UnreliableObjectReceiveStream",
"UnreliableObjectSendStream",
"UnreliableObjectStream",
"ObjectReceiveStream",
"ObjectSendStream",
"ObjectStream",
"ByteReceiveStream",
"ByteSendStream",
"ByteStream",
"AnyUnreliableByteReceiveStream",
"AnyUnreliableByteSendStream",
"AnyUnreliableByteStream",
"AnyByteReceiveStream",
"AnyByteSendStream",
"AnyByteStream",
"Listener",
"Process",
"Event",
"Condition",
"Lock",
"Semaphore",
"CapacityLimiter",
"CancelScope",
"TaskGroup",
"TaskStatus",
"TestRunner",
"BlockingPortal",
)
from typing import Any
from ._resources import AsyncResource
from ._sockets import (
ConnectedUDPSocket,
IPAddressType,
IPSockAddrType,
SocketAttribute,
SocketListener,
SocketStream,
UDPPacketType,
UDPSocket,
UNIXSocketStream,
)
from ._streams import (
AnyByteReceiveStream,
AnyByteSendStream,
AnyByteStream,
AnyUnreliableByteReceiveStream,
AnyUnreliableByteSendStream,
AnyUnreliableByteStream,
ByteReceiveStream,
ByteSendStream,
ByteStream,
Listener,
ObjectReceiveStream,
ObjectSendStream,
ObjectStream,
UnreliableObjectReceiveStream,
UnreliableObjectSendStream,
UnreliableObjectStream,
)
from ._subprocesses import Process
from ._tasks import TaskGroup, TaskStatus
from ._testing import TestRunner
# Re-exported here, for backwards compatibility
# isort: off
from .._core._synchronization import CapacityLimiter, Condition, Event, Lock, Semaphore
from .._core._tasks import CancelScope
from ..from_thread import BlockingPortal
# Re-export imports so they look like they live directly in this package
key: str
value: Any
for key, value in list(locals().items()):
if getattr(value, "__module__", "").startswith("anyio.abc."):
value.__module__ = __name__
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/abc/_resources.py | from __future__ import annotations
from abc import ABCMeta, abstractmethod
from types import TracebackType
from typing import TypeVar
T = TypeVar("T")
class AsyncResource(metaclass=ABCMeta):
"""
Abstract base class for all closeable asynchronous resources.
Works as an asynchronous context manager which returns the instance itself on enter, and calls
:meth:`aclose` on exit.
"""
async def __aenter__(self: T) -> T:
return self
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> None:
await self.aclose()
@abstractmethod
async def aclose(self) -> None:
"""Close the resource."""
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/abc/_tasks.py | from __future__ import annotations
import sys
from abc import ABCMeta, abstractmethod
from types import TracebackType
from typing import TYPE_CHECKING, Any, Awaitable, Callable, TypeVar, overload
from warnings import warn
if sys.version_info >= (3, 8):
from typing import Protocol
else:
from typing_extensions import Protocol
if TYPE_CHECKING:
from anyio._core._tasks import CancelScope
T_Retval = TypeVar("T_Retval")
T_contra = TypeVar("T_contra", contravariant=True)
class TaskStatus(Protocol[T_contra]):
@overload
def started(self: TaskStatus[None]) -> None:
...
@overload
def started(self, value: T_contra) -> None:
...
def started(self, value: T_contra | None = None) -> None:
"""
Signal that the task has started.
:param value: object passed back to the starter of the task
"""
class TaskGroup(metaclass=ABCMeta):
"""
Groups several asynchronous tasks together.
:ivar cancel_scope: the cancel scope inherited by all child tasks
:vartype cancel_scope: CancelScope
"""
cancel_scope: CancelScope
async def spawn(
self,
func: Callable[..., Awaitable[Any]],
*args: object,
name: object = None,
) -> None:
"""
Start a new task in this task group.
:param func: a coroutine function
:param args: positional arguments to call the function with
:param name: name of the task, for the purposes of introspection and debugging
.. deprecated:: 3.0
Use :meth:`start_soon` instead. If your code needs AnyIO 2 compatibility, you
can keep using this until AnyIO 4.
"""
warn(
'spawn() is deprecated -- use start_soon() (without the "await") instead',
DeprecationWarning,
)
self.start_soon(func, *args, name=name)
@abstractmethod
def start_soon(
self,
func: Callable[..., Awaitable[Any]],
*args: object,
name: object = None,
) -> None:
"""
Start a new task in this task group.
:param func: a coroutine function
:param args: positional arguments to call the function with
:param name: name of the task, for the purposes of introspection and debugging
.. versionadded:: 3.0
"""
@abstractmethod
async def start(
self,
func: Callable[..., Awaitable[Any]],
*args: object,
name: object = None,
) -> Any:
"""
Start a new task and wait until it signals for readiness.
:param func: a coroutine function
:param args: positional arguments to call the function with
:param name: name of the task, for the purposes of introspection and debugging
:return: the value passed to ``task_status.started()``
:raises RuntimeError: if the task finishes without calling ``task_status.started()``
.. versionadded:: 3.0
"""
@abstractmethod
async def __aenter__(self) -> TaskGroup:
"""Enter the task group context and allow starting new tasks."""
@abstractmethod
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
"""Exit the task group context waiting for all tasks to finish."""
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/abc/_streams.py | from __future__ import annotations
from abc import abstractmethod
from typing import Any, Callable, Generic, TypeVar, Union
from .._core._exceptions import EndOfStream
from .._core._typedattr import TypedAttributeProvider
from ._resources import AsyncResource
from ._tasks import TaskGroup
T_Item = TypeVar("T_Item")
T_co = TypeVar("T_co", covariant=True)
T_contra = TypeVar("T_contra", contravariant=True)
class UnreliableObjectReceiveStream(
Generic[T_co], AsyncResource, TypedAttributeProvider
):
"""
An interface for receiving objects.
This interface makes no guarantees that the received messages arrive in the order in which they
were sent, or that no messages are missed.
Asynchronously iterating over objects of this type will yield objects matching the given type
parameter.
"""
def __aiter__(self) -> UnreliableObjectReceiveStream[T_co]:
return self
async def __anext__(self) -> T_co:
try:
return await self.receive()
except EndOfStream:
raise StopAsyncIteration
@abstractmethod
async def receive(self) -> T_co:
"""
Receive the next item.
:raises ~anyio.ClosedResourceError: if the receive stream has been explicitly
closed
:raises ~anyio.EndOfStream: if this stream has been closed from the other end
:raises ~anyio.BrokenResourceError: if this stream has been rendered unusable
due to external causes
"""
class UnreliableObjectSendStream(
Generic[T_contra], AsyncResource, TypedAttributeProvider
):
"""
An interface for sending objects.
This interface makes no guarantees that the messages sent will reach the recipient(s) in the
same order in which they were sent, or at all.
"""
@abstractmethod
async def send(self, item: T_contra) -> None:
"""
Send an item to the peer(s).
:param item: the item to send
:raises ~anyio.ClosedResourceError: if the send stream has been explicitly
closed
:raises ~anyio.BrokenResourceError: if this stream has been rendered unusable
due to external causes
"""
class UnreliableObjectStream(
UnreliableObjectReceiveStream[T_Item], UnreliableObjectSendStream[T_Item]
):
"""
A bidirectional message stream which does not guarantee the order or reliability of message
delivery.
"""
class ObjectReceiveStream(UnreliableObjectReceiveStream[T_co]):
"""
A receive message stream which guarantees that messages are received in the same order in
which they were sent, and that no messages are missed.
"""
class ObjectSendStream(UnreliableObjectSendStream[T_contra]):
"""
A send message stream which guarantees that messages are delivered in the same order in which
they were sent, without missing any messages in the middle.
"""
class ObjectStream(
ObjectReceiveStream[T_Item],
ObjectSendStream[T_Item],
UnreliableObjectStream[T_Item],
):
"""
A bidirectional message stream which guarantees the order and reliability of message delivery.
"""
@abstractmethod
async def send_eof(self) -> None:
"""
Send an end-of-file indication to the peer.
You should not try to send any further data to this stream after calling this method.
This method is idempotent (does nothing on successive calls).
"""
class ByteReceiveStream(AsyncResource, TypedAttributeProvider):
"""
An interface for receiving bytes from a single peer.
Iterating this byte stream will yield a byte string of arbitrary length, but no more than
65536 bytes.
"""
def __aiter__(self) -> ByteReceiveStream:
return self
async def __anext__(self) -> bytes:
try:
return await self.receive()
except EndOfStream:
raise StopAsyncIteration
@abstractmethod
async def receive(self, max_bytes: int = 65536) -> bytes:
"""
Receive at most ``max_bytes`` bytes from the peer.
.. note:: Implementors of this interface should not return an empty :class:`bytes` object,
and users should ignore them.
:param max_bytes: maximum number of bytes to receive
:return: the received bytes
:raises ~anyio.EndOfStream: if this stream has been closed from the other end
"""
class ByteSendStream(AsyncResource, TypedAttributeProvider):
"""An interface for sending bytes to a single peer."""
@abstractmethod
async def send(self, item: bytes) -> None:
"""
Send the given bytes to the peer.
:param item: the bytes to send
"""
class ByteStream(ByteReceiveStream, ByteSendStream):
"""A bidirectional byte stream."""
@abstractmethod
async def send_eof(self) -> None:
"""
Send an end-of-file indication to the peer.
You should not try to send any further data to this stream after calling this method.
This method is idempotent (does nothing on successive calls).
"""
#: Type alias for all unreliable bytes-oriented receive streams.
AnyUnreliableByteReceiveStream = Union[
UnreliableObjectReceiveStream[bytes], ByteReceiveStream
]
#: Type alias for all unreliable bytes-oriented send streams.
AnyUnreliableByteSendStream = Union[UnreliableObjectSendStream[bytes], ByteSendStream]
#: Type alias for all unreliable bytes-oriented streams.
AnyUnreliableByteStream = Union[UnreliableObjectStream[bytes], ByteStream]
#: Type alias for all bytes-oriented receive streams.
AnyByteReceiveStream = Union[ObjectReceiveStream[bytes], ByteReceiveStream]
#: Type alias for all bytes-oriented send streams.
AnyByteSendStream = Union[ObjectSendStream[bytes], ByteSendStream]
#: Type alias for all bytes-oriented streams.
AnyByteStream = Union[ObjectStream[bytes], ByteStream]
class Listener(Generic[T_co], AsyncResource, TypedAttributeProvider):
"""An interface for objects that let you accept incoming connections."""
@abstractmethod
async def serve(
self,
handler: Callable[[T_co], Any],
task_group: TaskGroup | None = None,
) -> None:
"""
Accept incoming connections as they come in and start tasks to handle them.
:param handler: a callable that will be used to handle each accepted connection
:param task_group: the task group that will be used to start tasks for handling each
accepted connection (if omitted, an ad-hoc task group will be created)
"""
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/abc/_sockets.py | from __future__ import annotations
import socket
from abc import abstractmethod
from contextlib import AsyncExitStack
from io import IOBase
from ipaddress import IPv4Address, IPv6Address
from socket import AddressFamily
from typing import (
Any,
Callable,
Collection,
Mapping,
Tuple,
TypeVar,
Union,
)
from .._core._tasks import create_task_group
from .._core._typedattr import (
TypedAttributeProvider,
TypedAttributeSet,
typed_attribute,
)
from ._streams import ByteStream, Listener, UnreliableObjectStream
from ._tasks import TaskGroup
IPAddressType = Union[str, IPv4Address, IPv6Address]
IPSockAddrType = Tuple[str, int]
SockAddrType = Union[IPSockAddrType, str]
UDPPacketType = Tuple[bytes, IPSockAddrType]
T_Retval = TypeVar("T_Retval")
class SocketAttribute(TypedAttributeSet):
#: the address family of the underlying socket
family: AddressFamily = typed_attribute()
#: the local socket address of the underlying socket
local_address: SockAddrType = typed_attribute()
#: for IP addresses, the local port the underlying socket is bound to
local_port: int = typed_attribute()
#: the underlying stdlib socket object
raw_socket: socket.socket = typed_attribute()
#: the remote address the underlying socket is connected to
remote_address: SockAddrType = typed_attribute()
#: for IP addresses, the remote port the underlying socket is connected to
remote_port: int = typed_attribute()
class _SocketProvider(TypedAttributeProvider):
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
from .._core._sockets import convert_ipv6_sockaddr as convert
attributes: dict[Any, Callable[[], Any]] = {
SocketAttribute.family: lambda: self._raw_socket.family,
SocketAttribute.local_address: lambda: convert(
self._raw_socket.getsockname()
),
SocketAttribute.raw_socket: lambda: self._raw_socket,
}
try:
peername: tuple[str, int] | None = convert(self._raw_socket.getpeername())
except OSError:
peername = None
# Provide the remote address for connected sockets
if peername is not None:
attributes[SocketAttribute.remote_address] = lambda: peername
# Provide local and remote ports for IP based sockets
if self._raw_socket.family in (AddressFamily.AF_INET, AddressFamily.AF_INET6):
attributes[
SocketAttribute.local_port
] = lambda: self._raw_socket.getsockname()[1]
if peername is not None:
remote_port = peername[1]
attributes[SocketAttribute.remote_port] = lambda: remote_port
return attributes
@property
@abstractmethod
def _raw_socket(self) -> socket.socket:
pass
class SocketStream(ByteStream, _SocketProvider):
"""
Transports bytes over a socket.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
class UNIXSocketStream(SocketStream):
@abstractmethod
async def send_fds(self, message: bytes, fds: Collection[int | IOBase]) -> None:
"""
Send file descriptors along with a message to the peer.
:param message: a non-empty bytestring
:param fds: a collection of files (either numeric file descriptors or open file or socket
objects)
"""
@abstractmethod
async def receive_fds(self, msglen: int, maxfds: int) -> tuple[bytes, list[int]]:
"""
Receive file descriptors along with a message from the peer.
:param msglen: length of the message to expect from the peer
:param maxfds: maximum number of file descriptors to expect from the peer
:return: a tuple of (message, file descriptors)
"""
class SocketListener(Listener[SocketStream], _SocketProvider):
"""
Listens to incoming socket connections.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
@abstractmethod
async def accept(self) -> SocketStream:
"""Accept an incoming connection."""
async def serve(
self,
handler: Callable[[SocketStream], Any],
task_group: TaskGroup | None = None,
) -> None:
async with AsyncExitStack() as exit_stack:
if task_group is None:
task_group = await exit_stack.enter_async_context(create_task_group())
while True:
stream = await self.accept()
task_group.start_soon(handler, stream)
class UDPSocket(UnreliableObjectStream[UDPPacketType], _SocketProvider):
"""
Represents an unconnected UDP socket.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
async def sendto(self, data: bytes, host: str, port: int) -> None:
"""Alias for :meth:`~.UnreliableObjectSendStream.send` ((data, (host, port)))."""
return await self.send((data, (host, port)))
class ConnectedUDPSocket(UnreliableObjectStream[bytes], _SocketProvider):
"""
Represents an connected UDP socket.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/streams/text.py | from __future__ import annotations
import codecs
from dataclasses import InitVar, dataclass, field
from typing import Any, Callable, Mapping
from ..abc import (
AnyByteReceiveStream,
AnyByteSendStream,
AnyByteStream,
ObjectReceiveStream,
ObjectSendStream,
ObjectStream,
)
@dataclass(eq=False)
class TextReceiveStream(ObjectReceiveStream[str]):
"""
Stream wrapper that decodes bytes to strings using the given encoding.
Decoding is done using :class:`~codecs.IncrementalDecoder` which returns any completely
received unicode characters as soon as they come in.
:param transport_stream: any bytes-based receive stream
:param encoding: character encoding to use for decoding bytes to strings (defaults to
``utf-8``)
:param errors: handling scheme for decoding errors (defaults to ``strict``; see the
`codecs module documentation`_ for a comprehensive list of options)
.. _codecs module documentation: https://docs.python.org/3/library/codecs.html#codec-objects
"""
transport_stream: AnyByteReceiveStream
encoding: InitVar[str] = "utf-8"
errors: InitVar[str] = "strict"
_decoder: codecs.IncrementalDecoder = field(init=False)
def __post_init__(self, encoding: str, errors: str) -> None:
decoder_class = codecs.getincrementaldecoder(encoding)
self._decoder = decoder_class(errors=errors)
async def receive(self) -> str:
while True:
chunk = await self.transport_stream.receive()
decoded = self._decoder.decode(chunk)
if decoded:
return decoded
async def aclose(self) -> None:
await self.transport_stream.aclose()
self._decoder.reset()
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
return self.transport_stream.extra_attributes
@dataclass(eq=False)
class TextSendStream(ObjectSendStream[str]):
"""
Sends strings to the wrapped stream as bytes using the given encoding.
:param AnyByteSendStream transport_stream: any bytes-based send stream
:param str encoding: character encoding to use for encoding strings to bytes (defaults to
``utf-8``)
:param str errors: handling scheme for encoding errors (defaults to ``strict``; see the
`codecs module documentation`_ for a comprehensive list of options)
.. _codecs module documentation: https://docs.python.org/3/library/codecs.html#codec-objects
"""
transport_stream: AnyByteSendStream
encoding: InitVar[str] = "utf-8"
errors: str = "strict"
_encoder: Callable[..., tuple[bytes, int]] = field(init=False)
def __post_init__(self, encoding: str) -> None:
self._encoder = codecs.getencoder(encoding)
async def send(self, item: str) -> None:
encoded = self._encoder(item, self.errors)[0]
await self.transport_stream.send(encoded)
async def aclose(self) -> None:
await self.transport_stream.aclose()
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
return self.transport_stream.extra_attributes
@dataclass(eq=False)
class TextStream(ObjectStream[str]):
"""
A bidirectional stream that decodes bytes to strings on receive and encodes strings to bytes on
send.
Extra attributes will be provided from both streams, with the receive stream providing the
values in case of a conflict.
:param AnyByteStream transport_stream: any bytes-based stream
:param str encoding: character encoding to use for encoding/decoding strings to/from bytes
(defaults to ``utf-8``)
:param str errors: handling scheme for encoding errors (defaults to ``strict``; see the
`codecs module documentation`_ for a comprehensive list of options)
.. _codecs module documentation: https://docs.python.org/3/library/codecs.html#codec-objects
"""
transport_stream: AnyByteStream
encoding: InitVar[str] = "utf-8"
errors: InitVar[str] = "strict"
_receive_stream: TextReceiveStream = field(init=False)
_send_stream: TextSendStream = field(init=False)
def __post_init__(self, encoding: str, errors: str) -> None:
self._receive_stream = TextReceiveStream(
self.transport_stream, encoding=encoding, errors=errors
)
self._send_stream = TextSendStream(
self.transport_stream, encoding=encoding, errors=errors
)
async def receive(self) -> str:
return await self._receive_stream.receive()
async def send(self, item: str) -> None:
await self._send_stream.send(item)
async def send_eof(self) -> None:
await self.transport_stream.send_eof()
async def aclose(self) -> None:
await self._send_stream.aclose()
await self._receive_stream.aclose()
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
return {
**self._send_stream.extra_attributes,
**self._receive_stream.extra_attributes,
}
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/streams/__init__.py | |
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/streams/stapled.py | from __future__ import annotations
from dataclasses import dataclass
from typing import Any, Callable, Generic, Mapping, Sequence, TypeVar
from ..abc import (
ByteReceiveStream,
ByteSendStream,
ByteStream,
Listener,
ObjectReceiveStream,
ObjectSendStream,
ObjectStream,
TaskGroup,
)
T_Item = TypeVar("T_Item")
T_Stream = TypeVar("T_Stream")
@dataclass(eq=False)
class StapledByteStream(ByteStream):
"""
Combines two byte streams into a single, bidirectional byte stream.
Extra attributes will be provided from both streams, with the receive stream providing the
values in case of a conflict.
:param ByteSendStream send_stream: the sending byte stream
:param ByteReceiveStream receive_stream: the receiving byte stream
"""
send_stream: ByteSendStream
receive_stream: ByteReceiveStream
async def receive(self, max_bytes: int = 65536) -> bytes:
return await self.receive_stream.receive(max_bytes)
async def send(self, item: bytes) -> None:
await self.send_stream.send(item)
async def send_eof(self) -> None:
await self.send_stream.aclose()
async def aclose(self) -> None:
await self.send_stream.aclose()
await self.receive_stream.aclose()
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
return {
**self.send_stream.extra_attributes,
**self.receive_stream.extra_attributes,
}
@dataclass(eq=False)
class StapledObjectStream(Generic[T_Item], ObjectStream[T_Item]):
"""
Combines two object streams into a single, bidirectional object stream.
Extra attributes will be provided from both streams, with the receive stream providing the
values in case of a conflict.
:param ObjectSendStream send_stream: the sending object stream
:param ObjectReceiveStream receive_stream: the receiving object stream
"""
send_stream: ObjectSendStream[T_Item]
receive_stream: ObjectReceiveStream[T_Item]
async def receive(self) -> T_Item:
return await self.receive_stream.receive()
async def send(self, item: T_Item) -> None:
await self.send_stream.send(item)
async def send_eof(self) -> None:
await self.send_stream.aclose()
async def aclose(self) -> None:
await self.send_stream.aclose()
await self.receive_stream.aclose()
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
return {
**self.send_stream.extra_attributes,
**self.receive_stream.extra_attributes,
}
@dataclass(eq=False)
class MultiListener(Generic[T_Stream], Listener[T_Stream]):
"""
Combines multiple listeners into one, serving connections from all of them at once.
Any MultiListeners in the given collection of listeners will have their listeners moved into
this one.
Extra attributes are provided from each listener, with each successive listener overriding any
conflicting attributes from the previous one.
:param listeners: listeners to serve
:type listeners: Sequence[Listener[T_Stream]]
"""
listeners: Sequence[Listener[T_Stream]]
def __post_init__(self) -> None:
listeners: list[Listener[T_Stream]] = []
for listener in self.listeners:
if isinstance(listener, MultiListener):
listeners.extend(listener.listeners)
del listener.listeners[:] # type: ignore[attr-defined]
else:
listeners.append(listener)
self.listeners = listeners
async def serve(
self, handler: Callable[[T_Stream], Any], task_group: TaskGroup | None = None
) -> None:
from .. import create_task_group
async with create_task_group() as tg:
for listener in self.listeners:
tg.start_soon(listener.serve, handler, task_group)
async def aclose(self) -> None:
for listener in self.listeners:
await listener.aclose()
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
attributes: dict = {}
for listener in self.listeners:
attributes.update(listener.extra_attributes)
return attributes
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/streams/buffered.py | from __future__ import annotations
from dataclasses import dataclass, field
from typing import Any, Callable, Mapping
from .. import ClosedResourceError, DelimiterNotFound, EndOfStream, IncompleteRead
from ..abc import AnyByteReceiveStream, ByteReceiveStream
@dataclass(eq=False)
class BufferedByteReceiveStream(ByteReceiveStream):
"""
Wraps any bytes-based receive stream and uses a buffer to provide sophisticated receiving
capabilities in the form of a byte stream.
"""
receive_stream: AnyByteReceiveStream
_buffer: bytearray = field(init=False, default_factory=bytearray)
_closed: bool = field(init=False, default=False)
async def aclose(self) -> None:
await self.receive_stream.aclose()
self._closed = True
@property
def buffer(self) -> bytes:
"""The bytes currently in the buffer."""
return bytes(self._buffer)
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
return self.receive_stream.extra_attributes
async def receive(self, max_bytes: int = 65536) -> bytes:
if self._closed:
raise ClosedResourceError
if self._buffer:
chunk = bytes(self._buffer[:max_bytes])
del self._buffer[:max_bytes]
return chunk
elif isinstance(self.receive_stream, ByteReceiveStream):
return await self.receive_stream.receive(max_bytes)
else:
# With a bytes-oriented object stream, we need to handle any surplus bytes we get from
# the receive() call
chunk = await self.receive_stream.receive()
if len(chunk) > max_bytes:
# Save the surplus bytes in the buffer
self._buffer.extend(chunk[max_bytes:])
return chunk[:max_bytes]
else:
return chunk
async def receive_exactly(self, nbytes: int) -> bytes:
"""
Read exactly the given amount of bytes from the stream.
:param nbytes: the number of bytes to read
:return: the bytes read
:raises ~anyio.IncompleteRead: if the stream was closed before the requested
amount of bytes could be read from the stream
"""
while True:
remaining = nbytes - len(self._buffer)
if remaining <= 0:
retval = self._buffer[:nbytes]
del self._buffer[:nbytes]
return bytes(retval)
try:
if isinstance(self.receive_stream, ByteReceiveStream):
chunk = await self.receive_stream.receive(remaining)
else:
chunk = await self.receive_stream.receive()
except EndOfStream as exc:
raise IncompleteRead from exc
self._buffer.extend(chunk)
async def receive_until(self, delimiter: bytes, max_bytes: int) -> bytes:
"""
Read from the stream until the delimiter is found or max_bytes have been read.
:param delimiter: the marker to look for in the stream
:param max_bytes: maximum number of bytes that will be read before raising
:exc:`~anyio.DelimiterNotFound`
:return: the bytes read (not including the delimiter)
:raises ~anyio.IncompleteRead: if the stream was closed before the delimiter
was found
:raises ~anyio.DelimiterNotFound: if the delimiter is not found within the
bytes read up to the maximum allowed
"""
delimiter_size = len(delimiter)
offset = 0
while True:
# Check if the delimiter can be found in the current buffer
index = self._buffer.find(delimiter, offset)
if index >= 0:
found = self._buffer[:index]
del self._buffer[: index + len(delimiter) :]
return bytes(found)
# Check if the buffer is already at or over the limit
if len(self._buffer) >= max_bytes:
raise DelimiterNotFound(max_bytes)
# Read more data into the buffer from the socket
try:
data = await self.receive_stream.receive()
except EndOfStream as exc:
raise IncompleteRead from exc
# Move the offset forward and add the new data to the buffer
offset = max(len(self._buffer) - delimiter_size + 1, 0)
self._buffer.extend(data)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/streams/file.py | from __future__ import annotations
from io import SEEK_SET, UnsupportedOperation
from os import PathLike
from pathlib import Path
from typing import Any, BinaryIO, Callable, Mapping, cast
from .. import (
BrokenResourceError,
ClosedResourceError,
EndOfStream,
TypedAttributeSet,
to_thread,
typed_attribute,
)
from ..abc import ByteReceiveStream, ByteSendStream
class FileStreamAttribute(TypedAttributeSet):
#: the open file descriptor
file: BinaryIO = typed_attribute()
#: the path of the file on the file system, if available (file must be a real file)
path: Path = typed_attribute()
#: the file number, if available (file must be a real file or a TTY)
fileno: int = typed_attribute()
class _BaseFileStream:
def __init__(self, file: BinaryIO):
self._file = file
async def aclose(self) -> None:
await to_thread.run_sync(self._file.close)
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
attributes: dict[Any, Callable[[], Any]] = {
FileStreamAttribute.file: lambda: self._file,
}
if hasattr(self._file, "name"):
attributes[FileStreamAttribute.path] = lambda: Path(self._file.name)
try:
self._file.fileno()
except UnsupportedOperation:
pass
else:
attributes[FileStreamAttribute.fileno] = lambda: self._file.fileno()
return attributes
class FileReadStream(_BaseFileStream, ByteReceiveStream):
"""
A byte stream that reads from a file in the file system.
:param file: a file that has been opened for reading in binary mode
.. versionadded:: 3.0
"""
@classmethod
async def from_path(cls, path: str | PathLike[str]) -> FileReadStream:
"""
Create a file read stream by opening the given file.
:param path: path of the file to read from
"""
file = await to_thread.run_sync(Path(path).open, "rb")
return cls(cast(BinaryIO, file))
async def receive(self, max_bytes: int = 65536) -> bytes:
try:
data = await to_thread.run_sync(self._file.read, max_bytes)
except ValueError:
raise ClosedResourceError from None
except OSError as exc:
raise BrokenResourceError from exc
if data:
return data
else:
raise EndOfStream
async def seek(self, position: int, whence: int = SEEK_SET) -> int:
"""
Seek the file to the given position.
.. seealso:: :meth:`io.IOBase.seek`
.. note:: Not all file descriptors are seekable.
:param position: position to seek the file to
:param whence: controls how ``position`` is interpreted
:return: the new absolute position
:raises OSError: if the file is not seekable
"""
return await to_thread.run_sync(self._file.seek, position, whence)
async def tell(self) -> int:
"""
Return the current stream position.
.. note:: Not all file descriptors are seekable.
:return: the current absolute position
:raises OSError: if the file is not seekable
"""
return await to_thread.run_sync(self._file.tell)
class FileWriteStream(_BaseFileStream, ByteSendStream):
"""
A byte stream that writes to a file in the file system.
:param file: a file that has been opened for writing in binary mode
.. versionadded:: 3.0
"""
@classmethod
async def from_path(
cls, path: str | PathLike[str], append: bool = False
) -> FileWriteStream:
"""
Create a file write stream by opening the given file for writing.
:param path: path of the file to write to
:param append: if ``True``, open the file for appending; if ``False``, any existing file
at the given path will be truncated
"""
mode = "ab" if append else "wb"
file = await to_thread.run_sync(Path(path).open, mode)
return cls(cast(BinaryIO, file))
async def send(self, item: bytes) -> None:
try:
await to_thread.run_sync(self._file.write, item)
except ValueError:
raise ClosedResourceError from None
except OSError as exc:
raise BrokenResourceError from exc
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/streams/tls.py | from __future__ import annotations
import logging
import re
import ssl
from dataclasses import dataclass
from functools import wraps
from typing import Any, Callable, Mapping, Tuple, TypeVar
from .. import (
BrokenResourceError,
EndOfStream,
aclose_forcefully,
get_cancelled_exc_class,
)
from .._core._typedattr import TypedAttributeSet, typed_attribute
from ..abc import AnyByteStream, ByteStream, Listener, TaskGroup
T_Retval = TypeVar("T_Retval")
_PCTRTT = Tuple[Tuple[str, str], ...]
_PCTRTTT = Tuple[_PCTRTT, ...]
class TLSAttribute(TypedAttributeSet):
"""Contains Transport Layer Security related attributes."""
#: the selected ALPN protocol
alpn_protocol: str | None = typed_attribute()
#: the channel binding for type ``tls-unique``
channel_binding_tls_unique: bytes = typed_attribute()
#: the selected cipher
cipher: tuple[str, str, int] = typed_attribute()
#: the peer certificate in dictionary form (see :meth:`ssl.SSLSocket.getpeercert`
#: for more information)
peer_certificate: dict[str, str | _PCTRTTT | _PCTRTT] | None = typed_attribute()
#: the peer certificate in binary form
peer_certificate_binary: bytes | None = typed_attribute()
#: ``True`` if this is the server side of the connection
server_side: bool = typed_attribute()
#: ciphers shared by the client during the TLS handshake (``None`` if this is the
#: client side)
shared_ciphers: list[tuple[str, str, int]] | None = typed_attribute()
#: the :class:`~ssl.SSLObject` used for encryption
ssl_object: ssl.SSLObject = typed_attribute()
#: ``True`` if this stream does (and expects) a closing TLS handshake when the
#: stream is being closed
standard_compatible: bool = typed_attribute()
#: the TLS protocol version (e.g. ``TLSv1.2``)
tls_version: str = typed_attribute()
@dataclass(eq=False)
class TLSStream(ByteStream):
"""
A stream wrapper that encrypts all sent data and decrypts received data.
This class has no public initializer; use :meth:`wrap` instead.
All extra attributes from :class:`~TLSAttribute` are supported.
:var AnyByteStream transport_stream: the wrapped stream
"""
transport_stream: AnyByteStream
standard_compatible: bool
_ssl_object: ssl.SSLObject
_read_bio: ssl.MemoryBIO
_write_bio: ssl.MemoryBIO
@classmethod
async def wrap(
cls,
transport_stream: AnyByteStream,
*,
server_side: bool | None = None,
hostname: str | None = None,
ssl_context: ssl.SSLContext | None = None,
standard_compatible: bool = True,
) -> TLSStream:
"""
Wrap an existing stream with Transport Layer Security.
This performs a TLS handshake with the peer.
:param transport_stream: a bytes-transporting stream to wrap
:param server_side: ``True`` if this is the server side of the connection,
``False`` if this is the client side (if omitted, will be set to ``False``
if ``hostname`` has been provided, ``False`` otherwise). Used only to create
a default context when an explicit context has not been provided.
:param hostname: host name of the peer (if host name checking is desired)
:param ssl_context: the SSLContext object to use (if not provided, a secure
default will be created)
:param standard_compatible: if ``False``, skip the closing handshake when closing the
connection, and don't raise an exception if the peer does the same
:raises ~ssl.SSLError: if the TLS handshake fails
"""
if server_side is None:
server_side = not hostname
if not ssl_context:
purpose = (
ssl.Purpose.CLIENT_AUTH if server_side else ssl.Purpose.SERVER_AUTH
)
ssl_context = ssl.create_default_context(purpose)
# Re-enable detection of unexpected EOFs if it was disabled by Python
if hasattr(ssl, "OP_IGNORE_UNEXPECTED_EOF"):
ssl_context.options &= ~ssl.OP_IGNORE_UNEXPECTED_EOF
bio_in = ssl.MemoryBIO()
bio_out = ssl.MemoryBIO()
ssl_object = ssl_context.wrap_bio(
bio_in, bio_out, server_side=server_side, server_hostname=hostname
)
wrapper = cls(
transport_stream=transport_stream,
standard_compatible=standard_compatible,
_ssl_object=ssl_object,
_read_bio=bio_in,
_write_bio=bio_out,
)
await wrapper._call_sslobject_method(ssl_object.do_handshake)
return wrapper
async def _call_sslobject_method(
self, func: Callable[..., T_Retval], *args: object
) -> T_Retval:
while True:
try:
result = func(*args)
except ssl.SSLWantReadError:
try:
# Flush any pending writes first
if self._write_bio.pending:
await self.transport_stream.send(self._write_bio.read())
data = await self.transport_stream.receive()
except EndOfStream:
self._read_bio.write_eof()
except OSError as exc:
self._read_bio.write_eof()
self._write_bio.write_eof()
raise BrokenResourceError from exc
else:
self._read_bio.write(data)
except ssl.SSLWantWriteError:
await self.transport_stream.send(self._write_bio.read())
except ssl.SSLSyscallError as exc:
self._read_bio.write_eof()
self._write_bio.write_eof()
raise BrokenResourceError from exc
except ssl.SSLError as exc:
self._read_bio.write_eof()
self._write_bio.write_eof()
if (
isinstance(exc, ssl.SSLEOFError)
or "UNEXPECTED_EOF_WHILE_READING" in exc.strerror
):
if self.standard_compatible:
raise BrokenResourceError from exc
else:
raise EndOfStream from None
raise
else:
# Flush any pending writes first
if self._write_bio.pending:
await self.transport_stream.send(self._write_bio.read())
return result
async def unwrap(self) -> tuple[AnyByteStream, bytes]:
"""
Does the TLS closing handshake.
:return: a tuple of (wrapped byte stream, bytes left in the read buffer)
"""
await self._call_sslobject_method(self._ssl_object.unwrap)
self._read_bio.write_eof()
self._write_bio.write_eof()
return self.transport_stream, self._read_bio.read()
async def aclose(self) -> None:
if self.standard_compatible:
try:
await self.unwrap()
except BaseException:
await aclose_forcefully(self.transport_stream)
raise
await self.transport_stream.aclose()
async def receive(self, max_bytes: int = 65536) -> bytes:
data = await self._call_sslobject_method(self._ssl_object.read, max_bytes)
if not data:
raise EndOfStream
return data
async def send(self, item: bytes) -> None:
await self._call_sslobject_method(self._ssl_object.write, item)
async def send_eof(self) -> None:
tls_version = self.extra(TLSAttribute.tls_version)
match = re.match(r"TLSv(\d+)(?:\.(\d+))?", tls_version)
if match:
major, minor = int(match.group(1)), int(match.group(2) or 0)
if (major, minor) < (1, 3):
raise NotImplementedError(
f"send_eof() requires at least TLSv1.3; current "
f"session uses {tls_version}"
)
raise NotImplementedError(
"send_eof() has not yet been implemented for TLS streams"
)
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
return {
**self.transport_stream.extra_attributes,
TLSAttribute.alpn_protocol: self._ssl_object.selected_alpn_protocol,
TLSAttribute.channel_binding_tls_unique: self._ssl_object.get_channel_binding,
TLSAttribute.cipher: self._ssl_object.cipher,
TLSAttribute.peer_certificate: lambda: self._ssl_object.getpeercert(False),
TLSAttribute.peer_certificate_binary: lambda: self._ssl_object.getpeercert(
True
),
TLSAttribute.server_side: lambda: self._ssl_object.server_side,
TLSAttribute.shared_ciphers: lambda: self._ssl_object.shared_ciphers()
if self._ssl_object.server_side
else None,
TLSAttribute.standard_compatible: lambda: self.standard_compatible,
TLSAttribute.ssl_object: lambda: self._ssl_object,
TLSAttribute.tls_version: self._ssl_object.version,
}
@dataclass(eq=False)
class TLSListener(Listener[TLSStream]):
"""
A convenience listener that wraps another listener and auto-negotiates a TLS session on every
accepted connection.
If the TLS handshake times out or raises an exception, :meth:`handle_handshake_error` is
called to do whatever post-mortem processing is deemed necessary.
Supports only the :attr:`~TLSAttribute.standard_compatible` extra attribute.
:param Listener listener: the listener to wrap
:param ssl_context: the SSL context object
:param standard_compatible: a flag passed through to :meth:`TLSStream.wrap`
:param handshake_timeout: time limit for the TLS handshake
(passed to :func:`~anyio.fail_after`)
"""
listener: Listener[Any]
ssl_context: ssl.SSLContext
standard_compatible: bool = True
handshake_timeout: float = 30
@staticmethod
async def handle_handshake_error(exc: BaseException, stream: AnyByteStream) -> None:
"""
Handle an exception raised during the TLS handshake.
This method does 3 things:
#. Forcefully closes the original stream
#. Logs the exception (unless it was a cancellation exception) using the
``anyio.streams.tls`` logger
#. Reraises the exception if it was a base exception or a cancellation exception
:param exc: the exception
:param stream: the original stream
"""
await aclose_forcefully(stream)
# Log all except cancellation exceptions
if not isinstance(exc, get_cancelled_exc_class()):
logging.getLogger(__name__).exception("Error during TLS handshake")
# Only reraise base exceptions and cancellation exceptions
if not isinstance(exc, Exception) or isinstance(exc, get_cancelled_exc_class()):
raise
async def serve(
self,
handler: Callable[[TLSStream], Any],
task_group: TaskGroup | None = None,
) -> None:
@wraps(handler)
async def handler_wrapper(stream: AnyByteStream) -> None:
from .. import fail_after
try:
with fail_after(self.handshake_timeout):
wrapped_stream = await TLSStream.wrap(
stream,
ssl_context=self.ssl_context,
standard_compatible=self.standard_compatible,
)
except BaseException as exc:
await self.handle_handshake_error(exc, stream)
else:
await handler(wrapped_stream)
await self.listener.serve(handler_wrapper, task_group)
async def aclose(self) -> None:
await self.listener.aclose()
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
return {
TLSAttribute.standard_compatible: lambda: self.standard_compatible,
}
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/streams/memory.py | from __future__ import annotations
from collections import OrderedDict, deque
from dataclasses import dataclass, field
from types import TracebackType
from typing import Generic, NamedTuple, TypeVar
from .. import (
BrokenResourceError,
ClosedResourceError,
EndOfStream,
WouldBlock,
get_cancelled_exc_class,
)
from .._core._compat import DeprecatedAwaitable
from ..abc import Event, ObjectReceiveStream, ObjectSendStream
from ..lowlevel import checkpoint
T_Item = TypeVar("T_Item")
T_co = TypeVar("T_co", covariant=True)
T_contra = TypeVar("T_contra", contravariant=True)
class MemoryObjectStreamStatistics(NamedTuple):
current_buffer_used: int #: number of items stored in the buffer
#: maximum number of items that can be stored on this stream (or :data:`math.inf`)
max_buffer_size: float
open_send_streams: int #: number of unclosed clones of the send stream
open_receive_streams: int #: number of unclosed clones of the receive stream
tasks_waiting_send: int #: number of tasks blocked on :meth:`MemoryObjectSendStream.send`
#: number of tasks blocked on :meth:`MemoryObjectReceiveStream.receive`
tasks_waiting_receive: int
@dataclass(eq=False)
class MemoryObjectStreamState(Generic[T_Item]):
max_buffer_size: float = field()
buffer: deque[T_Item] = field(init=False, default_factory=deque)
open_send_channels: int = field(init=False, default=0)
open_receive_channels: int = field(init=False, default=0)
waiting_receivers: OrderedDict[Event, list[T_Item]] = field(
init=False, default_factory=OrderedDict
)
waiting_senders: OrderedDict[Event, T_Item] = field(
init=False, default_factory=OrderedDict
)
def statistics(self) -> MemoryObjectStreamStatistics:
return MemoryObjectStreamStatistics(
len(self.buffer),
self.max_buffer_size,
self.open_send_channels,
self.open_receive_channels,
len(self.waiting_senders),
len(self.waiting_receivers),
)
@dataclass(eq=False)
class MemoryObjectReceiveStream(Generic[T_co], ObjectReceiveStream[T_co]):
_state: MemoryObjectStreamState[T_co]
_closed: bool = field(init=False, default=False)
def __post_init__(self) -> None:
self._state.open_receive_channels += 1
def receive_nowait(self) -> T_co:
"""
Receive the next item if it can be done without waiting.
:return: the received item
:raises ~anyio.ClosedResourceError: if this send stream has been closed
:raises ~anyio.EndOfStream: if the buffer is empty and this stream has been
closed from the sending end
:raises ~anyio.WouldBlock: if there are no items in the buffer and no tasks
waiting to send
"""
if self._closed:
raise ClosedResourceError
if self._state.waiting_senders:
# Get the item from the next sender
send_event, item = self._state.waiting_senders.popitem(last=False)
self._state.buffer.append(item)
send_event.set()
if self._state.buffer:
return self._state.buffer.popleft()
elif not self._state.open_send_channels:
raise EndOfStream
raise WouldBlock
async def receive(self) -> T_co:
await checkpoint()
try:
return self.receive_nowait()
except WouldBlock:
# Add ourselves in the queue
receive_event = Event()
container: list[T_co] = []
self._state.waiting_receivers[receive_event] = container
try:
await receive_event.wait()
except get_cancelled_exc_class():
# Ignore the immediate cancellation if we already received an item, so as not to
# lose it
if not container:
raise
finally:
self._state.waiting_receivers.pop(receive_event, None)
if container:
return container[0]
else:
raise EndOfStream
def clone(self) -> MemoryObjectReceiveStream[T_co]:
"""
Create a clone of this receive stream.
Each clone can be closed separately. Only when all clones have been closed will the
receiving end of the memory stream be considered closed by the sending ends.
:return: the cloned stream
"""
if self._closed:
raise ClosedResourceError
return MemoryObjectReceiveStream(_state=self._state)
def close(self) -> None:
"""
Close the stream.
This works the exact same way as :meth:`aclose`, but is provided as a special case for the
benefit of synchronous callbacks.
"""
if not self._closed:
self._closed = True
self._state.open_receive_channels -= 1
if self._state.open_receive_channels == 0:
send_events = list(self._state.waiting_senders.keys())
for event in send_events:
event.set()
async def aclose(self) -> None:
self.close()
def statistics(self) -> MemoryObjectStreamStatistics:
"""
Return statistics about the current state of this stream.
.. versionadded:: 3.0
"""
return self._state.statistics()
def __enter__(self) -> MemoryObjectReceiveStream[T_co]:
return self
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> None:
self.close()
@dataclass(eq=False)
class MemoryObjectSendStream(Generic[T_contra], ObjectSendStream[T_contra]):
_state: MemoryObjectStreamState[T_contra]
_closed: bool = field(init=False, default=False)
def __post_init__(self) -> None:
self._state.open_send_channels += 1
def send_nowait(self, item: T_contra) -> DeprecatedAwaitable:
"""
Send an item immediately if it can be done without waiting.
:param item: the item to send
:raises ~anyio.ClosedResourceError: if this send stream has been closed
:raises ~anyio.BrokenResourceError: if the stream has been closed from the
receiving end
:raises ~anyio.WouldBlock: if the buffer is full and there are no tasks waiting
to receive
"""
if self._closed:
raise ClosedResourceError
if not self._state.open_receive_channels:
raise BrokenResourceError
if self._state.waiting_receivers:
receive_event, container = self._state.waiting_receivers.popitem(last=False)
container.append(item)
receive_event.set()
elif len(self._state.buffer) < self._state.max_buffer_size:
self._state.buffer.append(item)
else:
raise WouldBlock
return DeprecatedAwaitable(self.send_nowait)
async def send(self, item: T_contra) -> None:
await checkpoint()
try:
self.send_nowait(item)
except WouldBlock:
# Wait until there's someone on the receiving end
send_event = Event()
self._state.waiting_senders[send_event] = item
try:
await send_event.wait()
except BaseException:
self._state.waiting_senders.pop(send_event, None) # type: ignore[arg-type]
raise
if self._state.waiting_senders.pop(send_event, None): # type: ignore[arg-type]
raise BrokenResourceError
def clone(self) -> MemoryObjectSendStream[T_contra]:
"""
Create a clone of this send stream.
Each clone can be closed separately. Only when all clones have been closed will the
sending end of the memory stream be considered closed by the receiving ends.
:return: the cloned stream
"""
if self._closed:
raise ClosedResourceError
return MemoryObjectSendStream(_state=self._state)
def close(self) -> None:
"""
Close the stream.
This works the exact same way as :meth:`aclose`, but is provided as a special case for the
benefit of synchronous callbacks.
"""
if not self._closed:
self._closed = True
self._state.open_send_channels -= 1
if self._state.open_send_channels == 0:
receive_events = list(self._state.waiting_receivers.keys())
self._state.waiting_receivers.clear()
for event in receive_events:
event.set()
async def aclose(self) -> None:
self.close()
def statistics(self) -> MemoryObjectStreamStatistics:
"""
Return statistics about the current state of this stream.
.. versionadded:: 3.0
"""
return self._state.statistics()
def __enter__(self) -> MemoryObjectSendStream[T_contra]:
return self
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> None:
self.close()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_eventloop.py | from __future__ import annotations
import math
import sys
import threading
from contextlib import contextmanager
from importlib import import_module
from typing import (
Any,
Awaitable,
Callable,
Generator,
TypeVar,
)
import sniffio
# This must be updated when new backends are introduced
from ._compat import DeprecatedAwaitableFloat
BACKENDS = "asyncio", "trio"
T_Retval = TypeVar("T_Retval")
threadlocals = threading.local()
def run(
func: Callable[..., Awaitable[T_Retval]],
*args: object,
backend: str = "asyncio",
backend_options: dict[str, Any] | None = None,
) -> T_Retval:
"""
Run the given coroutine function in an asynchronous event loop.
The current thread must not be already running an event loop.
:param func: a coroutine function
:param args: positional arguments to ``func``
:param backend: name of the asynchronous event loop implementation – currently either
``asyncio`` or ``trio``
:param backend_options: keyword arguments to call the backend ``run()`` implementation with
(documented :ref:`here <backend options>`)
:return: the return value of the coroutine function
:raises RuntimeError: if an asynchronous event loop is already running in this thread
:raises LookupError: if the named backend is not found
"""
try:
asynclib_name = sniffio.current_async_library()
except sniffio.AsyncLibraryNotFoundError:
pass
else:
raise RuntimeError(f"Already running {asynclib_name} in this thread")
try:
asynclib = import_module(f"..._backends._{backend}", package=__name__)
except ImportError as exc:
raise LookupError(f"No such backend: {backend}") from exc
token = None
if sniffio.current_async_library_cvar.get(None) is None:
# Since we're in control of the event loop, we can cache the name of the async library
token = sniffio.current_async_library_cvar.set(backend)
try:
backend_options = backend_options or {}
return asynclib.run(func, *args, **backend_options)
finally:
if token:
sniffio.current_async_library_cvar.reset(token)
async def sleep(delay: float) -> None:
"""
Pause the current task for the specified duration.
:param delay: the duration, in seconds
"""
return await get_asynclib().sleep(delay)
async def sleep_forever() -> None:
"""
Pause the current task until it's cancelled.
This is a shortcut for ``sleep(math.inf)``.
.. versionadded:: 3.1
"""
await sleep(math.inf)
async def sleep_until(deadline: float) -> None:
"""
Pause the current task until the given time.
:param deadline: the absolute time to wake up at (according to the internal monotonic clock of
the event loop)
.. versionadded:: 3.1
"""
now = current_time()
await sleep(max(deadline - now, 0))
def current_time() -> DeprecatedAwaitableFloat:
"""
Return the current value of the event loop's internal clock.
:return: the clock value (seconds)
"""
return DeprecatedAwaitableFloat(get_asynclib().current_time(), current_time)
def get_all_backends() -> tuple[str, ...]:
"""Return a tuple of the names of all built-in backends."""
return BACKENDS
def get_cancelled_exc_class() -> type[BaseException]:
"""Return the current async library's cancellation exception class."""
return get_asynclib().CancelledError
#
# Private API
#
@contextmanager
def claim_worker_thread(backend: str) -> Generator[Any, None, None]:
module = sys.modules["anyio._backends._" + backend]
threadlocals.current_async_module = module
try:
yield
finally:
del threadlocals.current_async_module
def get_asynclib(asynclib_name: str | None = None) -> Any:
if asynclib_name is None:
asynclib_name = sniffio.current_async_library()
modulename = "anyio._backends._" + asynclib_name
try:
return sys.modules[modulename]
except KeyError:
return import_module(modulename)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_subprocesses.py | from __future__ import annotations
from io import BytesIO
from os import PathLike
from subprocess import DEVNULL, PIPE, CalledProcessError, CompletedProcess
from typing import (
IO,
Any,
AsyncIterable,
Mapping,
Sequence,
cast,
)
from ..abc import Process
from ._eventloop import get_asynclib
from ._tasks import create_task_group
async def run_process(
command: str | bytes | Sequence[str | bytes],
*,
input: bytes | None = None,
stdout: int | IO[Any] | None = PIPE,
stderr: int | IO[Any] | None = PIPE,
check: bool = True,
cwd: str | bytes | PathLike[str] | None = None,
env: Mapping[str, str] | None = None,
start_new_session: bool = False,
) -> CompletedProcess[bytes]:
"""
Run an external command in a subprocess and wait until it completes.
.. seealso:: :func:`subprocess.run`
:param command: either a string to pass to the shell, or an iterable of strings containing the
executable name or path and its arguments
:param input: bytes passed to the standard input of the subprocess
:param stdout: either :data:`subprocess.PIPE` or :data:`subprocess.DEVNULL`
:param stderr: one of :data:`subprocess.PIPE`, :data:`subprocess.DEVNULL` or
:data:`subprocess.STDOUT`
:param check: if ``True``, raise :exc:`~subprocess.CalledProcessError` if the process
terminates with a return code other than 0
:param cwd: If not ``None``, change the working directory to this before running the command
:param env: if not ``None``, this mapping replaces the inherited environment variables from the
parent process
:param start_new_session: if ``true`` the setsid() system call will be made in the child
process prior to the execution of the subprocess. (POSIX only)
:return: an object representing the completed process
:raises ~subprocess.CalledProcessError: if ``check`` is ``True`` and the process exits with a
nonzero return code
"""
async def drain_stream(stream: AsyncIterable[bytes], index: int) -> None:
buffer = BytesIO()
async for chunk in stream:
buffer.write(chunk)
stream_contents[index] = buffer.getvalue()
async with await open_process(
command,
stdin=PIPE if input else DEVNULL,
stdout=stdout,
stderr=stderr,
cwd=cwd,
env=env,
start_new_session=start_new_session,
) as process:
stream_contents: list[bytes | None] = [None, None]
try:
async with create_task_group() as tg:
if process.stdout:
tg.start_soon(drain_stream, process.stdout, 0)
if process.stderr:
tg.start_soon(drain_stream, process.stderr, 1)
if process.stdin and input:
await process.stdin.send(input)
await process.stdin.aclose()
await process.wait()
except BaseException:
process.kill()
raise
output, errors = stream_contents
if check and process.returncode != 0:
raise CalledProcessError(cast(int, process.returncode), command, output, errors)
return CompletedProcess(command, cast(int, process.returncode), output, errors)
async def open_process(
command: str | bytes | Sequence[str | bytes],
*,
stdin: int | IO[Any] | None = PIPE,
stdout: int | IO[Any] | None = PIPE,
stderr: int | IO[Any] | None = PIPE,
cwd: str | bytes | PathLike[str] | None = None,
env: Mapping[str, str] | None = None,
start_new_session: bool = False,
) -> Process:
"""
Start an external command in a subprocess.
.. seealso:: :class:`subprocess.Popen`
:param command: either a string to pass to the shell, or an iterable of strings containing the
executable name or path and its arguments
:param stdin: one of :data:`subprocess.PIPE`, :data:`subprocess.DEVNULL`, a
file-like object, or ``None``
:param stdout: one of :data:`subprocess.PIPE`, :data:`subprocess.DEVNULL`,
a file-like object, or ``None``
:param stderr: one of :data:`subprocess.PIPE`, :data:`subprocess.DEVNULL`,
:data:`subprocess.STDOUT`, a file-like object, or ``None``
:param cwd: If not ``None``, the working directory is changed before executing
:param env: If env is not ``None``, it must be a mapping that defines the environment
variables for the new process
:param start_new_session: if ``true`` the setsid() system call will be made in the child
process prior to the execution of the subprocess. (POSIX only)
:return: an asynchronous process object
"""
shell = isinstance(command, str)
return await get_asynclib().open_process(
command,
shell=shell,
stdin=stdin,
stdout=stdout,
stderr=stderr,
cwd=cwd,
env=env,
start_new_session=start_new_session,
)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_testing.py | from __future__ import annotations
from typing import Any, Awaitable, Generator
from ._compat import DeprecatedAwaitableList, _warn_deprecation
from ._eventloop import get_asynclib
class TaskInfo:
"""
Represents an asynchronous task.
:ivar int id: the unique identifier of the task
:ivar parent_id: the identifier of the parent task, if any
:vartype parent_id: Optional[int]
:ivar str name: the description of the task (if any)
:ivar ~collections.abc.Coroutine coro: the coroutine object of the task
"""
__slots__ = "_name", "id", "parent_id", "name", "coro"
def __init__(
self,
id: int,
parent_id: int | None,
name: str | None,
coro: Generator[Any, Any, Any] | Awaitable[Any],
):
func = get_current_task
self._name = f"{func.__module__}.{func.__qualname__}"
self.id: int = id
self.parent_id: int | None = parent_id
self.name: str | None = name
self.coro: Generator[Any, Any, Any] | Awaitable[Any] = coro
def __eq__(self, other: object) -> bool:
if isinstance(other, TaskInfo):
return self.id == other.id
return NotImplemented
def __hash__(self) -> int:
return hash(self.id)
def __repr__(self) -> str:
return f"{self.__class__.__name__}(id={self.id!r}, name={self.name!r})"
def __await__(self) -> Generator[None, None, TaskInfo]:
_warn_deprecation(self)
if False:
yield
return self
def _unwrap(self) -> TaskInfo:
return self
def get_current_task() -> TaskInfo:
"""
Return the current task.
:return: a representation of the current task
"""
return get_asynclib().get_current_task()
def get_running_tasks() -> DeprecatedAwaitableList[TaskInfo]:
"""
Return a list of running tasks in the current event loop.
:return: a list of task info objects
"""
tasks = get_asynclib().get_running_tasks()
return DeprecatedAwaitableList(tasks, func=get_running_tasks)
async def wait_all_tasks_blocked() -> None:
"""Wait until all other tasks are waiting for something."""
await get_asynclib().wait_all_tasks_blocked()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_compat.py | from __future__ import annotations
from abc import ABCMeta, abstractmethod
from contextlib import AbstractContextManager
from types import TracebackType
from typing import (
TYPE_CHECKING,
Any,
AsyncContextManager,
Callable,
ContextManager,
Generator,
Generic,
Iterable,
List,
TypeVar,
Union,
overload,
)
from warnings import warn
if TYPE_CHECKING:
from ._testing import TaskInfo
else:
TaskInfo = object
T = TypeVar("T")
AnyDeprecatedAwaitable = Union[
"DeprecatedAwaitable",
"DeprecatedAwaitableFloat",
"DeprecatedAwaitableList[T]",
TaskInfo,
]
@overload
async def maybe_async(__obj: TaskInfo) -> TaskInfo:
...
@overload
async def maybe_async(__obj: DeprecatedAwaitableFloat) -> float:
...
@overload
async def maybe_async(__obj: DeprecatedAwaitableList[T]) -> list[T]:
...
@overload
async def maybe_async(__obj: DeprecatedAwaitable) -> None:
...
async def maybe_async(
__obj: AnyDeprecatedAwaitable[T],
) -> TaskInfo | float | list[T] | None:
"""
Await on the given object if necessary.
This function is intended to bridge the gap between AnyIO 2.x and 3.x where some functions and
methods were converted from coroutine functions into regular functions.
Do **not** try to use this for any other purpose!
:return: the result of awaiting on the object if coroutine, or the object itself otherwise
.. versionadded:: 2.2
"""
return __obj._unwrap()
class _ContextManagerWrapper:
def __init__(self, cm: ContextManager[T]):
self._cm = cm
async def __aenter__(self) -> T:
return self._cm.__enter__()
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
return self._cm.__exit__(exc_type, exc_val, exc_tb)
def maybe_async_cm(
cm: ContextManager[T] | AsyncContextManager[T],
) -> AsyncContextManager[T]:
"""
Wrap a regular context manager as an async one if necessary.
This function is intended to bridge the gap between AnyIO 2.x and 3.x where some functions and
methods were changed to return regular context managers instead of async ones.
:param cm: a regular or async context manager
:return: an async context manager
.. versionadded:: 2.2
"""
if not isinstance(cm, AbstractContextManager):
raise TypeError("Given object is not an context manager")
return _ContextManagerWrapper(cm)
def _warn_deprecation(
awaitable: AnyDeprecatedAwaitable[Any], stacklevel: int = 1
) -> None:
warn(
f'Awaiting on {awaitable._name}() is deprecated. Use "await '
f"anyio.maybe_async({awaitable._name}(...)) if you have to support both AnyIO 2.x "
f'and 3.x, or just remove the "await" if you are completely migrating to AnyIO 3+.',
DeprecationWarning,
stacklevel=stacklevel + 1,
)
class DeprecatedAwaitable:
def __init__(self, func: Callable[..., DeprecatedAwaitable]):
self._name = f"{func.__module__}.{func.__qualname__}"
def __await__(self) -> Generator[None, None, None]:
_warn_deprecation(self)
if False:
yield
def __reduce__(self) -> tuple[type[None], tuple[()]]:
return type(None), ()
def _unwrap(self) -> None:
return None
class DeprecatedAwaitableFloat(float):
def __new__(
cls, x: float, func: Callable[..., DeprecatedAwaitableFloat]
) -> DeprecatedAwaitableFloat:
return super().__new__(cls, x)
def __init__(self, x: float, func: Callable[..., DeprecatedAwaitableFloat]):
self._name = f"{func.__module__}.{func.__qualname__}"
def __await__(self) -> Generator[None, None, float]:
_warn_deprecation(self)
if False:
yield
return float(self)
def __reduce__(self) -> tuple[type[float], tuple[float]]:
return float, (float(self),)
def _unwrap(self) -> float:
return float(self)
class DeprecatedAwaitableList(List[T]):
def __init__(
self,
iterable: Iterable[T] = (),
*,
func: Callable[..., DeprecatedAwaitableList[T]],
):
super().__init__(iterable)
self._name = f"{func.__module__}.{func.__qualname__}"
def __await__(self) -> Generator[None, None, list[T]]:
_warn_deprecation(self)
if False:
yield
return list(self)
def __reduce__(self) -> tuple[type[list[T]], tuple[list[T]]]:
return list, (list(self),)
def _unwrap(self) -> list[T]:
return list(self)
class DeprecatedAsyncContextManager(Generic[T], metaclass=ABCMeta):
@abstractmethod
def __enter__(self) -> T:
pass
@abstractmethod
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
pass
async def __aenter__(self) -> T:
warn(
f"Using {self.__class__.__name__} as an async context manager has been deprecated. "
f'Use "async with anyio.maybe_async_cm(yourcontextmanager) as foo:" if you have to '
f'support both AnyIO 2.x and 3.x, or just remove the "async" from "async with" if '
f"you are completely migrating to AnyIO 3+.",
DeprecationWarning,
)
return self.__enter__()
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
return self.__exit__(exc_type, exc_val, exc_tb)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/__init__.py | |
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_exceptions.py | from __future__ import annotations
from traceback import format_exception
class BrokenResourceError(Exception):
"""
Raised when trying to use a resource that has been rendered unusable due to external causes
(e.g. a send stream whose peer has disconnected).
"""
class BrokenWorkerProcess(Exception):
"""
Raised by :func:`run_sync_in_process` if the worker process terminates abruptly or otherwise
misbehaves.
"""
class BusyResourceError(Exception):
"""Raised when two tasks are trying to read from or write to the same resource concurrently."""
def __init__(self, action: str):
super().__init__(f"Another task is already {action} this resource")
class ClosedResourceError(Exception):
"""Raised when trying to use a resource that has been closed."""
class DelimiterNotFound(Exception):
"""
Raised during :meth:`~anyio.streams.buffered.BufferedByteReceiveStream.receive_until` if the
maximum number of bytes has been read without the delimiter being found.
"""
def __init__(self, max_bytes: int) -> None:
super().__init__(
f"The delimiter was not found among the first {max_bytes} bytes"
)
class EndOfStream(Exception):
"""Raised when trying to read from a stream that has been closed from the other end."""
class ExceptionGroup(BaseException):
"""
Raised when multiple exceptions have been raised in a task group.
:var ~typing.Sequence[BaseException] exceptions: the sequence of exceptions raised together
"""
SEPARATOR = "----------------------------\n"
exceptions: list[BaseException]
def __str__(self) -> str:
tracebacks = [
"".join(format_exception(type(exc), exc, exc.__traceback__))
for exc in self.exceptions
]
return (
f"{len(self.exceptions)} exceptions were raised in the task group:\n"
f"{self.SEPARATOR}{self.SEPARATOR.join(tracebacks)}"
)
def __repr__(self) -> str:
exception_reprs = ", ".join(repr(exc) for exc in self.exceptions)
return f"<{self.__class__.__name__}: {exception_reprs}>"
class IncompleteRead(Exception):
"""
Raised during :meth:`~anyio.streams.buffered.BufferedByteReceiveStream.receive_exactly` or
:meth:`~anyio.streams.buffered.BufferedByteReceiveStream.receive_until` if the
connection is closed before the requested amount of bytes has been read.
"""
def __init__(self) -> None:
super().__init__(
"The stream was closed before the read operation could be completed"
)
class TypedAttributeLookupError(LookupError):
"""
Raised by :meth:`~anyio.TypedAttributeProvider.extra` when the given typed attribute is not
found and no default value has been given.
"""
class WouldBlock(Exception):
"""Raised by ``X_nowait`` functions if ``X()`` would block."""
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_resources.py | from __future__ import annotations
from ..abc import AsyncResource
from ._tasks import CancelScope
async def aclose_forcefully(resource: AsyncResource) -> None:
"""
Close an asynchronous resource in a cancelled scope.
Doing this closes the resource without waiting on anything.
:param resource: the resource to close
"""
with CancelScope() as scope:
scope.cancel()
await resource.aclose()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_tasks.py | from __future__ import annotations
import math
from types import TracebackType
from warnings import warn
from ..abc._tasks import TaskGroup, TaskStatus
from ._compat import (
DeprecatedAsyncContextManager,
DeprecatedAwaitable,
DeprecatedAwaitableFloat,
)
from ._eventloop import get_asynclib
class _IgnoredTaskStatus(TaskStatus[object]):
def started(self, value: object = None) -> None:
pass
TASK_STATUS_IGNORED = _IgnoredTaskStatus()
class CancelScope(DeprecatedAsyncContextManager["CancelScope"]):
"""
Wraps a unit of work that can be made separately cancellable.
:param deadline: The time (clock value) when this scope is cancelled automatically
:param shield: ``True`` to shield the cancel scope from external cancellation
"""
def __new__(
cls, *, deadline: float = math.inf, shield: bool = False
) -> CancelScope:
return get_asynclib().CancelScope(shield=shield, deadline=deadline)
def cancel(self) -> DeprecatedAwaitable:
"""Cancel this scope immediately."""
raise NotImplementedError
@property
def deadline(self) -> float:
"""
The time (clock value) when this scope is cancelled automatically.
Will be ``float('inf')`` if no timeout has been set.
"""
raise NotImplementedError
@deadline.setter
def deadline(self, value: float) -> None:
raise NotImplementedError
@property
def cancel_called(self) -> bool:
"""``True`` if :meth:`cancel` has been called."""
raise NotImplementedError
@property
def shield(self) -> bool:
"""
``True`` if this scope is shielded from external cancellation.
While a scope is shielded, it will not receive cancellations from outside.
"""
raise NotImplementedError
@shield.setter
def shield(self, value: bool) -> None:
raise NotImplementedError
def __enter__(self) -> CancelScope:
raise NotImplementedError
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
raise NotImplementedError
def open_cancel_scope(*, shield: bool = False) -> CancelScope:
"""
Open a cancel scope.
:param shield: ``True`` to shield the cancel scope from external cancellation
:return: a cancel scope
.. deprecated:: 3.0
Use :class:`~CancelScope` directly.
"""
warn(
"open_cancel_scope() is deprecated -- use CancelScope() directly",
DeprecationWarning,
)
return get_asynclib().CancelScope(shield=shield)
class FailAfterContextManager(DeprecatedAsyncContextManager[CancelScope]):
def __init__(self, cancel_scope: CancelScope):
self._cancel_scope = cancel_scope
def __enter__(self) -> CancelScope:
return self._cancel_scope.__enter__()
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
retval = self._cancel_scope.__exit__(exc_type, exc_val, exc_tb)
if self._cancel_scope.cancel_called:
raise TimeoutError
return retval
def fail_after(delay: float | None, shield: bool = False) -> FailAfterContextManager:
"""
Create a context manager which raises a :class:`TimeoutError` if does not finish in time.
:param delay: maximum allowed time (in seconds) before raising the exception, or ``None`` to
disable the timeout
:param shield: ``True`` to shield the cancel scope from external cancellation
:return: a context manager that yields a cancel scope
:rtype: :class:`~typing.ContextManager`\\[:class:`~anyio.CancelScope`\\]
"""
deadline = (
(get_asynclib().current_time() + delay) if delay is not None else math.inf
)
cancel_scope = get_asynclib().CancelScope(deadline=deadline, shield=shield)
return FailAfterContextManager(cancel_scope)
def move_on_after(delay: float | None, shield: bool = False) -> CancelScope:
"""
Create a cancel scope with a deadline that expires after the given delay.
:param delay: maximum allowed time (in seconds) before exiting the context block, or ``None``
to disable the timeout
:param shield: ``True`` to shield the cancel scope from external cancellation
:return: a cancel scope
"""
deadline = (
(get_asynclib().current_time() + delay) if delay is not None else math.inf
)
return get_asynclib().CancelScope(deadline=deadline, shield=shield)
def current_effective_deadline() -> DeprecatedAwaitableFloat:
"""
Return the nearest deadline among all the cancel scopes effective for the current task.
:return: a clock value from the event loop's internal clock (or ``float('inf')`` if
there is no deadline in effect, or ``float('-inf')`` if the current scope has
been cancelled)
:rtype: float
"""
return DeprecatedAwaitableFloat(
get_asynclib().current_effective_deadline(), current_effective_deadline
)
def create_task_group() -> TaskGroup:
"""
Create a task group.
:return: a task group
"""
return get_asynclib().TaskGroup()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_signals.py | from __future__ import annotations
from typing import AsyncIterator
from ._compat import DeprecatedAsyncContextManager
from ._eventloop import get_asynclib
def open_signal_receiver(
*signals: int,
) -> DeprecatedAsyncContextManager[AsyncIterator[int]]:
"""
Start receiving operating system signals.
:param signals: signals to receive (e.g. ``signal.SIGINT``)
:return: an asynchronous context manager for an asynchronous iterator which yields signal
numbers
.. warning:: Windows does not support signals natively so it is best to avoid relying on this
in cross-platform applications.
.. warning:: On asyncio, this permanently replaces any previous signal handler for the given
signals, as set via :meth:`~asyncio.loop.add_signal_handler`.
"""
return get_asynclib().open_signal_receiver(*signals)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_streams.py | from __future__ import annotations
import math
from typing import Any, TypeVar, overload
from ..streams.memory import (
MemoryObjectReceiveStream,
MemoryObjectSendStream,
MemoryObjectStreamState,
)
T_Item = TypeVar("T_Item")
@overload
def create_memory_object_stream(
max_buffer_size: float = ...,
) -> tuple[MemoryObjectSendStream[Any], MemoryObjectReceiveStream[Any]]:
...
@overload
def create_memory_object_stream(
max_buffer_size: float = ..., item_type: type[T_Item] = ...
) -> tuple[MemoryObjectSendStream[T_Item], MemoryObjectReceiveStream[T_Item]]:
...
def create_memory_object_stream(
max_buffer_size: float = 0, item_type: type[T_Item] | None = None
) -> tuple[MemoryObjectSendStream[Any], MemoryObjectReceiveStream[Any]]:
"""
Create a memory object stream.
:param max_buffer_size: number of items held in the buffer until ``send()`` starts blocking
:param item_type: type of item, for marking the streams with the right generic type for
static typing (not used at run time)
:return: a tuple of (send stream, receive stream)
"""
if max_buffer_size != math.inf and not isinstance(max_buffer_size, int):
raise ValueError("max_buffer_size must be either an integer or math.inf")
if max_buffer_size < 0:
raise ValueError("max_buffer_size cannot be negative")
state: MemoryObjectStreamState = MemoryObjectStreamState(max_buffer_size)
return MemoryObjectSendStream(state), MemoryObjectReceiveStream(state)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_synchronization.py | from __future__ import annotations
from collections import deque
from dataclasses import dataclass
from types import TracebackType
from warnings import warn
from ..lowlevel import cancel_shielded_checkpoint, checkpoint, checkpoint_if_cancelled
from ._compat import DeprecatedAwaitable
from ._eventloop import get_asynclib
from ._exceptions import BusyResourceError, WouldBlock
from ._tasks import CancelScope
from ._testing import TaskInfo, get_current_task
@dataclass(frozen=True)
class EventStatistics:
"""
:ivar int tasks_waiting: number of tasks waiting on :meth:`~.Event.wait`
"""
tasks_waiting: int
@dataclass(frozen=True)
class CapacityLimiterStatistics:
"""
:ivar int borrowed_tokens: number of tokens currently borrowed by tasks
:ivar float total_tokens: total number of available tokens
:ivar tuple borrowers: tasks or other objects currently holding tokens borrowed from this
limiter
:ivar int tasks_waiting: number of tasks waiting on :meth:`~.CapacityLimiter.acquire` or
:meth:`~.CapacityLimiter.acquire_on_behalf_of`
"""
borrowed_tokens: int
total_tokens: float
borrowers: tuple[object, ...]
tasks_waiting: int
@dataclass(frozen=True)
class LockStatistics:
"""
:ivar bool locked: flag indicating if this lock is locked or not
:ivar ~anyio.TaskInfo owner: task currently holding the lock (or ``None`` if the lock is not
held by any task)
:ivar int tasks_waiting: number of tasks waiting on :meth:`~.Lock.acquire`
"""
locked: bool
owner: TaskInfo | None
tasks_waiting: int
@dataclass(frozen=True)
class ConditionStatistics:
"""
:ivar int tasks_waiting: number of tasks blocked on :meth:`~.Condition.wait`
:ivar ~anyio.LockStatistics lock_statistics: statistics of the underlying :class:`~.Lock`
"""
tasks_waiting: int
lock_statistics: LockStatistics
@dataclass(frozen=True)
class SemaphoreStatistics:
"""
:ivar int tasks_waiting: number of tasks waiting on :meth:`~.Semaphore.acquire`
"""
tasks_waiting: int
class Event:
def __new__(cls) -> Event:
return get_asynclib().Event()
def set(self) -> DeprecatedAwaitable:
"""Set the flag, notifying all listeners."""
raise NotImplementedError
def is_set(self) -> bool:
"""Return ``True`` if the flag is set, ``False`` if not."""
raise NotImplementedError
async def wait(self) -> None:
"""
Wait until the flag has been set.
If the flag has already been set when this method is called, it returns immediately.
"""
raise NotImplementedError
def statistics(self) -> EventStatistics:
"""Return statistics about the current state of this event."""
raise NotImplementedError
class Lock:
_owner_task: TaskInfo | None = None
def __init__(self) -> None:
self._waiters: deque[tuple[TaskInfo, Event]] = deque()
async def __aenter__(self) -> None:
await self.acquire()
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> None:
self.release()
async def acquire(self) -> None:
"""Acquire the lock."""
await checkpoint_if_cancelled()
try:
self.acquire_nowait()
except WouldBlock:
task = get_current_task()
event = Event()
token = task, event
self._waiters.append(token)
try:
await event.wait()
except BaseException:
if not event.is_set():
self._waiters.remove(token)
elif self._owner_task == task:
self.release()
raise
assert self._owner_task == task
else:
try:
await cancel_shielded_checkpoint()
except BaseException:
self.release()
raise
def acquire_nowait(self) -> None:
"""
Acquire the lock, without blocking.
:raises ~anyio.WouldBlock: if the operation would block
"""
task = get_current_task()
if self._owner_task == task:
raise RuntimeError("Attempted to acquire an already held Lock")
if self._owner_task is not None:
raise WouldBlock
self._owner_task = task
def release(self) -> DeprecatedAwaitable:
"""Release the lock."""
if self._owner_task != get_current_task():
raise RuntimeError("The current task is not holding this lock")
if self._waiters:
self._owner_task, event = self._waiters.popleft()
event.set()
else:
del self._owner_task
return DeprecatedAwaitable(self.release)
def locked(self) -> bool:
"""Return True if the lock is currently held."""
return self._owner_task is not None
def statistics(self) -> LockStatistics:
"""
Return statistics about the current state of this lock.
.. versionadded:: 3.0
"""
return LockStatistics(self.locked(), self._owner_task, len(self._waiters))
class Condition:
_owner_task: TaskInfo | None = None
def __init__(self, lock: Lock | None = None):
self._lock = lock or Lock()
self._waiters: deque[Event] = deque()
async def __aenter__(self) -> None:
await self.acquire()
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> None:
self.release()
def _check_acquired(self) -> None:
if self._owner_task != get_current_task():
raise RuntimeError("The current task is not holding the underlying lock")
async def acquire(self) -> None:
"""Acquire the underlying lock."""
await self._lock.acquire()
self._owner_task = get_current_task()
def acquire_nowait(self) -> None:
"""
Acquire the underlying lock, without blocking.
:raises ~anyio.WouldBlock: if the operation would block
"""
self._lock.acquire_nowait()
self._owner_task = get_current_task()
def release(self) -> DeprecatedAwaitable:
"""Release the underlying lock."""
self._lock.release()
return DeprecatedAwaitable(self.release)
def locked(self) -> bool:
"""Return True if the lock is set."""
return self._lock.locked()
def notify(self, n: int = 1) -> None:
"""Notify exactly n listeners."""
self._check_acquired()
for _ in range(n):
try:
event = self._waiters.popleft()
except IndexError:
break
event.set()
def notify_all(self) -> None:
"""Notify all the listeners."""
self._check_acquired()
for event in self._waiters:
event.set()
self._waiters.clear()
async def wait(self) -> None:
"""Wait for a notification."""
await checkpoint()
event = Event()
self._waiters.append(event)
self.release()
try:
await event.wait()
except BaseException:
if not event.is_set():
self._waiters.remove(event)
raise
finally:
with CancelScope(shield=True):
await self.acquire()
def statistics(self) -> ConditionStatistics:
"""
Return statistics about the current state of this condition.
.. versionadded:: 3.0
"""
return ConditionStatistics(len(self._waiters), self._lock.statistics())
class Semaphore:
def __init__(self, initial_value: int, *, max_value: int | None = None):
if not isinstance(initial_value, int):
raise TypeError("initial_value must be an integer")
if initial_value < 0:
raise ValueError("initial_value must be >= 0")
if max_value is not None:
if not isinstance(max_value, int):
raise TypeError("max_value must be an integer or None")
if max_value < initial_value:
raise ValueError(
"max_value must be equal to or higher than initial_value"
)
self._value = initial_value
self._max_value = max_value
self._waiters: deque[Event] = deque()
async def __aenter__(self) -> Semaphore:
await self.acquire()
return self
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> None:
self.release()
async def acquire(self) -> None:
"""Decrement the semaphore value, blocking if necessary."""
await checkpoint_if_cancelled()
try:
self.acquire_nowait()
except WouldBlock:
event = Event()
self._waiters.append(event)
try:
await event.wait()
except BaseException:
if not event.is_set():
self._waiters.remove(event)
else:
self.release()
raise
else:
try:
await cancel_shielded_checkpoint()
except BaseException:
self.release()
raise
def acquire_nowait(self) -> None:
"""
Acquire the underlying lock, without blocking.
:raises ~anyio.WouldBlock: if the operation would block
"""
if self._value == 0:
raise WouldBlock
self._value -= 1
def release(self) -> DeprecatedAwaitable:
"""Increment the semaphore value."""
if self._max_value is not None and self._value == self._max_value:
raise ValueError("semaphore released too many times")
if self._waiters:
self._waiters.popleft().set()
else:
self._value += 1
return DeprecatedAwaitable(self.release)
@property
def value(self) -> int:
"""The current value of the semaphore."""
return self._value
@property
def max_value(self) -> int | None:
"""The maximum value of the semaphore."""
return self._max_value
def statistics(self) -> SemaphoreStatistics:
"""
Return statistics about the current state of this semaphore.
.. versionadded:: 3.0
"""
return SemaphoreStatistics(len(self._waiters))
class CapacityLimiter:
def __new__(cls, total_tokens: float) -> CapacityLimiter:
return get_asynclib().CapacityLimiter(total_tokens)
async def __aenter__(self) -> None:
raise NotImplementedError
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
raise NotImplementedError
@property
def total_tokens(self) -> float:
"""
The total number of tokens available for borrowing.
This is a read-write property. If the total number of tokens is increased, the
proportionate number of tasks waiting on this limiter will be granted their tokens.
.. versionchanged:: 3.0
The property is now writable.
"""
raise NotImplementedError
@total_tokens.setter
def total_tokens(self, value: float) -> None:
raise NotImplementedError
async def set_total_tokens(self, value: float) -> None:
warn(
"CapacityLimiter.set_total_tokens has been deprecated. Set the value of the"
'"total_tokens" attribute directly.',
DeprecationWarning,
)
self.total_tokens = value
@property
def borrowed_tokens(self) -> int:
"""The number of tokens that have currently been borrowed."""
raise NotImplementedError
@property
def available_tokens(self) -> float:
"""The number of tokens currently available to be borrowed"""
raise NotImplementedError
def acquire_nowait(self) -> DeprecatedAwaitable:
"""
Acquire a token for the current task without waiting for one to become available.
:raises ~anyio.WouldBlock: if there are no tokens available for borrowing
"""
raise NotImplementedError
def acquire_on_behalf_of_nowait(self, borrower: object) -> DeprecatedAwaitable:
"""
Acquire a token without waiting for one to become available.
:param borrower: the entity borrowing a token
:raises ~anyio.WouldBlock: if there are no tokens available for borrowing
"""
raise NotImplementedError
async def acquire(self) -> None:
"""
Acquire a token for the current task, waiting if necessary for one to become available.
"""
raise NotImplementedError
async def acquire_on_behalf_of(self, borrower: object) -> None:
"""
Acquire a token, waiting if necessary for one to become available.
:param borrower: the entity borrowing a token
"""
raise NotImplementedError
def release(self) -> None:
"""
Release the token held by the current task.
:raises RuntimeError: if the current task has not borrowed a token from this limiter.
"""
raise NotImplementedError
def release_on_behalf_of(self, borrower: object) -> None:
"""
Release the token held by the given borrower.
:raises RuntimeError: if the borrower has not borrowed a token from this limiter.
"""
raise NotImplementedError
def statistics(self) -> CapacityLimiterStatistics:
"""
Return statistics about the current state of this limiter.
.. versionadded:: 3.0
"""
raise NotImplementedError
def create_lock() -> Lock:
"""
Create an asynchronous lock.
:return: a lock object
.. deprecated:: 3.0
Use :class:`~Lock` directly.
"""
warn("create_lock() is deprecated -- use Lock() directly", DeprecationWarning)
return Lock()
def create_condition(lock: Lock | None = None) -> Condition:
"""
Create an asynchronous condition.
:param lock: the lock to base the condition object on
:return: a condition object
.. deprecated:: 3.0
Use :class:`~Condition` directly.
"""
warn(
"create_condition() is deprecated -- use Condition() directly",
DeprecationWarning,
)
return Condition(lock=lock)
def create_event() -> Event:
"""
Create an asynchronous event object.
:return: an event object
.. deprecated:: 3.0
Use :class:`~Event` directly.
"""
warn("create_event() is deprecated -- use Event() directly", DeprecationWarning)
return get_asynclib().Event()
def create_semaphore(value: int, *, max_value: int | None = None) -> Semaphore:
"""
Create an asynchronous semaphore.
:param value: the semaphore's initial value
:param max_value: if set, makes this a "bounded" semaphore that raises :exc:`ValueError` if the
semaphore's value would exceed this number
:return: a semaphore object
.. deprecated:: 3.0
Use :class:`~Semaphore` directly.
"""
warn(
"create_semaphore() is deprecated -- use Semaphore() directly",
DeprecationWarning,
)
return Semaphore(value, max_value=max_value)
def create_capacity_limiter(total_tokens: float) -> CapacityLimiter:
"""
Create a capacity limiter.
:param total_tokens: the total number of tokens available for borrowing (can be an integer or
:data:`math.inf`)
:return: a capacity limiter object
.. deprecated:: 3.0
Use :class:`~CapacityLimiter` directly.
"""
warn(
"create_capacity_limiter() is deprecated -- use CapacityLimiter() directly",
DeprecationWarning,
)
return get_asynclib().CapacityLimiter(total_tokens)
class ResourceGuard:
__slots__ = "action", "_guarded"
def __init__(self, action: str):
self.action = action
self._guarded = False
def __enter__(self) -> None:
if self._guarded:
raise BusyResourceError(self.action)
self._guarded = True
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
self._guarded = False
return None
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_typedattr.py | from __future__ import annotations
import sys
from typing import Any, Callable, Mapping, TypeVar, overload
from ._exceptions import TypedAttributeLookupError
if sys.version_info >= (3, 8):
from typing import final
else:
from typing_extensions import final
T_Attr = TypeVar("T_Attr")
T_Default = TypeVar("T_Default")
undefined = object()
def typed_attribute() -> Any:
"""Return a unique object, used to mark typed attributes."""
return object()
class TypedAttributeSet:
"""
Superclass for typed attribute collections.
Checks that every public attribute of every subclass has a type annotation.
"""
def __init_subclass__(cls) -> None:
annotations: dict[str, Any] = getattr(cls, "__annotations__", {})
for attrname in dir(cls):
if not attrname.startswith("_") and attrname not in annotations:
raise TypeError(
f"Attribute {attrname!r} is missing its type annotation"
)
super().__init_subclass__()
class TypedAttributeProvider:
"""Base class for classes that wish to provide typed extra attributes."""
@property
def extra_attributes(self) -> Mapping[T_Attr, Callable[[], T_Attr]]:
"""
A mapping of the extra attributes to callables that return the corresponding values.
If the provider wraps another provider, the attributes from that wrapper should also be
included in the returned mapping (but the wrapper may override the callables from the
wrapped instance).
"""
return {}
@overload
def extra(self, attribute: T_Attr) -> T_Attr:
...
@overload
def extra(self, attribute: T_Attr, default: T_Default) -> T_Attr | T_Default:
...
@final
def extra(self, attribute: Any, default: object = undefined) -> object:
"""
extra(attribute, default=undefined)
Return the value of the given typed extra attribute.
:param attribute: the attribute (member of a :class:`~TypedAttributeSet`) to look for
:param default: the value that should be returned if no value is found for the attribute
:raises ~anyio.TypedAttributeLookupError: if the search failed and no default value was
given
"""
try:
return self.extra_attributes[attribute]()
except KeyError:
if default is undefined:
raise TypedAttributeLookupError("Attribute not found") from None
else:
return default
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_fileio.py | from __future__ import annotations
import os
import pathlib
import sys
from dataclasses import dataclass
from functools import partial
from os import PathLike
from typing import (
IO,
TYPE_CHECKING,
Any,
AnyStr,
AsyncIterator,
Callable,
Generic,
Iterable,
Iterator,
Sequence,
cast,
overload,
)
from .. import to_thread
from ..abc import AsyncResource
if sys.version_info >= (3, 8):
from typing import Final
else:
from typing_extensions import Final
if TYPE_CHECKING:
from _typeshed import OpenBinaryMode, OpenTextMode, ReadableBuffer, WriteableBuffer
else:
ReadableBuffer = OpenBinaryMode = OpenTextMode = WriteableBuffer = object
class AsyncFile(AsyncResource, Generic[AnyStr]):
"""
An asynchronous file object.
This class wraps a standard file object and provides async friendly versions of the following
blocking methods (where available on the original file object):
* read
* read1
* readline
* readlines
* readinto
* readinto1
* write
* writelines
* truncate
* seek
* tell
* flush
All other methods are directly passed through.
This class supports the asynchronous context manager protocol which closes the underlying file
at the end of the context block.
This class also supports asynchronous iteration::
async with await open_file(...) as f:
async for line in f:
print(line)
"""
def __init__(self, fp: IO[AnyStr]) -> None:
self._fp: Any = fp
def __getattr__(self, name: str) -> object:
return getattr(self._fp, name)
@property
def wrapped(self) -> IO[AnyStr]:
"""The wrapped file object."""
return self._fp
async def __aiter__(self) -> AsyncIterator[AnyStr]:
while True:
line = await self.readline()
if line:
yield line
else:
break
async def aclose(self) -> None:
return await to_thread.run_sync(self._fp.close)
async def read(self, size: int = -1) -> AnyStr:
return await to_thread.run_sync(self._fp.read, size)
async def read1(self: AsyncFile[bytes], size: int = -1) -> bytes:
return await to_thread.run_sync(self._fp.read1, size)
async def readline(self) -> AnyStr:
return await to_thread.run_sync(self._fp.readline)
async def readlines(self) -> list[AnyStr]:
return await to_thread.run_sync(self._fp.readlines)
async def readinto(self: AsyncFile[bytes], b: WriteableBuffer) -> bytes:
return await to_thread.run_sync(self._fp.readinto, b)
async def readinto1(self: AsyncFile[bytes], b: WriteableBuffer) -> bytes:
return await to_thread.run_sync(self._fp.readinto1, b)
@overload
async def write(self: AsyncFile[bytes], b: ReadableBuffer) -> int:
...
@overload
async def write(self: AsyncFile[str], b: str) -> int:
...
async def write(self, b: ReadableBuffer | str) -> int:
return await to_thread.run_sync(self._fp.write, b)
@overload
async def writelines(
self: AsyncFile[bytes], lines: Iterable[ReadableBuffer]
) -> None:
...
@overload
async def writelines(self: AsyncFile[str], lines: Iterable[str]) -> None:
...
async def writelines(self, lines: Iterable[ReadableBuffer] | Iterable[str]) -> None:
return await to_thread.run_sync(self._fp.writelines, lines)
async def truncate(self, size: int | None = None) -> int:
return await to_thread.run_sync(self._fp.truncate, size)
async def seek(self, offset: int, whence: int | None = os.SEEK_SET) -> int:
return await to_thread.run_sync(self._fp.seek, offset, whence)
async def tell(self) -> int:
return await to_thread.run_sync(self._fp.tell)
async def flush(self) -> None:
return await to_thread.run_sync(self._fp.flush)
@overload
async def open_file(
file: str | PathLike[str] | int,
mode: OpenBinaryMode,
buffering: int = ...,
encoding: str | None = ...,
errors: str | None = ...,
newline: str | None = ...,
closefd: bool = ...,
opener: Callable[[str, int], int] | None = ...,
) -> AsyncFile[bytes]:
...
@overload
async def open_file(
file: str | PathLike[str] | int,
mode: OpenTextMode = ...,
buffering: int = ...,
encoding: str | None = ...,
errors: str | None = ...,
newline: str | None = ...,
closefd: bool = ...,
opener: Callable[[str, int], int] | None = ...,
) -> AsyncFile[str]:
...
async def open_file(
file: str | PathLike[str] | int,
mode: str = "r",
buffering: int = -1,
encoding: str | None = None,
errors: str | None = None,
newline: str | None = None,
closefd: bool = True,
opener: Callable[[str, int], int] | None = None,
) -> AsyncFile[Any]:
"""
Open a file asynchronously.
The arguments are exactly the same as for the builtin :func:`open`.
:return: an asynchronous file object
"""
fp = await to_thread.run_sync(
open, file, mode, buffering, encoding, errors, newline, closefd, opener
)
return AsyncFile(fp)
def wrap_file(file: IO[AnyStr]) -> AsyncFile[AnyStr]:
"""
Wrap an existing file as an asynchronous file.
:param file: an existing file-like object
:return: an asynchronous file object
"""
return AsyncFile(file)
@dataclass(eq=False)
class _PathIterator(AsyncIterator["Path"]):
iterator: Iterator[PathLike[str]]
async def __anext__(self) -> Path:
nextval = await to_thread.run_sync(next, self.iterator, None, cancellable=True)
if nextval is None:
raise StopAsyncIteration from None
return Path(cast("PathLike[str]", nextval))
class Path:
"""
An asynchronous version of :class:`pathlib.Path`.
This class cannot be substituted for :class:`pathlib.Path` or :class:`pathlib.PurePath`, but
it is compatible with the :class:`os.PathLike` interface.
It implements the Python 3.10 version of :class:`pathlib.Path` interface, except for the
deprecated :meth:`~pathlib.Path.link_to` method.
Any methods that do disk I/O need to be awaited on. These methods are:
* :meth:`~pathlib.Path.absolute`
* :meth:`~pathlib.Path.chmod`
* :meth:`~pathlib.Path.cwd`
* :meth:`~pathlib.Path.exists`
* :meth:`~pathlib.Path.expanduser`
* :meth:`~pathlib.Path.group`
* :meth:`~pathlib.Path.hardlink_to`
* :meth:`~pathlib.Path.home`
* :meth:`~pathlib.Path.is_block_device`
* :meth:`~pathlib.Path.is_char_device`
* :meth:`~pathlib.Path.is_dir`
* :meth:`~pathlib.Path.is_fifo`
* :meth:`~pathlib.Path.is_file`
* :meth:`~pathlib.Path.is_mount`
* :meth:`~pathlib.Path.lchmod`
* :meth:`~pathlib.Path.lstat`
* :meth:`~pathlib.Path.mkdir`
* :meth:`~pathlib.Path.open`
* :meth:`~pathlib.Path.owner`
* :meth:`~pathlib.Path.read_bytes`
* :meth:`~pathlib.Path.read_text`
* :meth:`~pathlib.Path.readlink`
* :meth:`~pathlib.Path.rename`
* :meth:`~pathlib.Path.replace`
* :meth:`~pathlib.Path.rmdir`
* :meth:`~pathlib.Path.samefile`
* :meth:`~pathlib.Path.stat`
* :meth:`~pathlib.Path.touch`
* :meth:`~pathlib.Path.unlink`
* :meth:`~pathlib.Path.write_bytes`
* :meth:`~pathlib.Path.write_text`
Additionally, the following methods return an async iterator yielding :class:`~.Path` objects:
* :meth:`~pathlib.Path.glob`
* :meth:`~pathlib.Path.iterdir`
* :meth:`~pathlib.Path.rglob`
"""
__slots__ = "_path", "__weakref__"
__weakref__: Any
def __init__(self, *args: str | PathLike[str]) -> None:
self._path: Final[pathlib.Path] = pathlib.Path(*args)
def __fspath__(self) -> str:
return self._path.__fspath__()
def __str__(self) -> str:
return self._path.__str__()
def __repr__(self) -> str:
return f"{self.__class__.__name__}({self.as_posix()!r})"
def __bytes__(self) -> bytes:
return self._path.__bytes__()
def __hash__(self) -> int:
return self._path.__hash__()
def __eq__(self, other: object) -> bool:
target = other._path if isinstance(other, Path) else other
return self._path.__eq__(target)
def __lt__(self, other: Path) -> bool:
target = other._path if isinstance(other, Path) else other
return self._path.__lt__(target)
def __le__(self, other: Path) -> bool:
target = other._path if isinstance(other, Path) else other
return self._path.__le__(target)
def __gt__(self, other: Path) -> bool:
target = other._path if isinstance(other, Path) else other
return self._path.__gt__(target)
def __ge__(self, other: Path) -> bool:
target = other._path if isinstance(other, Path) else other
return self._path.__ge__(target)
def __truediv__(self, other: Any) -> Path:
return Path(self._path / other)
def __rtruediv__(self, other: Any) -> Path:
return Path(other) / self
@property
def parts(self) -> tuple[str, ...]:
return self._path.parts
@property
def drive(self) -> str:
return self._path.drive
@property
def root(self) -> str:
return self._path.root
@property
def anchor(self) -> str:
return self._path.anchor
@property
def parents(self) -> Sequence[Path]:
return tuple(Path(p) for p in self._path.parents)
@property
def parent(self) -> Path:
return Path(self._path.parent)
@property
def name(self) -> str:
return self._path.name
@property
def suffix(self) -> str:
return self._path.suffix
@property
def suffixes(self) -> list[str]:
return self._path.suffixes
@property
def stem(self) -> str:
return self._path.stem
async def absolute(self) -> Path:
path = await to_thread.run_sync(self._path.absolute)
return Path(path)
def as_posix(self) -> str:
return self._path.as_posix()
def as_uri(self) -> str:
return self._path.as_uri()
def match(self, path_pattern: str) -> bool:
return self._path.match(path_pattern)
def is_relative_to(self, *other: str | PathLike[str]) -> bool:
try:
self.relative_to(*other)
return True
except ValueError:
return False
async def chmod(self, mode: int, *, follow_symlinks: bool = True) -> None:
func = partial(os.chmod, follow_symlinks=follow_symlinks)
return await to_thread.run_sync(func, self._path, mode)
@classmethod
async def cwd(cls) -> Path:
path = await to_thread.run_sync(pathlib.Path.cwd)
return cls(path)
async def exists(self) -> bool:
return await to_thread.run_sync(self._path.exists, cancellable=True)
async def expanduser(self) -> Path:
return Path(await to_thread.run_sync(self._path.expanduser, cancellable=True))
def glob(self, pattern: str) -> AsyncIterator[Path]:
gen = self._path.glob(pattern)
return _PathIterator(gen)
async def group(self) -> str:
return await to_thread.run_sync(self._path.group, cancellable=True)
async def hardlink_to(self, target: str | pathlib.Path | Path) -> None:
if isinstance(target, Path):
target = target._path
await to_thread.run_sync(os.link, target, self)
@classmethod
async def home(cls) -> Path:
home_path = await to_thread.run_sync(pathlib.Path.home)
return cls(home_path)
def is_absolute(self) -> bool:
return self._path.is_absolute()
async def is_block_device(self) -> bool:
return await to_thread.run_sync(self._path.is_block_device, cancellable=True)
async def is_char_device(self) -> bool:
return await to_thread.run_sync(self._path.is_char_device, cancellable=True)
async def is_dir(self) -> bool:
return await to_thread.run_sync(self._path.is_dir, cancellable=True)
async def is_fifo(self) -> bool:
return await to_thread.run_sync(self._path.is_fifo, cancellable=True)
async def is_file(self) -> bool:
return await to_thread.run_sync(self._path.is_file, cancellable=True)
async def is_mount(self) -> bool:
return await to_thread.run_sync(os.path.ismount, self._path, cancellable=True)
def is_reserved(self) -> bool:
return self._path.is_reserved()
async def is_socket(self) -> bool:
return await to_thread.run_sync(self._path.is_socket, cancellable=True)
async def is_symlink(self) -> bool:
return await to_thread.run_sync(self._path.is_symlink, cancellable=True)
def iterdir(self) -> AsyncIterator[Path]:
gen = self._path.iterdir()
return _PathIterator(gen)
def joinpath(self, *args: str | PathLike[str]) -> Path:
return Path(self._path.joinpath(*args))
async def lchmod(self, mode: int) -> None:
await to_thread.run_sync(self._path.lchmod, mode)
async def lstat(self) -> os.stat_result:
return await to_thread.run_sync(self._path.lstat, cancellable=True)
async def mkdir(
self, mode: int = 0o777, parents: bool = False, exist_ok: bool = False
) -> None:
await to_thread.run_sync(self._path.mkdir, mode, parents, exist_ok)
@overload
async def open(
self,
mode: OpenBinaryMode,
buffering: int = ...,
encoding: str | None = ...,
errors: str | None = ...,
newline: str | None = ...,
) -> AsyncFile[bytes]:
...
@overload
async def open(
self,
mode: OpenTextMode = ...,
buffering: int = ...,
encoding: str | None = ...,
errors: str | None = ...,
newline: str | None = ...,
) -> AsyncFile[str]:
...
async def open(
self,
mode: str = "r",
buffering: int = -1,
encoding: str | None = None,
errors: str | None = None,
newline: str | None = None,
) -> AsyncFile[Any]:
fp = await to_thread.run_sync(
self._path.open, mode, buffering, encoding, errors, newline
)
return AsyncFile(fp)
async def owner(self) -> str:
return await to_thread.run_sync(self._path.owner, cancellable=True)
async def read_bytes(self) -> bytes:
return await to_thread.run_sync(self._path.read_bytes)
async def read_text(
self, encoding: str | None = None, errors: str | None = None
) -> str:
return await to_thread.run_sync(self._path.read_text, encoding, errors)
def relative_to(self, *other: str | PathLike[str]) -> Path:
return Path(self._path.relative_to(*other))
async def readlink(self) -> Path:
target = await to_thread.run_sync(os.readlink, self._path)
return Path(cast(str, target))
async def rename(self, target: str | pathlib.PurePath | Path) -> Path:
if isinstance(target, Path):
target = target._path
await to_thread.run_sync(self._path.rename, target)
return Path(target)
async def replace(self, target: str | pathlib.PurePath | Path) -> Path:
if isinstance(target, Path):
target = target._path
await to_thread.run_sync(self._path.replace, target)
return Path(target)
async def resolve(self, strict: bool = False) -> Path:
func = partial(self._path.resolve, strict=strict)
return Path(await to_thread.run_sync(func, cancellable=True))
def rglob(self, pattern: str) -> AsyncIterator[Path]:
gen = self._path.rglob(pattern)
return _PathIterator(gen)
async def rmdir(self) -> None:
await to_thread.run_sync(self._path.rmdir)
async def samefile(
self, other_path: str | bytes | int | pathlib.Path | Path
) -> bool:
if isinstance(other_path, Path):
other_path = other_path._path
return await to_thread.run_sync(
self._path.samefile, other_path, cancellable=True
)
async def stat(self, *, follow_symlinks: bool = True) -> os.stat_result:
func = partial(os.stat, follow_symlinks=follow_symlinks)
return await to_thread.run_sync(func, self._path, cancellable=True)
async def symlink_to(
self,
target: str | pathlib.Path | Path,
target_is_directory: bool = False,
) -> None:
if isinstance(target, Path):
target = target._path
await to_thread.run_sync(self._path.symlink_to, target, target_is_directory)
async def touch(self, mode: int = 0o666, exist_ok: bool = True) -> None:
await to_thread.run_sync(self._path.touch, mode, exist_ok)
async def unlink(self, missing_ok: bool = False) -> None:
try:
await to_thread.run_sync(self._path.unlink)
except FileNotFoundError:
if not missing_ok:
raise
def with_name(self, name: str) -> Path:
return Path(self._path.with_name(name))
def with_stem(self, stem: str) -> Path:
return Path(self._path.with_name(stem + self._path.suffix))
def with_suffix(self, suffix: str) -> Path:
return Path(self._path.with_suffix(suffix))
async def write_bytes(self, data: bytes) -> int:
return await to_thread.run_sync(self._path.write_bytes, data)
async def write_text(
self,
data: str,
encoding: str | None = None,
errors: str | None = None,
newline: str | None = None,
) -> int:
# Path.write_text() does not support the "newline" parameter before Python 3.10
def sync_write_text() -> int:
with self._path.open(
"w", encoding=encoding, errors=errors, newline=newline
) as fp:
return fp.write(data)
return await to_thread.run_sync(sync_write_text)
PathLike.register(Path)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_core/_sockets.py | from __future__ import annotations
import socket
import ssl
import sys
from ipaddress import IPv6Address, ip_address
from os import PathLike, chmod
from pathlib import Path
from socket import AddressFamily, SocketKind
from typing import Awaitable, List, Tuple, cast, overload
from .. import to_thread
from ..abc import (
ConnectedUDPSocket,
IPAddressType,
IPSockAddrType,
SocketListener,
SocketStream,
UDPSocket,
UNIXSocketStream,
)
from ..streams.stapled import MultiListener
from ..streams.tls import TLSStream
from ._eventloop import get_asynclib
from ._resources import aclose_forcefully
from ._synchronization import Event
from ._tasks import create_task_group, move_on_after
if sys.version_info >= (3, 8):
from typing import Literal
else:
from typing_extensions import Literal
IPPROTO_IPV6 = getattr(socket, "IPPROTO_IPV6", 41) # https://bugs.python.org/issue29515
GetAddrInfoReturnType = List[
Tuple[AddressFamily, SocketKind, int, str, Tuple[str, int]]
]
AnyIPAddressFamily = Literal[
AddressFamily.AF_UNSPEC, AddressFamily.AF_INET, AddressFamily.AF_INET6
]
IPAddressFamily = Literal[AddressFamily.AF_INET, AddressFamily.AF_INET6]
# tls_hostname given
@overload
async def connect_tcp(
remote_host: IPAddressType,
remote_port: int,
*,
local_host: IPAddressType | None = ...,
ssl_context: ssl.SSLContext | None = ...,
tls_standard_compatible: bool = ...,
tls_hostname: str,
happy_eyeballs_delay: float = ...,
) -> TLSStream:
...
# ssl_context given
@overload
async def connect_tcp(
remote_host: IPAddressType,
remote_port: int,
*,
local_host: IPAddressType | None = ...,
ssl_context: ssl.SSLContext,
tls_standard_compatible: bool = ...,
tls_hostname: str | None = ...,
happy_eyeballs_delay: float = ...,
) -> TLSStream:
...
# tls=True
@overload
async def connect_tcp(
remote_host: IPAddressType,
remote_port: int,
*,
local_host: IPAddressType | None = ...,
tls: Literal[True],
ssl_context: ssl.SSLContext | None = ...,
tls_standard_compatible: bool = ...,
tls_hostname: str | None = ...,
happy_eyeballs_delay: float = ...,
) -> TLSStream:
...
# tls=False
@overload
async def connect_tcp(
remote_host: IPAddressType,
remote_port: int,
*,
local_host: IPAddressType | None = ...,
tls: Literal[False],
ssl_context: ssl.SSLContext | None = ...,
tls_standard_compatible: bool = ...,
tls_hostname: str | None = ...,
happy_eyeballs_delay: float = ...,
) -> SocketStream:
...
# No TLS arguments
@overload
async def connect_tcp(
remote_host: IPAddressType,
remote_port: int,
*,
local_host: IPAddressType | None = ...,
happy_eyeballs_delay: float = ...,
) -> SocketStream:
...
async def connect_tcp(
remote_host: IPAddressType,
remote_port: int,
*,
local_host: IPAddressType | None = None,
tls: bool = False,
ssl_context: ssl.SSLContext | None = None,
tls_standard_compatible: bool = True,
tls_hostname: str | None = None,
happy_eyeballs_delay: float = 0.25,
) -> SocketStream | TLSStream:
"""
Connect to a host using the TCP protocol.
This function implements the stateless version of the Happy Eyeballs algorithm (RFC
6555). If ``remote_host`` is a host name that resolves to multiple IP addresses,
each one is tried until one connection attempt succeeds. If the first attempt does
not connected within 250 milliseconds, a second attempt is started using the next
address in the list, and so on. On IPv6 enabled systems, an IPv6 address (if
available) is tried first.
When the connection has been established, a TLS handshake will be done if either
``ssl_context`` or ``tls_hostname`` is not ``None``, or if ``tls`` is ``True``.
:param remote_host: the IP address or host name to connect to
:param remote_port: port on the target host to connect to
:param local_host: the interface address or name to bind the socket to before connecting
:param tls: ``True`` to do a TLS handshake with the connected stream and return a
:class:`~anyio.streams.tls.TLSStream` instead
:param ssl_context: the SSL context object to use (if omitted, a default context is created)
:param tls_standard_compatible: If ``True``, performs the TLS shutdown handshake before closing
the stream and requires that the server does this as well. Otherwise,
:exc:`~ssl.SSLEOFError` may be raised during reads from the stream.
Some protocols, such as HTTP, require this option to be ``False``.
See :meth:`~ssl.SSLContext.wrap_socket` for details.
:param tls_hostname: host name to check the server certificate against (defaults to the value
of ``remote_host``)
:param happy_eyeballs_delay: delay (in seconds) before starting the next connection attempt
:return: a socket stream object if no TLS handshake was done, otherwise a TLS stream
:raises OSError: if the connection attempt fails
"""
# Placed here due to https://github.com/python/mypy/issues/7057
connected_stream: SocketStream | None = None
async def try_connect(remote_host: str, event: Event) -> None:
nonlocal connected_stream
try:
stream = await asynclib.connect_tcp(remote_host, remote_port, local_address)
except OSError as exc:
oserrors.append(exc)
return
else:
if connected_stream is None:
connected_stream = stream
tg.cancel_scope.cancel()
else:
await stream.aclose()
finally:
event.set()
asynclib = get_asynclib()
local_address: IPSockAddrType | None = None
family = socket.AF_UNSPEC
if local_host:
gai_res = await getaddrinfo(str(local_host), None)
family, *_, local_address = gai_res[0]
target_host = str(remote_host)
try:
addr_obj = ip_address(remote_host)
except ValueError:
# getaddrinfo() will raise an exception if name resolution fails
gai_res = await getaddrinfo(
target_host, remote_port, family=family, type=socket.SOCK_STREAM
)
# Organize the list so that the first address is an IPv6 address (if available) and the
# second one is an IPv4 addresses. The rest can be in whatever order.
v6_found = v4_found = False
target_addrs: list[tuple[socket.AddressFamily, str]] = []
for af, *rest, sa in gai_res:
if af == socket.AF_INET6 and not v6_found:
v6_found = True
target_addrs.insert(0, (af, sa[0]))
elif af == socket.AF_INET and not v4_found and v6_found:
v4_found = True
target_addrs.insert(1, (af, sa[0]))
else:
target_addrs.append((af, sa[0]))
else:
if isinstance(addr_obj, IPv6Address):
target_addrs = [(socket.AF_INET6, addr_obj.compressed)]
else:
target_addrs = [(socket.AF_INET, addr_obj.compressed)]
oserrors: list[OSError] = []
async with create_task_group() as tg:
for i, (af, addr) in enumerate(target_addrs):
event = Event()
tg.start_soon(try_connect, addr, event)
with move_on_after(happy_eyeballs_delay):
await event.wait()
if connected_stream is None:
cause = oserrors[0] if len(oserrors) == 1 else asynclib.ExceptionGroup(oserrors)
raise OSError("All connection attempts failed") from cause
if tls or tls_hostname or ssl_context:
try:
return await TLSStream.wrap(
connected_stream,
server_side=False,
hostname=tls_hostname or str(remote_host),
ssl_context=ssl_context,
standard_compatible=tls_standard_compatible,
)
except BaseException:
await aclose_forcefully(connected_stream)
raise
return connected_stream
async def connect_unix(path: str | PathLike[str]) -> UNIXSocketStream:
"""
Connect to the given UNIX socket.
Not available on Windows.
:param path: path to the socket
:return: a socket stream object
"""
path = str(Path(path))
return await get_asynclib().connect_unix(path)
async def create_tcp_listener(
*,
local_host: IPAddressType | None = None,
local_port: int = 0,
family: AnyIPAddressFamily = socket.AddressFamily.AF_UNSPEC,
backlog: int = 65536,
reuse_port: bool = False,
) -> MultiListener[SocketStream]:
"""
Create a TCP socket listener.
:param local_port: port number to listen on
:param local_host: IP address of the interface to listen on. If omitted, listen on
all IPv4 and IPv6 interfaces. To listen on all interfaces on a specific address
family, use ``0.0.0.0`` for IPv4 or ``::`` for IPv6.
:param family: address family (used if ``local_host`` was omitted)
:param backlog: maximum number of queued incoming connections (up to a maximum of
2**16, or 65536)
:param reuse_port: ``True`` to allow multiple sockets to bind to the same
address/port (not supported on Windows)
:return: a list of listener objects
"""
asynclib = get_asynclib()
backlog = min(backlog, 65536)
local_host = str(local_host) if local_host is not None else None
gai_res = await getaddrinfo(
local_host, # type: ignore[arg-type]
local_port,
family=family,
type=socket.SocketKind.SOCK_STREAM if sys.platform == "win32" else 0,
flags=socket.AI_PASSIVE | socket.AI_ADDRCONFIG,
)
listeners: list[SocketListener] = []
try:
# The set() is here to work around a glibc bug:
# https://sourceware.org/bugzilla/show_bug.cgi?id=14969
sockaddr: tuple[str, int] | tuple[str, int, int, int]
for fam, kind, *_, sockaddr in sorted(set(gai_res)):
# Workaround for an uvloop bug where we don't get the correct scope ID for
# IPv6 link-local addresses when passing type=socket.SOCK_STREAM to
# getaddrinfo(): https://github.com/MagicStack/uvloop/issues/539
if sys.platform != "win32" and kind is not SocketKind.SOCK_STREAM:
continue
raw_socket = socket.socket(fam)
raw_socket.setblocking(False)
# For Windows, enable exclusive address use. For others, enable address reuse.
if sys.platform == "win32":
raw_socket.setsockopt(socket.SOL_SOCKET, socket.SO_EXCLUSIVEADDRUSE, 1)
else:
raw_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
if reuse_port:
raw_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
# If only IPv6 was requested, disable dual stack operation
if fam == socket.AF_INET6:
raw_socket.setsockopt(IPPROTO_IPV6, socket.IPV6_V6ONLY, 1)
# Workaround for #554
if "%" in sockaddr[0]:
addr, scope_id = sockaddr[0].split("%", 1)
sockaddr = (addr, sockaddr[1], 0, int(scope_id))
raw_socket.bind(sockaddr)
raw_socket.listen(backlog)
listener = asynclib.TCPSocketListener(raw_socket)
listeners.append(listener)
except BaseException:
for listener in listeners:
await listener.aclose()
raise
return MultiListener(listeners)
async def create_unix_listener(
path: str | PathLike[str],
*,
mode: int | None = None,
backlog: int = 65536,
) -> SocketListener:
"""
Create a UNIX socket listener.
Not available on Windows.
:param path: path of the socket
:param mode: permissions to set on the socket
:param backlog: maximum number of queued incoming connections (up to a maximum of 2**16, or
65536)
:return: a listener object
.. versionchanged:: 3.0
If a socket already exists on the file system in the given path, it will be removed first.
"""
path_str = str(path)
path = Path(path)
if path.is_socket():
path.unlink()
backlog = min(backlog, 65536)
raw_socket = socket.socket(socket.AF_UNIX)
raw_socket.setblocking(False)
try:
await to_thread.run_sync(raw_socket.bind, path_str, cancellable=True)
if mode is not None:
await to_thread.run_sync(chmod, path_str, mode, cancellable=True)
raw_socket.listen(backlog)
return get_asynclib().UNIXSocketListener(raw_socket)
except BaseException:
raw_socket.close()
raise
async def create_udp_socket(
family: AnyIPAddressFamily = AddressFamily.AF_UNSPEC,
*,
local_host: IPAddressType | None = None,
local_port: int = 0,
reuse_port: bool = False,
) -> UDPSocket:
"""
Create a UDP socket.
If ``local_port`` has been given, the socket will be bound to this port on the local
machine, making this socket suitable for providing UDP based services.
:param family: address family (``AF_INET`` or ``AF_INET6``) – automatically determined from
``local_host`` if omitted
:param local_host: IP address or host name of the local interface to bind to
:param local_port: local port to bind to
:param reuse_port: ``True`` to allow multiple sockets to bind to the same address/port
(not supported on Windows)
:return: a UDP socket
"""
if family is AddressFamily.AF_UNSPEC and not local_host:
raise ValueError('Either "family" or "local_host" must be given')
if local_host:
gai_res = await getaddrinfo(
str(local_host),
local_port,
family=family,
type=socket.SOCK_DGRAM,
flags=socket.AI_PASSIVE | socket.AI_ADDRCONFIG,
)
family = cast(AnyIPAddressFamily, gai_res[0][0])
local_address = gai_res[0][-1]
elif family is AddressFamily.AF_INET6:
local_address = ("::", 0)
else:
local_address = ("0.0.0.0", 0)
return await get_asynclib().create_udp_socket(
family, local_address, None, reuse_port
)
async def create_connected_udp_socket(
remote_host: IPAddressType,
remote_port: int,
*,
family: AnyIPAddressFamily = AddressFamily.AF_UNSPEC,
local_host: IPAddressType | None = None,
local_port: int = 0,
reuse_port: bool = False,
) -> ConnectedUDPSocket:
"""
Create a connected UDP socket.
Connected UDP sockets can only communicate with the specified remote host/port, and any packets
sent from other sources are dropped.
:param remote_host: remote host to set as the default target
:param remote_port: port on the remote host to set as the default target
:param family: address family (``AF_INET`` or ``AF_INET6``) – automatically determined from
``local_host`` or ``remote_host`` if omitted
:param local_host: IP address or host name of the local interface to bind to
:param local_port: local port to bind to
:param reuse_port: ``True`` to allow multiple sockets to bind to the same address/port
(not supported on Windows)
:return: a connected UDP socket
"""
local_address = None
if local_host:
gai_res = await getaddrinfo(
str(local_host),
local_port,
family=family,
type=socket.SOCK_DGRAM,
flags=socket.AI_PASSIVE | socket.AI_ADDRCONFIG,
)
family = cast(AnyIPAddressFamily, gai_res[0][0])
local_address = gai_res[0][-1]
gai_res = await getaddrinfo(
str(remote_host), remote_port, family=family, type=socket.SOCK_DGRAM
)
family = cast(AnyIPAddressFamily, gai_res[0][0])
remote_address = gai_res[0][-1]
return await get_asynclib().create_udp_socket(
family, local_address, remote_address, reuse_port
)
async def getaddrinfo(
host: bytearray | bytes | str,
port: str | int | None,
*,
family: int | AddressFamily = 0,
type: int | SocketKind = 0,
proto: int = 0,
flags: int = 0,
) -> GetAddrInfoReturnType:
"""
Look up a numeric IP address given a host name.
Internationalized domain names are translated according to the (non-transitional) IDNA 2008
standard.
.. note:: 4-tuple IPv6 socket addresses are automatically converted to 2-tuples of
(host, port), unlike what :func:`socket.getaddrinfo` does.
:param host: host name
:param port: port number
:param family: socket family (`'AF_INET``, ...)
:param type: socket type (``SOCK_STREAM``, ...)
:param proto: protocol number
:param flags: flags to pass to upstream ``getaddrinfo()``
:return: list of tuples containing (family, type, proto, canonname, sockaddr)
.. seealso:: :func:`socket.getaddrinfo`
"""
# Handle unicode hostnames
if isinstance(host, str):
try:
encoded_host = host.encode("ascii")
except UnicodeEncodeError:
import idna
encoded_host = idna.encode(host, uts46=True)
else:
encoded_host = host
gai_res = await get_asynclib().getaddrinfo(
encoded_host, port, family=family, type=type, proto=proto, flags=flags
)
return [
(family, type, proto, canonname, convert_ipv6_sockaddr(sockaddr))
for family, type, proto, canonname, sockaddr in gai_res
]
def getnameinfo(sockaddr: IPSockAddrType, flags: int = 0) -> Awaitable[tuple[str, str]]:
"""
Look up the host name of an IP address.
:param sockaddr: socket address (e.g. (ipaddress, port) for IPv4)
:param flags: flags to pass to upstream ``getnameinfo()``
:return: a tuple of (host name, service name)
.. seealso:: :func:`socket.getnameinfo`
"""
return get_asynclib().getnameinfo(sockaddr, flags)
def wait_socket_readable(sock: socket.socket) -> Awaitable[None]:
"""
Wait until the given socket has data to be read.
This does **NOT** work on Windows when using the asyncio backend with a proactor event loop
(default on py3.8+).
.. warning:: Only use this on raw sockets that have not been wrapped by any higher level
constructs like socket streams!
:param sock: a socket object
:raises ~anyio.ClosedResourceError: if the socket was closed while waiting for the
socket to become readable
:raises ~anyio.BusyResourceError: if another task is already waiting for the socket
to become readable
"""
return get_asynclib().wait_socket_readable(sock)
def wait_socket_writable(sock: socket.socket) -> Awaitable[None]:
"""
Wait until the given socket can be written to.
This does **NOT** work on Windows when using the asyncio backend with a proactor event loop
(default on py3.8+).
.. warning:: Only use this on raw sockets that have not been wrapped by any higher level
constructs like socket streams!
:param sock: a socket object
:raises ~anyio.ClosedResourceError: if the socket was closed while waiting for the
socket to become writable
:raises ~anyio.BusyResourceError: if another task is already waiting for the socket
to become writable
"""
return get_asynclib().wait_socket_writable(sock)
#
# Private API
#
def convert_ipv6_sockaddr(
sockaddr: tuple[str, int, int, int] | tuple[str, int]
) -> tuple[str, int]:
"""
Convert a 4-tuple IPv6 socket address to a 2-tuple (address, port) format.
If the scope ID is nonzero, it is added to the address, separated with ``%``.
Otherwise the flow id and scope id are simply cut off from the tuple.
Any other kinds of socket addresses are returned as-is.
:param sockaddr: the result of :meth:`~socket.socket.getsockname`
:return: the converted socket address
"""
# This is more complicated than it should be because of MyPy
if isinstance(sockaddr, tuple) and len(sockaddr) == 4:
host, port, flowinfo, scope_id = cast(Tuple[str, int, int, int], sockaddr)
if scope_id:
# PyPy (as of v7.3.11) leaves the interface name in the result, so
# we discard it and only get the scope ID from the end
# (https://foss.heptapod.net/pypy/pypy/-/issues/3938)
host = host.split("%")[0]
# Add scope_id to the address
return f"{host}%{scope_id}", port
else:
return host, port
else:
return cast(Tuple[str, int], sockaddr)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_backends/_trio.py | from __future__ import annotations
import array
import math
import socket
from concurrent.futures import Future
from contextvars import copy_context
from dataclasses import dataclass
from functools import partial
from io import IOBase
from os import PathLike
from signal import Signals
from types import TracebackType
from typing import (
IO,
TYPE_CHECKING,
Any,
AsyncGenerator,
AsyncIterator,
Awaitable,
Callable,
Collection,
Coroutine,
Generic,
Iterable,
Mapping,
NoReturn,
Sequence,
TypeVar,
cast,
)
import sniffio
import trio.from_thread
from outcome import Error, Outcome, Value
from trio.socket import SocketType as TrioSocketType
from trio.to_thread import run_sync
from .. import CapacityLimiterStatistics, EventStatistics, TaskInfo, abc
from .._core._compat import DeprecatedAsyncContextManager, DeprecatedAwaitable
from .._core._eventloop import claim_worker_thread
from .._core._exceptions import (
BrokenResourceError,
BusyResourceError,
ClosedResourceError,
EndOfStream,
)
from .._core._exceptions import ExceptionGroup as BaseExceptionGroup
from .._core._sockets import convert_ipv6_sockaddr
from .._core._synchronization import CapacityLimiter as BaseCapacityLimiter
from .._core._synchronization import Event as BaseEvent
from .._core._synchronization import ResourceGuard
from .._core._tasks import CancelScope as BaseCancelScope
from ..abc import IPSockAddrType, UDPPacketType
if TYPE_CHECKING:
from trio_typing import TaskStatus
try:
from trio import lowlevel as trio_lowlevel
except ImportError:
from trio import hazmat as trio_lowlevel # type: ignore[no-redef]
from trio.hazmat import wait_readable, wait_writable
else:
from trio.lowlevel import wait_readable, wait_writable
try:
trio_open_process = trio_lowlevel.open_process
except AttributeError:
# isort: off
from trio import ( # type: ignore[attr-defined, no-redef]
open_process as trio_open_process,
)
T_Retval = TypeVar("T_Retval")
T_SockAddr = TypeVar("T_SockAddr", str, IPSockAddrType)
#
# Event loop
#
run = trio.run
current_token = trio.lowlevel.current_trio_token
RunVar = trio.lowlevel.RunVar
#
# Miscellaneous
#
sleep = trio.sleep
#
# Timeouts and cancellation
#
class CancelScope(BaseCancelScope):
def __new__(
cls, original: trio.CancelScope | None = None, **kwargs: object
) -> CancelScope:
return object.__new__(cls)
def __init__(self, original: trio.CancelScope | None = None, **kwargs: Any) -> None:
self.__original = original or trio.CancelScope(**kwargs)
def __enter__(self) -> CancelScope:
self.__original.__enter__()
return self
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
# https://github.com/python-trio/trio-typing/pull/79
return self.__original.__exit__( # type: ignore[func-returns-value]
exc_type, exc_val, exc_tb
)
def cancel(self) -> DeprecatedAwaitable:
self.__original.cancel()
return DeprecatedAwaitable(self.cancel)
@property
def deadline(self) -> float:
return self.__original.deadline
@deadline.setter
def deadline(self, value: float) -> None:
self.__original.deadline = value
@property
def cancel_called(self) -> bool:
return self.__original.cancel_called
@property
def shield(self) -> bool:
return self.__original.shield
@shield.setter
def shield(self, value: bool) -> None:
self.__original.shield = value
CancelledError = trio.Cancelled
checkpoint = trio.lowlevel.checkpoint
checkpoint_if_cancelled = trio.lowlevel.checkpoint_if_cancelled
cancel_shielded_checkpoint = trio.lowlevel.cancel_shielded_checkpoint
current_effective_deadline = trio.current_effective_deadline
current_time = trio.current_time
#
# Task groups
#
class ExceptionGroup(BaseExceptionGroup, trio.MultiError):
pass
class TaskGroup(abc.TaskGroup):
def __init__(self) -> None:
self._active = False
self._nursery_manager = trio.open_nursery()
self.cancel_scope = None # type: ignore[assignment]
async def __aenter__(self) -> TaskGroup:
self._active = True
self._nursery = await self._nursery_manager.__aenter__()
self.cancel_scope = CancelScope(self._nursery.cancel_scope)
return self
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
try:
return await self._nursery_manager.__aexit__(exc_type, exc_val, exc_tb)
except trio.MultiError as exc:
raise ExceptionGroup(exc.exceptions) from None
finally:
self._active = False
def start_soon(
self, func: Callable[..., Awaitable[Any]], *args: object, name: object = None
) -> None:
if not self._active:
raise RuntimeError(
"This task group is not active; no new tasks can be started."
)
self._nursery.start_soon(func, *args, name=name)
async def start(
self, func: Callable[..., Awaitable[Any]], *args: object, name: object = None
) -> object:
if not self._active:
raise RuntimeError(
"This task group is not active; no new tasks can be started."
)
return await self._nursery.start(func, *args, name=name)
#
# Threads
#
async def run_sync_in_worker_thread(
func: Callable[..., T_Retval],
*args: object,
cancellable: bool = False,
limiter: trio.CapacityLimiter | None = None,
) -> T_Retval:
def wrapper() -> T_Retval:
with claim_worker_thread("trio"):
return func(*args)
# TODO: remove explicit context copying when trio 0.20 is the minimum requirement
context = copy_context()
context.run(sniffio.current_async_library_cvar.set, None)
return await run_sync(
context.run, wrapper, cancellable=cancellable, limiter=limiter
)
# TODO: remove this workaround when trio 0.20 is the minimum requirement
def run_async_from_thread(
fn: Callable[..., Awaitable[T_Retval]], *args: Any
) -> T_Retval:
async def wrapper() -> T_Retval:
retval: T_Retval
async def inner() -> None:
nonlocal retval
__tracebackhide__ = True
retval = await fn(*args)
async with trio.open_nursery() as n:
context.run(n.start_soon, inner)
__tracebackhide__ = True
return retval # noqa: F821
context = copy_context()
context.run(sniffio.current_async_library_cvar.set, "trio")
return trio.from_thread.run(wrapper)
def run_sync_from_thread(fn: Callable[..., T_Retval], *args: Any) -> T_Retval:
# TODO: remove explicit context copying when trio 0.20 is the minimum requirement
retval = trio.from_thread.run_sync(copy_context().run, fn, *args)
return cast(T_Retval, retval)
class BlockingPortal(abc.BlockingPortal):
def __new__(cls) -> BlockingPortal:
return object.__new__(cls)
def __init__(self) -> None:
super().__init__()
self._token = trio.lowlevel.current_trio_token()
def _spawn_task_from_thread(
self,
func: Callable,
args: tuple,
kwargs: dict[str, Any],
name: object,
future: Future,
) -> None:
context = copy_context()
context.run(sniffio.current_async_library_cvar.set, "trio")
trio.from_thread.run_sync(
context.run,
partial(self._task_group.start_soon, name=name),
self._call_func,
func,
args,
kwargs,
future,
trio_token=self._token,
)
#
# Subprocesses
#
@dataclass(eq=False)
class ReceiveStreamWrapper(abc.ByteReceiveStream):
_stream: trio.abc.ReceiveStream
async def receive(self, max_bytes: int | None = None) -> bytes:
try:
data = await self._stream.receive_some(max_bytes)
except trio.ClosedResourceError as exc:
raise ClosedResourceError from exc.__cause__
except trio.BrokenResourceError as exc:
raise BrokenResourceError from exc.__cause__
if data:
return data
else:
raise EndOfStream
async def aclose(self) -> None:
await self._stream.aclose()
@dataclass(eq=False)
class SendStreamWrapper(abc.ByteSendStream):
_stream: trio.abc.SendStream
async def send(self, item: bytes) -> None:
try:
await self._stream.send_all(item)
except trio.ClosedResourceError as exc:
raise ClosedResourceError from exc.__cause__
except trio.BrokenResourceError as exc:
raise BrokenResourceError from exc.__cause__
async def aclose(self) -> None:
await self._stream.aclose()
@dataclass(eq=False)
class Process(abc.Process):
_process: trio.Process
_stdin: abc.ByteSendStream | None
_stdout: abc.ByteReceiveStream | None
_stderr: abc.ByteReceiveStream | None
async def aclose(self) -> None:
if self._stdin:
await self._stdin.aclose()
if self._stdout:
await self._stdout.aclose()
if self._stderr:
await self._stderr.aclose()
await self.wait()
async def wait(self) -> int:
return await self._process.wait()
def terminate(self) -> None:
self._process.terminate()
def kill(self) -> None:
self._process.kill()
def send_signal(self, signal: Signals) -> None:
self._process.send_signal(signal)
@property
def pid(self) -> int:
return self._process.pid
@property
def returncode(self) -> int | None:
return self._process.returncode
@property
def stdin(self) -> abc.ByteSendStream | None:
return self._stdin
@property
def stdout(self) -> abc.ByteReceiveStream | None:
return self._stdout
@property
def stderr(self) -> abc.ByteReceiveStream | None:
return self._stderr
async def open_process(
command: str | bytes | Sequence[str | bytes],
*,
shell: bool,
stdin: int | IO[Any] | None,
stdout: int | IO[Any] | None,
stderr: int | IO[Any] | None,
cwd: str | bytes | PathLike | None = None,
env: Mapping[str, str] | None = None,
start_new_session: bool = False,
) -> Process:
process = await trio_open_process( # type: ignore[misc]
command, # type: ignore[arg-type]
stdin=stdin,
stdout=stdout,
stderr=stderr,
shell=shell,
cwd=cwd,
env=env,
start_new_session=start_new_session,
)
stdin_stream = SendStreamWrapper(process.stdin) if process.stdin else None
stdout_stream = ReceiveStreamWrapper(process.stdout) if process.stdout else None
stderr_stream = ReceiveStreamWrapper(process.stderr) if process.stderr else None
return Process(process, stdin_stream, stdout_stream, stderr_stream)
class _ProcessPoolShutdownInstrument(trio.abc.Instrument):
def after_run(self) -> None:
super().after_run()
current_default_worker_process_limiter: RunVar = RunVar(
"current_default_worker_process_limiter"
)
async def _shutdown_process_pool(workers: set[Process]) -> None:
process: Process
try:
await sleep(math.inf)
except trio.Cancelled:
for process in workers:
if process.returncode is None:
process.kill()
with CancelScope(shield=True):
for process in workers:
await process.aclose()
def setup_process_pool_exit_at_shutdown(workers: set[Process]) -> None:
trio.lowlevel.spawn_system_task(_shutdown_process_pool, workers)
#
# Sockets and networking
#
class _TrioSocketMixin(Generic[T_SockAddr]):
def __init__(self, trio_socket: TrioSocketType) -> None:
self._trio_socket = trio_socket
self._closed = False
def _check_closed(self) -> None:
if self._closed:
raise ClosedResourceError
if self._trio_socket.fileno() < 0:
raise BrokenResourceError
@property
def _raw_socket(self) -> socket.socket:
return self._trio_socket._sock # type: ignore[attr-defined]
async def aclose(self) -> None:
if self._trio_socket.fileno() >= 0:
self._closed = True
self._trio_socket.close()
def _convert_socket_error(self, exc: BaseException) -> NoReturn:
if isinstance(exc, trio.ClosedResourceError):
raise ClosedResourceError from exc
elif self._trio_socket.fileno() < 0 and self._closed:
raise ClosedResourceError from None
elif isinstance(exc, OSError):
raise BrokenResourceError from exc
else:
raise exc
class SocketStream(_TrioSocketMixin, abc.SocketStream):
def __init__(self, trio_socket: TrioSocketType) -> None:
super().__init__(trio_socket)
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
async def receive(self, max_bytes: int = 65536) -> bytes:
with self._receive_guard:
try:
data = await self._trio_socket.recv(max_bytes)
except BaseException as exc:
self._convert_socket_error(exc)
if data:
return data
else:
raise EndOfStream
async def send(self, item: bytes) -> None:
with self._send_guard:
view = memoryview(item)
while view:
try:
bytes_sent = await self._trio_socket.send(view)
except BaseException as exc:
self._convert_socket_error(exc)
view = view[bytes_sent:]
async def send_eof(self) -> None:
self._trio_socket.shutdown(socket.SHUT_WR)
class UNIXSocketStream(SocketStream, abc.UNIXSocketStream):
async def receive_fds(self, msglen: int, maxfds: int) -> tuple[bytes, list[int]]:
if not isinstance(msglen, int) or msglen < 0:
raise ValueError("msglen must be a non-negative integer")
if not isinstance(maxfds, int) or maxfds < 1:
raise ValueError("maxfds must be a positive integer")
fds = array.array("i")
await checkpoint()
with self._receive_guard:
while True:
try:
message, ancdata, flags, addr = await self._trio_socket.recvmsg(
msglen, socket.CMSG_LEN(maxfds * fds.itemsize)
)
except BaseException as exc:
self._convert_socket_error(exc)
else:
if not message and not ancdata:
raise EndOfStream
break
for cmsg_level, cmsg_type, cmsg_data in ancdata:
if cmsg_level != socket.SOL_SOCKET or cmsg_type != socket.SCM_RIGHTS:
raise RuntimeError(
f"Received unexpected ancillary data; message = {message!r}, "
f"cmsg_level = {cmsg_level}, cmsg_type = {cmsg_type}"
)
fds.frombytes(cmsg_data[: len(cmsg_data) - (len(cmsg_data) % fds.itemsize)])
return message, list(fds)
async def send_fds(self, message: bytes, fds: Collection[int | IOBase]) -> None:
if not message:
raise ValueError("message must not be empty")
if not fds:
raise ValueError("fds must not be empty")
filenos: list[int] = []
for fd in fds:
if isinstance(fd, int):
filenos.append(fd)
elif isinstance(fd, IOBase):
filenos.append(fd.fileno())
fdarray = array.array("i", filenos)
await checkpoint()
with self._send_guard:
while True:
try:
await self._trio_socket.sendmsg(
[message],
[
(
socket.SOL_SOCKET,
socket.SCM_RIGHTS, # type: ignore[list-item]
fdarray,
)
],
)
break
except BaseException as exc:
self._convert_socket_error(exc)
class TCPSocketListener(_TrioSocketMixin, abc.SocketListener):
def __init__(self, raw_socket: socket.socket):
super().__init__(trio.socket.from_stdlib_socket(raw_socket))
self._accept_guard = ResourceGuard("accepting connections from")
async def accept(self) -> SocketStream:
with self._accept_guard:
try:
trio_socket, _addr = await self._trio_socket.accept()
except BaseException as exc:
self._convert_socket_error(exc)
trio_socket.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
return SocketStream(trio_socket)
class UNIXSocketListener(_TrioSocketMixin, abc.SocketListener):
def __init__(self, raw_socket: socket.socket):
super().__init__(trio.socket.from_stdlib_socket(raw_socket))
self._accept_guard = ResourceGuard("accepting connections from")
async def accept(self) -> UNIXSocketStream:
with self._accept_guard:
try:
trio_socket, _addr = await self._trio_socket.accept()
except BaseException as exc:
self._convert_socket_error(exc)
return UNIXSocketStream(trio_socket)
class UDPSocket(_TrioSocketMixin[IPSockAddrType], abc.UDPSocket):
def __init__(self, trio_socket: TrioSocketType) -> None:
super().__init__(trio_socket)
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
async def receive(self) -> tuple[bytes, IPSockAddrType]:
with self._receive_guard:
try:
data, addr = await self._trio_socket.recvfrom(65536)
return data, convert_ipv6_sockaddr(addr)
except BaseException as exc:
self._convert_socket_error(exc)
async def send(self, item: UDPPacketType) -> None:
with self._send_guard:
try:
await self._trio_socket.sendto(*item)
except BaseException as exc:
self._convert_socket_error(exc)
class ConnectedUDPSocket(_TrioSocketMixin[IPSockAddrType], abc.ConnectedUDPSocket):
def __init__(self, trio_socket: TrioSocketType) -> None:
super().__init__(trio_socket)
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
async def receive(self) -> bytes:
with self._receive_guard:
try:
return await self._trio_socket.recv(65536)
except BaseException as exc:
self._convert_socket_error(exc)
async def send(self, item: bytes) -> None:
with self._send_guard:
try:
await self._trio_socket.send(item)
except BaseException as exc:
self._convert_socket_error(exc)
async def connect_tcp(
host: str, port: int, local_address: IPSockAddrType | None = None
) -> SocketStream:
family = socket.AF_INET6 if ":" in host else socket.AF_INET
trio_socket = trio.socket.socket(family)
trio_socket.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
if local_address:
await trio_socket.bind(local_address)
try:
await trio_socket.connect((host, port))
except BaseException:
trio_socket.close()
raise
return SocketStream(trio_socket)
async def connect_unix(path: str) -> UNIXSocketStream:
trio_socket = trio.socket.socket(socket.AF_UNIX)
try:
await trio_socket.connect(path)
except BaseException:
trio_socket.close()
raise
return UNIXSocketStream(trio_socket)
async def create_udp_socket(
family: socket.AddressFamily,
local_address: IPSockAddrType | None,
remote_address: IPSockAddrType | None,
reuse_port: bool,
) -> UDPSocket | ConnectedUDPSocket:
trio_socket = trio.socket.socket(family=family, type=socket.SOCK_DGRAM)
if reuse_port:
trio_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
if local_address:
await trio_socket.bind(local_address)
if remote_address:
await trio_socket.connect(remote_address)
return ConnectedUDPSocket(trio_socket)
else:
return UDPSocket(trio_socket)
getaddrinfo = trio.socket.getaddrinfo
getnameinfo = trio.socket.getnameinfo
async def wait_socket_readable(sock: socket.socket) -> None:
try:
await wait_readable(sock)
except trio.ClosedResourceError as exc:
raise ClosedResourceError().with_traceback(exc.__traceback__) from None
except trio.BusyResourceError:
raise BusyResourceError("reading from") from None
async def wait_socket_writable(sock: socket.socket) -> None:
try:
await wait_writable(sock)
except trio.ClosedResourceError as exc:
raise ClosedResourceError().with_traceback(exc.__traceback__) from None
except trio.BusyResourceError:
raise BusyResourceError("writing to") from None
#
# Synchronization
#
class Event(BaseEvent):
def __new__(cls) -> Event:
return object.__new__(cls)
def __init__(self) -> None:
self.__original = trio.Event()
def is_set(self) -> bool:
return self.__original.is_set()
async def wait(self) -> None:
return await self.__original.wait()
def statistics(self) -> EventStatistics:
orig_statistics = self.__original.statistics()
return EventStatistics(tasks_waiting=orig_statistics.tasks_waiting)
def set(self) -> DeprecatedAwaitable:
self.__original.set()
return DeprecatedAwaitable(self.set)
class CapacityLimiter(BaseCapacityLimiter):
def __new__(cls, *args: object, **kwargs: object) -> CapacityLimiter:
return object.__new__(cls)
def __init__(
self, *args: Any, original: trio.CapacityLimiter | None = None
) -> None:
self.__original = original or trio.CapacityLimiter(*args)
async def __aenter__(self) -> None:
return await self.__original.__aenter__()
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> None:
await self.__original.__aexit__(exc_type, exc_val, exc_tb)
@property
def total_tokens(self) -> float:
return self.__original.total_tokens
@total_tokens.setter
def total_tokens(self, value: float) -> None:
self.__original.total_tokens = value
@property
def borrowed_tokens(self) -> int:
return self.__original.borrowed_tokens
@property
def available_tokens(self) -> float:
return self.__original.available_tokens
def acquire_nowait(self) -> DeprecatedAwaitable:
self.__original.acquire_nowait()
return DeprecatedAwaitable(self.acquire_nowait)
def acquire_on_behalf_of_nowait(self, borrower: object) -> DeprecatedAwaitable:
self.__original.acquire_on_behalf_of_nowait(borrower)
return DeprecatedAwaitable(self.acquire_on_behalf_of_nowait)
async def acquire(self) -> None:
await self.__original.acquire()
async def acquire_on_behalf_of(self, borrower: object) -> None:
await self.__original.acquire_on_behalf_of(borrower)
def release(self) -> None:
return self.__original.release()
def release_on_behalf_of(self, borrower: object) -> None:
return self.__original.release_on_behalf_of(borrower)
def statistics(self) -> CapacityLimiterStatistics:
orig = self.__original.statistics()
return CapacityLimiterStatistics(
borrowed_tokens=orig.borrowed_tokens,
total_tokens=orig.total_tokens,
borrowers=orig.borrowers,
tasks_waiting=orig.tasks_waiting,
)
_capacity_limiter_wrapper: RunVar = RunVar("_capacity_limiter_wrapper")
def current_default_thread_limiter() -> CapacityLimiter:
try:
return _capacity_limiter_wrapper.get()
except LookupError:
limiter = CapacityLimiter(
original=trio.to_thread.current_default_thread_limiter()
)
_capacity_limiter_wrapper.set(limiter)
return limiter
#
# Signal handling
#
class _SignalReceiver(DeprecatedAsyncContextManager["_SignalReceiver"]):
_iterator: AsyncIterator[int]
def __init__(self, signals: tuple[Signals, ...]):
self._signals = signals
def __enter__(self) -> _SignalReceiver:
self._cm = trio.open_signal_receiver(*self._signals)
self._iterator = self._cm.__enter__()
return self
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
return self._cm.__exit__(exc_type, exc_val, exc_tb)
def __aiter__(self) -> _SignalReceiver:
return self
async def __anext__(self) -> Signals:
signum = await self._iterator.__anext__()
return Signals(signum)
def open_signal_receiver(*signals: Signals) -> _SignalReceiver:
return _SignalReceiver(signals)
#
# Testing and debugging
#
def get_current_task() -> TaskInfo:
task = trio_lowlevel.current_task()
parent_id = None
if task.parent_nursery and task.parent_nursery.parent_task:
parent_id = id(task.parent_nursery.parent_task)
return TaskInfo(id(task), parent_id, task.name, task.coro)
def get_running_tasks() -> list[TaskInfo]:
root_task = trio_lowlevel.current_root_task()
task_infos = [TaskInfo(id(root_task), None, root_task.name, root_task.coro)]
nurseries = root_task.child_nurseries
while nurseries:
new_nurseries: list[trio.Nursery] = []
for nursery in nurseries:
for task in nursery.child_tasks:
task_infos.append(
TaskInfo(id(task), id(nursery.parent_task), task.name, task.coro)
)
new_nurseries.extend(task.child_nurseries)
nurseries = new_nurseries
return task_infos
def wait_all_tasks_blocked() -> Awaitable[None]:
import trio.testing
return trio.testing.wait_all_tasks_blocked()
class TestRunner(abc.TestRunner):
def __init__(self, **options: Any) -> None:
from collections import deque
from queue import Queue
self._call_queue: Queue[Callable[..., object]] = Queue()
self._result_queue: deque[Outcome] = deque()
self._stop_event: trio.Event | None = None
self._nursery: trio.Nursery | None = None
self._options = options
async def _trio_main(self) -> None:
self._stop_event = trio.Event()
async with trio.open_nursery() as self._nursery:
await self._stop_event.wait()
async def _call_func(
self, func: Callable[..., Awaitable[object]], args: tuple, kwargs: dict
) -> None:
try:
retval = await func(*args, **kwargs)
except BaseException as exc:
self._result_queue.append(Error(exc))
else:
self._result_queue.append(Value(retval))
def _main_task_finished(self, outcome: object) -> None:
self._nursery = None
def _get_nursery(self) -> trio.Nursery:
if self._nursery is None:
trio.lowlevel.start_guest_run(
self._trio_main,
run_sync_soon_threadsafe=self._call_queue.put,
done_callback=self._main_task_finished,
**self._options,
)
while self._nursery is None:
self._call_queue.get()()
return self._nursery
def _call(
self, func: Callable[..., Awaitable[T_Retval]], *args: object, **kwargs: object
) -> T_Retval:
self._get_nursery().start_soon(self._call_func, func, args, kwargs)
while not self._result_queue:
self._call_queue.get()()
outcome = self._result_queue.pop()
return outcome.unwrap()
def close(self) -> None:
if self._stop_event:
self._stop_event.set()
while self._nursery is not None:
self._call_queue.get()()
def run_asyncgen_fixture(
self,
fixture_func: Callable[..., AsyncGenerator[T_Retval, Any]],
kwargs: dict[str, Any],
) -> Iterable[T_Retval]:
async def fixture_runner(*, task_status: TaskStatus[T_Retval]) -> None:
agen = fixture_func(**kwargs)
retval = await agen.asend(None)
task_status.started(retval)
await teardown_event.wait()
try:
await agen.asend(None)
except StopAsyncIteration:
pass
else:
await agen.aclose()
raise RuntimeError("Async generator fixture did not stop")
teardown_event = trio.Event()
fixture_value = self._call(lambda: self._get_nursery().start(fixture_runner))
yield fixture_value
teardown_event.set()
def run_fixture(
self,
fixture_func: Callable[..., Coroutine[Any, Any, T_Retval]],
kwargs: dict[str, Any],
) -> T_Retval:
return self._call(fixture_func, **kwargs)
def run_test(
self, test_func: Callable[..., Coroutine[Any, Any, Any]], kwargs: dict[str, Any]
) -> None:
self._call(test_func, **kwargs)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_backends/__init__.py | |
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/anyio/_backends/_asyncio.py | from __future__ import annotations
import array
import asyncio
import concurrent.futures
import math
import socket
import sys
from asyncio.base_events import _run_until_complete_cb # type: ignore[attr-defined]
from collections import OrderedDict, deque
from concurrent.futures import Future
from contextvars import Context, copy_context
from dataclasses import dataclass
from functools import partial, wraps
from inspect import (
CORO_RUNNING,
CORO_SUSPENDED,
GEN_RUNNING,
GEN_SUSPENDED,
getcoroutinestate,
getgeneratorstate,
)
from io import IOBase
from os import PathLike
from queue import Queue
from socket import AddressFamily, SocketKind
from threading import Thread
from types import TracebackType
from typing import (
IO,
Any,
AsyncGenerator,
Awaitable,
Callable,
Collection,
Coroutine,
Generator,
Iterable,
Mapping,
Optional,
Sequence,
Tuple,
TypeVar,
Union,
cast,
)
from weakref import WeakKeyDictionary
import sniffio
from .. import CapacityLimiterStatistics, EventStatistics, TaskInfo, abc
from .._core._compat import DeprecatedAsyncContextManager, DeprecatedAwaitable
from .._core._eventloop import claim_worker_thread, threadlocals
from .._core._exceptions import (
BrokenResourceError,
BusyResourceError,
ClosedResourceError,
EndOfStream,
WouldBlock,
)
from .._core._exceptions import ExceptionGroup as BaseExceptionGroup
from .._core._sockets import GetAddrInfoReturnType, convert_ipv6_sockaddr
from .._core._synchronization import CapacityLimiter as BaseCapacityLimiter
from .._core._synchronization import Event as BaseEvent
from .._core._synchronization import ResourceGuard
from .._core._tasks import CancelScope as BaseCancelScope
from ..abc import IPSockAddrType, UDPPacketType
from ..lowlevel import RunVar
if sys.version_info >= (3, 8):
def get_coro(task: asyncio.Task) -> Generator | Awaitable[Any]:
return task.get_coro()
else:
def get_coro(task: asyncio.Task) -> Generator | Awaitable[Any]:
return task._coro
from asyncio import all_tasks, create_task, current_task, get_running_loop
from asyncio import run as native_run
def _get_task_callbacks(task: asyncio.Task) -> Iterable[Callable]:
return [cb for cb, context in task._callbacks]
T_Retval = TypeVar("T_Retval")
T_contra = TypeVar("T_contra", contravariant=True)
# Check whether there is native support for task names in asyncio (3.8+)
_native_task_names = hasattr(asyncio.Task, "get_name")
_root_task: RunVar[asyncio.Task | None] = RunVar("_root_task")
def find_root_task() -> asyncio.Task:
root_task = _root_task.get(None)
if root_task is not None and not root_task.done():
return root_task
# Look for a task that has been started via run_until_complete()
for task in all_tasks():
if task._callbacks and not task.done():
for cb in _get_task_callbacks(task):
if (
cb is _run_until_complete_cb
or getattr(cb, "__module__", None) == "uvloop.loop"
):
_root_task.set(task)
return task
# Look up the topmost task in the AnyIO task tree, if possible
task = cast(asyncio.Task, current_task())
state = _task_states.get(task)
if state:
cancel_scope = state.cancel_scope
while cancel_scope and cancel_scope._parent_scope is not None:
cancel_scope = cancel_scope._parent_scope
if cancel_scope is not None:
return cast(asyncio.Task, cancel_scope._host_task)
return task
def get_callable_name(func: Callable) -> str:
module = getattr(func, "__module__", None)
qualname = getattr(func, "__qualname__", None)
return ".".join([x for x in (module, qualname) if x])
#
# Event loop
#
_run_vars = (
WeakKeyDictionary()
) # type: WeakKeyDictionary[asyncio.AbstractEventLoop, Any]
current_token = get_running_loop
def _task_started(task: asyncio.Task) -> bool:
"""Return ``True`` if the task has been started and has not finished."""
coro = cast(Coroutine[Any, Any, Any], get_coro(task))
try:
return getcoroutinestate(coro) in (CORO_RUNNING, CORO_SUSPENDED)
except AttributeError:
try:
return getgeneratorstate(cast(Generator, coro)) in (
GEN_RUNNING,
GEN_SUSPENDED,
)
except AttributeError:
# task coro is async_genenerator_asend https://bugs.python.org/issue37771
raise Exception(f"Cannot determine if task {task} has started or not")
def _maybe_set_event_loop_policy(
policy: asyncio.AbstractEventLoopPolicy | None, use_uvloop: bool
) -> None:
# On CPython, use uvloop when possible if no other policy has been given and if not
# explicitly disabled
if policy is None and use_uvloop and sys.implementation.name == "cpython":
try:
import uvloop
except ImportError:
pass
else:
# Test for missing shutdown_default_executor() (uvloop 0.14.0 and earlier)
if not hasattr(
asyncio.AbstractEventLoop, "shutdown_default_executor"
) or hasattr(uvloop.loop.Loop, "shutdown_default_executor"):
policy = uvloop.EventLoopPolicy()
if policy is not None:
asyncio.set_event_loop_policy(policy)
def run(
func: Callable[..., Awaitable[T_Retval]],
*args: object,
debug: bool = False,
use_uvloop: bool = False,
policy: asyncio.AbstractEventLoopPolicy | None = None,
) -> T_Retval:
@wraps(func)
async def wrapper() -> T_Retval:
task = cast(asyncio.Task, current_task())
task_state = TaskState(None, get_callable_name(func), None)
_task_states[task] = task_state
if _native_task_names:
task.set_name(task_state.name)
try:
return await func(*args)
finally:
del _task_states[task]
_maybe_set_event_loop_policy(policy, use_uvloop)
return native_run(wrapper(), debug=debug)
#
# Miscellaneous
#
sleep = asyncio.sleep
#
# Timeouts and cancellation
#
CancelledError = asyncio.CancelledError
class CancelScope(BaseCancelScope):
def __new__(
cls, *, deadline: float = math.inf, shield: bool = False
) -> CancelScope:
return object.__new__(cls)
def __init__(self, deadline: float = math.inf, shield: bool = False):
self._deadline = deadline
self._shield = shield
self._parent_scope: CancelScope | None = None
self._cancel_called = False
self._active = False
self._timeout_handle: asyncio.TimerHandle | None = None
self._cancel_handle: asyncio.Handle | None = None
self._tasks: set[asyncio.Task] = set()
self._host_task: asyncio.Task | None = None
self._timeout_expired = False
self._cancel_calls: int = 0
def __enter__(self) -> CancelScope:
if self._active:
raise RuntimeError(
"Each CancelScope may only be used for a single 'with' block"
)
self._host_task = host_task = cast(asyncio.Task, current_task())
self._tasks.add(host_task)
try:
task_state = _task_states[host_task]
except KeyError:
task_name = host_task.get_name() if _native_task_names else None
task_state = TaskState(None, task_name, self)
_task_states[host_task] = task_state
else:
self._parent_scope = task_state.cancel_scope
task_state.cancel_scope = self
self._timeout()
self._active = True
# Start cancelling the host task if the scope was cancelled before entering
if self._cancel_called:
self._deliver_cancellation()
return self
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
if not self._active:
raise RuntimeError("This cancel scope is not active")
if current_task() is not self._host_task:
raise RuntimeError(
"Attempted to exit cancel scope in a different task than it was "
"entered in"
)
assert self._host_task is not None
host_task_state = _task_states.get(self._host_task)
if host_task_state is None or host_task_state.cancel_scope is not self:
raise RuntimeError(
"Attempted to exit a cancel scope that isn't the current tasks's "
"current cancel scope"
)
self._active = False
if self._timeout_handle:
self._timeout_handle.cancel()
self._timeout_handle = None
self._tasks.remove(self._host_task)
host_task_state.cancel_scope = self._parent_scope
# Restart the cancellation effort in the farthest directly cancelled parent scope if this
# one was shielded
if self._shield:
self._deliver_cancellation_to_parent()
if exc_val is not None:
exceptions = (
exc_val.exceptions if isinstance(exc_val, ExceptionGroup) else [exc_val]
)
if all(isinstance(exc, CancelledError) for exc in exceptions):
if self._timeout_expired:
return self._uncancel()
elif not self._cancel_called:
# Task was cancelled natively
return None
elif not self._parent_cancelled():
# This scope was directly cancelled
return self._uncancel()
return None
def _uncancel(self) -> bool:
if sys.version_info < (3, 11) or self._host_task is None:
self._cancel_calls = 0
return True
# Uncancel all AnyIO cancellations
for i in range(self._cancel_calls):
self._host_task.uncancel()
self._cancel_calls = 0
return not self._host_task.cancelling()
def _timeout(self) -> None:
if self._deadline != math.inf:
loop = get_running_loop()
if loop.time() >= self._deadline:
self._timeout_expired = True
self.cancel()
else:
self._timeout_handle = loop.call_at(self._deadline, self._timeout)
def _deliver_cancellation(self) -> None:
"""
Deliver cancellation to directly contained tasks and nested cancel scopes.
Schedule another run at the end if we still have tasks eligible for cancellation.
"""
should_retry = False
current = current_task()
for task in self._tasks:
if task._must_cancel: # type: ignore[attr-defined]
continue
# The task is eligible for cancellation if it has started and is not in a cancel
# scope shielded from this one
cancel_scope = _task_states[task].cancel_scope
while cancel_scope is not self:
if cancel_scope is None or cancel_scope._shield:
break
else:
cancel_scope = cancel_scope._parent_scope
else:
should_retry = True
if task is not current and (
task is self._host_task or _task_started(task)
):
self._cancel_calls += 1
task.cancel()
# Schedule another callback if there are still tasks left
if should_retry:
self._cancel_handle = get_running_loop().call_soon(
self._deliver_cancellation
)
else:
self._cancel_handle = None
def _deliver_cancellation_to_parent(self) -> None:
"""Start cancellation effort in the farthest directly cancelled parent scope"""
scope = self._parent_scope
scope_to_cancel: CancelScope | None = None
while scope is not None:
if scope._cancel_called and scope._cancel_handle is None:
scope_to_cancel = scope
# No point in looking beyond any shielded scope
if scope._shield:
break
scope = scope._parent_scope
if scope_to_cancel is not None:
scope_to_cancel._deliver_cancellation()
def _parent_cancelled(self) -> bool:
# Check whether any parent has been cancelled
cancel_scope = self._parent_scope
while cancel_scope is not None and not cancel_scope._shield:
if cancel_scope._cancel_called:
return True
else:
cancel_scope = cancel_scope._parent_scope
return False
def cancel(self) -> DeprecatedAwaitable:
if not self._cancel_called:
if self._timeout_handle:
self._timeout_handle.cancel()
self._timeout_handle = None
self._cancel_called = True
if self._host_task is not None:
self._deliver_cancellation()
return DeprecatedAwaitable(self.cancel)
@property
def deadline(self) -> float:
return self._deadline
@deadline.setter
def deadline(self, value: float) -> None:
self._deadline = float(value)
if self._timeout_handle is not None:
self._timeout_handle.cancel()
self._timeout_handle = None
if self._active and not self._cancel_called:
self._timeout()
@property
def cancel_called(self) -> bool:
return self._cancel_called
@property
def shield(self) -> bool:
return self._shield
@shield.setter
def shield(self, value: bool) -> None:
if self._shield != value:
self._shield = value
if not value:
self._deliver_cancellation_to_parent()
async def checkpoint() -> None:
await sleep(0)
async def checkpoint_if_cancelled() -> None:
task = current_task()
if task is None:
return
try:
cancel_scope = _task_states[task].cancel_scope
except KeyError:
return
while cancel_scope:
if cancel_scope.cancel_called:
await sleep(0)
elif cancel_scope.shield:
break
else:
cancel_scope = cancel_scope._parent_scope
async def cancel_shielded_checkpoint() -> None:
with CancelScope(shield=True):
await sleep(0)
def current_effective_deadline() -> float:
try:
cancel_scope = _task_states[current_task()].cancel_scope # type: ignore[index]
except KeyError:
return math.inf
deadline = math.inf
while cancel_scope:
deadline = min(deadline, cancel_scope.deadline)
if cancel_scope._cancel_called:
deadline = -math.inf
break
elif cancel_scope.shield:
break
else:
cancel_scope = cancel_scope._parent_scope
return deadline
def current_time() -> float:
return get_running_loop().time()
#
# Task states
#
class TaskState:
"""
Encapsulates auxiliary task information that cannot be added to the Task instance itself
because there are no guarantees about its implementation.
"""
__slots__ = "parent_id", "name", "cancel_scope"
def __init__(
self,
parent_id: int | None,
name: str | None,
cancel_scope: CancelScope | None,
):
self.parent_id = parent_id
self.name = name
self.cancel_scope = cancel_scope
_task_states = WeakKeyDictionary() # type: WeakKeyDictionary[asyncio.Task, TaskState]
#
# Task groups
#
class ExceptionGroup(BaseExceptionGroup):
def __init__(self, exceptions: list[BaseException]):
super().__init__()
self.exceptions = exceptions
class _AsyncioTaskStatus(abc.TaskStatus):
def __init__(self, future: asyncio.Future, parent_id: int):
self._future = future
self._parent_id = parent_id
def started(self, value: T_contra | None = None) -> None:
try:
self._future.set_result(value)
except asyncio.InvalidStateError:
raise RuntimeError(
"called 'started' twice on the same task status"
) from None
task = cast(asyncio.Task, current_task())
_task_states[task].parent_id = self._parent_id
class TaskGroup(abc.TaskGroup):
def __init__(self) -> None:
self.cancel_scope: CancelScope = CancelScope()
self._active = False
self._exceptions: list[BaseException] = []
async def __aenter__(self) -> TaskGroup:
self.cancel_scope.__enter__()
self._active = True
return self
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
ignore_exception = self.cancel_scope.__exit__(exc_type, exc_val, exc_tb)
if exc_val is not None:
self.cancel_scope.cancel()
self._exceptions.append(exc_val)
while self.cancel_scope._tasks:
try:
await asyncio.wait(self.cancel_scope._tasks)
except asyncio.CancelledError:
self.cancel_scope.cancel()
self._active = False
if not self.cancel_scope._parent_cancelled():
exceptions = self._filter_cancellation_errors(self._exceptions)
else:
exceptions = self._exceptions
try:
if len(exceptions) > 1:
if all(
isinstance(e, CancelledError) and not e.args for e in exceptions
):
# Tasks were cancelled natively, without a cancellation message
raise CancelledError
else:
raise ExceptionGroup(exceptions)
elif exceptions and exceptions[0] is not exc_val:
raise exceptions[0]
except BaseException as exc:
# Clear the context here, as it can only be done in-flight.
# If the context is not cleared, it can result in recursive tracebacks (see #145).
exc.__context__ = None
raise
return ignore_exception
@staticmethod
def _filter_cancellation_errors(
exceptions: Sequence[BaseException],
) -> list[BaseException]:
filtered_exceptions: list[BaseException] = []
for exc in exceptions:
if isinstance(exc, ExceptionGroup):
new_exceptions = TaskGroup._filter_cancellation_errors(exc.exceptions)
if len(new_exceptions) > 1:
filtered_exceptions.append(exc)
elif len(new_exceptions) == 1:
filtered_exceptions.append(new_exceptions[0])
elif new_exceptions:
new_exc = ExceptionGroup(new_exceptions)
new_exc.__cause__ = exc.__cause__
new_exc.__context__ = exc.__context__
new_exc.__traceback__ = exc.__traceback__
filtered_exceptions.append(new_exc)
elif not isinstance(exc, CancelledError) or exc.args:
filtered_exceptions.append(exc)
return filtered_exceptions
async def _run_wrapped_task(
self, coro: Coroutine, task_status_future: asyncio.Future | None
) -> None:
# This is the code path for Python 3.7 on which asyncio freaks out if a task
# raises a BaseException.
__traceback_hide__ = __tracebackhide__ = True # noqa: F841
task = cast(asyncio.Task, current_task())
try:
await coro
except BaseException as exc:
if task_status_future is None or task_status_future.done():
self._exceptions.append(exc)
self.cancel_scope.cancel()
else:
task_status_future.set_exception(exc)
else:
if task_status_future is not None and not task_status_future.done():
task_status_future.set_exception(
RuntimeError("Child exited without calling task_status.started()")
)
finally:
if task in self.cancel_scope._tasks:
self.cancel_scope._tasks.remove(task)
del _task_states[task]
def _spawn(
self,
func: Callable[..., Awaitable[Any]],
args: tuple,
name: object,
task_status_future: asyncio.Future | None = None,
) -> asyncio.Task:
def task_done(_task: asyncio.Task) -> None:
# This is the code path for Python 3.8+
assert _task in self.cancel_scope._tasks
self.cancel_scope._tasks.remove(_task)
del _task_states[_task]
try:
exc = _task.exception()
except CancelledError as e:
while isinstance(e.__context__, CancelledError):
e = e.__context__
exc = e
if exc is not None:
if task_status_future is None or task_status_future.done():
self._exceptions.append(exc)
self.cancel_scope.cancel()
else:
task_status_future.set_exception(exc)
elif task_status_future is not None and not task_status_future.done():
task_status_future.set_exception(
RuntimeError("Child exited without calling task_status.started()")
)
if not self._active:
raise RuntimeError(
"This task group is not active; no new tasks can be started."
)
options: dict[str, Any] = {}
name = get_callable_name(func) if name is None else str(name)
if _native_task_names:
options["name"] = name
kwargs = {}
if task_status_future:
parent_id = id(current_task())
kwargs["task_status"] = _AsyncioTaskStatus(
task_status_future, id(self.cancel_scope._host_task)
)
else:
parent_id = id(self.cancel_scope._host_task)
coro = func(*args, **kwargs)
if not asyncio.iscoroutine(coro):
raise TypeError(
f"Expected an async function, but {func} appears to be synchronous"
)
foreign_coro = not hasattr(coro, "cr_frame") and not hasattr(coro, "gi_frame")
if foreign_coro or sys.version_info < (3, 8):
coro = self._run_wrapped_task(coro, task_status_future)
task = create_task(coro, **options)
if not foreign_coro and sys.version_info >= (3, 8):
task.add_done_callback(task_done)
# Make the spawned task inherit the task group's cancel scope
_task_states[task] = TaskState(
parent_id=parent_id, name=name, cancel_scope=self.cancel_scope
)
self.cancel_scope._tasks.add(task)
return task
def start_soon(
self, func: Callable[..., Awaitable[Any]], *args: object, name: object = None
) -> None:
self._spawn(func, args, name)
async def start(
self, func: Callable[..., Awaitable[Any]], *args: object, name: object = None
) -> None:
future: asyncio.Future = asyncio.Future()
task = self._spawn(func, args, name, future)
# If the task raises an exception after sending a start value without a switch point
# between, the task group is cancelled and this method never proceeds to process the
# completed future. That's why we have to have a shielded cancel scope here.
with CancelScope(shield=True):
try:
return await future
except CancelledError:
task.cancel()
raise
#
# Threads
#
_Retval_Queue_Type = Tuple[Optional[T_Retval], Optional[BaseException]]
class WorkerThread(Thread):
MAX_IDLE_TIME = 10 # seconds
def __init__(
self,
root_task: asyncio.Task,
workers: set[WorkerThread],
idle_workers: deque[WorkerThread],
):
super().__init__(name="AnyIO worker thread")
self.root_task = root_task
self.workers = workers
self.idle_workers = idle_workers
self.loop = root_task._loop
self.queue: Queue[
tuple[Context, Callable, tuple, asyncio.Future] | None
] = Queue(2)
self.idle_since = current_time()
self.stopping = False
def _report_result(
self, future: asyncio.Future, result: Any, exc: BaseException | None
) -> None:
self.idle_since = current_time()
if not self.stopping:
self.idle_workers.append(self)
if not future.cancelled():
if exc is not None:
if isinstance(exc, StopIteration):
new_exc = RuntimeError("coroutine raised StopIteration")
new_exc.__cause__ = exc
exc = new_exc
future.set_exception(exc)
else:
future.set_result(result)
def run(self) -> None:
with claim_worker_thread("asyncio"):
threadlocals.loop = self.loop
while True:
item = self.queue.get()
if item is None:
# Shutdown command received
return
context, func, args, future = item
if not future.cancelled():
result = None
exception: BaseException | None = None
try:
result = context.run(func, *args)
except BaseException as exc:
exception = exc
if not self.loop.is_closed():
self.loop.call_soon_threadsafe(
self._report_result, future, result, exception
)
self.queue.task_done()
def stop(self, f: asyncio.Task | None = None) -> None:
self.stopping = True
self.queue.put_nowait(None)
self.workers.discard(self)
try:
self.idle_workers.remove(self)
except ValueError:
pass
_threadpool_idle_workers: RunVar[deque[WorkerThread]] = RunVar(
"_threadpool_idle_workers"
)
_threadpool_workers: RunVar[set[WorkerThread]] = RunVar("_threadpool_workers")
async def run_sync_in_worker_thread(
func: Callable[..., T_Retval],
*args: object,
cancellable: bool = False,
limiter: CapacityLimiter | None = None,
) -> T_Retval:
await checkpoint()
# If this is the first run in this event loop thread, set up the necessary variables
try:
idle_workers = _threadpool_idle_workers.get()
workers = _threadpool_workers.get()
except LookupError:
idle_workers = deque()
workers = set()
_threadpool_idle_workers.set(idle_workers)
_threadpool_workers.set(workers)
async with (limiter or current_default_thread_limiter()):
with CancelScope(shield=not cancellable):
future: asyncio.Future = asyncio.Future()
root_task = find_root_task()
if not idle_workers:
worker = WorkerThread(root_task, workers, idle_workers)
worker.start()
workers.add(worker)
root_task.add_done_callback(worker.stop)
else:
worker = idle_workers.pop()
# Prune any other workers that have been idle for MAX_IDLE_TIME seconds or longer
now = current_time()
while idle_workers:
if now - idle_workers[0].idle_since < WorkerThread.MAX_IDLE_TIME:
break
expired_worker = idle_workers.popleft()
expired_worker.root_task.remove_done_callback(expired_worker.stop)
expired_worker.stop()
context = copy_context()
context.run(sniffio.current_async_library_cvar.set, None)
worker.queue.put_nowait((context, func, args, future))
return await future
def run_sync_from_thread(
func: Callable[..., T_Retval],
*args: object,
loop: asyncio.AbstractEventLoop | None = None,
) -> T_Retval:
@wraps(func)
def wrapper() -> None:
try:
f.set_result(func(*args))
except BaseException as exc:
f.set_exception(exc)
if not isinstance(exc, Exception):
raise
f: concurrent.futures.Future[T_Retval] = Future()
loop = loop or threadlocals.loop
loop.call_soon_threadsafe(wrapper)
return f.result()
def run_async_from_thread(
func: Callable[..., Awaitable[T_Retval]], *args: object
) -> T_Retval:
f: concurrent.futures.Future[T_Retval] = asyncio.run_coroutine_threadsafe(
func(*args), threadlocals.loop
)
return f.result()
class BlockingPortal(abc.BlockingPortal):
def __new__(cls) -> BlockingPortal:
return object.__new__(cls)
def __init__(self) -> None:
super().__init__()
self._loop = get_running_loop()
def _spawn_task_from_thread(
self,
func: Callable,
args: tuple,
kwargs: dict[str, Any],
name: object,
future: Future,
) -> None:
run_sync_from_thread(
partial(self._task_group.start_soon, name=name),
self._call_func,
func,
args,
kwargs,
future,
loop=self._loop,
)
#
# Subprocesses
#
@dataclass(eq=False)
class StreamReaderWrapper(abc.ByteReceiveStream):
_stream: asyncio.StreamReader
async def receive(self, max_bytes: int = 65536) -> bytes:
data = await self._stream.read(max_bytes)
if data:
return data
else:
raise EndOfStream
async def aclose(self) -> None:
self._stream.feed_eof()
@dataclass(eq=False)
class StreamWriterWrapper(abc.ByteSendStream):
_stream: asyncio.StreamWriter
async def send(self, item: bytes) -> None:
self._stream.write(item)
await self._stream.drain()
async def aclose(self) -> None:
self._stream.close()
@dataclass(eq=False)
class Process(abc.Process):
_process: asyncio.subprocess.Process
_stdin: StreamWriterWrapper | None
_stdout: StreamReaderWrapper | None
_stderr: StreamReaderWrapper | None
async def aclose(self) -> None:
if self._stdin:
await self._stdin.aclose()
if self._stdout:
await self._stdout.aclose()
if self._stderr:
await self._stderr.aclose()
await self.wait()
async def wait(self) -> int:
return await self._process.wait()
def terminate(self) -> None:
self._process.terminate()
def kill(self) -> None:
self._process.kill()
def send_signal(self, signal: int) -> None:
self._process.send_signal(signal)
@property
def pid(self) -> int:
return self._process.pid
@property
def returncode(self) -> int | None:
return self._process.returncode
@property
def stdin(self) -> abc.ByteSendStream | None:
return self._stdin
@property
def stdout(self) -> abc.ByteReceiveStream | None:
return self._stdout
@property
def stderr(self) -> abc.ByteReceiveStream | None:
return self._stderr
async def open_process(
command: str | bytes | Sequence[str | bytes],
*,
shell: bool,
stdin: int | IO[Any] | None,
stdout: int | IO[Any] | None,
stderr: int | IO[Any] | None,
cwd: str | bytes | PathLike | None = None,
env: Mapping[str, str] | None = None,
start_new_session: bool = False,
) -> Process:
await checkpoint()
if shell:
process = await asyncio.create_subprocess_shell(
cast(Union[str, bytes], command),
stdin=stdin,
stdout=stdout,
stderr=stderr,
cwd=cwd,
env=env,
start_new_session=start_new_session,
)
else:
process = await asyncio.create_subprocess_exec(
*command,
stdin=stdin,
stdout=stdout,
stderr=stderr,
cwd=cwd,
env=env,
start_new_session=start_new_session,
)
stdin_stream = StreamWriterWrapper(process.stdin) if process.stdin else None
stdout_stream = StreamReaderWrapper(process.stdout) if process.stdout else None
stderr_stream = StreamReaderWrapper(process.stderr) if process.stderr else None
return Process(process, stdin_stream, stdout_stream, stderr_stream)
def _forcibly_shutdown_process_pool_on_exit(
workers: set[Process], _task: object
) -> None:
"""
Forcibly shuts down worker processes belonging to this event loop."""
child_watcher: asyncio.AbstractChildWatcher | None
try:
child_watcher = asyncio.get_event_loop_policy().get_child_watcher()
except NotImplementedError:
child_watcher = None
# Close as much as possible (w/o async/await) to avoid warnings
for process in workers:
if process.returncode is None:
continue
process._stdin._stream._transport.close() # type: ignore[union-attr]
process._stdout._stream._transport.close() # type: ignore[union-attr]
process._stderr._stream._transport.close() # type: ignore[union-attr]
process.kill()
if child_watcher:
child_watcher.remove_child_handler(process.pid)
async def _shutdown_process_pool_on_exit(workers: set[Process]) -> None:
"""
Shuts down worker processes belonging to this event loop.
NOTE: this only works when the event loop was started using asyncio.run() or anyio.run().
"""
process: Process
try:
await sleep(math.inf)
except asyncio.CancelledError:
for process in workers:
if process.returncode is None:
process.kill()
for process in workers:
await process.aclose()
def setup_process_pool_exit_at_shutdown(workers: set[Process]) -> None:
kwargs: dict[str, Any] = (
{"name": "AnyIO process pool shutdown task"} if _native_task_names else {}
)
create_task(_shutdown_process_pool_on_exit(workers), **kwargs)
find_root_task().add_done_callback(
partial(_forcibly_shutdown_process_pool_on_exit, workers)
)
#
# Sockets and networking
#
class StreamProtocol(asyncio.Protocol):
read_queue: deque[bytes]
read_event: asyncio.Event
write_event: asyncio.Event
exception: Exception | None = None
def connection_made(self, transport: asyncio.BaseTransport) -> None:
self.read_queue = deque()
self.read_event = asyncio.Event()
self.write_event = asyncio.Event()
self.write_event.set()
cast(asyncio.Transport, transport).set_write_buffer_limits(0)
def connection_lost(self, exc: Exception | None) -> None:
if exc:
self.exception = BrokenResourceError()
self.exception.__cause__ = exc
self.read_event.set()
self.write_event.set()
def data_received(self, data: bytes) -> None:
self.read_queue.append(data)
self.read_event.set()
def eof_received(self) -> bool | None:
self.read_event.set()
return True
def pause_writing(self) -> None:
self.write_event = asyncio.Event()
def resume_writing(self) -> None:
self.write_event.set()
class DatagramProtocol(asyncio.DatagramProtocol):
read_queue: deque[tuple[bytes, IPSockAddrType]]
read_event: asyncio.Event
write_event: asyncio.Event
exception: Exception | None = None
def connection_made(self, transport: asyncio.BaseTransport) -> None:
self.read_queue = deque(maxlen=100) # arbitrary value
self.read_event = asyncio.Event()
self.write_event = asyncio.Event()
self.write_event.set()
def connection_lost(self, exc: Exception | None) -> None:
self.read_event.set()
self.write_event.set()
def datagram_received(self, data: bytes, addr: IPSockAddrType) -> None:
addr = convert_ipv6_sockaddr(addr)
self.read_queue.append((data, addr))
self.read_event.set()
def error_received(self, exc: Exception) -> None:
self.exception = exc
def pause_writing(self) -> None:
self.write_event.clear()
def resume_writing(self) -> None:
self.write_event.set()
class SocketStream(abc.SocketStream):
def __init__(self, transport: asyncio.Transport, protocol: StreamProtocol):
self._transport = transport
self._protocol = protocol
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
self._closed = False
@property
def _raw_socket(self) -> socket.socket:
return self._transport.get_extra_info("socket")
async def receive(self, max_bytes: int = 65536) -> bytes:
with self._receive_guard:
await checkpoint()
if (
not self._protocol.read_event.is_set()
and not self._transport.is_closing()
):
self._transport.resume_reading()
await self._protocol.read_event.wait()
self._transport.pause_reading()
try:
chunk = self._protocol.read_queue.popleft()
except IndexError:
if self._closed:
raise ClosedResourceError from None
elif self._protocol.exception:
raise self._protocol.exception
else:
raise EndOfStream from None
if len(chunk) > max_bytes:
# Split the oversized chunk
chunk, leftover = chunk[:max_bytes], chunk[max_bytes:]
self._protocol.read_queue.appendleft(leftover)
# If the read queue is empty, clear the flag so that the next call will block until
# data is available
if not self._protocol.read_queue:
self._protocol.read_event.clear()
return chunk
async def send(self, item: bytes) -> None:
with self._send_guard:
await checkpoint()
if self._closed:
raise ClosedResourceError
elif self._protocol.exception is not None:
raise self._protocol.exception
try:
self._transport.write(item)
except RuntimeError as exc:
if self._transport.is_closing():
raise BrokenResourceError from exc
else:
raise
await self._protocol.write_event.wait()
async def send_eof(self) -> None:
try:
self._transport.write_eof()
except OSError:
pass
async def aclose(self) -> None:
if not self._transport.is_closing():
self._closed = True
try:
self._transport.write_eof()
except OSError:
pass
self._transport.close()
await sleep(0)
self._transport.abort()
class UNIXSocketStream(abc.SocketStream):
_receive_future: asyncio.Future | None = None
_send_future: asyncio.Future | None = None
_closing = False
def __init__(self, raw_socket: socket.socket):
self.__raw_socket = raw_socket
self._loop = get_running_loop()
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
@property
def _raw_socket(self) -> socket.socket:
return self.__raw_socket
def _wait_until_readable(self, loop: asyncio.AbstractEventLoop) -> asyncio.Future:
def callback(f: object) -> None:
del self._receive_future
loop.remove_reader(self.__raw_socket)
f = self._receive_future = asyncio.Future()
self._loop.add_reader(self.__raw_socket, f.set_result, None)
f.add_done_callback(callback)
return f
def _wait_until_writable(self, loop: asyncio.AbstractEventLoop) -> asyncio.Future:
def callback(f: object) -> None:
del self._send_future
loop.remove_writer(self.__raw_socket)
f = self._send_future = asyncio.Future()
self._loop.add_writer(self.__raw_socket, f.set_result, None)
f.add_done_callback(callback)
return f
async def send_eof(self) -> None:
with self._send_guard:
self._raw_socket.shutdown(socket.SHUT_WR)
async def receive(self, max_bytes: int = 65536) -> bytes:
loop = get_running_loop()
await checkpoint()
with self._receive_guard:
while True:
try:
data = self.__raw_socket.recv(max_bytes)
except BlockingIOError:
await self._wait_until_readable(loop)
except OSError as exc:
if self._closing:
raise ClosedResourceError from None
else:
raise BrokenResourceError from exc
else:
if not data:
raise EndOfStream
return data
async def send(self, item: bytes) -> None:
loop = get_running_loop()
await checkpoint()
with self._send_guard:
view = memoryview(item)
while view:
try:
bytes_sent = self.__raw_socket.send(view)
except BlockingIOError:
await self._wait_until_writable(loop)
except OSError as exc:
if self._closing:
raise ClosedResourceError from None
else:
raise BrokenResourceError from exc
else:
view = view[bytes_sent:]
async def receive_fds(self, msglen: int, maxfds: int) -> tuple[bytes, list[int]]:
if not isinstance(msglen, int) or msglen < 0:
raise ValueError("msglen must be a non-negative integer")
if not isinstance(maxfds, int) or maxfds < 1:
raise ValueError("maxfds must be a positive integer")
loop = get_running_loop()
fds = array.array("i")
await checkpoint()
with self._receive_guard:
while True:
try:
message, ancdata, flags, addr = self.__raw_socket.recvmsg(
msglen, socket.CMSG_LEN(maxfds * fds.itemsize)
)
except BlockingIOError:
await self._wait_until_readable(loop)
except OSError as exc:
if self._closing:
raise ClosedResourceError from None
else:
raise BrokenResourceError from exc
else:
if not message and not ancdata:
raise EndOfStream
break
for cmsg_level, cmsg_type, cmsg_data in ancdata:
if cmsg_level != socket.SOL_SOCKET or cmsg_type != socket.SCM_RIGHTS:
raise RuntimeError(
f"Received unexpected ancillary data; message = {message!r}, "
f"cmsg_level = {cmsg_level}, cmsg_type = {cmsg_type}"
)
fds.frombytes(cmsg_data[: len(cmsg_data) - (len(cmsg_data) % fds.itemsize)])
return message, list(fds)
async def send_fds(self, message: bytes, fds: Collection[int | IOBase]) -> None:
if not message:
raise ValueError("message must not be empty")
if not fds:
raise ValueError("fds must not be empty")
loop = get_running_loop()
filenos: list[int] = []
for fd in fds:
if isinstance(fd, int):
filenos.append(fd)
elif isinstance(fd, IOBase):
filenos.append(fd.fileno())
fdarray = array.array("i", filenos)
await checkpoint()
with self._send_guard:
while True:
try:
# The ignore can be removed after mypy picks up
# https://github.com/python/typeshed/pull/5545
self.__raw_socket.sendmsg(
[message], [(socket.SOL_SOCKET, socket.SCM_RIGHTS, fdarray)]
)
break
except BlockingIOError:
await self._wait_until_writable(loop)
except OSError as exc:
if self._closing:
raise ClosedResourceError from None
else:
raise BrokenResourceError from exc
async def aclose(self) -> None:
if not self._closing:
self._closing = True
if self.__raw_socket.fileno() != -1:
self.__raw_socket.close()
if self._receive_future:
self._receive_future.set_result(None)
if self._send_future:
self._send_future.set_result(None)
class TCPSocketListener(abc.SocketListener):
_accept_scope: CancelScope | None = None
_closed = False
def __init__(self, raw_socket: socket.socket):
self.__raw_socket = raw_socket
self._loop = cast(asyncio.BaseEventLoop, get_running_loop())
self._accept_guard = ResourceGuard("accepting connections from")
@property
def _raw_socket(self) -> socket.socket:
return self.__raw_socket
async def accept(self) -> abc.SocketStream:
if self._closed:
raise ClosedResourceError
with self._accept_guard:
await checkpoint()
with CancelScope() as self._accept_scope:
try:
client_sock, _addr = await self._loop.sock_accept(self._raw_socket)
except asyncio.CancelledError:
# Workaround for https://bugs.python.org/issue41317
try:
self._loop.remove_reader(self._raw_socket)
except (ValueError, NotImplementedError):
pass
if self._closed:
raise ClosedResourceError from None
raise
finally:
self._accept_scope = None
client_sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
transport, protocol = await self._loop.connect_accepted_socket(
StreamProtocol, client_sock
)
return SocketStream(transport, protocol)
async def aclose(self) -> None:
if self._closed:
return
self._closed = True
if self._accept_scope:
# Workaround for https://bugs.python.org/issue41317
try:
self._loop.remove_reader(self._raw_socket)
except (ValueError, NotImplementedError):
pass
self._accept_scope.cancel()
await sleep(0)
self._raw_socket.close()
class UNIXSocketListener(abc.SocketListener):
def __init__(self, raw_socket: socket.socket):
self.__raw_socket = raw_socket
self._loop = get_running_loop()
self._accept_guard = ResourceGuard("accepting connections from")
self._closed = False
async def accept(self) -> abc.SocketStream:
await checkpoint()
with self._accept_guard:
while True:
try:
client_sock, _ = self.__raw_socket.accept()
client_sock.setblocking(False)
return UNIXSocketStream(client_sock)
except BlockingIOError:
f: asyncio.Future = asyncio.Future()
self._loop.add_reader(self.__raw_socket, f.set_result, None)
f.add_done_callback(
lambda _: self._loop.remove_reader(self.__raw_socket)
)
await f
except OSError as exc:
if self._closed:
raise ClosedResourceError from None
else:
raise BrokenResourceError from exc
async def aclose(self) -> None:
self._closed = True
self.__raw_socket.close()
@property
def _raw_socket(self) -> socket.socket:
return self.__raw_socket
class UDPSocket(abc.UDPSocket):
def __init__(
self, transport: asyncio.DatagramTransport, protocol: DatagramProtocol
):
self._transport = transport
self._protocol = protocol
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
self._closed = False
@property
def _raw_socket(self) -> socket.socket:
return self._transport.get_extra_info("socket")
async def aclose(self) -> None:
if not self._transport.is_closing():
self._closed = True
self._transport.close()
async def receive(self) -> tuple[bytes, IPSockAddrType]:
with self._receive_guard:
await checkpoint()
# If the buffer is empty, ask for more data
if not self._protocol.read_queue and not self._transport.is_closing():
self._protocol.read_event.clear()
await self._protocol.read_event.wait()
try:
return self._protocol.read_queue.popleft()
except IndexError:
if self._closed:
raise ClosedResourceError from None
else:
raise BrokenResourceError from None
async def send(self, item: UDPPacketType) -> None:
with self._send_guard:
await checkpoint()
await self._protocol.write_event.wait()
if self._closed:
raise ClosedResourceError
elif self._transport.is_closing():
raise BrokenResourceError
else:
self._transport.sendto(*item)
class ConnectedUDPSocket(abc.ConnectedUDPSocket):
def __init__(
self, transport: asyncio.DatagramTransport, protocol: DatagramProtocol
):
self._transport = transport
self._protocol = protocol
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
self._closed = False
@property
def _raw_socket(self) -> socket.socket:
return self._transport.get_extra_info("socket")
async def aclose(self) -> None:
if not self._transport.is_closing():
self._closed = True
self._transport.close()
async def receive(self) -> bytes:
with self._receive_guard:
await checkpoint()
# If the buffer is empty, ask for more data
if not self._protocol.read_queue and not self._transport.is_closing():
self._protocol.read_event.clear()
await self._protocol.read_event.wait()
try:
packet = self._protocol.read_queue.popleft()
except IndexError:
if self._closed:
raise ClosedResourceError from None
else:
raise BrokenResourceError from None
return packet[0]
async def send(self, item: bytes) -> None:
with self._send_guard:
await checkpoint()
await self._protocol.write_event.wait()
if self._closed:
raise ClosedResourceError
elif self._transport.is_closing():
raise BrokenResourceError
else:
self._transport.sendto(item)
async def connect_tcp(
host: str, port: int, local_addr: tuple[str, int] | None = None
) -> SocketStream:
transport, protocol = cast(
Tuple[asyncio.Transport, StreamProtocol],
await get_running_loop().create_connection(
StreamProtocol, host, port, local_addr=local_addr
),
)
transport.pause_reading()
return SocketStream(transport, protocol)
async def connect_unix(path: str) -> UNIXSocketStream:
await checkpoint()
loop = get_running_loop()
raw_socket = socket.socket(socket.AF_UNIX)
raw_socket.setblocking(False)
while True:
try:
raw_socket.connect(path)
except BlockingIOError:
f: asyncio.Future = asyncio.Future()
loop.add_writer(raw_socket, f.set_result, None)
f.add_done_callback(lambda _: loop.remove_writer(raw_socket))
await f
except BaseException:
raw_socket.close()
raise
else:
return UNIXSocketStream(raw_socket)
async def create_udp_socket(
family: socket.AddressFamily,
local_address: IPSockAddrType | None,
remote_address: IPSockAddrType | None,
reuse_port: bool,
) -> UDPSocket | ConnectedUDPSocket:
result = await get_running_loop().create_datagram_endpoint(
DatagramProtocol,
local_addr=local_address,
remote_addr=remote_address,
family=family,
reuse_port=reuse_port,
)
transport = result[0]
protocol = result[1]
if protocol.exception:
transport.close()
raise protocol.exception
if not remote_address:
return UDPSocket(transport, protocol)
else:
return ConnectedUDPSocket(transport, protocol)
async def getaddrinfo(
host: bytes | str,
port: str | int | None,
*,
family: int | AddressFamily = 0,
type: int | SocketKind = 0,
proto: int = 0,
flags: int = 0,
) -> GetAddrInfoReturnType:
# https://github.com/python/typeshed/pull/4304
result = await get_running_loop().getaddrinfo(
host, port, family=family, type=type, proto=proto, flags=flags
)
return cast(GetAddrInfoReturnType, result)
async def getnameinfo(sockaddr: IPSockAddrType, flags: int = 0) -> tuple[str, str]:
return await get_running_loop().getnameinfo(sockaddr, flags)
_read_events: RunVar[dict[Any, asyncio.Event]] = RunVar("read_events")
_write_events: RunVar[dict[Any, asyncio.Event]] = RunVar("write_events")
async def wait_socket_readable(sock: socket.socket) -> None:
await checkpoint()
try:
read_events = _read_events.get()
except LookupError:
read_events = {}
_read_events.set(read_events)
if read_events.get(sock):
raise BusyResourceError("reading from") from None
loop = get_running_loop()
event = read_events[sock] = asyncio.Event()
loop.add_reader(sock, event.set)
try:
await event.wait()
finally:
if read_events.pop(sock, None) is not None:
loop.remove_reader(sock)
readable = True
else:
readable = False
if not readable:
raise ClosedResourceError
async def wait_socket_writable(sock: socket.socket) -> None:
await checkpoint()
try:
write_events = _write_events.get()
except LookupError:
write_events = {}
_write_events.set(write_events)
if write_events.get(sock):
raise BusyResourceError("writing to") from None
loop = get_running_loop()
event = write_events[sock] = asyncio.Event()
loop.add_writer(sock.fileno(), event.set)
try:
await event.wait()
finally:
if write_events.pop(sock, None) is not None:
loop.remove_writer(sock)
writable = True
else:
writable = False
if not writable:
raise ClosedResourceError
#
# Synchronization
#
class Event(BaseEvent):
def __new__(cls) -> Event:
return object.__new__(cls)
def __init__(self) -> None:
self._event = asyncio.Event()
def set(self) -> DeprecatedAwaitable:
self._event.set()
return DeprecatedAwaitable(self.set)
def is_set(self) -> bool:
return self._event.is_set()
async def wait(self) -> None:
if await self._event.wait():
await checkpoint()
def statistics(self) -> EventStatistics:
return EventStatistics(len(self._event._waiters)) # type: ignore[attr-defined]
class CapacityLimiter(BaseCapacityLimiter):
_total_tokens: float = 0
def __new__(cls, total_tokens: float) -> CapacityLimiter:
return object.__new__(cls)
def __init__(self, total_tokens: float):
self._borrowers: set[Any] = set()
self._wait_queue: OrderedDict[Any, asyncio.Event] = OrderedDict()
self.total_tokens = total_tokens
async def __aenter__(self) -> None:
await self.acquire()
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> None:
self.release()
@property
def total_tokens(self) -> float:
return self._total_tokens
@total_tokens.setter
def total_tokens(self, value: float) -> None:
if not isinstance(value, int) and not math.isinf(value):
raise TypeError("total_tokens must be an int or math.inf")
if value < 1:
raise ValueError("total_tokens must be >= 1")
old_value = self._total_tokens
self._total_tokens = value
events = []
for event in self._wait_queue.values():
if value <= old_value:
break
if not event.is_set():
events.append(event)
old_value += 1
for event in events:
event.set()
@property
def borrowed_tokens(self) -> int:
return len(self._borrowers)
@property
def available_tokens(self) -> float:
return self._total_tokens - len(self._borrowers)
def acquire_nowait(self) -> DeprecatedAwaitable:
self.acquire_on_behalf_of_nowait(current_task())
return DeprecatedAwaitable(self.acquire_nowait)
def acquire_on_behalf_of_nowait(self, borrower: object) -> DeprecatedAwaitable:
if borrower in self._borrowers:
raise RuntimeError(
"this borrower is already holding one of this CapacityLimiter's "
"tokens"
)
if self._wait_queue or len(self._borrowers) >= self._total_tokens:
raise WouldBlock
self._borrowers.add(borrower)
return DeprecatedAwaitable(self.acquire_on_behalf_of_nowait)
async def acquire(self) -> None:
return await self.acquire_on_behalf_of(current_task())
async def acquire_on_behalf_of(self, borrower: object) -> None:
await checkpoint_if_cancelled()
try:
self.acquire_on_behalf_of_nowait(borrower)
except WouldBlock:
event = asyncio.Event()
self._wait_queue[borrower] = event
try:
await event.wait()
except BaseException:
self._wait_queue.pop(borrower, None)
raise
self._borrowers.add(borrower)
else:
try:
await cancel_shielded_checkpoint()
except BaseException:
self.release()
raise
def release(self) -> None:
self.release_on_behalf_of(current_task())
def release_on_behalf_of(self, borrower: object) -> None:
try:
self._borrowers.remove(borrower)
except KeyError:
raise RuntimeError(
"this borrower isn't holding any of this CapacityLimiter's " "tokens"
) from None
# Notify the next task in line if this limiter has free capacity now
if self._wait_queue and len(self._borrowers) < self._total_tokens:
event = self._wait_queue.popitem(last=False)[1]
event.set()
def statistics(self) -> CapacityLimiterStatistics:
return CapacityLimiterStatistics(
self.borrowed_tokens,
self.total_tokens,
tuple(self._borrowers),
len(self._wait_queue),
)
_default_thread_limiter: RunVar[CapacityLimiter] = RunVar("_default_thread_limiter")
def current_default_thread_limiter() -> CapacityLimiter:
try:
return _default_thread_limiter.get()
except LookupError:
limiter = CapacityLimiter(40)
_default_thread_limiter.set(limiter)
return limiter
#
# Operating system signals
#
class _SignalReceiver(DeprecatedAsyncContextManager["_SignalReceiver"]):
def __init__(self, signals: tuple[int, ...]):
self._signals = signals
self._loop = get_running_loop()
self._signal_queue: deque[int] = deque()
self._future: asyncio.Future = asyncio.Future()
self._handled_signals: set[int] = set()
def _deliver(self, signum: int) -> None:
self._signal_queue.append(signum)
if not self._future.done():
self._future.set_result(None)
def __enter__(self) -> _SignalReceiver:
for sig in set(self._signals):
self._loop.add_signal_handler(sig, self._deliver, sig)
self._handled_signals.add(sig)
return self
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool | None:
for sig in self._handled_signals:
self._loop.remove_signal_handler(sig)
return None
def __aiter__(self) -> _SignalReceiver:
return self
async def __anext__(self) -> int:
await checkpoint()
if not self._signal_queue:
self._future = asyncio.Future()
await self._future
return self._signal_queue.popleft()
def open_signal_receiver(*signals: int) -> _SignalReceiver:
return _SignalReceiver(signals)
#
# Testing and debugging
#
def _create_task_info(task: asyncio.Task) -> TaskInfo:
task_state = _task_states.get(task)
if task_state is None:
name = task.get_name() if _native_task_names else None
parent_id = None
else:
name = task_state.name
parent_id = task_state.parent_id
return TaskInfo(id(task), parent_id, name, get_coro(task))
def get_current_task() -> TaskInfo:
return _create_task_info(current_task()) # type: ignore[arg-type]
def get_running_tasks() -> list[TaskInfo]:
return [_create_task_info(task) for task in all_tasks() if not task.done()]
async def wait_all_tasks_blocked() -> None:
await checkpoint()
this_task = current_task()
while True:
for task in all_tasks():
if task is this_task:
continue
if task._fut_waiter is None or task._fut_waiter.done(): # type: ignore[attr-defined]
await sleep(0.1)
break
else:
return
class TestRunner(abc.TestRunner):
def __init__(
self,
debug: bool = False,
use_uvloop: bool = False,
policy: asyncio.AbstractEventLoopPolicy | None = None,
):
self._exceptions: list[BaseException] = []
_maybe_set_event_loop_policy(policy, use_uvloop)
self._loop = asyncio.new_event_loop()
self._loop.set_debug(debug)
self._loop.set_exception_handler(self._exception_handler)
asyncio.set_event_loop(self._loop)
def _cancel_all_tasks(self) -> None:
to_cancel = all_tasks(self._loop)
if not to_cancel:
return
for task in to_cancel:
task.cancel()
self._loop.run_until_complete(
asyncio.gather(*to_cancel, return_exceptions=True)
)
for task in to_cancel:
if task.cancelled():
continue
if task.exception() is not None:
raise cast(BaseException, task.exception())
def _exception_handler(
self, loop: asyncio.AbstractEventLoop, context: dict[str, Any]
) -> None:
if isinstance(context.get("exception"), Exception):
self._exceptions.append(context["exception"])
else:
loop.default_exception_handler(context)
def _raise_async_exceptions(self) -> None:
# Re-raise any exceptions raised in asynchronous callbacks
if self._exceptions:
exceptions, self._exceptions = self._exceptions, []
if len(exceptions) == 1:
raise exceptions[0]
elif exceptions:
raise ExceptionGroup(exceptions)
def close(self) -> None:
try:
self._cancel_all_tasks()
self._loop.run_until_complete(self._loop.shutdown_asyncgens())
finally:
asyncio.set_event_loop(None)
self._loop.close()
def run_asyncgen_fixture(
self,
fixture_func: Callable[..., AsyncGenerator[T_Retval, Any]],
kwargs: dict[str, Any],
) -> Iterable[T_Retval]:
async def fixture_runner() -> None:
agen = fixture_func(**kwargs)
try:
retval = await agen.asend(None)
self._raise_async_exceptions()
except BaseException as exc:
f.set_exception(exc)
return
else:
f.set_result(retval)
await event.wait()
try:
await agen.asend(None)
except StopAsyncIteration:
pass
else:
await agen.aclose()
raise RuntimeError("Async generator fixture did not stop")
f = self._loop.create_future()
event = asyncio.Event()
fixture_task = self._loop.create_task(fixture_runner())
self._loop.run_until_complete(f)
yield f.result()
event.set()
self._loop.run_until_complete(fixture_task)
self._raise_async_exceptions()
def run_fixture(
self,
fixture_func: Callable[..., Coroutine[Any, Any, T_Retval]],
kwargs: dict[str, Any],
) -> T_Retval:
retval = self._loop.run_until_complete(fixture_func(**kwargs))
self._raise_async_exceptions()
return retval
def run_test(
self, test_func: Callable[..., Coroutine[Any, Any, Any]], kwargs: dict[str, Any]
) -> None:
try:
self._loop.run_until_complete(test_func(**kwargs))
except Exception as exc:
self._exceptions.append(exc)
self._raise_async_exceptions()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/exceptions.py | from typing import Any, Dict, Optional, Sequence, Type
from pydantic import BaseModel, ValidationError, create_model
from pydantic.error_wrappers import ErrorList
from starlette.exceptions import HTTPException as StarletteHTTPException
from starlette.exceptions import WebSocketException as WebSocketException # noqa: F401
class HTTPException(StarletteHTTPException):
def __init__(
self,
status_code: int,
detail: Any = None,
headers: Optional[Dict[str, Any]] = None,
) -> None:
super().__init__(status_code=status_code, detail=detail, headers=headers)
RequestErrorModel: Type[BaseModel] = create_model("Request")
WebSocketErrorModel: Type[BaseModel] = create_model("WebSocket")
class FastAPIError(RuntimeError):
"""
A generic, FastAPI-specific error.
"""
class RequestValidationError(ValidationError):
def __init__(self, errors: Sequence[ErrorList], *, body: Any = None) -> None:
self.body = body
super().__init__(errors, RequestErrorModel)
class WebSocketRequestValidationError(ValidationError):
def __init__(self, errors: Sequence[ErrorList]) -> None:
super().__init__(errors, WebSocketErrorModel)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/datastructures.py | from typing import Any, Callable, Dict, Iterable, Type, TypeVar
from starlette.datastructures import URL as URL # noqa: F401
from starlette.datastructures import Address as Address # noqa: F401
from starlette.datastructures import FormData as FormData # noqa: F401
from starlette.datastructures import Headers as Headers # noqa: F401
from starlette.datastructures import QueryParams as QueryParams # noqa: F401
from starlette.datastructures import State as State # noqa: F401
from starlette.datastructures import UploadFile as StarletteUploadFile
class UploadFile(StarletteUploadFile):
@classmethod
def __get_validators__(cls: Type["UploadFile"]) -> Iterable[Callable[..., Any]]:
yield cls.validate
@classmethod
def validate(cls: Type["UploadFile"], v: Any) -> Any:
if not isinstance(v, StarletteUploadFile):
raise ValueError(f"Expected UploadFile, received: {type(v)}")
return v
@classmethod
def __modify_schema__(cls, field_schema: Dict[str, Any]) -> None:
field_schema.update({"type": "string", "format": "binary"})
class DefaultPlaceholder:
"""
You shouldn't use this class directly.
It's used internally to recognize when a default value has been overwritten, even
if the overridden default value was truthy.
"""
def __init__(self, value: Any):
self.value = value
def __bool__(self) -> bool:
return bool(self.value)
def __eq__(self, o: object) -> bool:
return isinstance(o, DefaultPlaceholder) and o.value == self.value
DefaultType = TypeVar("DefaultType")
def Default(value: DefaultType) -> DefaultType:
"""
You shouldn't use this function directly.
It's used internally to recognize when a default value has been overwritten, even
if the overridden default value was truthy.
"""
return DefaultPlaceholder(value) # type: ignore
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/responses.py | from typing import Any
from starlette.responses import FileResponse as FileResponse # noqa
from starlette.responses import HTMLResponse as HTMLResponse # noqa
from starlette.responses import JSONResponse as JSONResponse # noqa
from starlette.responses import PlainTextResponse as PlainTextResponse # noqa
from starlette.responses import RedirectResponse as RedirectResponse # noqa
from starlette.responses import Response as Response # noqa
from starlette.responses import StreamingResponse as StreamingResponse # noqa
try:
import ujson
except ImportError: # pragma: nocover
ujson = None # type: ignore
try:
import orjson
except ImportError: # pragma: nocover
orjson = None # type: ignore
class UJSONResponse(JSONResponse):
def render(self, content: Any) -> bytes:
assert ujson is not None, "ujson must be installed to use UJSONResponse"
return ujson.dumps(content, ensure_ascii=False).encode("utf-8")
class ORJSONResponse(JSONResponse):
media_type = "application/json"
def render(self, content: Any) -> bytes:
assert orjson is not None, "orjson must be installed to use ORJSONResponse"
return orjson.dumps(
content, option=orjson.OPT_NON_STR_KEYS | orjson.OPT_SERIALIZE_NUMPY
)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/background.py | from starlette.background import BackgroundTasks as BackgroundTasks # noqa
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/templating.py | from starlette.templating import Jinja2Templates as Jinja2Templates # noqa
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/__init__.py | """FastAPI framework, high performance, easy to learn, fast to code, ready for production"""
__version__ = "0.92.0"
from starlette import status as status
from .applications import FastAPI as FastAPI
from .background import BackgroundTasks as BackgroundTasks
from .datastructures import UploadFile as UploadFile
from .exceptions import HTTPException as HTTPException
from .exceptions import WebSocketException as WebSocketException
from .param_functions import Body as Body
from .param_functions import Cookie as Cookie
from .param_functions import Depends as Depends
from .param_functions import File as File
from .param_functions import Form as Form
from .param_functions import Header as Header
from .param_functions import Path as Path
from .param_functions import Query as Query
from .param_functions import Security as Security
from .requests import Request as Request
from .responses import Response as Response
from .routing import APIRouter as APIRouter
from .websockets import WebSocket as WebSocket
from .websockets import WebSocketDisconnect as WebSocketDisconnect
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/websockets.py | from starlette.websockets import WebSocket as WebSocket # noqa
from starlette.websockets import WebSocketDisconnect as WebSocketDisconnect # noqa
from starlette.websockets import WebSocketState as WebSocketState # noqa
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/utils.py | import functools
import re
import warnings
from dataclasses import is_dataclass
from enum import Enum
from typing import TYPE_CHECKING, Any, Dict, Optional, Set, Type, Union, cast
import fastapi
from fastapi.datastructures import DefaultPlaceholder, DefaultType
from fastapi.openapi.constants import REF_PREFIX
from pydantic import BaseConfig, BaseModel, create_model
from pydantic.class_validators import Validator
from pydantic.fields import FieldInfo, ModelField, UndefinedType
from pydantic.schema import model_process_schema
from pydantic.utils import lenient_issubclass
if TYPE_CHECKING: # pragma: nocover
from .routing import APIRoute
def is_body_allowed_for_status_code(status_code: Union[int, str, None]) -> bool:
if status_code is None:
return True
# Ref: https://github.com/OAI/OpenAPI-Specification/blob/main/versions/3.1.0.md#patterned-fields-1
if status_code in {
"default",
"1XX",
"2XX",
"3XX",
"4XX",
"5XX",
}:
return True
current_status_code = int(status_code)
return not (current_status_code < 200 or current_status_code in {204, 304})
def get_model_definitions(
*,
flat_models: Set[Union[Type[BaseModel], Type[Enum]]],
model_name_map: Dict[Union[Type[BaseModel], Type[Enum]], str],
) -> Dict[str, Any]:
definitions: Dict[str, Dict[str, Any]] = {}
for model in flat_models:
m_schema, m_definitions, m_nested_models = model_process_schema(
model, model_name_map=model_name_map, ref_prefix=REF_PREFIX
)
definitions.update(m_definitions)
model_name = model_name_map[model]
if "description" in m_schema:
m_schema["description"] = m_schema["description"].split("\f")[0]
definitions[model_name] = m_schema
return definitions
def get_path_param_names(path: str) -> Set[str]:
return set(re.findall("{(.*?)}", path))
def create_response_field(
name: str,
type_: Type[Any],
class_validators: Optional[Dict[str, Validator]] = None,
default: Optional[Any] = None,
required: Union[bool, UndefinedType] = True,
model_config: Type[BaseConfig] = BaseConfig,
field_info: Optional[FieldInfo] = None,
alias: Optional[str] = None,
) -> ModelField:
"""
Create a new response field. Raises if type_ is invalid.
"""
class_validators = class_validators or {}
field_info = field_info or FieldInfo()
response_field = functools.partial(
ModelField,
name=name,
type_=type_,
class_validators=class_validators,
default=default,
required=required,
model_config=model_config,
alias=alias,
)
try:
return response_field(field_info=field_info)
except RuntimeError:
raise fastapi.exceptions.FastAPIError(
"Invalid args for response field! Hint: "
f"check that {type_} is a valid Pydantic field type. "
"If you are using a return type annotation that is not a valid Pydantic "
"field (e.g. Union[Response, dict, None]) you can disable generating the "
"response model from the type annotation with the path operation decorator "
"parameter response_model=None. Read more: "
"https://fastapi.tiangolo.com/tutorial/response-model/"
) from None
def create_cloned_field(
field: ModelField,
*,
cloned_types: Optional[Dict[Type[BaseModel], Type[BaseModel]]] = None,
) -> ModelField:
# _cloned_types has already cloned types, to support recursive models
if cloned_types is None:
cloned_types = {}
original_type = field.type_
if is_dataclass(original_type) and hasattr(original_type, "__pydantic_model__"):
original_type = original_type.__pydantic_model__
use_type = original_type
if lenient_issubclass(original_type, BaseModel):
original_type = cast(Type[BaseModel], original_type)
use_type = cloned_types.get(original_type)
if use_type is None:
use_type = create_model(original_type.__name__, __base__=original_type)
cloned_types[original_type] = use_type
for f in original_type.__fields__.values():
use_type.__fields__[f.name] = create_cloned_field(
f, cloned_types=cloned_types
)
new_field = create_response_field(name=field.name, type_=use_type)
new_field.has_alias = field.has_alias
new_field.alias = field.alias
new_field.class_validators = field.class_validators
new_field.default = field.default
new_field.required = field.required
new_field.model_config = field.model_config
new_field.field_info = field.field_info
new_field.allow_none = field.allow_none
new_field.validate_always = field.validate_always
if field.sub_fields:
new_field.sub_fields = [
create_cloned_field(sub_field, cloned_types=cloned_types)
for sub_field in field.sub_fields
]
if field.key_field:
new_field.key_field = create_cloned_field(
field.key_field, cloned_types=cloned_types
)
new_field.validators = field.validators
new_field.pre_validators = field.pre_validators
new_field.post_validators = field.post_validators
new_field.parse_json = field.parse_json
new_field.shape = field.shape
new_field.populate_validators()
return new_field
def generate_operation_id_for_path(
*, name: str, path: str, method: str
) -> str: # pragma: nocover
warnings.warn(
"fastapi.utils.generate_operation_id_for_path() was deprecated, "
"it is not used internally, and will be removed soon",
DeprecationWarning,
stacklevel=2,
)
operation_id = name + path
operation_id = re.sub(r"\W", "_", operation_id)
operation_id = operation_id + "_" + method.lower()
return operation_id
def generate_unique_id(route: "APIRoute") -> str:
operation_id = route.name + route.path_format
operation_id = re.sub(r"\W", "_", operation_id)
assert route.methods
operation_id = operation_id + "_" + list(route.methods)[0].lower()
return operation_id
def deep_dict_update(main_dict: Dict[Any, Any], update_dict: Dict[Any, Any]) -> None:
for key, value in update_dict.items():
if (
key in main_dict
and isinstance(main_dict[key], dict)
and isinstance(value, dict)
):
deep_dict_update(main_dict[key], value)
elif (
key in main_dict
and isinstance(main_dict[key], list)
and isinstance(update_dict[key], list)
):
main_dict[key] = main_dict[key] + update_dict[key]
else:
main_dict[key] = value
def get_value_or_default(
first_item: Union[DefaultPlaceholder, DefaultType],
*extra_items: Union[DefaultPlaceholder, DefaultType],
) -> Union[DefaultPlaceholder, DefaultType]:
"""
Pass items or `DefaultPlaceholder`s by descending priority.
The first one to _not_ be a `DefaultPlaceholder` will be returned.
Otherwise, the first item (a `DefaultPlaceholder`) will be returned.
"""
items = (first_item,) + extra_items
for item in items:
if not isinstance(item, DefaultPlaceholder):
return item
return first_item
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/encoders.py | import dataclasses
from collections import defaultdict
from enum import Enum
from pathlib import PurePath
from types import GeneratorType
from typing import Any, Callable, Dict, List, Optional, Set, Tuple, Union
from pydantic import BaseModel
from pydantic.json import ENCODERS_BY_TYPE
SetIntStr = Set[Union[int, str]]
DictIntStrAny = Dict[Union[int, str], Any]
def generate_encoders_by_class_tuples(
type_encoder_map: Dict[Any, Callable[[Any], Any]]
) -> Dict[Callable[[Any], Any], Tuple[Any, ...]]:
encoders_by_class_tuples: Dict[Callable[[Any], Any], Tuple[Any, ...]] = defaultdict(
tuple
)
for type_, encoder in type_encoder_map.items():
encoders_by_class_tuples[encoder] += (type_,)
return encoders_by_class_tuples
encoders_by_class_tuples = generate_encoders_by_class_tuples(ENCODERS_BY_TYPE)
def jsonable_encoder(
obj: Any,
include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
by_alias: bool = True,
exclude_unset: bool = False,
exclude_defaults: bool = False,
exclude_none: bool = False,
custom_encoder: Optional[Dict[Any, Callable[[Any], Any]]] = None,
sqlalchemy_safe: bool = True,
) -> Any:
custom_encoder = custom_encoder or {}
if custom_encoder:
if type(obj) in custom_encoder:
return custom_encoder[type(obj)](obj)
else:
for encoder_type, encoder_instance in custom_encoder.items():
if isinstance(obj, encoder_type):
return encoder_instance(obj)
if include is not None and not isinstance(include, (set, dict)):
include = set(include)
if exclude is not None and not isinstance(exclude, (set, dict)):
exclude = set(exclude)
if isinstance(obj, BaseModel):
encoder = getattr(obj.__config__, "json_encoders", {})
if custom_encoder:
encoder.update(custom_encoder)
obj_dict = obj.dict(
include=include,
exclude=exclude,
by_alias=by_alias,
exclude_unset=exclude_unset,
exclude_none=exclude_none,
exclude_defaults=exclude_defaults,
)
if "__root__" in obj_dict:
obj_dict = obj_dict["__root__"]
return jsonable_encoder(
obj_dict,
exclude_none=exclude_none,
exclude_defaults=exclude_defaults,
custom_encoder=encoder,
sqlalchemy_safe=sqlalchemy_safe,
)
if dataclasses.is_dataclass(obj):
obj_dict = dataclasses.asdict(obj)
return jsonable_encoder(
obj_dict,
include=include,
exclude=exclude,
by_alias=by_alias,
exclude_unset=exclude_unset,
exclude_defaults=exclude_defaults,
exclude_none=exclude_none,
custom_encoder=custom_encoder,
sqlalchemy_safe=sqlalchemy_safe,
)
if isinstance(obj, Enum):
return obj.value
if isinstance(obj, PurePath):
return str(obj)
if isinstance(obj, (str, int, float, type(None))):
return obj
if isinstance(obj, dict):
encoded_dict = {}
allowed_keys = set(obj.keys())
if include is not None:
allowed_keys &= set(include)
if exclude is not None:
allowed_keys -= set(exclude)
for key, value in obj.items():
if (
(
not sqlalchemy_safe
or (not isinstance(key, str))
or (not key.startswith("_sa"))
)
and (value is not None or not exclude_none)
and key in allowed_keys
):
encoded_key = jsonable_encoder(
key,
by_alias=by_alias,
exclude_unset=exclude_unset,
exclude_none=exclude_none,
custom_encoder=custom_encoder,
sqlalchemy_safe=sqlalchemy_safe,
)
encoded_value = jsonable_encoder(
value,
by_alias=by_alias,
exclude_unset=exclude_unset,
exclude_none=exclude_none,
custom_encoder=custom_encoder,
sqlalchemy_safe=sqlalchemy_safe,
)
encoded_dict[encoded_key] = encoded_value
return encoded_dict
if isinstance(obj, (list, set, frozenset, GeneratorType, tuple)):
encoded_list = []
for item in obj:
encoded_list.append(
jsonable_encoder(
item,
include=include,
exclude=exclude,
by_alias=by_alias,
exclude_unset=exclude_unset,
exclude_defaults=exclude_defaults,
exclude_none=exclude_none,
custom_encoder=custom_encoder,
sqlalchemy_safe=sqlalchemy_safe,
)
)
return encoded_list
if type(obj) in ENCODERS_BY_TYPE:
return ENCODERS_BY_TYPE[type(obj)](obj)
for encoder, classes_tuple in encoders_by_class_tuples.items():
if isinstance(obj, classes_tuple):
return encoder(obj)
try:
data = dict(obj)
except Exception as e:
errors: List[Exception] = []
errors.append(e)
try:
data = vars(obj)
except Exception as e:
errors.append(e)
raise ValueError(errors) from e
return jsonable_encoder(
data,
include=include,
exclude=exclude,
by_alias=by_alias,
exclude_unset=exclude_unset,
exclude_defaults=exclude_defaults,
exclude_none=exclude_none,
custom_encoder=custom_encoder,
sqlalchemy_safe=sqlalchemy_safe,
)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/testclient.py | from starlette.testclient import TestClient as TestClient # noqa
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/concurrency.py | from contextlib import AsyncExitStack as AsyncExitStack # noqa
from contextlib import asynccontextmanager as asynccontextmanager
from typing import AsyncGenerator, ContextManager, TypeVar
import anyio
from anyio import CapacityLimiter
from starlette.concurrency import iterate_in_threadpool as iterate_in_threadpool # noqa
from starlette.concurrency import run_in_threadpool as run_in_threadpool # noqa
from starlette.concurrency import ( # noqa
run_until_first_complete as run_until_first_complete,
)
_T = TypeVar("_T")
@asynccontextmanager
async def contextmanager_in_threadpool(
cm: ContextManager[_T],
) -> AsyncGenerator[_T, None]:
# blocking __exit__ from running waiting on a free thread
# can create race conditions/deadlocks if the context manager itself
# has it's own internal pool (e.g. a database connection pool)
# to avoid this we let __exit__ run without a capacity limit
# since we're creating a new limiter for each call, any non-zero limit
# works (1 is arbitrary)
exit_limiter = CapacityLimiter(1)
try:
yield await run_in_threadpool(cm.__enter__)
except Exception as e:
ok = bool(
await anyio.to_thread.run_sync(
cm.__exit__, type(e), e, None, limiter=exit_limiter
)
)
if not ok:
raise e
else:
await anyio.to_thread.run_sync(
cm.__exit__, None, None, None, limiter=exit_limiter
)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/routing.py | import asyncio
import dataclasses
import email.message
import inspect
import json
from contextlib import AsyncExitStack
from enum import Enum, IntEnum
from typing import (
Any,
Callable,
Coroutine,
Dict,
List,
Optional,
Sequence,
Set,
Tuple,
Type,
Union,
)
from fastapi import params
from fastapi.datastructures import Default, DefaultPlaceholder
from fastapi.dependencies.models import Dependant
from fastapi.dependencies.utils import (
get_body_field,
get_dependant,
get_parameterless_sub_dependant,
get_typed_return_annotation,
solve_dependencies,
)
from fastapi.encoders import DictIntStrAny, SetIntStr, jsonable_encoder
from fastapi.exceptions import RequestValidationError, WebSocketRequestValidationError
from fastapi.types import DecoratedCallable
from fastapi.utils import (
create_cloned_field,
create_response_field,
generate_unique_id,
get_value_or_default,
is_body_allowed_for_status_code,
)
from pydantic import BaseModel
from pydantic.error_wrappers import ErrorWrapper, ValidationError
from pydantic.fields import ModelField, Undefined
from pydantic.utils import lenient_issubclass
from starlette import routing
from starlette.concurrency import run_in_threadpool
from starlette.exceptions import HTTPException
from starlette.requests import Request
from starlette.responses import JSONResponse, Response
from starlette.routing import BaseRoute, Match
from starlette.routing import Mount as Mount # noqa
from starlette.routing import (
compile_path,
get_name,
request_response,
websocket_session,
)
from starlette.status import WS_1008_POLICY_VIOLATION
from starlette.types import ASGIApp, Scope
from starlette.websockets import WebSocket
def _prepare_response_content(
res: Any,
*,
exclude_unset: bool,
exclude_defaults: bool = False,
exclude_none: bool = False,
) -> Any:
if isinstance(res, BaseModel):
read_with_orm_mode = getattr(res.__config__, "read_with_orm_mode", None)
if read_with_orm_mode:
# Let from_orm extract the data from this model instead of converting
# it now to a dict.
# Otherwise there's no way to extract lazy data that requires attribute
# access instead of dict iteration, e.g. lazy relationships.
return res
return res.dict(
by_alias=True,
exclude_unset=exclude_unset,
exclude_defaults=exclude_defaults,
exclude_none=exclude_none,
)
elif isinstance(res, list):
return [
_prepare_response_content(
item,
exclude_unset=exclude_unset,
exclude_defaults=exclude_defaults,
exclude_none=exclude_none,
)
for item in res
]
elif isinstance(res, dict):
return {
k: _prepare_response_content(
v,
exclude_unset=exclude_unset,
exclude_defaults=exclude_defaults,
exclude_none=exclude_none,
)
for k, v in res.items()
}
elif dataclasses.is_dataclass(res):
return dataclasses.asdict(res)
return res
async def serialize_response(
*,
field: Optional[ModelField] = None,
response_content: Any,
include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
by_alias: bool = True,
exclude_unset: bool = False,
exclude_defaults: bool = False,
exclude_none: bool = False,
is_coroutine: bool = True,
) -> Any:
if field:
errors = []
response_content = _prepare_response_content(
response_content,
exclude_unset=exclude_unset,
exclude_defaults=exclude_defaults,
exclude_none=exclude_none,
)
if is_coroutine:
value, errors_ = field.validate(response_content, {}, loc=("response",))
else:
value, errors_ = await run_in_threadpool(
field.validate, response_content, {}, loc=("response",)
)
if isinstance(errors_, ErrorWrapper):
errors.append(errors_)
elif isinstance(errors_, list):
errors.extend(errors_)
if errors:
raise ValidationError(errors, field.type_)
return jsonable_encoder(
value,
include=include,
exclude=exclude,
by_alias=by_alias,
exclude_unset=exclude_unset,
exclude_defaults=exclude_defaults,
exclude_none=exclude_none,
)
else:
return jsonable_encoder(response_content)
async def run_endpoint_function(
*, dependant: Dependant, values: Dict[str, Any], is_coroutine: bool
) -> Any:
# Only called by get_request_handler. Has been split into its own function to
# facilitate profiling endpoints, since inner functions are harder to profile.
assert dependant.call is not None, "dependant.call must be a function"
if is_coroutine:
return await dependant.call(**values)
else:
return await run_in_threadpool(dependant.call, **values)
def get_request_handler(
dependant: Dependant,
body_field: Optional[ModelField] = None,
status_code: Optional[int] = None,
response_class: Union[Type[Response], DefaultPlaceholder] = Default(JSONResponse),
response_field: Optional[ModelField] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
dependency_overrides_provider: Optional[Any] = None,
) -> Callable[[Request], Coroutine[Any, Any, Response]]:
assert dependant.call is not None, "dependant.call must be a function"
is_coroutine = asyncio.iscoroutinefunction(dependant.call)
is_body_form = body_field and isinstance(body_field.field_info, params.Form)
if isinstance(response_class, DefaultPlaceholder):
actual_response_class: Type[Response] = response_class.value
else:
actual_response_class = response_class
async def app(request: Request) -> Response:
try:
body: Any = None
if body_field:
if is_body_form:
body = await request.form()
stack = request.scope.get("fastapi_astack")
assert isinstance(stack, AsyncExitStack)
stack.push_async_callback(body.close)
else:
body_bytes = await request.body()
if body_bytes:
json_body: Any = Undefined
content_type_value = request.headers.get("content-type")
if not content_type_value:
json_body = await request.json()
else:
message = email.message.Message()
message["content-type"] = content_type_value
if message.get_content_maintype() == "application":
subtype = message.get_content_subtype()
if subtype == "json" or subtype.endswith("+json"):
json_body = await request.json()
if json_body != Undefined:
body = json_body
else:
body = body_bytes
except json.JSONDecodeError as e:
raise RequestValidationError(
[ErrorWrapper(e, ("body", e.pos))], body=e.doc
) from e
except HTTPException:
raise
except Exception as e:
raise HTTPException(
status_code=400, detail="There was an error parsing the body"
) from e
solved_result = await solve_dependencies(
request=request,
dependant=dependant,
body=body,
dependency_overrides_provider=dependency_overrides_provider,
)
values, errors, background_tasks, sub_response, _ = solved_result
if errors:
raise RequestValidationError(errors, body=body)
else:
raw_response = await run_endpoint_function(
dependant=dependant, values=values, is_coroutine=is_coroutine
)
if isinstance(raw_response, Response):
if raw_response.background is None:
raw_response.background = background_tasks
return raw_response
response_args: Dict[str, Any] = {"background": background_tasks}
# If status_code was set, use it, otherwise use the default from the
# response class, in the case of redirect it's 307
current_status_code = (
status_code if status_code else sub_response.status_code
)
if current_status_code is not None:
response_args["status_code"] = current_status_code
if sub_response.status_code:
response_args["status_code"] = sub_response.status_code
content = await serialize_response(
field=response_field,
response_content=raw_response,
include=response_model_include,
exclude=response_model_exclude,
by_alias=response_model_by_alias,
exclude_unset=response_model_exclude_unset,
exclude_defaults=response_model_exclude_defaults,
exclude_none=response_model_exclude_none,
is_coroutine=is_coroutine,
)
response = actual_response_class(content, **response_args)
if not is_body_allowed_for_status_code(response.status_code):
response.body = b""
response.headers.raw.extend(sub_response.headers.raw)
return response
return app
def get_websocket_app(
dependant: Dependant, dependency_overrides_provider: Optional[Any] = None
) -> Callable[[WebSocket], Coroutine[Any, Any, Any]]:
async def app(websocket: WebSocket) -> None:
solved_result = await solve_dependencies(
request=websocket,
dependant=dependant,
dependency_overrides_provider=dependency_overrides_provider,
)
values, errors, _, _2, _3 = solved_result
if errors:
await websocket.close(code=WS_1008_POLICY_VIOLATION)
raise WebSocketRequestValidationError(errors)
assert dependant.call is not None, "dependant.call must be a function"
await dependant.call(**values)
return app
class APIWebSocketRoute(routing.WebSocketRoute):
def __init__(
self,
path: str,
endpoint: Callable[..., Any],
*,
name: Optional[str] = None,
dependency_overrides_provider: Optional[Any] = None,
) -> None:
self.path = path
self.endpoint = endpoint
self.name = get_name(endpoint) if name is None else name
self.path_regex, self.path_format, self.param_convertors = compile_path(path)
self.dependant = get_dependant(path=self.path_format, call=self.endpoint)
self.app = websocket_session(
get_websocket_app(
dependant=self.dependant,
dependency_overrides_provider=dependency_overrides_provider,
)
)
def matches(self, scope: Scope) -> Tuple[Match, Scope]:
match, child_scope = super().matches(scope)
if match != Match.NONE:
child_scope["route"] = self
return match, child_scope
class APIRoute(routing.Route):
def __init__(
self,
path: str,
endpoint: Callable[..., Any],
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
name: Optional[str] = None,
methods: Optional[Union[Set[str], List[str]]] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Union[Type[Response], DefaultPlaceholder] = Default(
JSONResponse
),
dependency_overrides_provider: Optional[Any] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Union[
Callable[["APIRoute"], str], DefaultPlaceholder
] = Default(generate_unique_id),
) -> None:
self.path = path
self.endpoint = endpoint
if isinstance(response_model, DefaultPlaceholder):
return_annotation = get_typed_return_annotation(endpoint)
if lenient_issubclass(return_annotation, Response):
response_model = None
else:
response_model = return_annotation
self.response_model = response_model
self.summary = summary
self.response_description = response_description
self.deprecated = deprecated
self.operation_id = operation_id
self.response_model_include = response_model_include
self.response_model_exclude = response_model_exclude
self.response_model_by_alias = response_model_by_alias
self.response_model_exclude_unset = response_model_exclude_unset
self.response_model_exclude_defaults = response_model_exclude_defaults
self.response_model_exclude_none = response_model_exclude_none
self.include_in_schema = include_in_schema
self.response_class = response_class
self.dependency_overrides_provider = dependency_overrides_provider
self.callbacks = callbacks
self.openapi_extra = openapi_extra
self.generate_unique_id_function = generate_unique_id_function
self.tags = tags or []
self.responses = responses or {}
self.name = get_name(endpoint) if name is None else name
self.path_regex, self.path_format, self.param_convertors = compile_path(path)
if methods is None:
methods = ["GET"]
self.methods: Set[str] = {method.upper() for method in methods}
if isinstance(generate_unique_id_function, DefaultPlaceholder):
current_generate_unique_id: Callable[
["APIRoute"], str
] = generate_unique_id_function.value
else:
current_generate_unique_id = generate_unique_id_function
self.unique_id = self.operation_id or current_generate_unique_id(self)
# normalize enums e.g. http.HTTPStatus
if isinstance(status_code, IntEnum):
status_code = int(status_code)
self.status_code = status_code
if self.response_model:
assert is_body_allowed_for_status_code(
status_code
), f"Status code {status_code} must not have a response body"
response_name = "Response_" + self.unique_id
self.response_field = create_response_field(
name=response_name, type_=self.response_model
)
# Create a clone of the field, so that a Pydantic submodel is not returned
# as is just because it's an instance of a subclass of a more limited class
# e.g. UserInDB (containing hashed_password) could be a subclass of User
# that doesn't have the hashed_password. But because it's a subclass, it
# would pass the validation and be returned as is.
# By being a new field, no inheritance will be passed as is. A new model
# will be always created.
self.secure_cloned_response_field: Optional[
ModelField
] = create_cloned_field(self.response_field)
else:
self.response_field = None # type: ignore
self.secure_cloned_response_field = None
if dependencies:
self.dependencies = list(dependencies)
else:
self.dependencies = []
self.description = description or inspect.cleandoc(self.endpoint.__doc__ or "")
# if a "form feed" character (page break) is found in the description text,
# truncate description text to the content preceding the first "form feed"
self.description = self.description.split("\f")[0].strip()
response_fields = {}
for additional_status_code, response in self.responses.items():
assert isinstance(response, dict), "An additional response must be a dict"
model = response.get("model")
if model:
assert is_body_allowed_for_status_code(
additional_status_code
), f"Status code {additional_status_code} must not have a response body"
response_name = f"Response_{additional_status_code}_{self.unique_id}"
response_field = create_response_field(name=response_name, type_=model)
response_fields[additional_status_code] = response_field
if response_fields:
self.response_fields: Dict[Union[int, str], ModelField] = response_fields
else:
self.response_fields = {}
assert callable(endpoint), "An endpoint must be a callable"
self.dependant = get_dependant(path=self.path_format, call=self.endpoint)
for depends in self.dependencies[::-1]:
self.dependant.dependencies.insert(
0,
get_parameterless_sub_dependant(depends=depends, path=self.path_format),
)
self.body_field = get_body_field(dependant=self.dependant, name=self.unique_id)
self.app = request_response(self.get_route_handler())
def get_route_handler(self) -> Callable[[Request], Coroutine[Any, Any, Response]]:
return get_request_handler(
dependant=self.dependant,
body_field=self.body_field,
status_code=self.status_code,
response_class=self.response_class,
response_field=self.secure_cloned_response_field,
response_model_include=self.response_model_include,
response_model_exclude=self.response_model_exclude,
response_model_by_alias=self.response_model_by_alias,
response_model_exclude_unset=self.response_model_exclude_unset,
response_model_exclude_defaults=self.response_model_exclude_defaults,
response_model_exclude_none=self.response_model_exclude_none,
dependency_overrides_provider=self.dependency_overrides_provider,
)
def matches(self, scope: Scope) -> Tuple[Match, Scope]:
match, child_scope = super().matches(scope)
if match != Match.NONE:
child_scope["route"] = self
return match, child_scope
class APIRouter(routing.Router):
def __init__(
self,
*,
prefix: str = "",
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
default_response_class: Type[Response] = Default(JSONResponse),
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
callbacks: Optional[List[BaseRoute]] = None,
routes: Optional[List[routing.BaseRoute]] = None,
redirect_slashes: bool = True,
default: Optional[ASGIApp] = None,
dependency_overrides_provider: Optional[Any] = None,
route_class: Type[APIRoute] = APIRoute,
on_startup: Optional[Sequence[Callable[[], Any]]] = None,
on_shutdown: Optional[Sequence[Callable[[], Any]]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> None:
super().__init__(
routes=routes,
redirect_slashes=redirect_slashes,
default=default,
on_startup=on_startup,
on_shutdown=on_shutdown,
)
if prefix:
assert prefix.startswith("/"), "A path prefix must start with '/'"
assert not prefix.endswith(
"/"
), "A path prefix must not end with '/', as the routes will start with '/'"
self.prefix = prefix
self.tags: List[Union[str, Enum]] = tags or []
self.dependencies = list(dependencies or []) or []
self.deprecated = deprecated
self.include_in_schema = include_in_schema
self.responses = responses or {}
self.callbacks = callbacks or []
self.dependency_overrides_provider = dependency_overrides_provider
self.route_class = route_class
self.default_response_class = default_response_class
self.generate_unique_id_function = generate_unique_id_function
def route(
self,
path: str,
methods: Optional[List[str]] = None,
name: Optional[str] = None,
include_in_schema: bool = True,
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.add_route(
path,
func,
methods=methods,
name=name,
include_in_schema=include_in_schema,
)
return func
return decorator
def add_api_route(
self,
path: str,
endpoint: Callable[..., Any],
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
methods: Optional[Union[Set[str], List[str]]] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Union[Type[Response], DefaultPlaceholder] = Default(
JSONResponse
),
name: Optional[str] = None,
route_class_override: Optional[Type[APIRoute]] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Union[
Callable[[APIRoute], str], DefaultPlaceholder
] = Default(generate_unique_id),
) -> None:
route_class = route_class_override or self.route_class
responses = responses or {}
combined_responses = {**self.responses, **responses}
current_response_class = get_value_or_default(
response_class, self.default_response_class
)
current_tags = self.tags.copy()
if tags:
current_tags.extend(tags)
current_dependencies = self.dependencies.copy()
if dependencies:
current_dependencies.extend(dependencies)
current_callbacks = self.callbacks.copy()
if callbacks:
current_callbacks.extend(callbacks)
current_generate_unique_id = get_value_or_default(
generate_unique_id_function, self.generate_unique_id_function
)
route = route_class(
self.prefix + path,
endpoint=endpoint,
response_model=response_model,
status_code=status_code,
tags=current_tags,
dependencies=current_dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=combined_responses,
deprecated=deprecated or self.deprecated,
methods=methods,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema and self.include_in_schema,
response_class=current_response_class,
name=name,
dependency_overrides_provider=self.dependency_overrides_provider,
callbacks=current_callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=current_generate_unique_id,
)
self.routes.append(route)
def api_route(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
methods: Optional[List[str]] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.add_api_route(
path,
func,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=methods,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
return func
return decorator
def add_api_websocket_route(
self, path: str, endpoint: Callable[..., Any], name: Optional[str] = None
) -> None:
route = APIWebSocketRoute(
self.prefix + path,
endpoint=endpoint,
name=name,
dependency_overrides_provider=self.dependency_overrides_provider,
)
self.routes.append(route)
def websocket(
self, path: str, name: Optional[str] = None
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.add_api_websocket_route(path, func, name=name)
return func
return decorator
def websocket_route(
self, path: str, name: Union[str, None] = None
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.add_websocket_route(path, func, name=name)
return func
return decorator
def include_router(
self,
router: "APIRouter",
*,
prefix: str = "",
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
default_response_class: Type[Response] = Default(JSONResponse),
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
callbacks: Optional[List[BaseRoute]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> None:
if prefix:
assert prefix.startswith("/"), "A path prefix must start with '/'"
assert not prefix.endswith(
"/"
), "A path prefix must not end with '/', as the routes will start with '/'"
else:
for r in router.routes:
path = getattr(r, "path") # noqa: B009
name = getattr(r, "name", "unknown")
if path is not None and not path:
raise Exception(
f"Prefix and path cannot be both empty (path operation: {name})"
)
if responses is None:
responses = {}
for route in router.routes:
if isinstance(route, APIRoute):
combined_responses = {**responses, **route.responses}
use_response_class = get_value_or_default(
route.response_class,
router.default_response_class,
default_response_class,
self.default_response_class,
)
current_tags = []
if tags:
current_tags.extend(tags)
if route.tags:
current_tags.extend(route.tags)
current_dependencies: List[params.Depends] = []
if dependencies:
current_dependencies.extend(dependencies)
if route.dependencies:
current_dependencies.extend(route.dependencies)
current_callbacks = []
if callbacks:
current_callbacks.extend(callbacks)
if route.callbacks:
current_callbacks.extend(route.callbacks)
current_generate_unique_id = get_value_or_default(
route.generate_unique_id_function,
router.generate_unique_id_function,
generate_unique_id_function,
self.generate_unique_id_function,
)
self.add_api_route(
prefix + route.path,
route.endpoint,
response_model=route.response_model,
status_code=route.status_code,
tags=current_tags,
dependencies=current_dependencies,
summary=route.summary,
description=route.description,
response_description=route.response_description,
responses=combined_responses,
deprecated=route.deprecated or deprecated or self.deprecated,
methods=route.methods,
operation_id=route.operation_id,
response_model_include=route.response_model_include,
response_model_exclude=route.response_model_exclude,
response_model_by_alias=route.response_model_by_alias,
response_model_exclude_unset=route.response_model_exclude_unset,
response_model_exclude_defaults=route.response_model_exclude_defaults,
response_model_exclude_none=route.response_model_exclude_none,
include_in_schema=route.include_in_schema
and self.include_in_schema
and include_in_schema,
response_class=use_response_class,
name=route.name,
route_class_override=type(route),
callbacks=current_callbacks,
openapi_extra=route.openapi_extra,
generate_unique_id_function=current_generate_unique_id,
)
elif isinstance(route, routing.Route):
methods = list(route.methods or [])
self.add_route(
prefix + route.path,
route.endpoint,
methods=methods,
include_in_schema=route.include_in_schema,
name=route.name,
)
elif isinstance(route, APIWebSocketRoute):
self.add_api_websocket_route(
prefix + route.path, route.endpoint, name=route.name
)
elif isinstance(route, routing.WebSocketRoute):
self.add_websocket_route(
prefix + route.path, route.endpoint, name=route.name
)
for handler in router.on_startup:
self.add_event_handler("startup", handler)
for handler in router.on_shutdown:
self.add_event_handler("shutdown", handler)
def get(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.api_route(
path=path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=["GET"],
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def put(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.api_route(
path=path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=["PUT"],
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def post(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.api_route(
path=path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=["POST"],
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def delete(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.api_route(
path=path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=["DELETE"],
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def options(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.api_route(
path=path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=["OPTIONS"],
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def head(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.api_route(
path=path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=["HEAD"],
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def patch(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.api_route(
path=path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=["PATCH"],
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def trace(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[params.Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.api_route(
path=path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=["TRACE"],
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def on_event(
self, event_type: str
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.add_event_handler(event_type, func)
return func
return decorator
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/types.py | from typing import Any, Callable, TypeVar
DecoratedCallable = TypeVar("DecoratedCallable", bound=Callable[..., Any])
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/staticfiles.py | from starlette.staticfiles import StaticFiles as StaticFiles # noqa
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/requests.py | from starlette.requests import HTTPConnection as HTTPConnection # noqa: F401
from starlette.requests import Request as Request # noqa: F401
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/params.py | from enum import Enum
from typing import Any, Callable, Dict, Optional, Sequence
from pydantic.fields import FieldInfo, Undefined
class ParamTypes(Enum):
query = "query"
header = "header"
path = "path"
cookie = "cookie"
class Param(FieldInfo):
in_: ParamTypes
def __init__(
self,
default: Any = Undefined,
*,
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
**extra: Any,
):
self.deprecated = deprecated
self.example = example
self.examples = examples
self.include_in_schema = include_in_schema
super().__init__(
default=default,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
**extra,
)
def __repr__(self) -> str:
return f"{self.__class__.__name__}({self.default})"
class Path(Param):
in_ = ParamTypes.path
def __init__(
self,
default: Any = Undefined,
*,
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
**extra: Any,
):
self.in_ = self.in_
super().__init__(
default=...,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
deprecated=deprecated,
example=example,
examples=examples,
include_in_schema=include_in_schema,
**extra,
)
class Query(Param):
in_ = ParamTypes.query
def __init__(
self,
default: Any = Undefined,
*,
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
**extra: Any,
):
super().__init__(
default=default,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
deprecated=deprecated,
example=example,
examples=examples,
include_in_schema=include_in_schema,
**extra,
)
class Header(Param):
in_ = ParamTypes.header
def __init__(
self,
default: Any = Undefined,
*,
alias: Optional[str] = None,
convert_underscores: bool = True,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
**extra: Any,
):
self.convert_underscores = convert_underscores
super().__init__(
default=default,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
deprecated=deprecated,
example=example,
examples=examples,
include_in_schema=include_in_schema,
**extra,
)
class Cookie(Param):
in_ = ParamTypes.cookie
def __init__(
self,
default: Any = Undefined,
*,
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
**extra: Any,
):
super().__init__(
default=default,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
deprecated=deprecated,
example=example,
examples=examples,
include_in_schema=include_in_schema,
**extra,
)
class Body(FieldInfo):
def __init__(
self,
default: Any = Undefined,
*,
embed: bool = False,
media_type: str = "application/json",
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
**extra: Any,
):
self.embed = embed
self.media_type = media_type
self.example = example
self.examples = examples
super().__init__(
default=default,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
**extra,
)
def __repr__(self) -> str:
return f"{self.__class__.__name__}({self.default})"
class Form(Body):
def __init__(
self,
default: Any,
*,
media_type: str = "application/x-www-form-urlencoded",
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
**extra: Any,
):
super().__init__(
default=default,
embed=True,
media_type=media_type,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
example=example,
examples=examples,
**extra,
)
class File(Form):
def __init__(
self,
default: Any,
*,
media_type: str = "multipart/form-data",
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
**extra: Any,
):
super().__init__(
default=default,
media_type=media_type,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
example=example,
examples=examples,
**extra,
)
class Depends:
def __init__(
self, dependency: Optional[Callable[..., Any]] = None, *, use_cache: bool = True
):
self.dependency = dependency
self.use_cache = use_cache
def __repr__(self) -> str:
attr = getattr(self.dependency, "__name__", type(self.dependency).__name__)
cache = "" if self.use_cache else ", use_cache=False"
return f"{self.__class__.__name__}({attr}{cache})"
class Security(Depends):
def __init__(
self,
dependency: Optional[Callable[..., Any]] = None,
*,
scopes: Optional[Sequence[str]] = None,
use_cache: bool = True,
):
super().__init__(dependency=dependency, use_cache=use_cache)
self.scopes = scopes or []
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/exception_handlers.py | from fastapi.encoders import jsonable_encoder
from fastapi.exceptions import RequestValidationError
from fastapi.utils import is_body_allowed_for_status_code
from starlette.exceptions import HTTPException
from starlette.requests import Request
from starlette.responses import JSONResponse, Response
from starlette.status import HTTP_422_UNPROCESSABLE_ENTITY
async def http_exception_handler(request: Request, exc: HTTPException) -> Response:
headers = getattr(exc, "headers", None)
if not is_body_allowed_for_status_code(exc.status_code):
return Response(status_code=exc.status_code, headers=headers)
return JSONResponse(
{"detail": exc.detail}, status_code=exc.status_code, headers=headers
)
async def request_validation_exception_handler(
request: Request, exc: RequestValidationError
) -> JSONResponse:
return JSONResponse(
status_code=HTTP_422_UNPROCESSABLE_ENTITY,
content={"detail": jsonable_encoder(exc.errors())},
)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/param_functions.py | from typing import Any, Callable, Dict, Optional, Sequence
from fastapi import params
from pydantic.fields import Undefined
def Path( # noqa: N802
default: Any = Undefined,
*,
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
**extra: Any,
) -> Any:
return params.Path(
default=default,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
example=example,
examples=examples,
deprecated=deprecated,
include_in_schema=include_in_schema,
**extra,
)
def Query( # noqa: N802
default: Any = Undefined,
*,
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
**extra: Any,
) -> Any:
return params.Query(
default=default,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
example=example,
examples=examples,
deprecated=deprecated,
include_in_schema=include_in_schema,
**extra,
)
def Header( # noqa: N802
default: Any = Undefined,
*,
alias: Optional[str] = None,
convert_underscores: bool = True,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
**extra: Any,
) -> Any:
return params.Header(
default=default,
alias=alias,
convert_underscores=convert_underscores,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
example=example,
examples=examples,
deprecated=deprecated,
include_in_schema=include_in_schema,
**extra,
)
def Cookie( # noqa: N802
default: Any = Undefined,
*,
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
**extra: Any,
) -> Any:
return params.Cookie(
default=default,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
example=example,
examples=examples,
deprecated=deprecated,
include_in_schema=include_in_schema,
**extra,
)
def Body( # noqa: N802
default: Any = Undefined,
*,
embed: bool = False,
media_type: str = "application/json",
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
**extra: Any,
) -> Any:
return params.Body(
default=default,
embed=embed,
media_type=media_type,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
example=example,
examples=examples,
**extra,
)
def Form( # noqa: N802
default: Any = Undefined,
*,
media_type: str = "application/x-www-form-urlencoded",
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
**extra: Any,
) -> Any:
return params.Form(
default=default,
media_type=media_type,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
example=example,
examples=examples,
**extra,
)
def File( # noqa: N802
default: Any = Undefined,
*,
media_type: str = "multipart/form-data",
alias: Optional[str] = None,
title: Optional[str] = None,
description: Optional[str] = None,
gt: Optional[float] = None,
ge: Optional[float] = None,
lt: Optional[float] = None,
le: Optional[float] = None,
min_length: Optional[int] = None,
max_length: Optional[int] = None,
regex: Optional[str] = None,
example: Any = Undefined,
examples: Optional[Dict[str, Any]] = None,
**extra: Any,
) -> Any:
return params.File(
default=default,
media_type=media_type,
alias=alias,
title=title,
description=description,
gt=gt,
ge=ge,
lt=lt,
le=le,
min_length=min_length,
max_length=max_length,
regex=regex,
example=example,
examples=examples,
**extra,
)
def Depends( # noqa: N802
dependency: Optional[Callable[..., Any]] = None, *, use_cache: bool = True
) -> Any:
return params.Depends(dependency=dependency, use_cache=use_cache)
def Security( # noqa: N802
dependency: Optional[Callable[..., Any]] = None,
*,
scopes: Optional[Sequence[str]] = None,
use_cache: bool = True,
) -> Any:
return params.Security(dependency=dependency, scopes=scopes, use_cache=use_cache)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/applications.py | from enum import Enum
from typing import (
Any,
Awaitable,
Callable,
Coroutine,
Dict,
List,
Optional,
Sequence,
Type,
Union,
)
from fastapi import routing
from fastapi.datastructures import Default, DefaultPlaceholder
from fastapi.encoders import DictIntStrAny, SetIntStr
from fastapi.exception_handlers import (
http_exception_handler,
request_validation_exception_handler,
)
from fastapi.exceptions import RequestValidationError
from fastapi.logger import logger
from fastapi.middleware.asyncexitstack import AsyncExitStackMiddleware
from fastapi.openapi.docs import (
get_redoc_html,
get_swagger_ui_html,
get_swagger_ui_oauth2_redirect_html,
)
from fastapi.openapi.utils import get_openapi
from fastapi.params import Depends
from fastapi.types import DecoratedCallable
from fastapi.utils import generate_unique_id
from starlette.applications import Starlette
from starlette.datastructures import State
from starlette.exceptions import HTTPException
from starlette.middleware import Middleware
from starlette.middleware.base import BaseHTTPMiddleware
from starlette.middleware.errors import ServerErrorMiddleware
from starlette.middleware.exceptions import ExceptionMiddleware
from starlette.requests import Request
from starlette.responses import HTMLResponse, JSONResponse, Response
from starlette.routing import BaseRoute
from starlette.types import ASGIApp, Receive, Scope, Send
class FastAPI(Starlette):
def __init__(
self,
*,
debug: bool = False,
routes: Optional[List[BaseRoute]] = None,
title: str = "FastAPI",
description: str = "",
version: str = "0.1.0",
openapi_url: Optional[str] = "/openapi.json",
openapi_tags: Optional[List[Dict[str, Any]]] = None,
servers: Optional[List[Dict[str, Union[str, Any]]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
default_response_class: Type[Response] = Default(JSONResponse),
docs_url: Optional[str] = "/docs",
redoc_url: Optional[str] = "/redoc",
swagger_ui_oauth2_redirect_url: Optional[str] = "/docs/oauth2-redirect",
swagger_ui_init_oauth: Optional[Dict[str, Any]] = None,
middleware: Optional[Sequence[Middleware]] = None,
exception_handlers: Optional[
Dict[
Union[int, Type[Exception]],
Callable[[Request, Any], Coroutine[Any, Any, Response]],
]
] = None,
on_startup: Optional[Sequence[Callable[[], Any]]] = None,
on_shutdown: Optional[Sequence[Callable[[], Any]]] = None,
terms_of_service: Optional[str] = None,
contact: Optional[Dict[str, Union[str, Any]]] = None,
license_info: Optional[Dict[str, Union[str, Any]]] = None,
openapi_prefix: str = "",
root_path: str = "",
root_path_in_servers: bool = True,
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
callbacks: Optional[List[BaseRoute]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
swagger_ui_parameters: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
**extra: Any,
) -> None:
self.debug = debug
self.title = title
self.description = description
self.version = version
self.terms_of_service = terms_of_service
self.contact = contact
self.license_info = license_info
self.openapi_url = openapi_url
self.openapi_tags = openapi_tags
self.root_path_in_servers = root_path_in_servers
self.docs_url = docs_url
self.redoc_url = redoc_url
self.swagger_ui_oauth2_redirect_url = swagger_ui_oauth2_redirect_url
self.swagger_ui_init_oauth = swagger_ui_init_oauth
self.swagger_ui_parameters = swagger_ui_parameters
self.servers = servers or []
self.extra = extra
self.openapi_version = "3.0.2"
self.openapi_schema: Optional[Dict[str, Any]] = None
if self.openapi_url:
assert self.title, "A title must be provided for OpenAPI, e.g.: 'My API'"
assert self.version, "A version must be provided for OpenAPI, e.g.: '2.1.0'"
# TODO: remove when discarding the openapi_prefix parameter
if openapi_prefix:
logger.warning(
'"openapi_prefix" has been deprecated in favor of "root_path", which '
"follows more closely the ASGI standard, is simpler, and more "
"automatic. Check the docs at "
"https://fastapi.tiangolo.com/advanced/sub-applications/"
)
self.root_path = root_path or openapi_prefix
self.state: State = State()
self.dependency_overrides: Dict[Callable[..., Any], Callable[..., Any]] = {}
self.router: routing.APIRouter = routing.APIRouter(
routes=routes,
dependency_overrides_provider=self,
on_startup=on_startup,
on_shutdown=on_shutdown,
default_response_class=default_response_class,
dependencies=dependencies,
callbacks=callbacks,
deprecated=deprecated,
include_in_schema=include_in_schema,
responses=responses,
generate_unique_id_function=generate_unique_id_function,
)
self.exception_handlers: Dict[
Any, Callable[[Request, Any], Union[Response, Awaitable[Response]]]
] = ({} if exception_handlers is None else dict(exception_handlers))
self.exception_handlers.setdefault(HTTPException, http_exception_handler)
self.exception_handlers.setdefault(
RequestValidationError, request_validation_exception_handler
)
self.user_middleware: List[Middleware] = (
[] if middleware is None else list(middleware)
)
self.middleware_stack: Union[ASGIApp, None] = None
self.setup()
def build_middleware_stack(self) -> ASGIApp:
# Duplicate/override from Starlette to add AsyncExitStackMiddleware
# inside of ExceptionMiddleware, inside of custom user middlewares
debug = self.debug
error_handler = None
exception_handlers = {}
for key, value in self.exception_handlers.items():
if key in (500, Exception):
error_handler = value
else:
exception_handlers[key] = value
middleware = (
[Middleware(ServerErrorMiddleware, handler=error_handler, debug=debug)]
+ self.user_middleware
+ [
Middleware(
ExceptionMiddleware, handlers=exception_handlers, debug=debug
),
# Add FastAPI-specific AsyncExitStackMiddleware for dependencies with
# contextvars.
# This needs to happen after user middlewares because those create a
# new contextvars context copy by using a new AnyIO task group.
# The initial part of dependencies with yield is executed in the
# FastAPI code, inside all the middlewares, but the teardown part
# (after yield) is executed in the AsyncExitStack in this middleware,
# if the AsyncExitStack lived outside of the custom middlewares and
# contextvars were set in a dependency with yield in that internal
# contextvars context, the values would not be available in the
# outside context of the AsyncExitStack.
# By putting the middleware and the AsyncExitStack here, inside all
# user middlewares, the code before and after yield in dependencies
# with yield is executed in the same contextvars context, so all values
# set in contextvars before yield is still available after yield as
# would be expected.
# Additionally, by having this AsyncExitStack here, after the
# ExceptionMiddleware, now dependencies can catch handled exceptions,
# e.g. HTTPException, to customize the teardown code (e.g. DB session
# rollback).
Middleware(AsyncExitStackMiddleware),
]
)
app = self.router
for cls, options in reversed(middleware):
app = cls(app=app, **options)
return app
def openapi(self) -> Dict[str, Any]:
if not self.openapi_schema:
self.openapi_schema = get_openapi(
title=self.title,
version=self.version,
openapi_version=self.openapi_version,
description=self.description,
terms_of_service=self.terms_of_service,
contact=self.contact,
license_info=self.license_info,
routes=self.routes,
tags=self.openapi_tags,
servers=self.servers,
)
return self.openapi_schema
def setup(self) -> None:
if self.openapi_url:
urls = (server_data.get("url") for server_data in self.servers)
server_urls = {url for url in urls if url}
async def openapi(req: Request) -> JSONResponse:
root_path = req.scope.get("root_path", "").rstrip("/")
if root_path not in server_urls:
if root_path and self.root_path_in_servers:
self.servers.insert(0, {"url": root_path})
server_urls.add(root_path)
return JSONResponse(self.openapi())
self.add_route(self.openapi_url, openapi, include_in_schema=False)
if self.openapi_url and self.docs_url:
async def swagger_ui_html(req: Request) -> HTMLResponse:
root_path = req.scope.get("root_path", "").rstrip("/")
openapi_url = root_path + self.openapi_url
oauth2_redirect_url = self.swagger_ui_oauth2_redirect_url
if oauth2_redirect_url:
oauth2_redirect_url = root_path + oauth2_redirect_url
return get_swagger_ui_html(
openapi_url=openapi_url,
title=self.title + " - Swagger UI",
oauth2_redirect_url=oauth2_redirect_url,
init_oauth=self.swagger_ui_init_oauth,
swagger_ui_parameters=self.swagger_ui_parameters,
)
self.add_route(self.docs_url, swagger_ui_html, include_in_schema=False)
if self.swagger_ui_oauth2_redirect_url:
async def swagger_ui_redirect(req: Request) -> HTMLResponse:
return get_swagger_ui_oauth2_redirect_html()
self.add_route(
self.swagger_ui_oauth2_redirect_url,
swagger_ui_redirect,
include_in_schema=False,
)
if self.openapi_url and self.redoc_url:
async def redoc_html(req: Request) -> HTMLResponse:
root_path = req.scope.get("root_path", "").rstrip("/")
openapi_url = root_path + self.openapi_url
return get_redoc_html(
openapi_url=openapi_url, title=self.title + " - ReDoc"
)
self.add_route(self.redoc_url, redoc_html, include_in_schema=False)
async def __call__(self, scope: Scope, receive: Receive, send: Send) -> None:
if self.root_path:
scope["root_path"] = self.root_path
await super().__call__(scope, receive, send)
def add_api_route(
self,
path: str,
endpoint: Callable[..., Coroutine[Any, Any, Response]],
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
methods: Optional[List[str]] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Union[Type[Response], DefaultPlaceholder] = Default(
JSONResponse
),
name: Optional[str] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> None:
self.router.add_api_route(
path,
endpoint=endpoint,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=methods,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def api_route(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
methods: Optional[List[str]] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.router.add_api_route(
path,
func,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
methods=methods,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
return func
return decorator
def add_api_websocket_route(
self, path: str, endpoint: Callable[..., Any], name: Optional[str] = None
) -> None:
self.router.add_api_websocket_route(path, endpoint, name=name)
def websocket(
self, path: str, name: Optional[str] = None
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.add_api_websocket_route(path, func, name=name)
return func
return decorator
def include_router(
self,
router: routing.APIRouter,
*,
prefix: str = "",
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
include_in_schema: bool = True,
default_response_class: Type[Response] = Default(JSONResponse),
callbacks: Optional[List[BaseRoute]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> None:
self.router.include_router(
router,
prefix=prefix,
tags=tags,
dependencies=dependencies,
responses=responses,
deprecated=deprecated,
include_in_schema=include_in_schema,
default_response_class=default_response_class,
callbacks=callbacks,
generate_unique_id_function=generate_unique_id_function,
)
def get(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.router.get(
path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def put(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.router.put(
path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def post(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.router.post(
path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def delete(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.router.delete(
path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def options(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.router.options(
path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def head(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.router.head(
path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def patch(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.router.patch(
path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def trace(
self,
path: str,
*,
response_model: Any = Default(None),
status_code: Optional[int] = None,
tags: Optional[List[Union[str, Enum]]] = None,
dependencies: Optional[Sequence[Depends]] = None,
summary: Optional[str] = None,
description: Optional[str] = None,
response_description: str = "Successful Response",
responses: Optional[Dict[Union[int, str], Dict[str, Any]]] = None,
deprecated: Optional[bool] = None,
operation_id: Optional[str] = None,
response_model_include: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_exclude: Optional[Union[SetIntStr, DictIntStrAny]] = None,
response_model_by_alias: bool = True,
response_model_exclude_unset: bool = False,
response_model_exclude_defaults: bool = False,
response_model_exclude_none: bool = False,
include_in_schema: bool = True,
response_class: Type[Response] = Default(JSONResponse),
name: Optional[str] = None,
callbacks: Optional[List[BaseRoute]] = None,
openapi_extra: Optional[Dict[str, Any]] = None,
generate_unique_id_function: Callable[[routing.APIRoute], str] = Default(
generate_unique_id
),
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.router.trace(
path,
response_model=response_model,
status_code=status_code,
tags=tags,
dependencies=dependencies,
summary=summary,
description=description,
response_description=response_description,
responses=responses,
deprecated=deprecated,
operation_id=operation_id,
response_model_include=response_model_include,
response_model_exclude=response_model_exclude,
response_model_by_alias=response_model_by_alias,
response_model_exclude_unset=response_model_exclude_unset,
response_model_exclude_defaults=response_model_exclude_defaults,
response_model_exclude_none=response_model_exclude_none,
include_in_schema=include_in_schema,
response_class=response_class,
name=name,
callbacks=callbacks,
openapi_extra=openapi_extra,
generate_unique_id_function=generate_unique_id_function,
)
def websocket_route(
self, path: str, name: Union[str, None] = None
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.router.add_websocket_route(path, func, name=name)
return func
return decorator
def on_event(
self, event_type: str
) -> Callable[[DecoratedCallable], DecoratedCallable]:
return self.router.on_event(event_type)
def middleware(
self, middleware_type: str
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.add_middleware(BaseHTTPMiddleware, dispatch=func)
return func
return decorator
def exception_handler(
self, exc_class_or_status_code: Union[int, Type[Exception]]
) -> Callable[[DecoratedCallable], DecoratedCallable]:
def decorator(func: DecoratedCallable) -> DecoratedCallable:
self.add_exception_handler(exc_class_or_status_code, func)
return func
return decorator
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/logger.py | import logging
logger = logging.getLogger("fastapi")
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/dependencies/__init__.py | |
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/dependencies/utils.py | import dataclasses
import inspect
from contextlib import contextmanager
from copy import deepcopy
from typing import (
Any,
Callable,
Coroutine,
Dict,
ForwardRef,
List,
Mapping,
Optional,
Sequence,
Tuple,
Type,
Union,
cast,
)
import anyio
from fastapi import params
from fastapi.concurrency import (
AsyncExitStack,
asynccontextmanager,
contextmanager_in_threadpool,
)
from fastapi.dependencies.models import Dependant, SecurityRequirement
from fastapi.logger import logger
from fastapi.security.base import SecurityBase
from fastapi.security.oauth2 import OAuth2, SecurityScopes
from fastapi.security.open_id_connect_url import OpenIdConnect
from fastapi.utils import create_response_field, get_path_param_names
from pydantic import BaseModel, create_model
from pydantic.error_wrappers import ErrorWrapper
from pydantic.errors import MissingError
from pydantic.fields import (
SHAPE_FROZENSET,
SHAPE_LIST,
SHAPE_SEQUENCE,
SHAPE_SET,
SHAPE_SINGLETON,
SHAPE_TUPLE,
SHAPE_TUPLE_ELLIPSIS,
FieldInfo,
ModelField,
Required,
Undefined,
)
from pydantic.schema import get_annotation_from_field_info
from pydantic.typing import evaluate_forwardref
from pydantic.utils import lenient_issubclass
from starlette.background import BackgroundTasks
from starlette.concurrency import run_in_threadpool
from starlette.datastructures import FormData, Headers, QueryParams, UploadFile
from starlette.requests import HTTPConnection, Request
from starlette.responses import Response
from starlette.websockets import WebSocket
sequence_shapes = {
SHAPE_LIST,
SHAPE_SET,
SHAPE_FROZENSET,
SHAPE_TUPLE,
SHAPE_SEQUENCE,
SHAPE_TUPLE_ELLIPSIS,
}
sequence_types = (list, set, tuple)
sequence_shape_to_type = {
SHAPE_LIST: list,
SHAPE_SET: set,
SHAPE_TUPLE: tuple,
SHAPE_SEQUENCE: list,
SHAPE_TUPLE_ELLIPSIS: list,
}
multipart_not_installed_error = (
'Form data requires "python-multipart" to be installed. \n'
'You can install "python-multipart" with: \n\n'
"pip install python-multipart\n"
)
multipart_incorrect_install_error = (
'Form data requires "python-multipart" to be installed. '
'It seems you installed "multipart" instead. \n'
'You can remove "multipart" with: \n\n'
"pip uninstall multipart\n\n"
'And then install "python-multipart" with: \n\n'
"pip install python-multipart\n"
)
def check_file_field(field: ModelField) -> None:
field_info = field.field_info
if isinstance(field_info, params.Form):
try:
# __version__ is available in both multiparts, and can be mocked
from multipart import __version__ # type: ignore
assert __version__
try:
# parse_options_header is only available in the right multipart
from multipart.multipart import parse_options_header # type: ignore
assert parse_options_header
except ImportError:
logger.error(multipart_incorrect_install_error)
raise RuntimeError(multipart_incorrect_install_error) from None
except ImportError:
logger.error(multipart_not_installed_error)
raise RuntimeError(multipart_not_installed_error) from None
def get_param_sub_dependant(
*, param: inspect.Parameter, path: str, security_scopes: Optional[List[str]] = None
) -> Dependant:
depends: params.Depends = param.default
if depends.dependency:
dependency = depends.dependency
else:
dependency = param.annotation
return get_sub_dependant(
depends=depends,
dependency=dependency,
path=path,
name=param.name,
security_scopes=security_scopes,
)
def get_parameterless_sub_dependant(*, depends: params.Depends, path: str) -> Dependant:
assert callable(
depends.dependency
), "A parameter-less dependency must have a callable dependency"
return get_sub_dependant(depends=depends, dependency=depends.dependency, path=path)
def get_sub_dependant(
*,
depends: params.Depends,
dependency: Callable[..., Any],
path: str,
name: Optional[str] = None,
security_scopes: Optional[List[str]] = None,
) -> Dependant:
security_requirement = None
security_scopes = security_scopes or []
if isinstance(depends, params.Security):
dependency_scopes = depends.scopes
security_scopes.extend(dependency_scopes)
if isinstance(dependency, SecurityBase):
use_scopes: List[str] = []
if isinstance(dependency, (OAuth2, OpenIdConnect)):
use_scopes = security_scopes
security_requirement = SecurityRequirement(
security_scheme=dependency, scopes=use_scopes
)
sub_dependant = get_dependant(
path=path,
call=dependency,
name=name,
security_scopes=security_scopes,
use_cache=depends.use_cache,
)
if security_requirement:
sub_dependant.security_requirements.append(security_requirement)
return sub_dependant
CacheKey = Tuple[Optional[Callable[..., Any]], Tuple[str, ...]]
def get_flat_dependant(
dependant: Dependant,
*,
skip_repeats: bool = False,
visited: Optional[List[CacheKey]] = None,
) -> Dependant:
if visited is None:
visited = []
visited.append(dependant.cache_key)
flat_dependant = Dependant(
path_params=dependant.path_params.copy(),
query_params=dependant.query_params.copy(),
header_params=dependant.header_params.copy(),
cookie_params=dependant.cookie_params.copy(),
body_params=dependant.body_params.copy(),
security_schemes=dependant.security_requirements.copy(),
use_cache=dependant.use_cache,
path=dependant.path,
)
for sub_dependant in dependant.dependencies:
if skip_repeats and sub_dependant.cache_key in visited:
continue
flat_sub = get_flat_dependant(
sub_dependant, skip_repeats=skip_repeats, visited=visited
)
flat_dependant.path_params.extend(flat_sub.path_params)
flat_dependant.query_params.extend(flat_sub.query_params)
flat_dependant.header_params.extend(flat_sub.header_params)
flat_dependant.cookie_params.extend(flat_sub.cookie_params)
flat_dependant.body_params.extend(flat_sub.body_params)
flat_dependant.security_requirements.extend(flat_sub.security_requirements)
return flat_dependant
def get_flat_params(dependant: Dependant) -> List[ModelField]:
flat_dependant = get_flat_dependant(dependant, skip_repeats=True)
return (
flat_dependant.path_params
+ flat_dependant.query_params
+ flat_dependant.header_params
+ flat_dependant.cookie_params
)
def is_scalar_field(field: ModelField) -> bool:
field_info = field.field_info
if not (
field.shape == SHAPE_SINGLETON
and not lenient_issubclass(field.type_, BaseModel)
and not lenient_issubclass(field.type_, sequence_types + (dict,))
and not dataclasses.is_dataclass(field.type_)
and not isinstance(field_info, params.Body)
):
return False
if field.sub_fields:
if not all(is_scalar_field(f) for f in field.sub_fields):
return False
return True
def is_scalar_sequence_field(field: ModelField) -> bool:
if (field.shape in sequence_shapes) and not lenient_issubclass(
field.type_, BaseModel
):
if field.sub_fields is not None:
for sub_field in field.sub_fields:
if not is_scalar_field(sub_field):
return False
return True
if lenient_issubclass(field.type_, sequence_types):
return True
return False
def get_typed_signature(call: Callable[..., Any]) -> inspect.Signature:
signature = inspect.signature(call)
globalns = getattr(call, "__globals__", {})
typed_params = [
inspect.Parameter(
name=param.name,
kind=param.kind,
default=param.default,
annotation=get_typed_annotation(param.annotation, globalns),
)
for param in signature.parameters.values()
]
typed_signature = inspect.Signature(typed_params)
return typed_signature
def get_typed_annotation(annotation: Any, globalns: Dict[str, Any]) -> Any:
if isinstance(annotation, str):
annotation = ForwardRef(annotation)
annotation = evaluate_forwardref(annotation, globalns, globalns)
return annotation
def get_typed_return_annotation(call: Callable[..., Any]) -> Any:
signature = inspect.signature(call)
annotation = signature.return_annotation
if annotation is inspect.Signature.empty:
return None
globalns = getattr(call, "__globals__", {})
return get_typed_annotation(annotation, globalns)
def get_dependant(
*,
path: str,
call: Callable[..., Any],
name: Optional[str] = None,
security_scopes: Optional[List[str]] = None,
use_cache: bool = True,
) -> Dependant:
path_param_names = get_path_param_names(path)
endpoint_signature = get_typed_signature(call)
signature_params = endpoint_signature.parameters
dependant = Dependant(
call=call,
name=name,
path=path,
security_scopes=security_scopes,
use_cache=use_cache,
)
for param_name, param in signature_params.items():
if isinstance(param.default, params.Depends):
sub_dependant = get_param_sub_dependant(
param=param, path=path, security_scopes=security_scopes
)
dependant.dependencies.append(sub_dependant)
continue
if add_non_field_param_to_dependency(param=param, dependant=dependant):
continue
param_field = get_param_field(
param=param, default_field_info=params.Query, param_name=param_name
)
if param_name in path_param_names:
assert is_scalar_field(
field=param_field
), "Path params must be of one of the supported types"
ignore_default = not isinstance(param.default, params.Path)
param_field = get_param_field(
param=param,
param_name=param_name,
default_field_info=params.Path,
force_type=params.ParamTypes.path,
ignore_default=ignore_default,
)
add_param_to_fields(field=param_field, dependant=dependant)
elif is_scalar_field(field=param_field):
add_param_to_fields(field=param_field, dependant=dependant)
elif isinstance(
param.default, (params.Query, params.Header)
) and is_scalar_sequence_field(param_field):
add_param_to_fields(field=param_field, dependant=dependant)
else:
field_info = param_field.field_info
assert isinstance(
field_info, params.Body
), f"Param: {param_field.name} can only be a request body, using Body()"
dependant.body_params.append(param_field)
return dependant
def add_non_field_param_to_dependency(
*, param: inspect.Parameter, dependant: Dependant
) -> Optional[bool]:
if lenient_issubclass(param.annotation, Request):
dependant.request_param_name = param.name
return True
elif lenient_issubclass(param.annotation, WebSocket):
dependant.websocket_param_name = param.name
return True
elif lenient_issubclass(param.annotation, HTTPConnection):
dependant.http_connection_param_name = param.name
return True
elif lenient_issubclass(param.annotation, Response):
dependant.response_param_name = param.name
return True
elif lenient_issubclass(param.annotation, BackgroundTasks):
dependant.background_tasks_param_name = param.name
return True
elif lenient_issubclass(param.annotation, SecurityScopes):
dependant.security_scopes_param_name = param.name
return True
return None
def get_param_field(
*,
param: inspect.Parameter,
param_name: str,
default_field_info: Type[params.Param] = params.Param,
force_type: Optional[params.ParamTypes] = None,
ignore_default: bool = False,
) -> ModelField:
default_value: Any = Undefined
had_schema = False
if not param.default == param.empty and ignore_default is False:
default_value = param.default
if isinstance(default_value, FieldInfo):
had_schema = True
field_info = default_value
default_value = field_info.default
if (
isinstance(field_info, params.Param)
and getattr(field_info, "in_", None) is None
):
field_info.in_ = default_field_info.in_
if force_type:
field_info.in_ = force_type # type: ignore
else:
field_info = default_field_info(default=default_value)
required = True
if default_value is Required or ignore_default:
required = True
default_value = None
elif default_value is not Undefined:
required = False
annotation: Any = Any
if not param.annotation == param.empty:
annotation = param.annotation
annotation = get_annotation_from_field_info(annotation, field_info, param_name)
if not field_info.alias and getattr(field_info, "convert_underscores", None):
alias = param.name.replace("_", "-")
else:
alias = field_info.alias or param.name
field = create_response_field(
name=param.name,
type_=annotation,
default=default_value,
alias=alias,
required=required,
field_info=field_info,
)
if not had_schema and not is_scalar_field(field=field):
field.field_info = params.Body(field_info.default)
if not had_schema and lenient_issubclass(field.type_, UploadFile):
field.field_info = params.File(field_info.default)
return field
def add_param_to_fields(*, field: ModelField, dependant: Dependant) -> None:
field_info = cast(params.Param, field.field_info)
if field_info.in_ == params.ParamTypes.path:
dependant.path_params.append(field)
elif field_info.in_ == params.ParamTypes.query:
dependant.query_params.append(field)
elif field_info.in_ == params.ParamTypes.header:
dependant.header_params.append(field)
else:
assert (
field_info.in_ == params.ParamTypes.cookie
), f"non-body parameters must be in path, query, header or cookie: {field.name}"
dependant.cookie_params.append(field)
def is_coroutine_callable(call: Callable[..., Any]) -> bool:
if inspect.isroutine(call):
return inspect.iscoroutinefunction(call)
if inspect.isclass(call):
return False
dunder_call = getattr(call, "__call__", None) # noqa: B004
return inspect.iscoroutinefunction(dunder_call)
def is_async_gen_callable(call: Callable[..., Any]) -> bool:
if inspect.isasyncgenfunction(call):
return True
dunder_call = getattr(call, "__call__", None) # noqa: B004
return inspect.isasyncgenfunction(dunder_call)
def is_gen_callable(call: Callable[..., Any]) -> bool:
if inspect.isgeneratorfunction(call):
return True
dunder_call = getattr(call, "__call__", None) # noqa: B004
return inspect.isgeneratorfunction(dunder_call)
async def solve_generator(
*, call: Callable[..., Any], stack: AsyncExitStack, sub_values: Dict[str, Any]
) -> Any:
if is_gen_callable(call):
cm = contextmanager_in_threadpool(contextmanager(call)(**sub_values))
elif is_async_gen_callable(call):
cm = asynccontextmanager(call)(**sub_values)
return await stack.enter_async_context(cm)
async def solve_dependencies(
*,
request: Union[Request, WebSocket],
dependant: Dependant,
body: Optional[Union[Dict[str, Any], FormData]] = None,
background_tasks: Optional[BackgroundTasks] = None,
response: Optional[Response] = None,
dependency_overrides_provider: Optional[Any] = None,
dependency_cache: Optional[Dict[Tuple[Callable[..., Any], Tuple[str]], Any]] = None,
) -> Tuple[
Dict[str, Any],
List[ErrorWrapper],
Optional[BackgroundTasks],
Response,
Dict[Tuple[Callable[..., Any], Tuple[str]], Any],
]:
values: Dict[str, Any] = {}
errors: List[ErrorWrapper] = []
if response is None:
response = Response()
del response.headers["content-length"]
response.status_code = None # type: ignore
dependency_cache = dependency_cache or {}
sub_dependant: Dependant
for sub_dependant in dependant.dependencies:
sub_dependant.call = cast(Callable[..., Any], sub_dependant.call)
sub_dependant.cache_key = cast(
Tuple[Callable[..., Any], Tuple[str]], sub_dependant.cache_key
)
call = sub_dependant.call
use_sub_dependant = sub_dependant
if (
dependency_overrides_provider
and dependency_overrides_provider.dependency_overrides
):
original_call = sub_dependant.call
call = getattr(
dependency_overrides_provider, "dependency_overrides", {}
).get(original_call, original_call)
use_path: str = sub_dependant.path # type: ignore
use_sub_dependant = get_dependant(
path=use_path,
call=call,
name=sub_dependant.name,
security_scopes=sub_dependant.security_scopes,
)
solved_result = await solve_dependencies(
request=request,
dependant=use_sub_dependant,
body=body,
background_tasks=background_tasks,
response=response,
dependency_overrides_provider=dependency_overrides_provider,
dependency_cache=dependency_cache,
)
(
sub_values,
sub_errors,
background_tasks,
_, # the subdependency returns the same response we have
sub_dependency_cache,
) = solved_result
dependency_cache.update(sub_dependency_cache)
if sub_errors:
errors.extend(sub_errors)
continue
if sub_dependant.use_cache and sub_dependant.cache_key in dependency_cache:
solved = dependency_cache[sub_dependant.cache_key]
elif is_gen_callable(call) or is_async_gen_callable(call):
stack = request.scope.get("fastapi_astack")
assert isinstance(stack, AsyncExitStack)
solved = await solve_generator(
call=call, stack=stack, sub_values=sub_values
)
elif is_coroutine_callable(call):
solved = await call(**sub_values)
else:
solved = await run_in_threadpool(call, **sub_values)
if sub_dependant.name is not None:
values[sub_dependant.name] = solved
if sub_dependant.cache_key not in dependency_cache:
dependency_cache[sub_dependant.cache_key] = solved
path_values, path_errors = request_params_to_args(
dependant.path_params, request.path_params
)
query_values, query_errors = request_params_to_args(
dependant.query_params, request.query_params
)
header_values, header_errors = request_params_to_args(
dependant.header_params, request.headers
)
cookie_values, cookie_errors = request_params_to_args(
dependant.cookie_params, request.cookies
)
values.update(path_values)
values.update(query_values)
values.update(header_values)
values.update(cookie_values)
errors += path_errors + query_errors + header_errors + cookie_errors
if dependant.body_params:
(
body_values,
body_errors,
) = await request_body_to_args( # body_params checked above
required_params=dependant.body_params, received_body=body
)
values.update(body_values)
errors.extend(body_errors)
if dependant.http_connection_param_name:
values[dependant.http_connection_param_name] = request
if dependant.request_param_name and isinstance(request, Request):
values[dependant.request_param_name] = request
elif dependant.websocket_param_name and isinstance(request, WebSocket):
values[dependant.websocket_param_name] = request
if dependant.background_tasks_param_name:
if background_tasks is None:
background_tasks = BackgroundTasks()
values[dependant.background_tasks_param_name] = background_tasks
if dependant.response_param_name:
values[dependant.response_param_name] = response
if dependant.security_scopes_param_name:
values[dependant.security_scopes_param_name] = SecurityScopes(
scopes=dependant.security_scopes
)
return values, errors, background_tasks, response, dependency_cache
def request_params_to_args(
required_params: Sequence[ModelField],
received_params: Union[Mapping[str, Any], QueryParams, Headers],
) -> Tuple[Dict[str, Any], List[ErrorWrapper]]:
values = {}
errors = []
for field in required_params:
if is_scalar_sequence_field(field) and isinstance(
received_params, (QueryParams, Headers)
):
value = received_params.getlist(field.alias) or field.default
else:
value = received_params.get(field.alias)
field_info = field.field_info
assert isinstance(
field_info, params.Param
), "Params must be subclasses of Param"
if value is None:
if field.required:
errors.append(
ErrorWrapper(
MissingError(), loc=(field_info.in_.value, field.alias)
)
)
else:
values[field.name] = deepcopy(field.default)
continue
v_, errors_ = field.validate(
value, values, loc=(field_info.in_.value, field.alias)
)
if isinstance(errors_, ErrorWrapper):
errors.append(errors_)
elif isinstance(errors_, list):
errors.extend(errors_)
else:
values[field.name] = v_
return values, errors
async def request_body_to_args(
required_params: List[ModelField],
received_body: Optional[Union[Dict[str, Any], FormData]],
) -> Tuple[Dict[str, Any], List[ErrorWrapper]]:
values = {}
errors = []
if required_params:
field = required_params[0]
field_info = field.field_info
embed = getattr(field_info, "embed", None)
field_alias_omitted = len(required_params) == 1 and not embed
if field_alias_omitted:
received_body = {field.alias: received_body}
for field in required_params:
loc: Tuple[str, ...]
if field_alias_omitted:
loc = ("body",)
else:
loc = ("body", field.alias)
value: Optional[Any] = None
if received_body is not None:
if (
field.shape in sequence_shapes or field.type_ in sequence_types
) and isinstance(received_body, FormData):
value = received_body.getlist(field.alias)
else:
try:
value = received_body.get(field.alias)
except AttributeError:
errors.append(get_missing_field_error(loc))
continue
if (
value is None
or (isinstance(field_info, params.Form) and value == "")
or (
isinstance(field_info, params.Form)
and field.shape in sequence_shapes
and len(value) == 0
)
):
if field.required:
errors.append(get_missing_field_error(loc))
else:
values[field.name] = deepcopy(field.default)
continue
if (
isinstance(field_info, params.File)
and lenient_issubclass(field.type_, bytes)
and isinstance(value, UploadFile)
):
value = await value.read()
elif (
field.shape in sequence_shapes
and isinstance(field_info, params.File)
and lenient_issubclass(field.type_, bytes)
and isinstance(value, sequence_types)
):
results: List[Union[bytes, str]] = []
async def process_fn(
fn: Callable[[], Coroutine[Any, Any, Any]]
) -> None:
result = await fn()
results.append(result)
async with anyio.create_task_group() as tg:
for sub_value in value:
tg.start_soon(process_fn, sub_value.read)
value = sequence_shape_to_type[field.shape](results)
v_, errors_ = field.validate(value, values, loc=loc)
if isinstance(errors_, ErrorWrapper):
errors.append(errors_)
elif isinstance(errors_, list):
errors.extend(errors_)
else:
values[field.name] = v_
return values, errors
def get_missing_field_error(loc: Tuple[str, ...]) -> ErrorWrapper:
missing_field_error = ErrorWrapper(MissingError(), loc=loc)
return missing_field_error
def get_body_field(*, dependant: Dependant, name: str) -> Optional[ModelField]:
flat_dependant = get_flat_dependant(dependant)
if not flat_dependant.body_params:
return None
first_param = flat_dependant.body_params[0]
field_info = first_param.field_info
embed = getattr(field_info, "embed", None)
body_param_names_set = {param.name for param in flat_dependant.body_params}
if len(body_param_names_set) == 1 and not embed:
check_file_field(first_param)
return first_param
# If one field requires to embed, all have to be embedded
# in case a sub-dependency is evaluated with a single unique body field
# That is combined (embedded) with other body fields
for param in flat_dependant.body_params:
setattr(param.field_info, "embed", True) # noqa: B010
model_name = "Body_" + name
BodyModel: Type[BaseModel] = create_model(model_name)
for f in flat_dependant.body_params:
BodyModel.__fields__[f.name] = f
required = any(True for f in flat_dependant.body_params if f.required)
BodyFieldInfo_kwargs: Dict[str, Any] = {"default": None}
if any(isinstance(f.field_info, params.File) for f in flat_dependant.body_params):
BodyFieldInfo: Type[params.Body] = params.File
elif any(isinstance(f.field_info, params.Form) for f in flat_dependant.body_params):
BodyFieldInfo = params.Form
else:
BodyFieldInfo = params.Body
body_param_media_types = [
f.field_info.media_type
for f in flat_dependant.body_params
if isinstance(f.field_info, params.Body)
]
if len(set(body_param_media_types)) == 1:
BodyFieldInfo_kwargs["media_type"] = body_param_media_types[0]
final_field = create_response_field(
name="body",
type_=BodyModel,
required=required,
alias="body",
field_info=BodyFieldInfo(**BodyFieldInfo_kwargs),
)
check_file_field(final_field)
return final_field
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/dependencies/models.py | from typing import Any, Callable, List, Optional, Sequence
from fastapi.security.base import SecurityBase
from pydantic.fields import ModelField
class SecurityRequirement:
def __init__(
self, security_scheme: SecurityBase, scopes: Optional[Sequence[str]] = None
):
self.security_scheme = security_scheme
self.scopes = scopes
class Dependant:
def __init__(
self,
*,
path_params: Optional[List[ModelField]] = None,
query_params: Optional[List[ModelField]] = None,
header_params: Optional[List[ModelField]] = None,
cookie_params: Optional[List[ModelField]] = None,
body_params: Optional[List[ModelField]] = None,
dependencies: Optional[List["Dependant"]] = None,
security_schemes: Optional[List[SecurityRequirement]] = None,
name: Optional[str] = None,
call: Optional[Callable[..., Any]] = None,
request_param_name: Optional[str] = None,
websocket_param_name: Optional[str] = None,
http_connection_param_name: Optional[str] = None,
response_param_name: Optional[str] = None,
background_tasks_param_name: Optional[str] = None,
security_scopes_param_name: Optional[str] = None,
security_scopes: Optional[List[str]] = None,
use_cache: bool = True,
path: Optional[str] = None,
) -> None:
self.path_params = path_params or []
self.query_params = query_params or []
self.header_params = header_params or []
self.cookie_params = cookie_params or []
self.body_params = body_params or []
self.dependencies = dependencies or []
self.security_requirements = security_schemes or []
self.request_param_name = request_param_name
self.websocket_param_name = websocket_param_name
self.http_connection_param_name = http_connection_param_name
self.response_param_name = response_param_name
self.background_tasks_param_name = background_tasks_param_name
self.security_scopes = security_scopes
self.security_scopes_param_name = security_scopes_param_name
self.name = name
self.call = call
self.use_cache = use_cache
# Store the path to be able to re-generate a dependable from it in overrides
self.path = path
# Save the cache key at creation to optimize performance
self.cache_key = (self.call, tuple(sorted(set(self.security_scopes or []))))
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/openapi/docs.py | import json
from typing import Any, Dict, Optional
from fastapi.encoders import jsonable_encoder
from starlette.responses import HTMLResponse
swagger_ui_default_parameters = {
"dom_id": "#swagger-ui",
"layout": "BaseLayout",
"deepLinking": True,
"showExtensions": True,
"showCommonExtensions": True,
}
def get_swagger_ui_html(
*,
openapi_url: str,
title: str,
swagger_js_url: str = "https://cdn.jsdelivr.net/npm/swagger-ui-dist@4/swagger-ui-bundle.js",
swagger_css_url: str = "https://cdn.jsdelivr.net/npm/swagger-ui-dist@4/swagger-ui.css",
swagger_favicon_url: str = "https://fastapi.tiangolo.com/img/favicon.png",
oauth2_redirect_url: Optional[str] = None,
init_oauth: Optional[Dict[str, Any]] = None,
swagger_ui_parameters: Optional[Dict[str, Any]] = None,
) -> HTMLResponse:
current_swagger_ui_parameters = swagger_ui_default_parameters.copy()
if swagger_ui_parameters:
current_swagger_ui_parameters.update(swagger_ui_parameters)
html = f"""
<!DOCTYPE html>
<html>
<head>
<link type="text/css" rel="stylesheet" href="{swagger_css_url}">
<link rel="shortcut icon" href="{swagger_favicon_url}">
<title>{title}</title>
</head>
<body>
<div id="swagger-ui">
</div>
<script src="{swagger_js_url}"></script>
<!-- `SwaggerUIBundle` is now available on the page -->
<script>
const ui = SwaggerUIBundle({{
url: '{openapi_url}',
"""
for key, value in current_swagger_ui_parameters.items():
html += f"{json.dumps(key)}: {json.dumps(jsonable_encoder(value))},\n"
if oauth2_redirect_url:
html += f"oauth2RedirectUrl: window.location.origin + '{oauth2_redirect_url}',"
html += """
presets: [
SwaggerUIBundle.presets.apis,
SwaggerUIBundle.SwaggerUIStandalonePreset
],
})"""
if init_oauth:
html += f"""
ui.initOAuth({json.dumps(jsonable_encoder(init_oauth))})
"""
html += """
</script>
</body>
</html>
"""
return HTMLResponse(html)
def get_redoc_html(
*,
openapi_url: str,
title: str,
redoc_js_url: str = "https://cdn.jsdelivr.net/npm/redoc@next/bundles/redoc.standalone.js",
redoc_favicon_url: str = "https://fastapi.tiangolo.com/img/favicon.png",
with_google_fonts: bool = True,
) -> HTMLResponse:
html = f"""
<!DOCTYPE html>
<html>
<head>
<title>{title}</title>
<!-- needed for adaptive design -->
<meta charset="utf-8"/>
<meta name="viewport" content="width=device-width, initial-scale=1">
"""
if with_google_fonts:
html += """
<link href="https://fonts.googleapis.com/css?family=Montserrat:300,400,700|Roboto:300,400,700" rel="stylesheet">
"""
html += f"""
<link rel="shortcut icon" href="{redoc_favicon_url}">
<!--
ReDoc doesn't change outer page styles
-->
<style>
body {{
margin: 0;
padding: 0;
}}
</style>
</head>
<body>
<noscript>
ReDoc requires Javascript to function. Please enable it to browse the documentation.
</noscript>
<redoc spec-url="{openapi_url}"></redoc>
<script src="{redoc_js_url}"> </script>
</body>
</html>
"""
return HTMLResponse(html)
def get_swagger_ui_oauth2_redirect_html() -> HTMLResponse:
# copied from https://github.com/swagger-api/swagger-ui/blob/v4.14.0/dist/oauth2-redirect.html
html = """
<!doctype html>
<html lang="en-US">
<head>
<title>Swagger UI: OAuth2 Redirect</title>
</head>
<body>
<script>
'use strict';
function run () {
var oauth2 = window.opener.swaggerUIRedirectOauth2;
var sentState = oauth2.state;
var redirectUrl = oauth2.redirectUrl;
var isValid, qp, arr;
if (/code|token|error/.test(window.location.hash)) {
qp = window.location.hash.substring(1).replace('?', '&');
} else {
qp = location.search.substring(1);
}
arr = qp.split("&");
arr.forEach(function (v,i,_arr) { _arr[i] = '"' + v.replace('=', '":"') + '"';});
qp = qp ? JSON.parse('{' + arr.join() + '}',
function (key, value) {
return key === "" ? value : decodeURIComponent(value);
}
) : {};
isValid = qp.state === sentState;
if ((
oauth2.auth.schema.get("flow") === "accessCode" ||
oauth2.auth.schema.get("flow") === "authorizationCode" ||
oauth2.auth.schema.get("flow") === "authorization_code"
) && !oauth2.auth.code) {
if (!isValid) {
oauth2.errCb({
authId: oauth2.auth.name,
source: "auth",
level: "warning",
message: "Authorization may be unsafe, passed state was changed in server. The passed state wasn't returned from auth server."
});
}
if (qp.code) {
delete oauth2.state;
oauth2.auth.code = qp.code;
oauth2.callback({auth: oauth2.auth, redirectUrl: redirectUrl});
} else {
let oauthErrorMsg;
if (qp.error) {
oauthErrorMsg = "["+qp.error+"]: " +
(qp.error_description ? qp.error_description+ ". " : "no accessCode received from the server. ") +
(qp.error_uri ? "More info: "+qp.error_uri : "");
}
oauth2.errCb({
authId: oauth2.auth.name,
source: "auth",
level: "error",
message: oauthErrorMsg || "[Authorization failed]: no accessCode received from the server."
});
}
} else {
oauth2.callback({auth: oauth2.auth, token: qp, isValid: isValid, redirectUrl: redirectUrl});
}
window.close();
}
if (document.readyState !== 'loading') {
run();
} else {
document.addEventListener('DOMContentLoaded', function () {
run();
});
}
</script>
</body>
</html>
"""
return HTMLResponse(content=html)
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/openapi/constants.py | METHODS_WITH_BODY = {"GET", "HEAD", "POST", "PUT", "DELETE", "PATCH"}
REF_PREFIX = "#/components/schemas/"
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/openapi/__init__.py | |
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/openapi/utils.py | import http.client
import inspect
import warnings
from enum import Enum
from typing import Any, Dict, List, Optional, Sequence, Set, Tuple, Type, Union, cast
from fastapi import routing
from fastapi.datastructures import DefaultPlaceholder
from fastapi.dependencies.models import Dependant
from fastapi.dependencies.utils import get_flat_dependant, get_flat_params
from fastapi.encoders import jsonable_encoder
from fastapi.openapi.constants import METHODS_WITH_BODY, REF_PREFIX
from fastapi.openapi.models import OpenAPI
from fastapi.params import Body, Param
from fastapi.responses import Response
from fastapi.utils import (
deep_dict_update,
generate_operation_id_for_path,
get_model_definitions,
is_body_allowed_for_status_code,
)
from pydantic import BaseModel
from pydantic.fields import ModelField, Undefined
from pydantic.schema import (
field_schema,
get_flat_models_from_fields,
get_model_name_map,
)
from pydantic.utils import lenient_issubclass
from starlette.responses import JSONResponse
from starlette.routing import BaseRoute
from starlette.status import HTTP_422_UNPROCESSABLE_ENTITY
validation_error_definition = {
"title": "ValidationError",
"type": "object",
"properties": {
"loc": {
"title": "Location",
"type": "array",
"items": {"anyOf": [{"type": "string"}, {"type": "integer"}]},
},
"msg": {"title": "Message", "type": "string"},
"type": {"title": "Error Type", "type": "string"},
},
"required": ["loc", "msg", "type"],
}
validation_error_response_definition = {
"title": "HTTPValidationError",
"type": "object",
"properties": {
"detail": {
"title": "Detail",
"type": "array",
"items": {"$ref": REF_PREFIX + "ValidationError"},
}
},
}
status_code_ranges: Dict[str, str] = {
"1XX": "Information",
"2XX": "Success",
"3XX": "Redirection",
"4XX": "Client Error",
"5XX": "Server Error",
"DEFAULT": "Default Response",
}
def get_openapi_security_definitions(
flat_dependant: Dependant,
) -> Tuple[Dict[str, Any], List[Dict[str, Any]]]:
security_definitions = {}
operation_security = []
for security_requirement in flat_dependant.security_requirements:
security_definition = jsonable_encoder(
security_requirement.security_scheme.model,
by_alias=True,
exclude_none=True,
)
security_name = security_requirement.security_scheme.scheme_name
security_definitions[security_name] = security_definition
operation_security.append({security_name: security_requirement.scopes})
return security_definitions, operation_security
def get_openapi_operation_parameters(
*,
all_route_params: Sequence[ModelField],
model_name_map: Dict[Union[Type[BaseModel], Type[Enum]], str],
) -> List[Dict[str, Any]]:
parameters = []
for param in all_route_params:
field_info = param.field_info
field_info = cast(Param, field_info)
if not field_info.include_in_schema:
continue
parameter = {
"name": param.alias,
"in": field_info.in_.value,
"required": param.required,
"schema": field_schema(
param, model_name_map=model_name_map, ref_prefix=REF_PREFIX
)[0],
}
if field_info.description:
parameter["description"] = field_info.description
if field_info.examples:
parameter["examples"] = jsonable_encoder(field_info.examples)
elif field_info.example != Undefined:
parameter["example"] = jsonable_encoder(field_info.example)
if field_info.deprecated:
parameter["deprecated"] = field_info.deprecated
parameters.append(parameter)
return parameters
def get_openapi_operation_request_body(
*,
body_field: Optional[ModelField],
model_name_map: Dict[Union[Type[BaseModel], Type[Enum]], str],
) -> Optional[Dict[str, Any]]:
if not body_field:
return None
assert isinstance(body_field, ModelField)
body_schema, _, _ = field_schema(
body_field, model_name_map=model_name_map, ref_prefix=REF_PREFIX
)
field_info = cast(Body, body_field.field_info)
request_media_type = field_info.media_type
required = body_field.required
request_body_oai: Dict[str, Any] = {}
if required:
request_body_oai["required"] = required
request_media_content: Dict[str, Any] = {"schema": body_schema}
if field_info.examples:
request_media_content["examples"] = jsonable_encoder(field_info.examples)
elif field_info.example != Undefined:
request_media_content["example"] = jsonable_encoder(field_info.example)
request_body_oai["content"] = {request_media_type: request_media_content}
return request_body_oai
def generate_operation_id(
*, route: routing.APIRoute, method: str
) -> str: # pragma: nocover
warnings.warn(
"fastapi.openapi.utils.generate_operation_id() was deprecated, "
"it is not used internally, and will be removed soon",
DeprecationWarning,
stacklevel=2,
)
if route.operation_id:
return route.operation_id
path: str = route.path_format
return generate_operation_id_for_path(name=route.name, path=path, method=method)
def generate_operation_summary(*, route: routing.APIRoute, method: str) -> str:
if route.summary:
return route.summary
return route.name.replace("_", " ").title()
def get_openapi_operation_metadata(
*, route: routing.APIRoute, method: str, operation_ids: Set[str]
) -> Dict[str, Any]:
operation: Dict[str, Any] = {}
if route.tags:
operation["tags"] = route.tags
operation["summary"] = generate_operation_summary(route=route, method=method)
if route.description:
operation["description"] = route.description
operation_id = route.operation_id or route.unique_id
if operation_id in operation_ids:
message = (
f"Duplicate Operation ID {operation_id} for function "
+ f"{route.endpoint.__name__}"
)
file_name = getattr(route.endpoint, "__globals__", {}).get("__file__")
if file_name:
message += f" at {file_name}"
warnings.warn(message)
operation_ids.add(operation_id)
operation["operationId"] = operation_id
if route.deprecated:
operation["deprecated"] = route.deprecated
return operation
def get_openapi_path(
*, route: routing.APIRoute, model_name_map: Dict[type, str], operation_ids: Set[str]
) -> Tuple[Dict[str, Any], Dict[str, Any], Dict[str, Any]]:
path = {}
security_schemes: Dict[str, Any] = {}
definitions: Dict[str, Any] = {}
assert route.methods is not None, "Methods must be a list"
if isinstance(route.response_class, DefaultPlaceholder):
current_response_class: Type[Response] = route.response_class.value
else:
current_response_class = route.response_class
assert current_response_class, "A response class is needed to generate OpenAPI"
route_response_media_type: Optional[str] = current_response_class.media_type
if route.include_in_schema:
for method in route.methods:
operation = get_openapi_operation_metadata(
route=route, method=method, operation_ids=operation_ids
)
parameters: List[Dict[str, Any]] = []
flat_dependant = get_flat_dependant(route.dependant, skip_repeats=True)
security_definitions, operation_security = get_openapi_security_definitions(
flat_dependant=flat_dependant
)
if operation_security:
operation.setdefault("security", []).extend(operation_security)
if security_definitions:
security_schemes.update(security_definitions)
all_route_params = get_flat_params(route.dependant)
operation_parameters = get_openapi_operation_parameters(
all_route_params=all_route_params, model_name_map=model_name_map
)
parameters.extend(operation_parameters)
if parameters:
all_parameters = {
(param["in"], param["name"]): param for param in parameters
}
required_parameters = {
(param["in"], param["name"]): param
for param in parameters
if param.get("required")
}
# Make sure required definitions of the same parameter take precedence
# over non-required definitions
all_parameters.update(required_parameters)
operation["parameters"] = list(all_parameters.values())
if method in METHODS_WITH_BODY:
request_body_oai = get_openapi_operation_request_body(
body_field=route.body_field, model_name_map=model_name_map
)
if request_body_oai:
operation["requestBody"] = request_body_oai
if route.callbacks:
callbacks = {}
for callback in route.callbacks:
if isinstance(callback, routing.APIRoute):
(
cb_path,
cb_security_schemes,
cb_definitions,
) = get_openapi_path(
route=callback,
model_name_map=model_name_map,
operation_ids=operation_ids,
)
callbacks[callback.name] = {callback.path: cb_path}
operation["callbacks"] = callbacks
if route.status_code is not None:
status_code = str(route.status_code)
else:
# It would probably make more sense for all response classes to have an
# explicit default status_code, and to extract it from them, instead of
# doing this inspection tricks, that would probably be in the future
# TODO: probably make status_code a default class attribute for all
# responses in Starlette
response_signature = inspect.signature(current_response_class.__init__)
status_code_param = response_signature.parameters.get("status_code")
if status_code_param is not None:
if isinstance(status_code_param.default, int):
status_code = str(status_code_param.default)
operation.setdefault("responses", {}).setdefault(status_code, {})[
"description"
] = route.response_description
if route_response_media_type and is_body_allowed_for_status_code(
route.status_code
):
response_schema = {"type": "string"}
if lenient_issubclass(current_response_class, JSONResponse):
if route.response_field:
response_schema, _, _ = field_schema(
route.response_field,
model_name_map=model_name_map,
ref_prefix=REF_PREFIX,
)
else:
response_schema = {}
operation.setdefault("responses", {}).setdefault(
status_code, {}
).setdefault("content", {}).setdefault(route_response_media_type, {})[
"schema"
] = response_schema
if route.responses:
operation_responses = operation.setdefault("responses", {})
for (
additional_status_code,
additional_response,
) in route.responses.items():
process_response = additional_response.copy()
process_response.pop("model", None)
status_code_key = str(additional_status_code).upper()
if status_code_key == "DEFAULT":
status_code_key = "default"
openapi_response = operation_responses.setdefault(
status_code_key, {}
)
assert isinstance(
process_response, dict
), "An additional response must be a dict"
field = route.response_fields.get(additional_status_code)
additional_field_schema: Optional[Dict[str, Any]] = None
if field:
additional_field_schema, _, _ = field_schema(
field, model_name_map=model_name_map, ref_prefix=REF_PREFIX
)
media_type = route_response_media_type or "application/json"
additional_schema = (
process_response.setdefault("content", {})
.setdefault(media_type, {})
.setdefault("schema", {})
)
deep_dict_update(additional_schema, additional_field_schema)
status_text: Optional[str] = status_code_ranges.get(
str(additional_status_code).upper()
) or http.client.responses.get(int(additional_status_code))
description = (
process_response.get("description")
or openapi_response.get("description")
or status_text
or "Additional Response"
)
deep_dict_update(openapi_response, process_response)
openapi_response["description"] = description
http422 = str(HTTP_422_UNPROCESSABLE_ENTITY)
if (all_route_params or route.body_field) and not any(
[
status in operation["responses"]
for status in [http422, "4XX", "default"]
]
):
operation["responses"][http422] = {
"description": "Validation Error",
"content": {
"application/json": {
"schema": {"$ref": REF_PREFIX + "HTTPValidationError"}
}
},
}
if "ValidationError" not in definitions:
definitions.update(
{
"ValidationError": validation_error_definition,
"HTTPValidationError": validation_error_response_definition,
}
)
if route.openapi_extra:
deep_dict_update(operation, route.openapi_extra)
path[method.lower()] = operation
return path, security_schemes, definitions
def get_flat_models_from_routes(
routes: Sequence[BaseRoute],
) -> Set[Union[Type[BaseModel], Type[Enum]]]:
body_fields_from_routes: List[ModelField] = []
responses_from_routes: List[ModelField] = []
request_fields_from_routes: List[ModelField] = []
callback_flat_models: Set[Union[Type[BaseModel], Type[Enum]]] = set()
for route in routes:
if getattr(route, "include_in_schema", None) and isinstance(
route, routing.APIRoute
):
if route.body_field:
assert isinstance(
route.body_field, ModelField
), "A request body must be a Pydantic Field"
body_fields_from_routes.append(route.body_field)
if route.response_field:
responses_from_routes.append(route.response_field)
if route.response_fields:
responses_from_routes.extend(route.response_fields.values())
if route.callbacks:
callback_flat_models |= get_flat_models_from_routes(route.callbacks)
params = get_flat_params(route.dependant)
request_fields_from_routes.extend(params)
flat_models = callback_flat_models | get_flat_models_from_fields(
body_fields_from_routes + responses_from_routes + request_fields_from_routes,
known_models=set(),
)
return flat_models
def get_openapi(
*,
title: str,
version: str,
openapi_version: str = "3.0.2",
description: Optional[str] = None,
routes: Sequence[BaseRoute],
tags: Optional[List[Dict[str, Any]]] = None,
servers: Optional[List[Dict[str, Union[str, Any]]]] = None,
terms_of_service: Optional[str] = None,
contact: Optional[Dict[str, Union[str, Any]]] = None,
license_info: Optional[Dict[str, Union[str, Any]]] = None,
) -> Dict[str, Any]:
info: Dict[str, Any] = {"title": title, "version": version}
if description:
info["description"] = description
if terms_of_service:
info["termsOfService"] = terms_of_service
if contact:
info["contact"] = contact
if license_info:
info["license"] = license_info
output: Dict[str, Any] = {"openapi": openapi_version, "info": info}
if servers:
output["servers"] = servers
components: Dict[str, Dict[str, Any]] = {}
paths: Dict[str, Dict[str, Any]] = {}
operation_ids: Set[str] = set()
flat_models = get_flat_models_from_routes(routes)
model_name_map = get_model_name_map(flat_models)
definitions = get_model_definitions(
flat_models=flat_models, model_name_map=model_name_map
)
for route in routes:
if isinstance(route, routing.APIRoute):
result = get_openapi_path(
route=route, model_name_map=model_name_map, operation_ids=operation_ids
)
if result:
path, security_schemes, path_definitions = result
if path:
paths.setdefault(route.path_format, {}).update(path)
if security_schemes:
components.setdefault("securitySchemes", {}).update(
security_schemes
)
if path_definitions:
definitions.update(path_definitions)
if definitions:
components["schemas"] = {k: definitions[k] for k in sorted(definitions)}
if components:
output["components"] = components
output["paths"] = paths
if tags:
output["tags"] = tags
return jsonable_encoder(OpenAPI(**output), by_alias=True, exclude_none=True) # type: ignore
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/openapi/models.py | from enum import Enum
from typing import Any, Callable, Dict, Iterable, List, Optional, Union
from fastapi.logger import logger
from pydantic import AnyUrl, BaseModel, Field
try:
import email_validator # type: ignore
assert email_validator # make autoflake ignore the unused import
from pydantic import EmailStr
except ImportError: # pragma: no cover
class EmailStr(str): # type: ignore
@classmethod
def __get_validators__(cls) -> Iterable[Callable[..., Any]]:
yield cls.validate
@classmethod
def validate(cls, v: Any) -> str:
logger.warning(
"email-validator not installed, email fields will be treated as str.\n"
"To install, run: pip install email-validator"
)
return str(v)
class Contact(BaseModel):
name: Optional[str] = None
url: Optional[AnyUrl] = None
email: Optional[EmailStr] = None
class Config:
extra = "allow"
class License(BaseModel):
name: str
url: Optional[AnyUrl] = None
class Config:
extra = "allow"
class Info(BaseModel):
title: str
description: Optional[str] = None
termsOfService: Optional[str] = None
contact: Optional[Contact] = None
license: Optional[License] = None
version: str
class Config:
extra = "allow"
class ServerVariable(BaseModel):
enum: Optional[List[str]] = None
default: str
description: Optional[str] = None
class Config:
extra = "allow"
class Server(BaseModel):
url: Union[AnyUrl, str]
description: Optional[str] = None
variables: Optional[Dict[str, ServerVariable]] = None
class Config:
extra = "allow"
class Reference(BaseModel):
ref: str = Field(alias="$ref")
class Discriminator(BaseModel):
propertyName: str
mapping: Optional[Dict[str, str]] = None
class XML(BaseModel):
name: Optional[str] = None
namespace: Optional[str] = None
prefix: Optional[str] = None
attribute: Optional[bool] = None
wrapped: Optional[bool] = None
class Config:
extra = "allow"
class ExternalDocumentation(BaseModel):
description: Optional[str] = None
url: AnyUrl
class Config:
extra = "allow"
class Schema(BaseModel):
ref: Optional[str] = Field(default=None, alias="$ref")
title: Optional[str] = None
multipleOf: Optional[float] = None
maximum: Optional[float] = None
exclusiveMaximum: Optional[float] = None
minimum: Optional[float] = None
exclusiveMinimum: Optional[float] = None
maxLength: Optional[int] = Field(default=None, gte=0)
minLength: Optional[int] = Field(default=None, gte=0)
pattern: Optional[str] = None
maxItems: Optional[int] = Field(default=None, gte=0)
minItems: Optional[int] = Field(default=None, gte=0)
uniqueItems: Optional[bool] = None
maxProperties: Optional[int] = Field(default=None, gte=0)
minProperties: Optional[int] = Field(default=None, gte=0)
required: Optional[List[str]] = None
enum: Optional[List[Any]] = None
type: Optional[str] = None
allOf: Optional[List["Schema"]] = None
oneOf: Optional[List["Schema"]] = None
anyOf: Optional[List["Schema"]] = None
not_: Optional["Schema"] = Field(default=None, alias="not")
items: Optional[Union["Schema", List["Schema"]]] = None
properties: Optional[Dict[str, "Schema"]] = None
additionalProperties: Optional[Union["Schema", Reference, bool]] = None
description: Optional[str] = None
format: Optional[str] = None
default: Optional[Any] = None
nullable: Optional[bool] = None
discriminator: Optional[Discriminator] = None
readOnly: Optional[bool] = None
writeOnly: Optional[bool] = None
xml: Optional[XML] = None
externalDocs: Optional[ExternalDocumentation] = None
example: Optional[Any] = None
deprecated: Optional[bool] = None
class Config:
extra: str = "allow"
class Example(BaseModel):
summary: Optional[str] = None
description: Optional[str] = None
value: Optional[Any] = None
externalValue: Optional[AnyUrl] = None
class Config:
extra = "allow"
class ParameterInType(Enum):
query = "query"
header = "header"
path = "path"
cookie = "cookie"
class Encoding(BaseModel):
contentType: Optional[str] = None
headers: Optional[Dict[str, Union["Header", Reference]]] = None
style: Optional[str] = None
explode: Optional[bool] = None
allowReserved: Optional[bool] = None
class Config:
extra = "allow"
class MediaType(BaseModel):
schema_: Optional[Union[Schema, Reference]] = Field(default=None, alias="schema")
example: Optional[Any] = None
examples: Optional[Dict[str, Union[Example, Reference]]] = None
encoding: Optional[Dict[str, Encoding]] = None
class Config:
extra = "allow"
class ParameterBase(BaseModel):
description: Optional[str] = None
required: Optional[bool] = None
deprecated: Optional[bool] = None
# Serialization rules for simple scenarios
style: Optional[str] = None
explode: Optional[bool] = None
allowReserved: Optional[bool] = None
schema_: Optional[Union[Schema, Reference]] = Field(default=None, alias="schema")
example: Optional[Any] = None
examples: Optional[Dict[str, Union[Example, Reference]]] = None
# Serialization rules for more complex scenarios
content: Optional[Dict[str, MediaType]] = None
class Config:
extra = "allow"
class Parameter(ParameterBase):
name: str
in_: ParameterInType = Field(alias="in")
class Header(ParameterBase):
pass
class RequestBody(BaseModel):
description: Optional[str] = None
content: Dict[str, MediaType]
required: Optional[bool] = None
class Config:
extra = "allow"
class Link(BaseModel):
operationRef: Optional[str] = None
operationId: Optional[str] = None
parameters: Optional[Dict[str, Union[Any, str]]] = None
requestBody: Optional[Union[Any, str]] = None
description: Optional[str] = None
server: Optional[Server] = None
class Config:
extra = "allow"
class Response(BaseModel):
description: str
headers: Optional[Dict[str, Union[Header, Reference]]] = None
content: Optional[Dict[str, MediaType]] = None
links: Optional[Dict[str, Union[Link, Reference]]] = None
class Config:
extra = "allow"
class Operation(BaseModel):
tags: Optional[List[str]] = None
summary: Optional[str] = None
description: Optional[str] = None
externalDocs: Optional[ExternalDocumentation] = None
operationId: Optional[str] = None
parameters: Optional[List[Union[Parameter, Reference]]] = None
requestBody: Optional[Union[RequestBody, Reference]] = None
# Using Any for Specification Extensions
responses: Dict[str, Union[Response, Any]]
callbacks: Optional[Dict[str, Union[Dict[str, "PathItem"], Reference]]] = None
deprecated: Optional[bool] = None
security: Optional[List[Dict[str, List[str]]]] = None
servers: Optional[List[Server]] = None
class Config:
extra = "allow"
class PathItem(BaseModel):
ref: Optional[str] = Field(default=None, alias="$ref")
summary: Optional[str] = None
description: Optional[str] = None
get: Optional[Operation] = None
put: Optional[Operation] = None
post: Optional[Operation] = None
delete: Optional[Operation] = None
options: Optional[Operation] = None
head: Optional[Operation] = None
patch: Optional[Operation] = None
trace: Optional[Operation] = None
servers: Optional[List[Server]] = None
parameters: Optional[List[Union[Parameter, Reference]]] = None
class Config:
extra = "allow"
class SecuritySchemeType(Enum):
apiKey = "apiKey"
http = "http"
oauth2 = "oauth2"
openIdConnect = "openIdConnect"
class SecurityBase(BaseModel):
type_: SecuritySchemeType = Field(alias="type")
description: Optional[str] = None
class Config:
extra = "allow"
class APIKeyIn(Enum):
query = "query"
header = "header"
cookie = "cookie"
class APIKey(SecurityBase):
type_ = Field(SecuritySchemeType.apiKey, alias="type")
in_: APIKeyIn = Field(alias="in")
name: str
class HTTPBase(SecurityBase):
type_ = Field(SecuritySchemeType.http, alias="type")
scheme: str
class HTTPBearer(HTTPBase):
scheme = "bearer"
bearerFormat: Optional[str] = None
class OAuthFlow(BaseModel):
refreshUrl: Optional[str] = None
scopes: Dict[str, str] = {}
class Config:
extra = "allow"
class OAuthFlowImplicit(OAuthFlow):
authorizationUrl: str
class OAuthFlowPassword(OAuthFlow):
tokenUrl: str
class OAuthFlowClientCredentials(OAuthFlow):
tokenUrl: str
class OAuthFlowAuthorizationCode(OAuthFlow):
authorizationUrl: str
tokenUrl: str
class OAuthFlows(BaseModel):
implicit: Optional[OAuthFlowImplicit] = None
password: Optional[OAuthFlowPassword] = None
clientCredentials: Optional[OAuthFlowClientCredentials] = None
authorizationCode: Optional[OAuthFlowAuthorizationCode] = None
class Config:
extra = "allow"
class OAuth2(SecurityBase):
type_ = Field(SecuritySchemeType.oauth2, alias="type")
flows: OAuthFlows
class OpenIdConnect(SecurityBase):
type_ = Field(SecuritySchemeType.openIdConnect, alias="type")
openIdConnectUrl: str
SecurityScheme = Union[APIKey, HTTPBase, OAuth2, OpenIdConnect, HTTPBearer]
class Components(BaseModel):
schemas: Optional[Dict[str, Union[Schema, Reference]]] = None
responses: Optional[Dict[str, Union[Response, Reference]]] = None
parameters: Optional[Dict[str, Union[Parameter, Reference]]] = None
examples: Optional[Dict[str, Union[Example, Reference]]] = None
requestBodies: Optional[Dict[str, Union[RequestBody, Reference]]] = None
headers: Optional[Dict[str, Union[Header, Reference]]] = None
securitySchemes: Optional[Dict[str, Union[SecurityScheme, Reference]]] = None
links: Optional[Dict[str, Union[Link, Reference]]] = None
# Using Any for Specification Extensions
callbacks: Optional[Dict[str, Union[Dict[str, PathItem], Reference, Any]]] = None
class Config:
extra = "allow"
class Tag(BaseModel):
name: str
description: Optional[str] = None
externalDocs: Optional[ExternalDocumentation] = None
class Config:
extra = "allow"
class OpenAPI(BaseModel):
openapi: str
info: Info
servers: Optional[List[Server]] = None
# Using Any for Specification Extensions
paths: Dict[str, Union[PathItem, Any]]
components: Optional[Components] = None
security: Optional[List[Dict[str, List[str]]]] = None
tags: Optional[List[Tag]] = None
externalDocs: Optional[ExternalDocumentation] = None
class Config:
extra = "allow"
Schema.update_forward_refs()
Operation.update_forward_refs()
Encoding.update_forward_refs()
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/middleware/wsgi.py | from starlette.middleware.wsgi import WSGIMiddleware as WSGIMiddleware # noqa
|
omniverse-code/kit/exts/omni.kit.pip_archive/pip_prebundle/fastapi/middleware/gzip.py | from starlette.middleware.gzip import GZipMiddleware as GZipMiddleware # noqa
|
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