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qemu / meson / c99fc40bb7bacfed4ea79b4b83bec46fdc5018f3 / . / mesonbuild / utils / universal.py
blob: 324fb94b073bf0185c35fdea41af2ad428393c7a [file] [log] [blame]
# SPDX-License-Identifier: Apache-2.0
# Copyright 2012-2020 The Meson development team
"""A library of random helper functionality."""
from __future__ import annotations
from pathlib import Path
import argparse
import ast
import enum
import sys
import stat
import time
import abc
import platform, subprocess, operator, os, shlex, shutil, re
import collections
from functools import lru_cache, wraps, total_ordering
from itertools import tee
from tempfile import TemporaryDirectory, NamedTemporaryFile
import typing as T
import textwrap
import pickle
import errno
import json
from mesonbuild import mlog
from .core import MesonException, HoldableObject
if T.TYPE_CHECKING:
from typing_extensions import Literal, Protocol
from .._typing import ImmutableListProtocol
from ..build import ConfigurationData
from ..coredata import StrOrBytesPath
from ..environment import Environment
from ..compilers.compilers import Compiler
from ..interpreterbase.baseobjects import SubProject
class _EnvPickleLoadable(Protocol):
environment: Environment
class _VerPickleLoadable(Protocol):
version: str
# A generic type for pickle_load. This allows any type that has either a
# .version or a .environment to be passed.
_PL = T.TypeVar('_PL', bound=T.Union[_EnvPickleLoadable, _VerPickleLoadable])
FileOrString = T.Union['File', str]
_T = T.TypeVar('_T')
_U = T.TypeVar('_U')
__all__ = [
'GIT',
'python_command',
'project_meson_versions',
'SecondLevelHolder',
'File',
'FileMode',
'GitException',
'LibType',
'MachineChoice',
'EnvironmentException',
'FileOrString',
'GitException',
'OptionKey',
'dump_conf_header',
'OptionType',
'OrderedSet',
'PerMachine',
'PerMachineDefaultable',
'PerThreeMachine',
'PerThreeMachineDefaultable',
'ProgressBar',
'RealPathAction',
'TemporaryDirectoryWinProof',
'Version',
'check_direntry_issues',
'classify_unity_sources',
'current_vs_supports_modules',
'darwin_get_object_archs',
'default_libdir',
'default_libexecdir',
'default_prefix',
'default_datadir',
'default_includedir',
'default_infodir',
'default_localedir',
'default_mandir',
'default_sbindir',
'default_sysconfdir',
'detect_subprojects',
'detect_vcs',
'do_conf_file',
'do_conf_str',
'do_replacement',
'exe_exists',
'expand_arguments',
'extract_as_list',
'first',
'generate_list',
'get_compiler_for_source',
'get_filenames_templates_dict',
'get_variable_regex',
'get_wine_shortpath',
'git',
'has_path_sep',
'is_aix',
'is_android',
'is_ascii_string',
'is_cygwin',
'is_debianlike',
'is_dragonflybsd',
'is_freebsd',
'is_haiku',
'is_hurd',
'is_irix',
'is_linux',
'is_netbsd',
'is_openbsd',
'is_osx',
'is_qnx',
'is_sunos',
'is_windows',
'is_wsl',
'iter_regexin_iter',
'join_args',
'listify',
'listify_array_value',
'partition',
'path_is_in_root',
'pickle_load',
'Popen_safe',
'Popen_safe_logged',
'quiet_git',
'quote_arg',
'relative_to_if_possible',
'relpath',
'replace_if_different',
'run_once',
'get_meson_command',
'set_meson_command',
'split_args',
'stringlistify',
'substitute_values',
'substring_is_in_list',
'typeslistify',
'verbose_git',
'version_compare',
'version_compare_condition_with_min',
'version_compare_many',
'search_version',
'windows_detect_native_arch',
'windows_proof_rm',
'windows_proof_rmtree',
]
# TODO: this is such a hack, this really should be either in coredata or in the
# interpreter
# {subproject: project_meson_version}
project_meson_versions: T.DefaultDict[str, str] = collections.defaultdict(str)
from glob import glob
if getattr(sys, 'frozen', False) and hasattr(sys, '_MEIPASS'):
# using a PyInstaller bundle, e.g. the MSI installed executable
python_command = [sys.executable, 'runpython']
else:
python_command = [sys.executable]
_meson_command: T.Optional['ImmutableListProtocol[str]'] = None
class EnvironmentException(MesonException):
'''Exceptions thrown while processing and creating the build environment'''
class GitException(MesonException):
def __init__(self, msg: str, output: T.Optional[str] = None):
super().__init__(msg)
self.output = output.strip() if output else ''
GIT = shutil.which('git')
def git(cmd: T.List[str], workingdir: StrOrBytesPath, check: bool = False, **kwargs: T.Any) -> T.Tuple[subprocess.Popen[str], str, str]:
assert GIT is not None, 'Callers should make sure it exists'
cmd = [GIT, *cmd]
p, o, e = Popen_safe(cmd, cwd=workingdir, **kwargs)
if check and p.returncode != 0:
raise GitException('Git command failed: ' + str(cmd), e)
return p, o, e
def quiet_git(cmd: T.List[str], workingdir: StrOrBytesPath, check: bool = False) -> T.Tuple[bool, str]:
if not GIT:
m = 'Git program not found.'
if check:
raise GitException(m)
return False, m
p, o, e = git(cmd, workingdir, check)
if p.returncode != 0:
return False, e
return True, o
def verbose_git(cmd: T.List[str], workingdir: StrOrBytesPath, check: bool = False) -> bool:
if not GIT:
m = 'Git program not found.'
if check:
raise GitException(m)
return False
p, _, _ = git(cmd, workingdir, check, stdout=None, stderr=None)
return p.returncode == 0
def set_meson_command(mainfile: str) -> None:
global _meson_command # pylint: disable=global-statement
# On UNIX-like systems `meson` is a Python script
# On Windows `meson` and `meson.exe` are wrapper exes
if not mainfile.endswith('.py'):
_meson_command = [mainfile]
elif os.path.isabs(mainfile) and mainfile.endswith('mesonmain.py'):
# Can't actually run meson with an absolute path to mesonmain.py, it must be run as -m mesonbuild.mesonmain
_meson_command = python_command + ['-m', 'mesonbuild.mesonmain']
else:
# Either run uninstalled, or full path to meson-script.py
_meson_command = python_command + [mainfile]
# We print this value for unit tests.
if 'MESON_COMMAND_TESTS' in os.environ:
mlog.log(f'meson_command is {_meson_command!r}')
def get_meson_command() -> T.Optional['ImmutableListProtocol[str]']:
return _meson_command
def is_ascii_string(astring: T.Union[str, bytes]) -> bool:
try:
if isinstance(astring, str):
astring.encode('ascii')
elif isinstance(astring, bytes):
astring.decode('ascii')
except UnicodeDecodeError:
return False
return True
def check_direntry_issues(direntry_array: T.Union[T.Iterable[T.Union[str, bytes]], str, bytes]) -> None:
import locale
# Warn if the locale is not UTF-8. This can cause various unfixable issues
# such as os.stat not being able to decode filenames with unicode in them.
# There is no way to reset both the preferred encoding and the filesystem
# encoding, so we can just warn about it.
e = locale.getpreferredencoding()
if e.upper() != 'UTF-8' and not is_windows():
if isinstance(direntry_array, (str, bytes)):
direntry_array = [direntry_array]
for de in direntry_array:
if is_ascii_string(de):
continue
mlog.warning(textwrap.dedent(f'''
You are using {e!r} which is not a Unicode-compatible
locale but you are trying to access a file system entry called {de!r} which is
not pure ASCII. This may cause problems.
'''))
class SecondLevelHolder(HoldableObject, metaclass=abc.ABCMeta):
''' A second level object holder. The primary purpose
of such objects is to hold multiple objects with one
default option. '''
@abc.abstractmethod
def get_default_object(self) -> HoldableObject: ...
class FileMode:
# The first triad is for owner permissions, the second for group permissions,
# and the third for others (everyone else).
# For the 1st character:
# 'r' means can read
# '-' means not allowed
# For the 2nd character:
# 'w' means can write
# '-' means not allowed
# For the 3rd character:
# 'x' means can execute
# 's' means can execute and setuid/setgid is set (owner/group triads only)
# 'S' means cannot execute and setuid/setgid is set (owner/group triads only)
# 't' means can execute and sticky bit is set ("others" triads only)
# 'T' means cannot execute and sticky bit is set ("others" triads only)
# '-' means none of these are allowed
#
# The meanings of 'rwx' perms is not obvious for directories; see:
# https://www.hackinglinuxexposed.com/articles/20030424.html
#
# For information on this notation such as setuid/setgid/sticky bits, see:
# https://en.wikipedia.org/wiki/File_system_permissions#Symbolic_notation
symbolic_perms_regex = re.compile('[r-][w-][xsS-]' # Owner perms
'[r-][w-][xsS-]' # Group perms
'[r-][w-][xtT-]') # Others perms
def __init__(self, perms: T.Optional[str] = None, owner: T.Union[str, int, None] = None,
group: T.Union[str, int, None] = None):
self.perms_s = perms
self.perms = self.perms_s_to_bits(perms)
self.owner = owner
self.group = group
def __repr__(self) -> str:
ret = '<FileMode: {!r} owner={} group={}'
return ret.format(self.perms_s, self.owner, self.group)
@classmethod
def perms_s_to_bits(cls, perms_s: T.Optional[str]) -> int:
'''
Does the opposite of stat.filemode(), converts strings of the form
'rwxr-xr-x' to st_mode enums which can be passed to os.chmod()
'''
if perms_s is None:
# No perms specified, we will not touch the permissions
return -1
eg = 'rwxr-xr-x'
if not isinstance(perms_s, str):
raise MesonException(f'Install perms must be a string. For example, {eg!r}')
if len(perms_s) != 9 or not cls.symbolic_perms_regex.match(perms_s):
raise MesonException(f'File perms {perms_s!r} must be exactly 9 chars. For example, {eg!r}')
perms = 0
# Owner perms
if perms_s[0] == 'r':
perms |= stat.S_IRUSR
if perms_s[1] == 'w':
perms |= stat.S_IWUSR
if perms_s[2] == 'x':
perms |= stat.S_IXUSR
elif perms_s[2] == 'S':
perms |= stat.S_ISUID
elif perms_s[2] == 's':
perms |= stat.S_IXUSR
perms |= stat.S_ISUID
# Group perms
if perms_s[3] == 'r':
perms |= stat.S_IRGRP
if perms_s[4] == 'w':
perms |= stat.S_IWGRP
if perms_s[5] == 'x':
perms |= stat.S_IXGRP
elif perms_s[5] == 'S':
perms |= stat.S_ISGID
elif perms_s[5] == 's':
perms |= stat.S_IXGRP
perms |= stat.S_ISGID
# Others perms
if perms_s[6] == 'r':
perms |= stat.S_IROTH
if perms_s[7] == 'w':
perms |= stat.S_IWOTH
if perms_s[8] == 'x':
perms |= stat.S_IXOTH
elif perms_s[8] == 'T':
perms |= stat.S_ISVTX
elif perms_s[8] == 't':
perms |= stat.S_IXOTH
perms |= stat.S_ISVTX
return perms
dot_C_dot_H_warning = """You are using .C or .H files in your project. This is deprecated.
Currently, Meson treats this as C++ code, but they
used to be treated as C code.
Note that the situation is a bit more complex if you are using the
Visual Studio compiler, as it treats .C files as C code, unless you add
the /TP compiler flag, but this is unreliable.
See https://github.com/mesonbuild/meson/pull/8747 for the discussions."""
class File(HoldableObject):
def __init__(self, is_built: bool, subdir: str, fname: str):
if fname.endswith(".C") or fname.endswith(".H"):
mlog.warning(dot_C_dot_H_warning, once=True)
self.is_built = is_built
self.subdir = subdir
self.fname = fname
self.hash = hash((is_built, subdir, fname))
def __str__(self) -> str:
return self.relative_name()
def __repr__(self) -> str:
ret = '<File: {0}'
if not self.is_built:
ret += ' (not built)'
ret += '>'
return ret.format(self.relative_name())
@staticmethod
@lru_cache(maxsize=None)
def from_source_file(source_root: str, subdir: str, fname: str) -> 'File':
if not os.path.isfile(os.path.join(source_root, subdir, fname)):
raise MesonException(f'File {fname} does not exist.')
return File(False, subdir, fname)
@staticmethod
def from_built_file(subdir: str, fname: str) -> 'File':
return File(True, subdir, fname)
@staticmethod
def from_built_relative(relative: str) -> 'File':
dirpart, fnamepart = os.path.split(relative)
return File(True, dirpart, fnamepart)
@staticmethod
def from_absolute_file(fname: str) -> 'File':
return File(False, '', fname)
@lru_cache(maxsize=None)
def rel_to_builddir(self, build_to_src: str) -> str:
if self.is_built:
return self.relative_name()
else:
return os.path.join(build_to_src, self.subdir, self.fname)
@lru_cache(maxsize=None)
def absolute_path(self, srcdir: str, builddir: str) -> str:
absdir = srcdir
if self.is_built:
absdir = builddir
return os.path.join(absdir, self.relative_name())
@property
def suffix(self) -> str:
return os.path.splitext(self.fname)[1][1:].lower()
def endswith(self, ending: T.Union[str, T.Tuple[str, ...]]) -> bool:
return self.fname.endswith(ending)
def split(self, s: str, maxsplit: int = -1) -> T.List[str]:
return self.fname.split(s, maxsplit=maxsplit)
def rsplit(self, s: str, maxsplit: int = -1) -> T.List[str]:
return self.fname.rsplit(s, maxsplit=maxsplit)
def __eq__(self, other: object) -> bool:
if not isinstance(other, File):
return NotImplemented
if self.hash != other.hash:
return False
return (self.fname, self.subdir, self.is_built) == (other.fname, other.subdir, other.is_built)
def __hash__(self) -> int:
return self.hash
@lru_cache(maxsize=None)
def relative_name(self) -> str:
return os.path.join(self.subdir, self.fname)
def get_compiler_for_source(compilers: T.Iterable['Compiler'], src: 'FileOrString') -> 'Compiler':
"""Given a set of compilers and a source, find the compiler for that source type."""
for comp in compilers:
if comp.can_compile(src):
return comp
raise MesonException(f'No specified compiler can handle file {src!s}')
def classify_unity_sources(compilers: T.Iterable['Compiler'], sources: T.Sequence['FileOrString']) -> T.Dict['Compiler', T.List['FileOrString']]:
compsrclist: T.Dict['Compiler', T.List['FileOrString']] = {}
for src in sources:
comp = get_compiler_for_source(compilers, src)
if comp not in compsrclist:
compsrclist[comp] = [src]
else:
compsrclist[comp].append(src)
return compsrclist
class MachineChoice(enum.IntEnum):
"""Enum class representing one of the two abstract machine names used in
most places: the build, and host, machines.
"""
BUILD = 0
HOST = 1
def __str__(self) -> str:
return f'{self.get_lower_case_name()} machine'
def get_lower_case_name(self) -> str:
return PerMachine('build', 'host')[self]
def get_prefix(self) -> str:
return PerMachine('build.', '')[self]
class PerMachine(T.Generic[_T]):
def __init__(self, build: _T, host: _T) -> None:
self.build = build
self.host = host
def __getitem__(self, machine: MachineChoice) -> _T:
return {
MachineChoice.BUILD: self.build,
MachineChoice.HOST: self.host,
}[machine]
def __setitem__(self, machine: MachineChoice, val: _T) -> None:
setattr(self, machine.get_lower_case_name(), val)
def miss_defaulting(self) -> "PerMachineDefaultable[T.Optional[_T]]":
"""Unset definition duplicated from their previous to None
This is the inverse of ''default_missing''. By removing defaulted
machines, we can elaborate the original and then redefault them and thus
avoid repeating the elaboration explicitly.
"""
unfreeze: PerMachineDefaultable[T.Optional[_T]] = PerMachineDefaultable()
unfreeze.build = self.build
unfreeze.host = self.host
if unfreeze.host == unfreeze.build:
unfreeze.host = None
return unfreeze
def assign(self, build: _T, host: _T) -> None:
self.build = build
self.host = host
def __repr__(self) -> str:
return f'PerMachine({self.build!r}, {self.host!r})'
class PerThreeMachine(PerMachine[_T]):
"""Like `PerMachine` but includes `target` too.
It turns out just one thing do we need track the target machine. There's no
need to computer the `target` field so we don't bother overriding the
`__getitem__`/`__setitem__` methods.
"""
def __init__(self, build: _T, host: _T, target: _T) -> None:
super().__init__(build, host)
self.target = target
def miss_defaulting(self) -> "PerThreeMachineDefaultable[T.Optional[_T]]":
"""Unset definition duplicated from their previous to None
This is the inverse of ''default_missing''. By removing defaulted
machines, we can elaborate the original and then redefault them and thus
avoid repeating the elaboration explicitly.
"""
unfreeze: PerThreeMachineDefaultable[T.Optional[_T]] = PerThreeMachineDefaultable()
unfreeze.build = self.build
unfreeze.host = self.host
unfreeze.target = self.target
if unfreeze.target == unfreeze.host:
unfreeze.target = None
if unfreeze.host == unfreeze.build:
unfreeze.host = None
return unfreeze
def matches_build_machine(self, machine: MachineChoice) -> bool:
return self.build == self[machine]
def __repr__(self) -> str:
return f'PerThreeMachine({self.build!r}, {self.host!r}, {self.target!r})'
class PerMachineDefaultable(PerMachine[T.Optional[_T]]):
"""Extends `PerMachine` with the ability to default from `None`s.
"""
def __init__(self, build: T.Optional[_T] = None, host: T.Optional[_T] = None) -> None:
super().__init__(build, host)
def default_missing(self) -> "PerMachine[_T]":
"""Default host to build
This allows just specifying nothing in the native case, and just host in the
cross non-compiler case.
"""
freeze = PerMachine(self.build, self.host)
if freeze.host is None:
freeze.host = freeze.build
return freeze
def __repr__(self) -> str:
return f'PerMachineDefaultable({self.build!r}, {self.host!r})'
@classmethod
def default(cls, is_cross: bool, build: _T, host: _T) -> PerMachine[_T]:
"""Easy way to get a defaulted value
This allows simplifying the case where you can control whether host and
build are separate or not with a boolean. If the is_cross value is set
to true then the optional host value will be used, otherwise the host
will be set to the build value.
"""
m = cls(build)
if is_cross:
m.host = host
return m.default_missing()
class PerThreeMachineDefaultable(PerMachineDefaultable[T.Optional[_T]], PerThreeMachine[T.Optional[_T]]):
"""Extends `PerThreeMachine` with the ability to default from `None`s.
"""
def __init__(self) -> None:
PerThreeMachine.__init__(self, None, None, None)
def default_missing(self) -> "PerThreeMachine[T.Optional[_T]]":
"""Default host to build and target to host.
This allows just specifying nothing in the native case, just host in the
cross non-compiler case, and just target in the native-built
cross-compiler case.
"""
freeze = PerThreeMachine(self.build, self.host, self.target)
if freeze.host is None:
freeze.host = freeze.build
if freeze.target is None:
freeze.target = freeze.host
return freeze
def __repr__(self) -> str:
return f'PerThreeMachineDefaultable({self.build!r}, {self.host!r}, {self.target!r})'
def is_sunos() -> bool:
return platform.system().lower() == 'sunos'
def is_osx() -> bool:
return platform.system().lower() == 'darwin'
def is_linux() -> bool:
return platform.system().lower() == 'linux'
def is_android() -> bool:
return platform.system().lower() == 'android'
def is_haiku() -> bool:
return platform.system().lower() == 'haiku'
def is_openbsd() -> bool:
return platform.system().lower() == 'openbsd'
def is_windows() -> bool:
platname = platform.system().lower()
return platname == 'windows'
def is_wsl() -> bool:
return is_linux() and 'microsoft' in platform.release().lower()
def is_cygwin() -> bool:
return sys.platform == 'cygwin'
def is_debianlike() -> bool:
return os.path.isfile('/etc/debian_version')
def is_dragonflybsd() -> bool:
return platform.system().lower() == 'dragonfly'
def is_netbsd() -> bool:
return platform.system().lower() == 'netbsd'
def is_freebsd() -> bool:
return platform.system().lower() == 'freebsd'
def is_irix() -> bool:
return platform.system().startswith('irix')
def is_hurd() -> bool:
return platform.system().lower() == 'gnu'
def is_qnx() -> bool:
return platform.system().lower() == 'qnx'
def is_aix() -> bool:
return platform.system().lower() == 'aix'
def exe_exists(arglist: T.List[str]) -> bool:
try:
if subprocess.run(arglist, timeout=10).returncode == 0:
return True
except (FileNotFoundError, subprocess.TimeoutExpired):
pass
return False
@lru_cache(maxsize=None)
def darwin_get_object_archs(objpath: str) -> 'ImmutableListProtocol[str]':
'''
For a specific object (executable, static library, dylib, etc), run `lipo`
to fetch the list of archs supported by it. Supports both thin objects and
'fat' objects.
'''
_, stdo, stderr = Popen_safe(['lipo', '-info', objpath])
if not stdo:
mlog.debug(f'lipo {objpath}: {stderr}')
return None
stdo = stdo.rsplit(': ', 1)[1]
# Convert from lipo-style archs to meson-style CPUs
map_arch = {
'i386': 'x86',
'arm64': 'aarch64',
'arm64e': 'aarch64',
'ppc7400': 'ppc',
'ppc970': 'ppc',
}
lipo_archs = stdo.split()
meson_archs = [map_arch.get(lipo_arch, lipo_arch) for lipo_arch in lipo_archs]
# Add generic name for armv7 and armv7s
if 'armv7' in stdo:
meson_archs.append('arm')
return meson_archs
def windows_detect_native_arch() -> str:
"""
The architecture of Windows itself: x86, amd64 or arm64
"""
if sys.platform != 'win32':
return ''
try:
import ctypes
process_arch = ctypes.c_ushort()
native_arch = ctypes.c_ushort()
kernel32 = ctypes.windll.kernel32
process = ctypes.c_void_p(kernel32.GetCurrentProcess())
# This is the only reliable way to detect an arm system if we are an x86/x64 process being emulated
if kernel32.IsWow64Process2(process, ctypes.byref(process_arch), ctypes.byref(native_arch)):
# https://docs.microsoft.com/en-us/windows/win32/sysinfo/image-file-machine-constants
if native_arch.value == 0x8664:
return 'amd64'
elif native_arch.value == 0x014C:
return 'x86'
elif native_arch.value == 0xAA64:
return 'arm64'
elif native_arch.value == 0x01C4:
return 'arm'
except (OSError, AttributeError):
pass
# These env variables are always available. See:
# https://msdn.microsoft.com/en-us/library/aa384274(VS.85).aspx
# https://blogs.msdn.microsoft.com/david.wang/2006/03/27/howto-detect-process-bitness/
arch = os.environ.get('PROCESSOR_ARCHITEW6432', '').lower()
if not arch:
try:
# If this doesn't exist, something is messing with the environment
arch = os.environ['PROCESSOR_ARCHITECTURE'].lower()
except KeyError:
raise EnvironmentException('Unable to detect native OS architecture')
return arch
def detect_vcs(source_dir: T.Union[str, Path]) -> T.Optional[T.Dict[str, str]]:
vcs_systems = [
{
'name': 'git',
'cmd': 'git',
'repo_dir': '.git',
'get_rev': 'git describe --dirty=+ --always',
'rev_regex': '(.*)',
'dep': '.git/logs/HEAD'
},
{
'name': 'mercurial',
'cmd': 'hg',
'repo_dir': '.hg',
'get_rev': 'hg id -i',
'rev_regex': '(.*)',
'dep': '.hg/dirstate'
},
{
'name': 'subversion',
'cmd': 'svn',
'repo_dir': '.svn',
'get_rev': 'svn info',
'rev_regex': 'Revision: (.*)',
'dep': '.svn/wc.db'
},
{
'name': 'bazaar',
'cmd': 'bzr',
'repo_dir': '.bzr',
'get_rev': 'bzr revno',
'rev_regex': '(.*)',
'dep': '.bzr'
},
]
if isinstance(source_dir, str):
source_dir = Path(source_dir)
parent_paths_and_self = collections.deque(source_dir.parents)
# Prepend the source directory to the front so we can check it;
# source_dir.parents doesn't include source_dir
parent_paths_and_self.appendleft(source_dir)
for curdir in parent_paths_and_self:
for vcs in vcs_systems:
if Path.is_dir(curdir.joinpath(vcs['repo_dir'])) and shutil.which(vcs['cmd']):
vcs['wc_dir'] = str(curdir)
return vcs
return None
def current_vs_supports_modules() -> bool:
vsver = os.environ.get('VSCMD_VER', '')
nums = vsver.split('.', 2)
major = int(nums[0])
if major >= 17:
return True
if major == 16 and int(nums[1]) >= 10:
return True
return vsver.startswith('16.9.0') and '-pre.' in vsver
# a helper class which implements the same version ordering as RPM
class Version:
def __init__(self, s: str) -> None:
self._s = s
# split into numeric, alphabetic and non-alphanumeric sequences
sequences1 = re.finditer(r'(\d+|[a-zA-Z]+|[^a-zA-Z\d]+)', s)
# non-alphanumeric separators are discarded
sequences2 = [m for m in sequences1 if not re.match(r'[^a-zA-Z\d]+', m.group(1))]
# numeric sequences are converted from strings to ints
sequences3 = [int(m.group(1)) if m.group(1).isdigit() else m.group(1) for m in sequences2]
self._v = sequences3
def __str__(self) -> str:
return '{} (V={})'.format(self._s, str(self._v))
def __repr__(self) -> str:
return f'<Version: {self._s}>'
def __lt__(self, other: object) -> bool:
if isinstance(other, Version):
return self.__cmp(other, operator.lt)
return NotImplemented
def __gt__(self, other: object) -> bool:
if isinstance(other, Version):
return self.__cmp(other, operator.gt)
return NotImplemented
def __le__(self, other: object) -> bool:
if isinstance(other, Version):
return self.__cmp(other, operator.le)
return NotImplemented
def __ge__(self, other: object) -> bool:
if isinstance(other, Version):
return self.__cmp(other, operator.ge)
return NotImplemented
def __eq__(self, other: object) -> bool:
if isinstance(other, Version):
return self._v == other._v
return NotImplemented
def __ne__(self, other: object) -> bool:
if isinstance(other, Version):
return self._v != other._v
return NotImplemented
def __cmp(self, other: 'Version', comparator: T.Callable[[T.Any, T.Any], bool]) -> bool:
# compare each sequence in order
for ours, theirs in zip(self._v, other._v):
# sort a non-digit sequence before a digit sequence
ours_is_int = isinstance(ours, int)
theirs_is_int = isinstance(theirs, int)
if ours_is_int != theirs_is_int:
return comparator(ours_is_int, theirs_is_int)
if ours != theirs:
return comparator(ours, theirs)
# if equal length, all components have matched, so equal
# otherwise, the version with a suffix remaining is greater
return comparator(len(self._v), len(other._v))
def _version_extract_cmpop(vstr2: str) -> T.Tuple[T.Callable[[T.Any, T.Any], bool], str]:
if vstr2.startswith('>='):
cmpop = operator.ge
vstr2 = vstr2[2:]
elif vstr2.startswith('<='):
cmpop = operator.le
vstr2 = vstr2[2:]
elif vstr2.startswith('!='):
cmpop = operator.ne
vstr2 = vstr2[2:]
elif vstr2.startswith('=='):
cmpop = operator.eq
vstr2 = vstr2[2:]
elif vstr2.startswith('='):
cmpop = operator.eq
vstr2 = vstr2[1:]
elif vstr2.startswith('>'):
cmpop = operator.gt
vstr2 = vstr2[1:]
elif vstr2.startswith('<'):
cmpop = operator.lt
vstr2 = vstr2[1:]
else:
cmpop = operator.eq
return (cmpop, vstr2)
def version_compare(vstr1: str, vstr2: str) -> bool:
(cmpop, vstr2) = _version_extract_cmpop(vstr2)
return cmpop(Version(vstr1), Version(vstr2))
def version_compare_many(vstr1: str, conditions: T.Union[str, T.Iterable[str]]) -> T.Tuple[bool, T.List[str], T.List[str]]:
if isinstance(conditions, str):
conditions = [conditions]
found: T.List[str] = []
not_found: T.List[str] = []
for req in conditions:
if not version_compare(vstr1, req):
not_found.append(req)
else:
found.append(req)
return not not_found, not_found, found
# determine if the minimum version satisfying the condition |condition| exceeds
# the minimum version for a feature |minimum|
def version_compare_condition_with_min(condition: str, minimum: str) -> bool:
if condition.startswith('>='):
cmpop = operator.le
condition = condition[2:]
elif condition.startswith('<='):
return False
elif condition.startswith('!='):
return False
elif condition.startswith('=='):
cmpop = operator.le
condition = condition[2:]
elif condition.startswith('='):
cmpop = operator.le
condition = condition[1:]
elif condition.startswith('>'):
cmpop = operator.lt
condition = condition[1:]
elif condition.startswith('<'):
return False
else:
cmpop = operator.le
# Declaring a project(meson_version: '>=0.46') and then using features in
# 0.46.0 is valid, because (knowing the meson versioning scheme) '0.46.0' is
# the lowest version which satisfies the constraint '>=0.46'.
#
# But this will fail here, because the minimum version required by the
# version constraint ('0.46') is strictly less (in our version comparison)
# than the minimum version needed for the feature ('0.46.0').
#
# Map versions in the constraint of the form '0.46' to '0.46.0', to embed
# this knowledge of the meson versioning scheme.
condition = condition.strip()
if re.match(r'^\d+.\d+$', condition):
condition += '.0'
return T.cast('bool', cmpop(Version(minimum), Version(condition)))
def search_version(text: str) -> str:
# Usually of the type 4.1.4 but compiler output may contain
# stuff like this:
# (Sourcery CodeBench Lite 2014.05-29) 4.8.3 20140320 (prerelease)
# Limiting major version number to two digits seems to work
# thus far. When we get to GCC 100, this will break, but
# if we are still relevant when that happens, it can be
# considered an achievement in itself.
#
# This regex is reaching magic levels. If it ever needs
# to be updated, do not complexify but convert to something
# saner instead.
# We'll demystify it a bit with a verbose definition.
version_regex = re.compile(r"""
(?<! # Zero-width negative lookbehind assertion
(
\d # One digit
| \. # Or one period
) # One occurrence
)
# Following pattern must not follow a digit or period
(
\d{1,2} # One or two digits
(
\.\d+ # Period and one or more digits
)+ # One or more occurrences
(
-[a-zA-Z0-9]+ # Hyphen and one or more alphanumeric
)? # Zero or one occurrence
) # One occurrence
""", re.VERBOSE)
match = version_regex.search(text)
if match:
return match.group(0)
# try a simpler regex that has like "blah 2020.01.100 foo" or "blah 2020.01 foo"
version_regex = re.compile(r"(\d{1,4}\.\d{1,4}\.?\d{0,4})")
match = version_regex.search(text)
if match:
return match.group(0)
return 'unknown version'
def default_libdir() -> str:
if is_debianlike():
try:
pc = subprocess.Popen(['dpkg-architecture', '-qDEB_HOST_MULTIARCH'],
stdout=subprocess.PIPE,
stderr=subprocess.DEVNULL)
(stdo, _) = pc.communicate()
if pc.returncode == 0:
archpath = stdo.decode().strip()
return 'lib/' + archpath
except Exception:
pass
if is_freebsd() or is_irix():
return 'lib'
if os.path.isdir('/usr/lib64') and not os.path.islink('/usr/lib64'):
return 'lib64'
return 'lib'
def default_libexecdir() -> str:
if is_haiku():
return 'lib'
# There is no way to auto-detect this, so it must be set at build time
return 'libexec'
def default_prefix() -> str:
if is_windows():
return 'c:/'
if is_haiku():
return '/boot/system/non-packaged'
return '/usr/local'
def default_datadir() -> str:
if is_haiku():
return 'data'
return 'share'
def default_includedir() -> str:
if is_haiku():
return 'develop/headers'
return 'include'
def default_infodir() -> str:
if is_haiku():
return 'documentation/info'
return 'share/info'
def default_localedir() -> str:
if is_haiku():
return 'data/locale'
return 'share/locale'
def default_mandir() -> str:
if is_haiku():
return 'documentation/man'
return 'share/man'
def default_sbindir() -> str:
if is_haiku():
return 'bin'
return 'sbin'
def default_sysconfdir() -> str:
if is_haiku():
return 'settings'
return 'etc'
def has_path_sep(name: str, sep: str = '/\\') -> bool:
'Checks if any of the specified @sep path separators are in @name'
for each in sep:
if each in name:
return True
return False
if is_windows():
# shlex.split is not suitable for splitting command line on Window (https://bugs.python.org/issue1724822);
# shlex.quote is similarly problematic. Below are "proper" implementations of these functions according to
# https://docs.microsoft.com/en-us/cpp/c-language/parsing-c-command-line-arguments and
# https://blogs.msdn.microsoft.com/twistylittlepassagesallalike/2011/04/23/everyone-quotes-command-line-arguments-the-wrong-way/
_whitespace = ' \t\n\r'
_find_unsafe_char = re.compile(fr'[{_whitespace}"]').search
def quote_arg(arg: str) -> str:
if arg and not _find_unsafe_char(arg):
return arg
result = '"'
num_backslashes = 0
for c in arg:
if c == '\\':
num_backslashes += 1
else:
if c == '"':
# Escape all backslashes and the following double quotation mark
num_backslashes = num_backslashes * 2 + 1
result += num_backslashes * '\\' + c
num_backslashes = 0
# Escape all backslashes, but let the terminating double quotation
# mark we add below be interpreted as a metacharacter
result += (num_backslashes * 2) * '\\' + '"'
return result
def split_args(cmd: str) -> T.List[str]:
result: T.List[str] = []
arg = ''
num_backslashes = 0
num_quotes = 0
in_quotes = False
for c in cmd:
if c == '\\':
num_backslashes += 1
else:
if c == '"' and not num_backslashes % 2:
# unescaped quote, eat it
arg += (num_backslashes // 2) * '\\'
num_quotes += 1
in_quotes = not in_quotes
elif c in _whitespace and not in_quotes:
if arg or num_quotes:
# reached the end of the argument
result.append(arg)
arg = ''
num_quotes = 0
else:
if c == '"':
# escaped quote
num_backslashes = (num_backslashes - 1) // 2
arg += num_backslashes * '\\' + c
num_backslashes = 0
if arg or num_quotes:
result.append(arg)
return result
else:
def quote_arg(arg: str) -> str:
return shlex.quote(arg)
def split_args(cmd: str) -> T.List[str]:
return shlex.split(cmd)
def join_args(args: T.Iterable[str]) -> str:
return ' '.join([quote_arg(x) for x in args])
def do_replacement(regex: T.Pattern[str], line: str,
variable_format: Literal['meson', 'cmake', 'cmake@'],
confdata: T.Union[T.Dict[str, T.Tuple[str, T.Optional[str]]], 'ConfigurationData']) -> T.Tuple[str, T.Set[str]]:
missing_variables: T.Set[str] = set()
if variable_format == 'cmake':
start_tag = '${'
backslash_tag = '\\${'
else:
start_tag = '@'
backslash_tag = '\\@'
def variable_replace(match: T.Match[str]) -> str:
# Pairs of escape characters before '@' or '\@'
if match.group(0).endswith('\\'):
num_escapes = match.end(0) - match.start(0)
return '\\' * (num_escapes // 2)
# Single escape character and '@'
elif match.group(0) == backslash_tag:
return start_tag
# Template variable to be replaced
else:
varname = match.group(1)
var_str = ''
if varname in confdata:
var, _ = confdata.get(varname)
if isinstance(var, str):
var_str = var
elif variable_format.startswith("cmake") and isinstance(var, bool):
var_str = str(int(var))
elif isinstance(var, int):
var_str = str(var)
else:
msg = f'Tried to replace variable {varname!r} value with ' \
f'something other than a string or int: {var!r}'
raise MesonException(msg)
else:
missing_variables.add(varname)
return var_str
return re.sub(regex, variable_replace, line), missing_variables
def do_define(regex: T.Pattern[str], line: str, confdata: 'ConfigurationData',
variable_format: Literal['meson', 'cmake', 'cmake@'], subproject: T.Optional[SubProject] = None) -> str:
cmake_bool_define = False
if variable_format != "meson":
cmake_bool_define = "cmakedefine01" in line
def get_cmake_define(line: str, confdata: 'ConfigurationData') -> str:
arr = line.split()
if cmake_bool_define:
(v, desc) = confdata.get(arr[1])
return str(int(bool(v)))
define_value: T.List[str] = []
for token in arr[2:]:
try:
v, _ = confdata.get(token)
define_value += [str(v)]
except KeyError:
define_value += [token]
return ' '.join(define_value)
arr = line.split()
if len(arr) != 2:
if variable_format == 'meson':
raise MesonException('#mesondefine does not contain exactly two tokens: %s' % line.strip())
elif subproject is not None:
from ..interpreterbase.decorators import FeatureNew
FeatureNew.single_use('cmakedefine without exactly two tokens', '0.54.1', subproject)
varname = arr[1]
try:
v, _ = confdata.get(varname)
except KeyError:
if cmake_bool_define:
return '#define %s 0\n' % varname
else:
return '/* #undef %s */\n' % varname
if isinstance(v, str) or variable_format != "meson":
if variable_format == 'meson':
result = v
else:
if not cmake_bool_define and not v:
return '/* #undef %s */\n' % varname
result = get_cmake_define(line, confdata)
result = f'#define {varname} {result}'.strip() + '\n'
result, _ = do_replacement(regex, result, variable_format, confdata)
return result
elif isinstance(v, bool):
if v:
return '#define %s\n' % varname
else:
return '#undef %s\n' % varname
elif isinstance(v, int):
return '#define %s %d\n' % (varname, v)
else:
raise MesonException('#mesondefine argument "%s" is of unknown type.' % varname)
def get_variable_regex(variable_format: Literal['meson', 'cmake', 'cmake@'] = 'meson') -> T.Pattern[str]:
# Only allow (a-z, A-Z, 0-9, _, -) as valid characters for a define
# Also allow escaping '@' with '\@'
if variable_format in {'meson', 'cmake@'}:
regex = re.compile(r'(?:\\\\)+(?=\\?@)|\\@|@([-a-zA-Z0-9_]+)@')
else:
regex = re.compile(r'(?:\\\\)+(?=\\?\$)|\\\${|\${([-a-zA-Z0-9_]+)}')
return regex
def do_conf_str(src: str, data: T.List[str], confdata: 'ConfigurationData',
variable_format: Literal['meson', 'cmake', 'cmake@'],
subproject: T.Optional[SubProject] = None) -> T.Tuple[T.List[str], T.Set[str], bool]:
def line_is_valid(line: str, variable_format: str) -> bool:
if variable_format == 'meson':
if '#cmakedefine' in line:
return False
else: # cmake format
if '#mesondefine' in line:
return False
return True
regex = get_variable_regex(variable_format)
search_token = '#mesondefine'
if variable_format != 'meson':
search_token = '#cmakedefine'
result: T.List[str] = []
missing_variables: T.Set[str] = set()
# Detect when the configuration data is empty and no tokens were found
# during substitution so we can warn the user to use the `copy:` kwarg.
confdata_useless = not confdata.keys()
for line in data:
if line.lstrip().startswith(search_token):
confdata_useless = False
line = do_define(regex, line, confdata, variable_format, subproject)
else:
if not line_is_valid(line, variable_format):
raise MesonException(f'Format error in {src}: saw "{line.strip()}" when format set to "{variable_format}"')
line, missing = do_replacement(regex, line, variable_format, confdata)
missing_variables.update(missing)
if missing:
confdata_useless = False
result.append(line)
return result, missing_variables, confdata_useless
def do_conf_file(src: str, dst: str, confdata: 'ConfigurationData',
variable_format: Literal['meson', 'cmake', 'cmake@'],
encoding: str = 'utf-8', subproject: T.Optional[SubProject] = None) -> T.Tuple[T.Set[str], bool]:
try:
with open(src, encoding=encoding, newline='') as f:
data = f.readlines()
except Exception as e:
raise MesonException(f'Could not read input file {src}: {e!s}')
(result, missing_variables, confdata_useless) = do_conf_str(src, data, confdata, variable_format, subproject)
dst_tmp = dst + '~'
try:
with open(dst_tmp, 'w', encoding=encoding, newline='') as f:
f.writelines(result)
except Exception as e:
raise MesonException(f'Could not write output file {dst}: {e!s}')
shutil.copymode(src, dst_tmp)
replace_if_different(dst, dst_tmp)
return missing_variables, confdata_useless
CONF_C_PRELUDE = '''/*
* Autogenerated by the Meson build system.
* Do not edit, your changes will be lost.
*/
{}
'''
CONF_NASM_PRELUDE = '''; Autogenerated by the Meson build system.
; Do not edit, your changes will be lost.
'''
def _dump_c_header(ofile: T.TextIO,
cdata: ConfigurationData,
output_format: Literal['c', 'nasm'],
macro_name: T.Optional[str]) -> None:
format_desc: T.Callable[[str], str]
if output_format == 'c':
if macro_name:
prelude = CONF_C_PRELUDE.format('#ifndef {0}\n#define {0}'.format(macro_name))
else:
prelude = CONF_C_PRELUDE.format('#pragma once')
prefix = '#'
format_desc = lambda desc: f'/* {desc} */\n'
else: # nasm
prelude = CONF_NASM_PRELUDE
prefix = '%'
format_desc = lambda desc: '; ' + '\n; '.join(desc.splitlines()) + '\n'
ofile.write(prelude)
for k in sorted(cdata.keys()):
(v, desc) = cdata.get(k)
if desc:
ofile.write(format_desc(desc))
if isinstance(v, bool):
if v:
ofile.write(f'{prefix}define {k}\n\n')
else:
ofile.write(f'{prefix}undef {k}\n\n')
elif isinstance(v, (int, str)):
ofile.write(f'{prefix}define {k} {v}\n\n')
else:
raise MesonException('Unknown data type in configuration file entry: ' + k)
if output_format == 'c' and macro_name:
ofile.write('#endif\n')
def dump_conf_header(ofilename: str, cdata: ConfigurationData,
output_format: Literal['c', 'nasm', 'json'],
macro_name: T.Optional[str]) -> None:
ofilename_tmp = ofilename + '~'
with open(ofilename_tmp, 'w', encoding='utf-8') as ofile:
if output_format == 'json':
data = {k: v[0] for k, v in cdata.values.items()}
json.dump(data, ofile, sort_keys=True)
else: # c, nasm
_dump_c_header(ofile, cdata, output_format, macro_name)
replace_if_different(ofilename, ofilename_tmp)
def replace_if_different(dst: str, dst_tmp: str) -> None:
# If contents are identical, don't touch the file to prevent
# unnecessary rebuilds.
different = True
try:
with open(dst, 'rb') as f1, open(dst_tmp, 'rb') as f2:
if f1.read() == f2.read():
different = False
except FileNotFoundError:
pass
if different:
os.replace(dst_tmp, dst)
else:
os.unlink(dst_tmp)
def listify(item: T.Any, flatten: bool = True) -> T.List[T.Any]:
'''
Returns a list with all args embedded in a list if they are not a list.
This function preserves order.
@flatten: Convert lists of lists to a flat list
'''
if not isinstance(item, list):
return [item]
result: T.List[T.Any] = []
for i in item:
if flatten and isinstance(i, list):
result += listify(i, flatten=True)
else:
result.append(i)
return result
def listify_array_value(value: T.Union[str, T.List[str]], shlex_split_args: bool = False) -> T.List[str]:
if isinstance(value, str):
if value.startswith('['):
try:
newvalue = ast.literal_eval(value)
except ValueError:
raise MesonException(f'malformed value {value}')
elif value == '':
newvalue = []
else:
if shlex_split_args:
newvalue = split_args(value)
else:
newvalue = [v.strip() for v in value.split(',')]
elif isinstance(value, list):
newvalue = value
else:
raise MesonException(f'"{value}" should be a string array, but it is not')
assert isinstance(newvalue, list)
return newvalue
def extract_as_list(dict_object: T.Dict[_T, _U], key: _T, pop: bool = False) -> T.List[_U]:
'''
Extracts all values from given dict_object and listifies them.
'''
fetch: T.Callable[[_T], _U] = dict_object.get
if pop:
fetch = dict_object.pop
# If there's only one key, we don't return a list with one element
return listify(fetch(key) or [], flatten=True)
def typeslistify(item: 'T.Union[_T, T.Sequence[_T]]',
types: 'T.Union[T.Type[_T], T.Tuple[T.Type[_T]]]') -> T.List[_T]:
'''
Ensure that type(@item) is one of @types or a
list of items all of which are of type @types
'''
if isinstance(item, types):
item = T.cast('T.List[_T]', [item])
if not isinstance(item, list):
raise MesonException('Item must be a list or one of {!r}, not {!r}'.format(types, type(item)))
for i in item:
if i is not None and not isinstance(i, types):
raise MesonException('List item must be one of {!r}, not {!r}'.format(types, type(i)))
return item
def stringlistify(item: T.Union[T.Any, T.Sequence[T.Any]]) -> T.List[str]:
return typeslistify(item, str)
def expand_arguments(args: T.Iterable[str]) -> T.Optional[T.List[str]]:
expended_args: T.List[str] = []
for arg in args:
if not arg.startswith('@'):
expended_args.append(arg)
continue
args_file = arg[1:]
try:
with open(args_file, encoding='utf-8') as f:
extended_args = f.read().split()
expended_args += extended_args
except Exception as e:
mlog.error('Expanding command line arguments:', args_file, 'not found')
mlog.exception(e)
return None
return expended_args
def partition(pred: T.Callable[[_T], object], iterable: T.Iterable[_T]) -> T.Tuple[T.Iterator[_T], T.Iterator[_T]]:
"""Use a predicate to partition entries into false entries and true
entries.
>>> x, y = partition(is_odd, range(10))
>>> (list(x), list(y))
([0, 2, 4, 6, 8], [1, 3, 5, 7, 9])
"""
t1, t2 = tee(iterable)
return (t for t in t1 if not pred(t)), (t for t in t2 if pred(t))
def Popen_safe(args: T.List[str], write: T.Optional[str] = None,
stdin: T.Union[None, T.TextIO, T.BinaryIO, int] = subprocess.DEVNULL,
stdout: T.Union[None, T.TextIO, T.BinaryIO, int] = subprocess.PIPE,
stderr: T.Union[None, T.TextIO, T.BinaryIO, int] = subprocess.PIPE,
**kwargs: T.Any) -> T.Tuple['subprocess.Popen[str]', str, str]:
import locale
encoding = locale.getpreferredencoding()
# Stdin defaults to DEVNULL otherwise the command run by us here might mess
# up the console and ANSI colors will stop working on Windows.
# If write is not None, set stdin to PIPE so data can be sent.
if write is not None:
stdin = subprocess.PIPE
try:
if not sys.stdout.encoding or encoding.upper() != 'UTF-8':
p, o, e = Popen_safe_legacy(args, write=write, stdin=stdin, stdout=stdout, stderr=stderr, **kwargs)
else:
p = subprocess.Popen(args, universal_newlines=True, encoding=encoding, close_fds=False,
stdin=stdin, stdout=stdout, stderr=stderr, **kwargs)
o, e = p.communicate(write)
except OSError as oserr:
if oserr.errno == errno.ENOEXEC:
raise MesonException(f'Failed running {args[0]!r}, binary or interpreter not executable.\n'
'Possibly wrong architecture or the executable bit is not set.')
raise
# Sometimes the command that we run will call another command which will be
# without the above stdin workaround, so set the console mode again just in
# case.
mlog.setup_console()
return p, o, e
def Popen_safe_legacy(args: T.List[str], write: T.Optional[str] = None,
stdin: T.Union[None, T.TextIO, T.BinaryIO, int] = subprocess.DEVNULL,
stdout: T.Union[None, T.TextIO, T.BinaryIO, int] = subprocess.PIPE,
stderr: T.Union[None, T.TextIO, T.BinaryIO, int] = subprocess.PIPE,
**kwargs: T.Any) -> T.Tuple['subprocess.Popen[str]', str, str]:
p = subprocess.Popen(args, universal_newlines=False, close_fds=False,
stdin=stdin, stdout=stdout, stderr=stderr, **kwargs)
input_: T.Optional[bytes] = None
if write is not None:
input_ = write.encode('utf-8')
o, e = p.communicate(input_)
if o is not None:
if sys.stdout.encoding is not None:
o = o.decode(encoding=sys.stdout.encoding, errors='replace').replace('\r\n', '\n')
else:
o = o.decode(errors='replace').replace('\r\n', '\n')
if e is not None:
if sys.stderr is not None and sys.stderr.encoding:
e = e.decode(encoding=sys.stderr.encoding, errors='replace').replace('\r\n', '\n')
else:
e = e.decode(errors='replace').replace('\r\n', '\n')
return p, o, e
def Popen_safe_logged(args: T.List[str], msg: str = 'Called', **kwargs: T.Any) -> T.Tuple['subprocess.Popen[str]', str, str]:
'''
Wrapper around Popen_safe that assumes standard piped o/e and logs this to the meson log.
'''
try:
p, o, e = Popen_safe(args, **kwargs)
except Exception as excp:
mlog.debug('-----------')
mlog.debug(f'{msg}: `{join_args(args)}` -> {excp}')
raise
rc, out, err = p.returncode, o.strip() if o else None, e.strip() if e else None
mlog.debug('-----------')
mlog.debug(f'{msg}: `{join_args(args)}` -> {rc}')
if out:
mlog.debug(f'stdout:\n{out}\n-----------')
if err:
mlog.debug(f'stderr:\n{err}\n-----------')
return p, o, e
def iter_regexin_iter(regexiter: T.Iterable[str], initer: T.Iterable[str]) -> T.Optional[str]:
'''
Takes each regular expression in @regexiter and tries to search for it in
every item in @initer. If there is a match, returns that match.
Else returns False.
'''
for regex in regexiter:
for ii in initer:
if not isinstance(ii, str):
continue
match = re.search(regex, ii)
if match:
return match.group()
return None
def _substitute_values_check_errors(command: T.List[str], values: T.Dict[str, T.Union[str, T.List[str]]]) -> None:
# Error checking
inregex: T.List[str] = ['@INPUT([0-9]+)?@', '@PLAINNAME@', '@BASENAME@']
outregex: T.List[str] = ['@OUTPUT([0-9]+)?@', '@OUTDIR@']
if '@INPUT@' not in values:
# Error out if any input-derived templates are present in the command
match = iter_regexin_iter(inregex, command)
if match:
raise MesonException(f'Command cannot have {match!r}, since no input files were specified')
else:
if len(values['@INPUT@']) > 1:
# Error out if @PLAINNAME@ or @BASENAME@ is present in the command
match = iter_regexin_iter(inregex[1:], command)
if match:
raise MesonException(f'Command cannot have {match!r} when there is '
'more than one input file')
# Error out if an invalid @INPUTnn@ template was specified
for each in command:
if not isinstance(each, str):
continue
match2 = re.search(inregex[0], each)
if match2 and match2.group() not in values:
m = 'Command cannot have {!r} since there are only {!r} inputs'
raise MesonException(m.format(match2.group(), len(values['@INPUT@'])))
if '@OUTPUT@' not in values:
# Error out if any output-derived templates are present in the command
match = iter_regexin_iter(outregex, command)
if match:
raise MesonException(f'Command cannot have {match!r} since there are no outputs')
else:
# Error out if an invalid @OUTPUTnn@ template was specified
for each in command:
if not isinstance(each, str):
continue
match2 = re.search(outregex[0], each)
if match2 and match2.group() not in values:
m = 'Command cannot have {!r} since there are only {!r} outputs'
raise MesonException(m.format(match2.group(), len(values['@OUTPUT@'])))
def substitute_values(command: T.List[str], values: T.Dict[str, T.Union[str, T.List[str]]]) -> T.List[str]:
'''
Substitute the template strings in the @values dict into the list of
strings @command and return a new list. For a full list of the templates,
see get_filenames_templates_dict()
If multiple inputs/outputs are given in the @values dictionary, we
substitute @INPUT@ and @OUTPUT@ only if they are the entire string, not
just a part of it, and in that case we substitute *all* of them.
The typing of this function is difficult, as only @OUTPUT@ and @INPUT@ can
be lists, everything else is a string. However, TypeDict cannot represent
this, as you can have optional keys, but not extra keys. We end up just
having to us asserts to convince type checkers that this is okay.
https://github.com/python/mypy/issues/4617
'''
def replace(m: T.Match[str]) -> str:
v = values[m.group(0)]
assert isinstance(v, str), 'for mypy'
return v
# Error checking
_substitute_values_check_errors(command, values)
# Substitution
outcmd: T.List[str] = []
rx_keys = [re.escape(key) for key in values if key not in ('@INPUT@', '@OUTPUT@')]
value_rx = re.compile('|'.join(rx_keys)) if rx_keys else None
for vv in command:
more: T.Optional[str] = None
if not isinstance(vv, str):
outcmd.append(vv)
elif '@INPUT@' in vv:
inputs = values['@INPUT@']
if vv == '@INPUT@':
outcmd += inputs
elif len(inputs) == 1:
outcmd.append(vv.replace('@INPUT@', inputs[0]))
else:
raise MesonException("Command has '@INPUT@' as part of a "
"string and more than one input file")
elif '@OUTPUT@' in vv:
outputs = values['@OUTPUT@']
if vv == '@OUTPUT@':
outcmd += outputs
elif len(outputs) == 1:
outcmd.append(vv.replace('@OUTPUT@', outputs[0]))
else:
raise MesonException("Command has '@OUTPUT@' as part of a "
"string and more than one output file")
# Append values that are exactly a template string.
# This is faster than a string replace.
elif vv in values:
o = values[vv]
assert isinstance(o, str), 'for mypy'
more = o
# Substitute everything else with replacement
elif value_rx:
more = value_rx.sub(replace, vv)
else:
more = vv
if more is not None:
outcmd.append(more)
return outcmd
def get_filenames_templates_dict(inputs: T.List[str], outputs: T.List[str]) -> T.Dict[str, T.Union[str, T.List[str]]]:
'''
Create a dictionary with template strings as keys and values as values for
the following templates:
@INPUT@ - the full path to one or more input files, from @inputs
@OUTPUT@ - the full path to one or more output files, from @outputs
@OUTDIR@ - the full path to the directory containing the output files
If there is only one input file, the following keys are also created:
@PLAINNAME@ - the filename of the input file
@BASENAME@ - the filename of the input file with the extension removed
If there is more than one input file, the following keys are also created:
@INPUT0@, @INPUT1@, ... one for each input file
If there is more than one output file, the following keys are also created:
@OUTPUT0@, @OUTPUT1@, ... one for each output file
'''
values: T.Dict[str, T.Union[str, T.List[str]]] = {}
# Gather values derived from the input
if inputs:
# We want to substitute all the inputs.
values['@INPUT@'] = inputs
for (ii, vv) in enumerate(inputs):
# Write out @INPUT0@, @INPUT1@, ...
values[f'@INPUT{ii}@'] = vv
if len(inputs) == 1:
# Just one value, substitute @PLAINNAME@ and @BASENAME@
values['@PLAINNAME@'] = plain = os.path.basename(inputs[0])
values['@BASENAME@'] = os.path.splitext(plain)[0]
if outputs:
# Gather values derived from the outputs, similar to above.
values['@OUTPUT@'] = outputs
for (ii, vv) in enumerate(outputs):
values[f'@OUTPUT{ii}@'] = vv
# Outdir should be the same for all outputs
values['@OUTDIR@'] = os.path.dirname(outputs[0])
# Many external programs fail on empty arguments.
if values['@OUTDIR@'] == '':
values['@OUTDIR@'] = '.'
return values
def _make_tree_writable(topdir: str) -> None:
# Ensure all files and directories under topdir are writable
# (and readable) by owner.
for d, _, files in os.walk(topdir):
os.chmod(d, os.stat(d).st_mode | stat.S_IWRITE | stat.S_IREAD)
for fname in files:
fpath = os.path.join(d, fname)
if os.path.isfile(fpath):
os.chmod(fpath, os.stat(fpath).st_mode | stat.S_IWRITE | stat.S_IREAD)
def windows_proof_rmtree(f: str) -> None:
# On Windows if anyone is holding a file open you can't
# delete it. As an example an anti virus scanner might
# be scanning files you are trying to delete. The only
# way to fix this is to try again and again.
delays = [0.1, 0.1, 0.2, 0.2, 0.2, 0.5, 0.5, 1, 1, 1, 1, 2]
writable = False
for d in delays:
try:
# Start by making the tree writable.
if not writable:
_make_tree_writable(f)
writable = True
except PermissionError:
time.sleep(d)
continue
try:
shutil.rmtree(f)
return
except FileNotFoundError:
return
except OSError:
time.sleep(d)
# Try one last time and throw if it fails.
shutil.rmtree(f)
def windows_proof_rm(fpath: str) -> None:
"""Like windows_proof_rmtree, but for a single file."""
if os.path.isfile(fpath):
os.chmod(fpath, os.stat(fpath).st_mode | stat.S_IWRITE | stat.S_IREAD)
delays = [0.1, 0.1, 0.2, 0.2, 0.2, 0.5, 0.5, 1, 1, 1, 1, 2]
for d in delays:
try:
os.unlink(fpath)
return
except FileNotFoundError:
return
except OSError:
time.sleep(d)
os.unlink(fpath)
class TemporaryDirectoryWinProof(TemporaryDirectory):
"""
Like TemporaryDirectory, but cleans things up using
windows_proof_rmtree()
"""
def __exit__(self, exc: T.Any, value: T.Any, tb: T.Any) -> None:
try:
super().__exit__(exc, value, tb)
except OSError:
windows_proof_rmtree(self.name)
def cleanup(self) -> None:
try:
super().cleanup()
except OSError:
windows_proof_rmtree(self.name)
def detect_subprojects(spdir_name: str, current_dir: str = '',
result: T.Optional[T.Dict[str, T.List[str]]] = None) -> T.Dict[str, T.List[str]]:
if result is None:
result = {}
spdir = os.path.join(current_dir, spdir_name)
if not os.path.exists(spdir):
return result
for trial in glob(os.path.join(spdir, '*')):
basename = os.path.basename(trial)
if trial == 'packagecache':
continue
append_this = True
if os.path.isdir(trial):
detect_subprojects(spdir_name, trial, result)
elif trial.endswith('.wrap') and os.path.isfile(trial):
basename = os.path.splitext(basename)[0]
else:
append_this = False
if append_this:
if basename in result:
result[basename].append(trial)
else:
result[basename] = [trial]
return result
def substring_is_in_list(substr: str, strlist: T.List[str]) -> bool:
for s in strlist:
if substr in s:
return True
return False
class OrderedSet(T.MutableSet[_T]):
"""A set that preserves the order in which items are added, by first
insertion.
"""
def __init__(self, iterable: T.Optional[T.Iterable[_T]] = None):
self.__container: T.OrderedDict[_T, None] = collections.OrderedDict()
if iterable:
self.update(iterable)
def __contains__(self, value: object) -> bool:
return value in self.__container
def __iter__(self) -> T.Iterator[_T]:
return iter(self.__container.keys())
def __len__(self) -> int:
return len(self.__container)
def __repr__(self) -> str:
# Don't print 'OrderedSet("")' for an empty set.
if self.__container:
return 'OrderedSet([{}])'.format(
', '.join(repr(e) for e in self.__container.keys()))
return 'OrderedSet()'
def __reversed__(self) -> T.Iterator[_T]:
return reversed(self.__container.keys())
def add(self, value: _T) -> None:
self.__container[value] = None
def discard(self, value: _T) -> None:
if value in self.__container:
del self.__container[value]
def move_to_end(self, value: _T, last: bool = True) -> None:
self.__container.move_to_end(value, last)
def pop(self, last: bool = True) -> _T:
item, _ = self.__container.popitem(last)
return item
def update(self, iterable: T.Iterable[_T]) -> None:
for item in iterable:
self.__container[item] = None
def difference(self, set_: T.Iterable[_T]) -> 'OrderedSet[_T]':
return type(self)(e for e in self if e not in set_)
def difference_update(self, iterable: T.Iterable[_T]) -> None:
for item in iterable:
self.discard(item)
def relpath(path: T.Union[str, Path], start: T.Union[str, Path]) -> str:
# On Windows a relative path can't be evaluated for paths on two different
# drives (i.e. c:\foo and f:\bar). The only thing left to do is to use the
# original absolute path.
try:
return os.path.relpath(path, start)
except (TypeError, ValueError):
return str(path)
def path_is_in_root(path: Path, root: Path, resolve: bool = False) -> bool:
# Check whether a path is within the root directory root
try:
if resolve:
path.resolve().relative_to(root.resolve())
else:
path.relative_to(root)
except ValueError:
return False
return True
def relative_to_if_possible(path: Path, root: Path, resolve: bool = False) -> Path:
try:
if resolve:
return path.resolve().relative_to(root.resolve())
else:
return path.relative_to(root)
except ValueError:
return path
class LibType(enum.IntEnum):
"""Enumeration for library types."""
SHARED = 0
STATIC = 1
PREFER_SHARED = 2
PREFER_STATIC = 3
class ProgressBarFallback: # lgtm [py/iter-returns-non-self]
'''
Fallback progress bar implementation when tqdm is not found
Since this class is not an actual iterator, but only provides a minimal
fallback, it is safe to ignore the 'Iterator does not return self from
__iter__ method' warning.
'''
def __init__(self, iterable: T.Optional[T.Iterable[str]] = None, total: T.Optional[int] = None,
bar_type: T.Optional[str] = None, desc: T.Optional[str] = None,
disable: T.Optional[bool] = None):
if iterable is not None:
self.iterable = iter(iterable)
return
self.total = total
self.done = 0
self.printed_dots = 0
self.disable = not mlog.colorize_console() if disable is None else disable
if not self.disable:
if self.total and bar_type == 'download':
print('Download size:', self.total)
if desc:
print(f'{desc}: ', end='')
# Pretend to be an iterator when called as one and don't print any
# progress
def __iter__(self) -> T.Iterator[str]:
return self.iterable
def __next__(self) -> str:
return next(self.iterable)
def print_dot(self) -> None:
if not self.disable:
print('.', end='')
sys.stdout.flush()
self.printed_dots += 1
def update(self, progress: int) -> None:
self.done += progress
if not self.total:
# Just print one dot per call if we don't have a total length
self.print_dot()
return
ratio = int(self.done / self.total * 10)
while self.printed_dots < ratio:
self.print_dot()
def close(self) -> None:
if not self.disable:
print()
try:
from tqdm import tqdm
except ImportError:
# ideally we would use a typing.Protocol here, but it's part of typing_extensions until 3.8
ProgressBar: T.Union[T.Type[ProgressBarFallback], T.Type[ProgressBarTqdm]] = ProgressBarFallback
else:
class ProgressBarTqdm(tqdm):
def __init__(self, *args: T.Any, bar_type: T.Optional[str] = None, **kwargs: T.Any) -> None:
if bar_type == 'download':
kwargs.update({'unit': 'B',
'unit_scale': True,
'unit_divisor': 1024,
'leave': True,
'bar_format': '{l_bar}{bar}| {n_fmt}/{total_fmt} {rate_fmt} eta {remaining}',
})
else:
kwargs.update({'leave': False,
'bar_format': '{l_bar}{bar}| {n_fmt}/{total_fmt} eta {remaining}',
})
super().__init__(*args, **kwargs)
ProgressBar = ProgressBarTqdm
class RealPathAction(argparse.Action):
def __init__(self, option_strings: T.List[str], dest: str, default: str = '.', **kwargs: T.Any):
default = os.path.abspath(os.path.realpath(default))
super().__init__(option_strings, dest, nargs=None, default=default, **kwargs)
def __call__(self, parser: argparse.ArgumentParser, namespace: argparse.Namespace,
values: T.Union[str, T.Sequence[T.Any], None], option_string: T.Optional[str] = None) -> None:
assert isinstance(values, str)
setattr(namespace, self.dest, os.path.abspath(os.path.realpath(values)))
def get_wine_shortpath(winecmd: T.List[str], wine_paths: T.List[str],
workdir: T.Optional[str] = None) -> str:
'''
WINEPATH size is limited to 1024 bytes which can easily be exceeded when
adding the path to every dll inside build directory. See
https://bugs.winehq.org/show_bug.cgi?id=45810.
To shorten it as much as possible we use path relative to `workdir`
where possible and convert absolute paths to Windows shortpath (e.g.
"/usr/x86_64-w64-mingw32/lib" to "Z:\\usr\\X86_~FWL\\lib").
This limitation reportedly has been fixed with wine >= 6.4
'''
# Remove duplicates
wine_paths = list(OrderedSet(wine_paths))
# Check if it's already short enough
wine_path = ';'.join(wine_paths)
if len(wine_path) <= 1024:
return wine_path
# Check if we have wine >= 6.4
from ..programs import ExternalProgram
wine = ExternalProgram('wine', winecmd, silent=True)
if version_compare(wine.get_version(), '>=6.4'):
return wine_path
# Check paths that can be reduced by making them relative to workdir.
rel_paths: T.List[str] = []
if workdir:
abs_paths: T.List[str] = []
for p in wine_paths:
try:
rel = Path(p).relative_to(workdir)
rel_paths.append(str(rel))
except ValueError:
abs_paths.append(p)
wine_paths = abs_paths
if wine_paths:
# BAT script that takes a list of paths in argv and prints semi-colon separated shortpaths
with NamedTemporaryFile('w', suffix='.bat', encoding='utf-8', delete=False) as bat_file:
bat_file.write('''
@ECHO OFF
for %%x in (%*) do (
echo|set /p=;%~sx
)
''')
try:
stdout = subprocess.check_output(winecmd + ['cmd', '/C', bat_file.name] + wine_paths,
encoding='utf-8', stderr=subprocess.DEVNULL)
stdout = stdout.strip(';')
if stdout:
wine_paths = stdout.split(';')
else:
mlog.warning('Could not shorten WINEPATH: empty stdout')
except subprocess.CalledProcessError as e:
mlog.warning(f'Could not shorten WINEPATH: {str(e)}')
finally:
os.unlink(bat_file.name)
wine_path = ';'.join(rel_paths + wine_paths)
if len(wine_path) > 1024:
mlog.warning('WINEPATH exceeds 1024 characters which could cause issues')
return wine_path
def run_once(func: T.Callable[..., _T]) -> T.Callable[..., _T]:
ret: T.List[_T] = []
@wraps(func)
def wrapper(*args: T.Any, **kwargs: T.Any) -> _T:
if ret:
return ret[0]
val = func(*args, **kwargs)
ret.append(val)
return val
return wrapper
def generate_list(func: T.Callable[..., T.Generator[_T, None, None]]) -> T.Callable[..., T.List[_T]]:
@wraps(func)
def wrapper(*args: T.Any, **kwargs: T.Any) -> T.List[_T]:
return list(func(*args, **kwargs))
return wrapper
class OptionType(enum.IntEnum):
"""Enum used to specify what kind of argument a thing is."""
BUILTIN = 0
BACKEND = 1
BASE = 2
COMPILER = 3
PROJECT = 4
# This is copied from coredata. There is no way to share this, because this
# is used in the OptionKey constructor, and the coredata lists are
# OptionKeys...
_BUILTIN_NAMES = {
'prefix',
'bindir',
'datadir',
'includedir',
'infodir',
'libdir',
'licensedir',
'libexecdir',
'localedir',
'localstatedir',
'mandir',
'sbindir',
'sharedstatedir',
'sysconfdir',
'auto_features',
'backend',
'buildtype',
'debug',
'default_library',
'errorlogs',
'genvslite',
'install_umask',
'layout',
'optimization',
'prefer_static',
'stdsplit',
'strip',
'unity',
'unity_size',
'warning_level',
'werror',
'wrap_mode',
'force_fallback_for',
'pkg_config_path',
'cmake_prefix_path',
'vsenv',
}
def _classify_argument(key: 'OptionKey') -> OptionType:
"""Classify arguments into groups so we know which dict to assign them to."""
if key.name.startswith('b_'):
return OptionType.BASE
elif key.lang is not None:
return OptionType.COMPILER
elif key.name in _BUILTIN_NAMES or key.module:
return OptionType.BUILTIN
elif key.name.startswith('backend_'):
assert key.machine is MachineChoice.HOST, str(key)
return OptionType.BACKEND
else:
assert key.machine is MachineChoice.HOST, str(key)
return OptionType.PROJECT
@total_ordering
class OptionKey:
"""Represents an option key in the various option dictionaries.
This provides a flexible, powerful way to map option names from their
external form (things like subproject:build.option) to something that
internally easier to reason about and produce.
"""
__slots__ = ['name', 'subproject', 'machine', 'lang', '_hash', 'type', 'module']
name: str
subproject: str
machine: MachineChoice
lang: T.Optional[str]
_hash: int
type: OptionType
module: T.Optional[str]
def __init__(self, name: str, subproject: str = '',
machine: MachineChoice = MachineChoice.HOST,
lang: T.Optional[str] = None,
module: T.Optional[str] = None,
_type: T.Optional[OptionType] = None):
# the _type option to the constructor is kinda private. We want to be
# able tos ave the state and avoid the lookup function when
# pickling/unpickling, but we need to be able to calculate it when
# constructing a new OptionKey
object.__setattr__(self, 'name', name)
object.__setattr__(self, 'subproject', subproject)
object.__setattr__(self, 'machine', machine)
object.__setattr__(self, 'lang', lang)
object.__setattr__(self, 'module', module)
object.__setattr__(self, '_hash', hash((name, subproject, machine, lang, module)))
if _type is None:
_type = _classify_argument(self)
object.__setattr__(self, 'type', _type)
def __setattr__(self, key: str, value: T.Any) -> None:
raise AttributeError('OptionKey instances do not support mutation.')
def __getstate__(self) -> T.Dict[str, T.Any]:
return {
'name': self.name,
'subproject': self.subproject,
'machine': self.machine,
'lang': self.lang,
'_type': self.type,
'module': self.module,
}
def __setstate__(self, state: T.Dict[str, T.Any]) -> None:
"""De-serialize the state of a pickle.
This is very clever. __init__ is not a constructor, it's an
initializer, therefore it's safe to call more than once. We create a
state in the custom __getstate__ method, which is valid to pass
splatted to the initializer.
"""
# Mypy doesn't like this, because it's so clever.
self.__init__(**state) # type: ignore
def __hash__(self) -> int:
return self._hash
def _to_tuple(self) -> T.Tuple[str, OptionType, str, str, MachineChoice, str]:
return (self.subproject, self.type, self.lang or '', self.module or '', self.machine, self.name)
def __eq__(self, other: object) -> bool:
if isinstance(other, OptionKey):
return self._to_tuple() == other._to_tuple()
return NotImplemented
def __lt__(self, other: object) -> bool:
if isinstance(other, OptionKey):
return self._to_tuple() < other._to_tuple()
return NotImplemented
def __str__(self) -> str:
out = self.name
if self.lang:
out = f'{self.lang}_{out}'
if self.machine is MachineChoice.BUILD:
out = f'build.{out}'
if self.module:
out = f'{self.module}.{out}'
if self.subproject:
out = f'{self.subproject}:{out}'
return out
def __repr__(self) -> str:
return f'OptionKey({self.name!r}, {self.subproject!r}, {self.machine!r}, {self.lang!r}, {self.module!r}, {self.type!r})'
@classmethod
def from_string(cls, raw: str) -> 'OptionKey':
"""Parse the raw command line format into a three part tuple.
This takes strings like `mysubproject:build.myoption` and Creates an
OptionKey out of them.
"""
try:
subproject, raw2 = raw.split(':')
except ValueError:
subproject, raw2 = '', raw
module = None
for_machine = MachineChoice.HOST
try:
prefix, raw3 = raw2.split('.')
if prefix == 'build':
for_machine = MachineChoice.BUILD
else:
module = prefix
except ValueError:
raw3 = raw2
from ..compilers import all_languages
if any(raw3.startswith(f'{l}_') for l in all_languages):
lang, opt = raw3.split('_', 1)
else:
lang, opt = None, raw3
assert ':' not in opt
assert '.' not in opt
return cls(opt, subproject, for_machine, lang, module)
def evolve(self, name: T.Optional[str] = None, subproject: T.Optional[str] = None,
machine: T.Optional[MachineChoice] = None, lang: T.Optional[str] = '',
module: T.Optional[str] = '') -> 'OptionKey':
"""Create a new copy of this key, but with altered members.
For example:
>>> a = OptionKey('foo', '', MachineChoice.Host)
>>> b = OptionKey('foo', 'bar', MachineChoice.Host)
>>> b == a.evolve(subproject='bar')
True
"""
# We have to be a little clever with lang here, because lang is valid
# as None, for non-compiler options
return OptionKey(
name if name is not None else self.name,
subproject if subproject is not None else self.subproject,
machine if machine is not None else self.machine,
lang if lang != '' else self.lang,
module if module != '' else self.module
)
def as_root(self) -> 'OptionKey':
"""Convenience method for key.evolve(subproject='')."""
return self.evolve(subproject='')
def as_build(self) -> 'OptionKey':
"""Convenience method for key.evolve(machine=MachineChoice.BUILD)."""
return self.evolve(machine=MachineChoice.BUILD)
def as_host(self) -> 'OptionKey':
"""Convenience method for key.evolve(machine=MachineChoice.HOST)."""
return self.evolve(machine=MachineChoice.HOST)
def is_backend(self) -> bool:
"""Convenience method to check if this is a backend option."""
return self.type is OptionType.BACKEND
def is_builtin(self) -> bool:
"""Convenience method to check if this is a builtin option."""
return self.type is OptionType.BUILTIN
def is_compiler(self) -> bool:
"""Convenience method to check if this is a builtin option."""
return self.type is OptionType.COMPILER
def is_project(self) -> bool:
"""Convenience method to check if this is a project option."""
return self.type is OptionType.PROJECT
def is_base(self) -> bool:
"""Convenience method to check if this is a base option."""
return self.type is OptionType.BASE
def pickle_load(filename: str, object_name: str, object_type: T.Type[_PL], suggest_reconfigure: bool = True) -> _PL:
load_fail_msg = f'{object_name} file {filename!r} is corrupted.'
extra_msg = ' Consider reconfiguring the directory with "meson setup --reconfigure".' if suggest_reconfigure else ''
try:
with open(filename, 'rb') as f:
obj = pickle.load(f)
except (pickle.UnpicklingError, EOFError):
raise MesonException(load_fail_msg + extra_msg)
except (TypeError, ModuleNotFoundError, AttributeError):
raise MesonException(
f"{object_name} file {filename!r} references functions or classes that don't "
"exist. This probably means that it was generated with an old "
"version of meson." + extra_msg)
if not isinstance(obj, object_type):
raise MesonException(load_fail_msg + extra_msg)
# Because these Protocols are not available at runtime (and cannot be made
# available at runtime until we drop support for Python < 3.8), we have to
# do a bit of hackery so that mypy understands what's going on here
version: str
if hasattr(obj, 'version'):
version = T.cast('_VerPickleLoadable', obj).version
else:
version = T.cast('_EnvPickleLoadable', obj).environment.coredata.version
from ..coredata import version as coredata_version
from ..coredata import major_versions_differ, MesonVersionMismatchException
if major_versions_differ(version, coredata_version):
raise MesonVersionMismatchException(version, coredata_version, extra_msg)
return obj
def first(iter: T.Iterable[_T], predicate: T.Callable[[_T], bool]) -> T.Optional[_T]:
"""Find the first entry in an iterable where the given predicate is true
:param iter: The iterable to search
:param predicate: A finding function that takes an element from the iterable
and returns True if found, otherwise False
:return: The first found element, or None if it is not found
"""
for i in iter:
if predicate(i):
return i
return None