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setup.py
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setup.py
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#-----------------------------------------------------------------------------
# Copyright (c) 2005-2023, PyInstaller Development Team.
#
# Distributed under the terms of the GNU General Public License (version 2
# or later) with exception for distributing the bootloader.
#
# The full license is in the file COPYING.txt, distributed with this software.
#
# SPDX-License-Identifier: (GPL-2.0-or-later WITH Bootloader-exception)
#-----------------------------------------------------------------------------
import sys
import os
import subprocess
from typing import Type
from setuptools import setup
#-- plug-in building the bootloader
from distutils.core import Command
from distutils.command.build import build
# Hack that prevents PyInstaller.compat from failing due to unmet run-time dependencies (importlib-metadata on
# python < 3.10, pywin32-ctypes on Windows). These dependencies are not required for the subset of functionality that is
# used here in the `setup.py`.
os.environ["_PYINSTALLER_SETUP_PY"] = "1"
try:
from wheel.bdist_wheel import bdist_wheel
except ImportError:
raise SystemExit("Error: Building wheels requires the 'wheel' package. Please `pip install wheel` then try again.")
class build_bootloader(Command):
"""
Wrapper for distutil command `build`.
"""
user_options = []
def initialize_options(self):
pass
def finalize_options(self):
pass
def bootloader_exists(self):
# Checks if the console, non-debug bootloader exists
from PyInstaller import HOMEPATH, PLATFORM
from PyInstaller.compat import is_win, is_cygwin
exe = 'run'
if is_win or is_cygwin:
exe = 'run.exe'
exe = os.path.join(HOMEPATH, 'PyInstaller', 'bootloader', PLATFORM, exe)
return os.path.isfile(exe)
def compile_bootloader(self):
import subprocess
from PyInstaller import HOMEPATH
src_dir = os.path.join(HOMEPATH, 'bootloader')
additional_args = os.getenv('PYINSTALLER_BOOTLOADER_WAF_ARGS', '').strip().split()
cmd = [sys.executable, './waf', 'configure', 'all']
cmd += additional_args
rc = subprocess.call(cmd, cwd=src_dir)
if rc:
raise SystemExit('ERROR: Failed compiling the bootloader. Please compile manually and rerun setup.py')
def run(self):
if getattr(self, 'dry_run', False):
return
if self.bootloader_exists() and not os.environ.get("PYINSTALLER_COMPILE_BOOTLOADER"):
return
print(
'No precompiled bootloader found or compile forced. Trying to compile the bootloader for you ...',
file=sys.stderr
)
self.compile_bootloader()
class MyBuild(build):
# plug `build_bootloader` into the `build` command
def run(self):
self.run_command('build_bootloader')
build.run(self)
# --- Builder classes for separate per-platform wheels. ---
class Wheel(bdist_wheel):
"""
Base class for building a wheel for one platform, collecting only the relevant bootloaders for that platform.
"""
# The setuptools platform tag.
PLAT_NAME = "manylinux2014_x86_64"
# The folder of bootloaders from PyInstaller/bootloaders to include.
PYI_PLAT_NAME = "Linux-64bit-intel"
ICON_TYPES = []
def finalize_options(self):
# Inject the platform name.
self.plat_name = self.PLAT_NAME
self.plat_name_supplied = True
if not self.has_bootloaders():
raise SystemExit(
f"Error: No bootloaders for {self.PLAT_NAME} found in {self.bootloaders_dir()}. See "
f"https://pyinstaller.readthedocs.io/en/stable/bootloader-building.html for how to compile them."
)
self.distribution.package_data = {
"PyInstaller": [
# And add the correct bootloaders as data files.
f"bootloader/{self.PYI_PLAT_NAME}/*",
*(f"bootloader/images/*.{suffix}" for suffix in self.ICON_TYPES),
# These files need to be explicitly included as well.
"fake-modules/*.py",
"fake-modules/_pyi_rth_utils/*.py",
"hooks/rthooks.dat",
"lib/README.rst",
],
}
super().finalize_options()
def run(self):
# Note that 'clean' relies on clean::all=1 being set in the `setup.cfg` or the build cache "leaks" into
# subsequently built wheels.
self.run_command("clean")
super().run()
@classmethod
def bootloaders_dir(cls):
"""
Locate the bootloader folder inside the PyInstaller package.
"""
return f"PyInstaller/bootloader/{cls.PYI_PLAT_NAME}"
@classmethod
def has_bootloaders(cls):
"""
Does the bootloader folder exist and is there anything in it?
"""
dir = cls.bootloaders_dir()
return os.path.exists(dir) and len(os.listdir(dir))
# Map PyInstaller platform names to their setuptools counterparts. Other OSs can be added as and when we start shipping
# wheels for them.
PLATFORMS = {
"Windows-64bit-intel": "win_amd64",
"Windows-32bit-intel": "win32",
"Windows-64bit-arm": "win_arm64",
# The manylinux version tag depends on the glibc version compiled against. If we ever change the docker image used
# to build the bootloaders, we must check/update this tag. These are the only architectures currently supported
# by manylinux. Other platforms must use the generic bdist_wheel command, which will produce a wheel that is not
# allowed on PyPI.
"Linux-64bit-intel": "manylinux2014_x86_64",
"Linux-32bit-intel": "manylinux2014_i686",
"Linux-64bit-arm": "manylinux2014_aarch64",
"Linux-64bit-ppc": "manylinux2014_ppc64le",
"Linux-64bit-s390x": "manylinux2014_s390x",
"Linux-64bit-intel-musl": "musllinux_1_1_x86_64",
"Linux-64bit-arm-musl": "musllinux_1_1_aarch64",
# macOS needs special handling. This gets done dynamically later.
"Darwin-64bit": None,
}
# Create a subclass of Wheel() for each platform.
wheel_commands = {}
for (pyi_plat_name, plat_name) in PLATFORMS.items():
# This is the name it will have on the setup.py command line.
command_name = "wheel_" + pyi_plat_name.replace("-", "_").lower()
# Create and register the subclass, overriding the PLAT_NAME and PYI_PLAT_NAME attributes.
platform = {"PLAT_NAME": plat_name, "PYI_PLAT_NAME": pyi_plat_name}
command: Type[Wheel] = type(command_name, (Wheel,), platform)
command.description = f"Create a {command.PYI_PLAT_NAME} wheel"
wheel_commands[command_name] = command
class bdist_macos(wheel_commands["wheel_darwin_64bit"]):
def finalize_options(self):
"""
Choose a platform tag that reflects the platform of the bootloaders.
Namely:
* The minimum supported macOS version should mirror that of the bootloaders.
* The architecture should similarly mirror the bootloader architecture(s).
"""
try:
from PyInstaller.utils.osx import get_binary_architectures, macosx_version_min
except ImportError:
raise SystemExit(
"Building wheels for macOS requires that PyInstaller and macholib be installed. Please run:\n"
" pip install -e . macholib"
)
bootloader = os.path.join(self.bootloaders_dir(), "run")
is_fat, architectures = get_binary_architectures(bootloader)
if is_fat and sorted(architectures) == ["arm64", "x86_64"]:
# An arm64 + x86_64 dual architecture binary gets the special name universal2.
architectures = "universal2"
else:
# It is unlikely that there will be other multi-architecture types, but if one crops up, the syntax is to
# join them with underscores.
architectures = "_".join(architectures)
# Fetch the macOS deployment target the bootloaders are compiled with and set that in the tag too.
version = "_".join(map(str, macosx_version_min(bootloader)[:2]))
self.PLAT_NAME = f"macosx_{version}_{architectures}"
super().finalize_options()
wheel_commands["wheel_darwin_64bit"] = bdist_macos
wheel_commands["wheel_darwin_64bit"].ICON_TYPES = ["icns"]
for name in ["wheel_windows_64bit_intel", "wheel_windows_32bit_intel", "wheel_windows_64bit_arm"]:
wheel_commands[name].ICON_TYPES = ["ico"]
class bdist_wheels(Command):
"""
Build a wheel for every platform listed in the PLATFORMS dict, which has bootloaders available in
`PyInstaller/bootloaders/[platform-name]`.
"""
description = "Build all available wheel types"
# Overload these to keep the abstract metaclass happy.
user_options = []
def initialize_options(self):
pass
def finalize_options(self):
pass
def run(self) -> None:
command: Type[Wheel]
for (name, command) in wheel_commands.items():
if not command.has_bootloaders():
print("Skipping", name, "because no bootloaders were found in", command.bootloaders_dir())
continue
print("running", name)
# This should be `self.run_command(name)`, but there is some aggressive caching from distutils, which has
# to be suppressed by us using forced cleaning. One distutils behaviour that seemingly cannot be disabled
# is that each command should only run once - this is at odds with what we want, because we need to run
# 'build' for every platform. The only way I can get it not to skip subsequent builds is to isolate the
# processes completely using subprocesses...
subprocess.run([sys.executable, __file__, "-q", name], stderr=subprocess.PIPE, check=True)
#--
# --- Prevent `python setup.py install` from building and installing eggs ---
if "bdist_egg" not in sys.argv:
from setuptools.command.bdist_egg import bdist_egg
class bdist_egg_disabled(bdist_egg):
"""
Disabled version of bdist_egg, which prevents `setup.py install` from performing setuptools' default
easy_install, which is deprecated and should be avoided.
"""
def run(self):
raise SystemExit(
"Error: Aborting implicit building of eggs. To install from source, use `pip install .` instead of "
"`python setup.py install`."
)
bdist_egg_override = {'bdist_egg': bdist_egg_disabled}
else:
bdist_egg_override = {}
#--
setup(
setup_requires=["setuptools >= 42.0.0"],
cmdclass={
'build_bootloader': build_bootloader,
'build': MyBuild,
**wheel_commands,
'bdist_wheels': bdist_wheels,
**bdist_egg_override,
},
)