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# Always prefer setuptools over distutils
from setuptools import setup, find_packages
from setuptools.dist import Distribution
# To use a consistent encoding
from codecs import open
from os import path
import platform
import os
import subprocess
import sys
# On MacOS, we need to relink dylibs and set correct rpaths in
# order for the modules to be imported in a portable way when
# distributed through pip
if platform.system() == 'Darwin':
def getDyLibDependencies(dylib):
otool = subprocess.check_output('otool -L %s' % dylib, shell=True)
if sys.version_info[0] == 3:
otool = otool.decode('utf-8')
L = otool.split('\n')[1:-1]
L = map(lambda d: d[1:].split(' ')[0], L)
L = filter(lambda d: '/usr/lib' not in d and
'/System' not in d and
'Python' not in d and
'@rpath' not in d, L)
return set(L)
def relinkDyLibAndSetRpaths(dylib, rpaths=[]):
libs = getDyLibDependencies(dylib)
for L in libs:
# prefer system libs for libz and libbz
if 'libz.1.dylib' in L:
subprocess.call(
'install_name_tool -change %s /usr/lib/libz.1.dylib %s 2>/dev/null' %
(L, dylib),
shell=True)
elif 'libbz2.1.0.dylib' in L:
subprocess.call(
'install_name_tool -change %s /usr/lib/libbz2.1.0.dylib %s 2>/dev/null' %
(L, dylib),
shell=True)
# change not system libraries path to @rpath/libname
else:
subprocess.call(
'install_name_tool -change %s @rpath/%s %s 2>/dev/null' %
(L, os.path.basename(L), dylib),
shell=True)
# add rpaths in dylib
for rpath in rpaths:
subprocess.call(
'install_name_tool -add_rpath %s %s 2>/dev/null' %
(rpath, dylib),
shell=True)
def relinkDyLibsInDirAndSetRpaths(dirPath, rpaths):
for lib in os.listdir(dirPath):
libPath = dirPath + lib
if not os.path.isdir(libPath):
deps = getDyLibDependencies(libPath)
relinkDyLibAndSetRpaths(libPath, rpaths)
tulipOglNativeLibsPath = os.getcwd() + '/tulipogl/native/'
tulipOglNativePluginsLibsPath = os.getcwd() + '/tulipogl/native/plugins/'
tulipGuiNativeLibsPath = os.getcwd() + '/tulipgui/native/'
tulipGuiNativePluginsLibsPath = os.getcwd() + '/tulipgui/native/plugins/'
print("Relinking dylibs and setting rpaths ...")
relinkDyLibsInDirAndSetRpaths(tulipOglNativeLibsPath, ['@loader_path/', '@loader_path/../../tulip/native/'])
relinkDyLibsInDirAndSetRpaths(tulipOglNativePluginsLibsPath, ['@loader_path/..', '@loader_path/../../../tulip/native/'])
relinkDyLibsInDirAndSetRpaths(tulipGuiNativeLibsPath, ['@loader_path/', '@loader_path/../../tulip/native/', '@loader_path/../../tulipogl/native/'])
relinkDyLibsInDirAndSetRpaths(tulipGuiNativePluginsLibsPath, ['@loader_path/..', '@loader_path/../../../tulip/native/', '@loader_path/../../../tulipogl/native/'])
class BinaryDistribution(Distribution):
def is_pure(self):
return False
def has_ext_modules(self):
return True
tulip_native_libs = []
if platform.system() == 'Windows':
tulip_native_libs = ['native/*.pyd', 'native/*.dll', 'native/plugins/*.dll']
elif platform.system() == 'Darwin':
tulip_native_libs = ['native/*.so', 'native/*.dylib', 'native/Qt*', 'native/phonon', 'native/plugins/*.dylib']
here = path.abspath(path.dirname(__file__))
# Python wheels generated with the Python.org MacOS bundles are also compatible
# with the Python interpreter provided by Apple on its systems.
# That hack renames the wheel file depending on the macos api it was build against.
try:
from wheel.bdist_wheel import bdist_wheel
class _bdist_wheel(bdist_wheel):
def get_tag(self):
tag = bdist_wheel.get_tag(self)
repl = 'macosx_10_6_intel.macosx_10_9_intel.macosx_10_9_x86_64.macosx_10_10_intel.macosx_10_10_x86_64'
if tag[2] == 'macosx_10_6_intel':
tag = (tag[0], tag[1], repl)
return tag
cmdclass = {'bdist_wheel': _bdist_wheel}
except ImportError:
cmdclass = {}
# Get the long description from the relevant file
with open(path.join(here, 'README.rst'), encoding='utf-8') as f:
long_description = f.read()
setup(
name='tulipgui-python',
# Versions should comply with PEP440. For a discussion on single-sourcing
# the version across setup.py and the project code, see
# https://packaging.python.org/en/latest/single_source_version.html
version='${TulipVersion}${PythonWheelVersionSuffix}',
description='Tulip GUI Python bindings',
long_description=long_description,
# The project's main homepage.
url='http://tulip.labri.fr/',
# Author details
author='David Auber and the Tulip development team',
author_email='tulipdev@labri.fr',
# Choose your license
license='LGPLv2+',
# See https://pypi.python.org/pypi?%3Aaction=list_classifiers
classifiers=[
# How mature is this project? Common values are
# 3 - Alpha
# 4 - Beta
# 5 - Production/Stable
'Development Status :: 5 - Production/Stable',
# Indicate who your project is intended for
'Intended Audience :: Developers',
'Intended Audience :: Education',
'Intended Audience :: Science/Research',
'Topic :: Scientific/Engineering',
'Topic :: Scientific/Engineering :: Information Analysis',
'Topic :: Scientific/Engineering :: Mathematics',
'Topic :: Scientific/Engineering :: Visualization',
# Pick your license as you wish (should match "license" above)
'License :: OSI Approved :: GNU Lesser General Public License v2 or later (LGPLv2+)',
# Specify the Python versions you support here. In particular, ensure
# that you indicate whether you support Python 2, Python 3 or both.
'Programming Language :: Python :: Implementation :: CPython',
'Programming Language :: Python :: 2',
'Programming Language :: Python :: 2.7',
'Programming Language :: Python :: 3',
'Programming Language :: Python :: 3.3',
'Programming Language :: Python :: 3.4',
'Programming Language :: Python :: 3.5',
],
# What does your project relate to?
keywords='graph theory algorithms visualization',
# You can just specify the packages manually here if your project is
# simple. Or you can use find_packages().
packages=['tulipogl', 'tulipgui'],
# List run-time dependencies here. These will be installed by pip when
# your project is installed. For an analysis of "install_requires" vs pip's
# requirements files see:
# https://packaging.python.org/en/latest/requirements.html
install_requires=['tulip-python'],
# List additional groups of dependencies here (e.g. development
# dependencies). You can install these using the following syntax,
# for example:
# $ pip install -e .[dev,test]
extras_require={},
# If there are data files included in your packages that need to be
# installed, specify them here. If using Python 2.6 or less, then these
# have to be included in MANIFEST.in as well.
package_data={
'tulipogl': tulip_native_libs + ['share/bitmaps/*'],
'tulipgui': tulip_native_libs,
},
# Although 'package_data' is the preferred approach, in some case you may
# need to place data files outside of your packages. See:
# http://docs.python.org/3.4/distutils/setupscript.html#installing-additional-files # noqa
# In this case, 'data_file' will be installed into '<sys.prefix>/my_data'
data_files=[],
# To provide executable scripts, use entry points in preference to the
# "scripts" keyword. Entry points provide cross-platform support and allow
# pip to create the appropriate form of executable for the target platform.
entry_points={},
include_package_data=True,
distclass=BinaryDistribution,
cmdclass=cmdclass,
)
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