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      # encoding: utf-8

      """

      This module defines the things that are used in setup.py for building IPython

      This includes:

          * The basic arguments to setup

          * Functions for finding things like packages, package data, etc.

          * A function for checking dependencies.

      """

      # Copyright (c) IPython Development Team.

      # Distributed under the terms of the Modified BSD License.

      from __future__ import print_function

      import re

      import os

      import sys

      from distutils import log

      from distutils.command.build_py import build_py

      from distutils.command.build_scripts import build_scripts

      from distutils.command.install import install

      from distutils.command.install_scripts import install_scripts

      from distutils.cmd import Command

      from glob import glob

      from setupext import install_data_ext

      #-------------------------------------------------------------------------------

      # Useful globals and utility functions

      #-------------------------------------------------------------------------------

      # A few handy globals

      isfile = os.path.isfile

      pjoin = os.path.join

      repo_root = os.path.dirname(os.path.abspath(__file__))

      def oscmd(s):

          print(">", s)

          os.system(s)

      # Py3 compatibility hacks, without assuming IPython itself is installed with

      # the full py3compat machinery.

      try:

          execfile

      except NameError:

          def execfile(fname, globs, locs=None):

              locs = locs or globs

              exec(compile(open(fname).read(), fname, "exec"), globs, locs)

      # A little utility we'll need below, since glob() does NOT allow you to do

      # exclusion on multiple endings!

      def file_doesnt_endwith(test,endings):

          """Return true if test is a file and its name does NOT end with any

          of the strings listed in endings."""

          if not isfile(test):

              return False

          for e in endings:

              if test.endswith(e):

                  return False

          return True

      #---------------------------------------------------------------------------

      # Basic project information

      #---------------------------------------------------------------------------

      # release.py contains version, authors, license, url, keywords, etc.

      execfile(pjoin(repo_root, 'IPython','core','release.py'), globals())

      # Create a dict with the basic information

      # This dict is eventually passed to setup after additional keys are added.

      setup_args = dict(

            name             = name,

            version          = version,

            description      = description,

            long_description = long_description,

            author           = author,

            author_email     = author_email,

            url              = url,

            license          = license,

            platforms        = platforms,

            keywords         = keywords,

            classifiers      = classifiers,

            cmdclass         = {'install_data': install_data_ext},

            )

      #---------------------------------------------------------------------------

      # Find packages

      #---------------------------------------------------------------------------

      def find_packages():

          """

          Find all of IPython's packages.

          """

          excludes = ['deathrow', 'quarantine']

          packages = []

          for dir,subdirs,files in os.walk('IPython'):

              package = dir.replace(os.path.sep, '.')

              if any(package.startswith('IPython.'+exc) for exc in excludes):

                  # package is to be excluded (e.g. deathrow)

                  continue

              if '__init__.py' not in files:

                  # not a package

                  continue

              packages.append(package)

          return packages

      #---------------------------------------------------------------------------

      # Find package data

      #---------------------------------------------------------------------------

      def find_package_data():

          """

          Find IPython's package_data.

          """

          # This is not enough for these things to appear in an sdist.

          # We need to muck with the MANIFEST to get this to work

          package_data = {

              'IPython.core' : ['profile/README*'],

              'IPython.core.tests' : ['*.png', '*.jpg', 'daft_extension/*.py'],

              'IPython.lib.tests' : ['*.wav'],

              'IPython.testing.plugin' : ['*.txt'],

          }

          return package_data

      def check_package_data(package_data):

          """verify that package_data globs make sense"""

          print("checking package data")

          for pkg, data in package_data.items():

              pkg_root = pjoin(*pkg.split('.'))

              for d in data:

                  path = pjoin(pkg_root, d)

                  if '*' in path:

                      assert len(glob(path)) > 0, "No files match pattern %s" % path

                  else:

                      assert os.path.exists(path), "Missing package data: %s" % path

      def check_package_data_first(command):

          """decorator for checking package_data before running a given command

          Probably only needs to wrap build_py

          """

          class DecoratedCommand(command):

              def run(self):

                  check_package_data(self.package_data)

                  command.run(self)

          return DecoratedCommand

      #---------------------------------------------------------------------------

      # Find data files

      #---------------------------------------------------------------------------

      def make_dir_struct(tag,base,out_base):

          """Make the directory structure of all files below a starting dir.

          This is just a convenience routine to help build a nested directory

          hierarchy because distutils is too stupid to do this by itself.

          XXX - this needs a proper docstring!

          """

          # we'll use these a lot below

          lbase = len(base)

          pathsep = os.path.sep

          lpathsep = len(pathsep)

          out = []

          for (dirpath,dirnames,filenames) in os.walk(base):

              # we need to strip out the dirpath from the base to map it to the

              # output (installation) path.  This requires possibly stripping the

              # path separator, because otherwise pjoin will not work correctly

              # (pjoin('foo/','/bar') returns '/bar').

              dp_eff = dirpath[lbase:]

              if dp_eff.startswith(pathsep):

                  dp_eff = dp_eff[lpathsep:]

              # The output path must be anchored at the out_base marker

              out_path = pjoin(out_base,dp_eff)

              # Now we can generate the final filenames. Since os.walk only produces

              # filenames, we must join back with the dirpath to get full valid file

              # paths:

              pfiles = [pjoin(dirpath,f) for f in filenames]

              # Finally, generate the entry we need, which is a pari of (output

              # path, files) for use as a data_files parameter in install_data.

              out.append((out_path, pfiles))

          return out

      def find_data_files():

          """

          Find IPython's data_files.

          Just man pages at this point.

          """

          manpagebase = pjoin('share', 'man', 'man1')

          # Simple file lists can be made by hand

          manpages = [f for f in glob(pjoin('docs','man','*.1.gz')) if isfile(f)]

          if not manpages:

              # When running from a source tree, the manpages aren't gzipped

              manpages = [f for f in glob(pjoin('docs','man','*.1')) if isfile(f)]

          # And assemble the entire output list

          data_files = [ (manpagebase, manpages) ]

          return data_files

      def make_man_update_target(manpage):

          """Return a target_update-compliant tuple for the given manpage.

          Parameters

          ----------

          manpage : string

            Name of the manpage, must include the section number (trailing number).

          Example

          -------

          >>> make_man_update_target('ipython.1') #doctest: +NORMALIZE_WHITESPACE

          ('docs/man/ipython.1.gz',

           ['docs/man/ipython.1'],

           'cd docs/man && gzip -9c ipython.1 > ipython.1.gz')

          """

          man_dir = pjoin('docs', 'man')

          manpage_gz = manpage + '.gz'

          manpath = pjoin(man_dir, manpage)

          manpath_gz = pjoin(man_dir, manpage_gz)

          gz_cmd = ( "cd %(man_dir)s && gzip -9c %(manpage)s > %(manpage_gz)s" %

                     locals() )

          return (manpath_gz, [manpath], gz_cmd)

      # The two functions below are copied from IPython.utils.path, so we don't need

      # to import IPython during setup, which fails on Python 3.

      def target_outdated(target,deps):

          """Determine whether a target is out of date.

          target_outdated(target,deps) -> 1/0

          deps: list of filenames which MUST exist.

          target: single filename which may or may not exist.

          If target doesn't exist or is older than any file listed in deps, return

          true, otherwise return false.

          """

          try:

              target_time = os.path.getmtime(target)

          except os.error:

              return 1

          for dep in deps:

              dep_time = os.path.getmtime(dep)

              if dep_time > target_time:

                  #print "For target",target,"Dep failed:",dep # dbg

                  #print "times (dep,tar):",dep_time,target_time # dbg

                  return 1

          return 0

      def target_update(target,deps,cmd):

          """Update a target with a given command given a list of dependencies.

          target_update(target,deps,cmd) -> runs cmd if target is outdated.

          This is just a wrapper around target_outdated() which calls the given

          command if target is outdated."""

          if target_outdated(target,deps):

              os.system(cmd)

      #---------------------------------------------------------------------------

      # Find scripts

      #---------------------------------------------------------------------------

      def find_entry_points():

          """Defines the command line entry points for IPython

          This always uses setuptools-style entry points. When setuptools is not in

          use, our own build_scripts_entrypt class below parses these and builds

          command line scripts.

          Each of our entry points gets both a plain name, e.g. ipython, and one

          suffixed with the Python major version number, e.g. ipython3. 

          """

          ep = [

                  'ipython%s = IPython:start_ipython',

                  'iptest%s = IPython.testing.iptestcontroller:main',

              ]

          suffix = str(sys.version_info[0])

          return [e % '' for e in ep] + [e % suffix for e in ep]

      script_src = """#!{executable}

      # This script was automatically generated by setup.py

      if __name__ == '__main__':

          from {mod} import {func}

          {func}()

      """

      class build_scripts_entrypt(build_scripts):

          """Build the command line scripts

          Parse setuptools style entry points and write simple scripts to run the

          target functions.

          On Windows, this also creates .cmd wrappers for the scripts so that you can

          easily launch them from a command line.

          """

          def run(self):

              self.mkpath(self.build_dir)

              outfiles = []

              for script in find_entry_points():

                  name, entrypt = script.split('=')

                  name = name.strip()

                  entrypt = entrypt.strip()

                  outfile = os.path.join(self.build_dir, name)

                  outfiles.append(outfile)

                  print('Writing script to', outfile)

                  mod, func = entrypt.split(':')

                  with open(outfile, 'w') as f:

                      f.write(script_src.format(executable=sys.executable,

                                                mod=mod, func=func))

                  if sys.platform == 'win32':

                      # Write .cmd wrappers for Windows so 'ipython' etc. work at the

                      # command line

                      cmd_file = os.path.join(self.build_dir, name + '.cmd')

                      cmd = '@"{python}" "%~dp0\{script}" %*\r\n'.format(

                              python=sys.executable, script=name)

                      log.info("Writing %s wrapper script" % cmd_file)

                      with open(cmd_file, 'w') as f:

                          f.write(cmd)

              return outfiles, outfiles

      class install_lib_symlink(Command):

          user_options = [

              ('install-dir=', 'd', "directory to install to"),

              ]

          def initialize_options(self):

              self.install_dir = None

          def finalize_options(self):

              self.set_undefined_options('symlink',

                                         ('install_lib', 'install_dir'),

                                        )

          def run(self):

              if sys.platform == 'win32':

                  raise Exception("This doesn't work on Windows.")

              pkg = os.path.join(os.getcwd(), 'IPython')

              dest = os.path.join(self.install_dir, 'IPython')

              if os.path.islink(dest):

                  print('removing existing symlink at %s' % dest)

                  os.unlink(dest)

              print('symlinking %s -> %s' % (pkg, dest))

              os.symlink(pkg, dest)

      class unsymlink(install):

          def run(self):

              dest = os.path.join(self.install_lib, 'IPython')

              if os.path.islink(dest):

                  print('removing symlink at %s' % dest)

                  os.unlink(dest)

              else:

                  print('No symlink exists at %s' % dest)

      class install_symlinked(install):

          def run(self):

              if sys.platform == 'win32':

                  raise Exception("This doesn't work on Windows.")

              # Run all sub-commands (at least those that need to be run)

              for cmd_name in self.get_sub_commands():

                  self.run_command(cmd_name)

          # 'sub_commands': a list of commands this command might have to run to

          # get its work done.  See cmd.py for more info.

          sub_commands = [('install_lib_symlink', lambda self:True),

                          ('install_scripts_sym', lambda self:True),

                         ]

      class install_scripts_for_symlink(install_scripts):

          """Redefined to get options from 'symlink' instead of 'install'.

          I love distutils almost as much as I love setuptools.

          """

          def finalize_options(self):

              self.set_undefined_options('build', ('build_scripts', 'build_dir'))

              self.set_undefined_options('symlink',

                                         ('install_scripts', 'install_dir'),

                                         ('force', 'force'),

                                         ('skip_build', 'skip_build'),

                                        )

      #---------------------------------------------------------------------------

      # VCS related

      #---------------------------------------------------------------------------

      def git_prebuild(pkg_dir, build_cmd=build_py):

          """Return extended build or sdist command class for recording commit

          records git commit in IPython.utils._sysinfo.commit

          for use in IPython.utils.sysinfo.sys_info() calls after installation.

          """

          class MyBuildPy(build_cmd):

              ''' Subclass to write commit data into installation tree '''

              def run(self):

                  # loose as `.dev` is suppose to be invalid

                  print("check version number")

                  loose_pep440re = re.compile('^(\d+)\.(\d+)\.(\d+((a|b|rc)\d+)?)(\.post\d+)?(\.dev\d*)?$')

                  if not loose_pep440re.match(version):

                      raise ValueError("Version number '%s' is not valid (should match [N!]N(.N)*[{a|b|rc}N][.postN][.devN])" % version)

                  build_cmd.run(self)

                  # this one will only fire for build commands

                  if hasattr(self, 'build_lib'):

                      self._record_commit(self.build_lib)

              def make_release_tree(self, base_dir, files):

                  # this one will fire for sdist

                  build_cmd.make_release_tree(self, base_dir, files)

                  self._record_commit(base_dir)

              def _record_commit(self, base_dir):

                  import subprocess

                  proc = subprocess.Popen('git rev-parse --short HEAD',

                                          stdout=subprocess.PIPE,

                                          stderr=subprocess.PIPE,

                                          shell=True)

                  repo_commit, _ = proc.communicate()

                  repo_commit = repo_commit.strip().decode("ascii")

                  out_pth = pjoin(base_dir, pkg_dir, 'utils', '_sysinfo.py')

                  if os.path.isfile(out_pth) and not repo_commit:

                      # nothing to write, don't clobber

                      return

                  print("writing git commit '%s' to %s" % (repo_commit, out_pth))

                  # remove to avoid overwriting original via hard link

                  try:

                      os.remove(out_pth)

                  except (IOError, OSError):

                      pass

                  with open(out_pth, 'w') as out_file:

                      out_file.writelines([

                          '# GENERATED BY setup.py\n',

                          'commit = u"%s"\n' % repo_commit,

                      ])

          return MyBuildPy

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				# encoding: utf-8
				"""
				This module defines the things that are used in setup.py for building IPython

				This includes:

				* The basic arguments to setup
				* Functions for finding things like packages, package data, etc.
				* A function for checking dependencies.
				"""

				# Copyright (c) IPython Development Team.
				# Distributed under the terms of the Modified BSD License.

				from __future__ import print_function

				import re
				import os
				import sys

				from distutils import log
				from distutils.command.build_py import build_py
				from distutils.command.build_scripts import build_scripts
				from distutils.command.install import install
				from distutils.command.install_scripts import install_scripts
				from distutils.cmd import Command
				from glob import glob

				from setupext import install_data_ext

				#-------------------------------------------------------------------------------
				# Useful globals and utility functions
				#-------------------------------------------------------------------------------

				# A few handy globals
				isfile = os.path.isfile
				pjoin = os.path.join
				repo_root = os.path.dirname(os.path.abspath(__file__))

				def oscmd(s):
				print(">", s)
				os.system(s)

				# Py3 compatibility hacks, without assuming IPython itself is installed with
				# the full py3compat machinery.

				try:
				execfile
				except NameError:
				def execfile(fname, globs, locs=None):
				locs = locs or globs
				exec(compile(open(fname).read(), fname, "exec"), globs, locs)

				# A little utility we'll need below, since glob() does NOT allow you to do
				# exclusion on multiple endings!
				def file_doesnt_endwith(test,endings):
				"""Return true if test is a file and its name does NOT end with any
				of the strings listed in endings."""
				if not isfile(test):
				return False
				for e in endings:
				if test.endswith(e):
				return False
				return True

				#---------------------------------------------------------------------------
				# Basic project information
				#---------------------------------------------------------------------------

				# release.py contains version, authors, license, url, keywords, etc.
				execfile(pjoin(repo_root, 'IPython','core','release.py'), globals())

				# Create a dict with the basic information
				# This dict is eventually passed to setup after additional keys are added.
				setup_args = dict(
				name = name,
				version = version,
				description = description,
				long_description = long_description,
				author = author,
				author_email = author_email,
				url = url,
				license = license,
				platforms = platforms,
				keywords = keywords,
				classifiers = classifiers,
				cmdclass = {'install_data': install_data_ext},
				)


				#---------------------------------------------------------------------------
				# Find packages
				#---------------------------------------------------------------------------

				def find_packages():
				"""
				Find all of IPython's packages.
				"""
				excludes = ['deathrow', 'quarantine']
				packages = []
				for dir,subdirs,files in os.walk('IPython'):
				package = dir.replace(os.path.sep, '.')
				if any(package.startswith('IPython.'+exc) for exc in excludes):
				# package is to be excluded (e.g. deathrow)
				continue
				if '__init__.py' not in files:
				# not a package
				continue
				packages.append(package)
				return packages

				#---------------------------------------------------------------------------
				# Find package data
				#---------------------------------------------------------------------------

				def find_package_data():
				"""
				Find IPython's package_data.
				"""
				# This is not enough for these things to appear in an sdist.
				# We need to muck with the MANIFEST to get this to work

				package_data = {
				'IPython.core' : ['profile/README*'],
				'IPython.core.tests' : ['.png', '.jpg', 'daft_extension/*.py'],
				'IPython.lib.tests' : ['*.wav'],
				'IPython.testing.plugin' : ['*.txt'],
				}

				return package_data


				def check_package_data(package_data):
				"""verify that package_data globs make sense"""
				print("checking package data")
				for pkg, data in package_data.items():
				pkg_root = pjoin(*pkg.split('.'))
				for d in data:
				path = pjoin(pkg_root, d)
				if '*' in path:
				assert len(glob(path)) > 0, "No files match pattern %s" % path
				else:
				assert os.path.exists(path), "Missing package data: %s" % path


				def check_package_data_first(command):
				"""decorator for checking package_data before running a given command

				Probably only needs to wrap build_py
				"""
				class DecoratedCommand(command):
				def run(self):
				check_package_data(self.package_data)
				command.run(self)
				return DecoratedCommand


				#---------------------------------------------------------------------------
				# Find data files
				#---------------------------------------------------------------------------

				def make_dir_struct(tag,base,out_base):
				"""Make the directory structure of all files below a starting dir.

				This is just a convenience routine to help build a nested directory
				hierarchy because distutils is too stupid to do this by itself.

				XXX - this needs a proper docstring!
				"""

				# we'll use these a lot below
				lbase = len(base)
				pathsep = os.path.sep
				lpathsep = len(pathsep)

				out = []
				for (dirpath,dirnames,filenames) in os.walk(base):
				# we need to strip out the dirpath from the base to map it to the
				# output (installation) path. This requires possibly stripping the
				# path separator, because otherwise pjoin will not work correctly
				# (pjoin('foo/','/bar') returns '/bar').

				dp_eff = dirpath[lbase:]
				if dp_eff.startswith(pathsep):
				dp_eff = dp_eff[lpathsep:]
				# The output path must be anchored at the out_base marker
				out_path = pjoin(out_base,dp_eff)
				# Now we can generate the final filenames. Since os.walk only produces
				# filenames, we must join back with the dirpath to get full valid file
				# paths:
				pfiles = [pjoin(dirpath,f) for f in filenames]
				# Finally, generate the entry we need, which is a pari of (output
				# path, files) for use as a data_files parameter in install_data.
				out.append((out_path, pfiles))

				return out


				def find_data_files():
				"""
				Find IPython's data_files.

				Just man pages at this point.
				"""

				manpagebase = pjoin('share', 'man', 'man1')

				# Simple file lists can be made by hand
				manpages = [f for f in glob(pjoin('docs','man','*.1.gz')) if isfile(f)]
				if not manpages:
				# When running from a source tree, the manpages aren't gzipped
				manpages = [f for f in glob(pjoin('docs','man','*.1')) if isfile(f)]

				# And assemble the entire output list
				data_files = [ (manpagebase, manpages) ]

				return data_files


				def make_man_update_target(manpage):
				"""Return a target_update-compliant tuple for the given manpage.

				Parameters
				----------
				manpage : string
				Name of the manpage, must include the section number (trailing number).

				Example
				-------

				>>> make_man_update_target('ipython.1') #doctest: +NORMALIZE_WHITESPACE
				('docs/man/ipython.1.gz',
				['docs/man/ipython.1'],
				'cd docs/man && gzip -9c ipython.1 > ipython.1.gz')
				"""
				man_dir = pjoin('docs', 'man')
				manpage_gz = manpage + '.gz'
				manpath = pjoin(man_dir, manpage)
				manpath_gz = pjoin(man_dir, manpage_gz)
				gz_cmd = ( "cd %(man_dir)s && gzip -9c %(manpage)s > %(manpage_gz)s" %
				locals() )
				return (manpath_gz, [manpath], gz_cmd)

				# The two functions below are copied from IPython.utils.path, so we don't need
				# to import IPython during setup, which fails on Python 3.

				def target_outdated(target,deps):
				"""Determine whether a target is out of date.

				target_outdated(target,deps) -> 1/0

				deps: list of filenames which MUST exist.
				target: single filename which may or may not exist.

				If target doesn't exist or is older than any file listed in deps, return
				true, otherwise return false.
				"""
				try:
				target_time = os.path.getmtime(target)
				except os.error:
				return 1
				for dep in deps:
				dep_time = os.path.getmtime(dep)
				if dep_time > target_time:
				#print "For target",target,"Dep failed:",dep # dbg
				#print "times (dep,tar):",dep_time,target_time # dbg
				return 1
				return 0


				def target_update(target,deps,cmd):
				"""Update a target with a given command given a list of dependencies.

				target_update(target,deps,cmd) -> runs cmd if target is outdated.

				This is just a wrapper around target_outdated() which calls the given
				command if target is outdated."""

				if target_outdated(target,deps):
				os.system(cmd)

				#---------------------------------------------------------------------------
				# Find scripts
				#---------------------------------------------------------------------------

				def find_entry_points():
				"""Defines the command line entry points for IPython

				This always uses setuptools-style entry points. When setuptools is not in
				use, our own build_scripts_entrypt class below parses these and builds
				command line scripts.

				Each of our entry points gets both a plain name, e.g. ipython, and one
				suffixed with the Python major version number, e.g. ipython3.
				"""
				ep = [
				'ipython%s = IPython:start_ipython',
				'iptest%s = IPython.testing.iptestcontroller:main',
				]
				suffix = str(sys.version_info[0])
				return [e % '' for e in ep] + [e % suffix for e in ep]

				script_src = """#!{executable}
				# This script was automatically generated by setup.py
				if __name__ == '__main__':
				from {mod} import {func}
				{func}()
				"""

				class build_scripts_entrypt(build_scripts):
				"""Build the command line scripts

				Parse setuptools style entry points and write simple scripts to run the
				target functions.

				On Windows, this also creates .cmd wrappers for the scripts so that you can
				easily launch them from a command line.
				"""
				def run(self):
				self.mkpath(self.build_dir)
				outfiles = []
				for script in find_entry_points():
				name, entrypt = script.split('=')
				name = name.strip()
				entrypt = entrypt.strip()
				outfile = os.path.join(self.build_dir, name)
				outfiles.append(outfile)
				print('Writing script to', outfile)

				mod, func = entrypt.split(':')
				with open(outfile, 'w') as f:
				f.write(script_src.format(executable=sys.executable,
				mod=mod, func=func))

				if sys.platform == 'win32':
				# Write .cmd wrappers for Windows so 'ipython' etc. work at the
				# command line
				cmd_file = os.path.join(self.build_dir, name + '.cmd')
				cmd = '@"{python}" "%~dp0\{script}" %*\r\n'.format(
				python=sys.executable, script=name)
				log.info("Writing %s wrapper script" % cmd_file)
				with open(cmd_file, 'w') as f:
				f.write(cmd)

				return outfiles, outfiles

				class install_lib_symlink(Command):
				user_options = [
				('install-dir=', 'd', "directory to install to"),
				]

				def initialize_options(self):
				self.install_dir = None

				def finalize_options(self):
				self.set_undefined_options('symlink',
				('install_lib', 'install_dir'),
				)

				def run(self):
				if sys.platform == 'win32':
				raise Exception("This doesn't work on Windows.")
				pkg = os.path.join(os.getcwd(), 'IPython')
				dest = os.path.join(self.install_dir, 'IPython')
				if os.path.islink(dest):
				print('removing existing symlink at %s' % dest)
				os.unlink(dest)
				print('symlinking %s -> %s' % (pkg, dest))
				os.symlink(pkg, dest)

				class unsymlink(install):
				def run(self):
				dest = os.path.join(self.install_lib, 'IPython')
				if os.path.islink(dest):
				print('removing symlink at %s' % dest)
				os.unlink(dest)
				else:
				print('No symlink exists at %s' % dest)

				class install_symlinked(install):
				def run(self):
				if sys.platform == 'win32':
				raise Exception("This doesn't work on Windows.")

				# Run all sub-commands (at least those that need to be run)
				for cmd_name in self.get_sub_commands():
				self.run_command(cmd_name)

				# 'sub_commands': a list of commands this command might have to run to
				# get its work done. See cmd.py for more info.
				sub_commands = [('install_lib_symlink', lambda self:True),
				('install_scripts_sym', lambda self:True),
				]

				class install_scripts_for_symlink(install_scripts):
				"""Redefined to get options from 'symlink' instead of 'install'.

				I love distutils almost as much as I love setuptools.
				"""
				def finalize_options(self):
				self.set_undefined_options('build', ('build_scripts', 'build_dir'))
				self.set_undefined_options('symlink',
				('install_scripts', 'install_dir'),
				('force', 'force'),
				('skip_build', 'skip_build'),
				)


				#---------------------------------------------------------------------------
				# VCS related
				#---------------------------------------------------------------------------


				def git_prebuild(pkg_dir, build_cmd=build_py):
				"""Return extended build or sdist command class for recording commit

				records git commit in IPython.utils._sysinfo.commit

				for use in IPython.utils.sysinfo.sys_info() calls after installation.
				"""

				class MyBuildPy(build_cmd):
				''' Subclass to write commit data into installation tree '''
				def run(self):
				# loose as `.dev` is suppose to be invalid
				print("check version number")
				loose_pep440re = re.compile('^(\d+)\.(\d+)\.(\d+((a\|b\|rc)\d+)?)(\.post\d+)?(\.dev\d*)?$')
				if not loose_pep440re.match(version):
				raise ValueError("Version number '%s' is not valid (should match [N!]N(.N)*[{a\|b\|rc}N][.postN][.devN])" % version)


				build_cmd.run(self)
				# this one will only fire for build commands
				if hasattr(self, 'build_lib'):
				self._record_commit(self.build_lib)

				def make_release_tree(self, base_dir, files):
				# this one will fire for sdist
				build_cmd.make_release_tree(self, base_dir, files)
				self._record_commit(base_dir)

				def _record_commit(self, base_dir):
				import subprocess
				proc = subprocess.Popen('git rev-parse --short HEAD',
				stdout=subprocess.PIPE,
				stderr=subprocess.PIPE,
				shell=True)
				repo_commit, _ = proc.communicate()
				repo_commit = repo_commit.strip().decode("ascii")

				out_pth = pjoin(base_dir, pkg_dir, 'utils', '_sysinfo.py')
				if os.path.isfile(out_pth) and not repo_commit:
				# nothing to write, don't clobber
				return

				print("writing git commit '%s' to %s" % (repo_commit, out_pth))

				# remove to avoid overwriting original via hard link
				try:
				os.remove(out_pth)
				except (IOError, OSError):
				pass
				with open(out_pth, 'w') as out_file:
				out_file.writelines([
				'# GENERATED BY setup.py\n',
				'commit = u"%s"\n' % repo_commit,
				])
				return MyBuildPy