slackbuilds_ponce/development/python3-matplotlib/setupext.py
Serban Udrea bc87165af7 development/python3-matplotlib: Added (Python 2D plotting library).
Signed-off-by: Willy Sudiarto Raharjo <willysr@slackbuilds.org>
2017-04-30 09:36:49 +07:00

1921 lines
57 KiB
Python

from __future__ import print_function, absolute_import
from distutils import sysconfig
from distutils import version
from distutils.core import Extension
import glob
import io
import multiprocessing
import os
import re
import subprocess
import sys
import warnings
from textwrap import fill
import versioneer
PY3min = (sys.version_info[0] >= 3)
PY32min = (PY3min and sys.version_info[1] >= 2 or sys.version_info[0] > 3)
try:
from subprocess import check_output
except ImportError:
# check_output is not available in Python 2.6
def check_output(*popenargs, **kwargs):
"""
Run command with arguments and return its output as a byte
string.
Backported from Python 2.7 as it's implemented as pure python
on stdlib.
"""
process = subprocess.Popen(
stdout=subprocess.PIPE, *popenargs, **kwargs)
output, unused_err = process.communicate()
retcode = process.poll()
if retcode:
cmd = kwargs.get("args")
if cmd is None:
cmd = popenargs[0]
error = subprocess.CalledProcessError(retcode, cmd)
error.output = output
raise error
return output
if sys.platform != 'win32':
if not PY3min:
from commands import getstatusoutput
else:
from subprocess import getstatusoutput
if PY3min:
import configparser
else:
import ConfigParser as configparser
# matplotlib build options, which can be altered using setup.cfg
options = {
'display_status': True,
'verbose': False,
'backend': None,
'basedirlist': None
}
setup_cfg = os.environ.get('MPLSETUPCFG', 'setup.cfg')
if os.path.exists(setup_cfg):
if PY32min:
config = configparser.ConfigParser()
else:
config = configparser.SafeConfigParser()
config.read(setup_cfg)
try:
options['display_status'] = not config.getboolean("status", "suppress")
except:
pass
try:
options['backend'] = config.get("rc_options", "backend")
except:
pass
try:
options['basedirlist'] = [
x.strip() for x in
config.get("directories", "basedirlist").split(',')]
except:
pass
else:
config = None
def get_win32_compiler():
"""
Determine the compiler being used on win32.
"""
# Used to determine mingw32 or msvc
# This is pretty bad logic, someone know a better way?
for v in sys.argv:
if 'mingw32' in v:
return 'mingw32'
return 'msvc'
win32_compiler = get_win32_compiler()
def extract_versions():
"""
Extracts version values from the main matplotlib __init__.py and
returns them as a dictionary.
"""
with open('lib/matplotlib/__init__.py') as fd:
for line in fd.readlines():
if (line.startswith('__version__numpy__')):
exec(line.strip())
return locals()
def has_include_file(include_dirs, filename):
"""
Returns `True` if `filename` can be found in one of the
directories in `include_dirs`.
"""
if sys.platform == 'win32':
include_dirs += os.environ.get('INCLUDE', '.').split(';')
for dir in include_dirs:
if os.path.exists(os.path.join(dir, filename)):
return True
return False
def check_include_file(include_dirs, filename, package):
"""
Raises an exception if the given include file can not be found.
"""
if not has_include_file(include_dirs, filename):
raise CheckFailed(
"The C/C++ header for %s (%s) could not be found. You "
"may need to install the development package." %
(package, filename))
def get_base_dirs():
"""
Returns a list of standard base directories on this platform.
"""
if options['basedirlist']:
return options['basedirlist']
basedir_map = {
'win32': ['win32_static', ],
'darwin': ['/usr/local/', '/usr', '/usr/X11',
'/opt/X11', '/opt/local'],
'sunos5': [os.getenv('MPLIB_BASE') or '/usr/local', ],
'gnu0': ['/usr'],
'aix5': ['/usr/local'],
}
return basedir_map.get(sys.platform, ['/usr/local', '/usr'])
def get_include_dirs():
"""
Returns a list of standard include directories on this platform.
"""
include_dirs = [os.path.join(d, 'include') for d in get_base_dirs()]
include_dirs.extend(
os.environ.get('CPLUS_INCLUDE_PATH', '').split(os.pathsep))
return include_dirs
def is_min_version(found, minversion):
"""
Returns `True` if `found` is at least as high a version as
`minversion`.
"""
expected_version = version.LooseVersion(minversion)
found_version = version.LooseVersion(found)
return found_version >= expected_version
# Define the display functions only if display_status is True.
if options['display_status']:
def print_line(char='='):
print(char * 76)
def print_status(package, status):
initial_indent = "%22s: " % package
indent = ' ' * 24
print(fill(str(status), width=76,
initial_indent=initial_indent,
subsequent_indent=indent))
def print_message(message):
indent = ' ' * 24 + "* "
print(fill(str(message), width=76,
initial_indent=indent,
subsequent_indent=indent))
def print_raw(section):
print(section)
else:
def print_line(*args, **kwargs):
pass
print_status = print_message = print_raw = print_line
# Remove the -Wstrict-prototypesoption, is it's not valid for C++
customize_compiler = sysconfig.customize_compiler
def my_customize_compiler(compiler):
retval = customize_compiler(compiler)
try:
compiler.compiler_so.remove('-Wstrict-prototypes')
except (ValueError, AttributeError):
pass
return retval
sysconfig.customize_compiler = my_customize_compiler
def make_extension(name, files, *args, **kwargs):
"""
Make a new extension. Automatically sets include_dirs and
library_dirs to the base directories appropriate for this
platform.
`name` is the name of the extension.
`files` is a list of source files.
Any additional arguments are passed to the
`distutils.core.Extension` constructor.
"""
ext = DelayedExtension(name, files, *args, **kwargs)
for dir in get_base_dirs():
include_dir = os.path.join(dir, 'include')
if os.path.exists(include_dir):
ext.include_dirs.append(include_dir)
for lib in ('lib', 'lib64'):
lib_dir = os.path.join(dir, lib)
if os.path.exists(lib_dir):
ext.library_dirs.append(lib_dir)
ext.include_dirs.append('.')
return ext
class PkgConfig(object):
"""
This is a class for communicating with pkg-config.
"""
def __init__(self):
"""
Determines whether pkg-config exists on this machine.
"""
if sys.platform == 'win32':
self.has_pkgconfig = False
else:
try:
self.pkg_config = os.environ['PKG_CONFIG']
except KeyError:
self.pkg_config = 'pkg-config'
self.set_pkgconfig_path()
status, output = getstatusoutput(self.pkg_config + " --help")
self.has_pkgconfig = (status == 0)
if not self.has_pkgconfig:
print("IMPORTANT WARNING:")
print(
" pkg-config is not installed.\n"
" matplotlib may not be able to find some of its dependencies")
def set_pkgconfig_path(self):
pkgconfig_path = sysconfig.get_config_var('LIBDIR')
if pkgconfig_path is None:
return
pkgconfig_path = os.path.join(pkgconfig_path, 'pkgconfig')
if not os.path.isdir(pkgconfig_path):
return
try:
os.environ['PKG_CONFIG_PATH'] += ':' + pkgconfig_path
except KeyError:
os.environ['PKG_CONFIG_PATH'] = pkgconfig_path
def setup_extension(self, ext, package, default_include_dirs=[],
default_library_dirs=[], default_libraries=[],
alt_exec=None):
"""
Add parameters to the given `ext` for the given `package`.
"""
flag_map = {
'-I': 'include_dirs', '-L': 'library_dirs', '-l': 'libraries'}
executable = alt_exec
if self.has_pkgconfig:
executable = (self.pkg_config + ' {0}').format(package)
use_defaults = True
if executable is not None:
command = "{0} --libs --cflags ".format(executable)
try:
output = check_output(command, shell=True,
stderr=subprocess.STDOUT)
except subprocess.CalledProcessError:
pass
else:
output = output.decode(sys.getfilesystemencoding())
use_defaults = False
for token in output.split():
attr = flag_map.get(token[:2])
if attr is not None:
getattr(ext, attr).insert(0, token[2:])
if use_defaults:
basedirs = get_base_dirs()
for base in basedirs:
for include in default_include_dirs:
dir = os.path.join(base, include)
if os.path.exists(dir):
ext.include_dirs.append(dir)
for lib in default_library_dirs:
dir = os.path.join(base, lib)
if os.path.exists(dir):
ext.library_dirs.append(dir)
ext.libraries.extend(default_libraries)
return True
return False
def get_version(self, package):
"""
Get the version of the package from pkg-config.
"""
if not self.has_pkgconfig:
return None
status, output = getstatusoutput(
self.pkg_config + " %s --modversion" % (package))
if status == 0:
return output
return None
# The PkgConfig class should be used through this singleton
pkg_config = PkgConfig()
class CheckFailed(Exception):
"""
Exception thrown when a `SetupPackage.check` method fails.
"""
pass
class SetupPackage(object):
optional = False
def check(self):
"""
Checks whether the dependencies are met. Should raise a
`CheckFailed` exception if the dependency could not be met,
otherwise return a string indicating a version number or some
other message indicating what was found.
"""
pass
def get_packages(self):
"""
Get a list of package names to add to the configuration.
These are added to the `packages` list passed to
`distutils.setup`.
"""
return []
def get_namespace_packages(self):
"""
Get a list of namespace package names to add to the configuration.
These are added to the `namespace_packages` list passed to
`distutils.setup`.
"""
return []
def get_py_modules(self):
"""
Get a list of top-level modules to add to the configuration.
These are added to the `py_modules` list passed to
`distutils.setup`.
"""
return []
def get_package_data(self):
"""
Get a package data dictionary to add to the configuration.
These are merged into to the `package_data` list passed to
`distutils.setup`.
"""
return {}
def get_extension(self):
"""
Get a list of C extensions (`distutils.core.Extension`
objects) to add to the configuration. These are added to the
`extensions` list passed to `distutils.setup`.
"""
return None
def get_install_requires(self):
"""
Get a list of Python packages that we require.
pip/easy_install will attempt to download and install this
package if it is not installed.
"""
return []
def get_setup_requires(self):
"""
Get a list of Python packages that we require at build time.
pip/easy_install will attempt to download and install this
package if it is not installed.
"""
return []
def _check_for_pkg_config(self, package, include_file, min_version=None,
version=None):
"""
A convenience function for writing checks for a
pkg_config-defined dependency.
`package` is the pkg_config package name.
`include_file` is a top-level include file we expect to find.
`min_version` is the minimum version required.
`version` will override the found version if this package
requires an alternate method for that. Set version='unknown'
if the version is not known but you still want to disabled
pkg_config version check.
"""
if version is None:
version = pkg_config.get_version(package)
if version is None:
raise CheckFailed(
"pkg-config information for '%s' could not be found." %
package)
if min_version == 'PATCH':
raise CheckFailed(
"Requires patches that have not been merged upstream.")
if min_version and version != 'unknown':
if (not is_min_version(version, min_version)):
raise CheckFailed(
"Requires %s %s or later. Found %s." %
(package, min_version, version))
ext = self.get_extension()
if ext is None:
ext = make_extension('test', [])
pkg_config.setup_extension(ext, package)
check_include_file(
ext.include_dirs + get_include_dirs(), include_file, package)
return 'version %s' % version
class OptionalPackage(SetupPackage):
optional = True
force = False
config_category = "packages"
@classmethod
def get_config(cls):
"""
Look at `setup.cfg` and return one of ["auto", True, False] indicating
if the package is at default state ("auto"), forced by the user (case
insensitively defined as 1, true, yes, on for True) or opted-out (case
insensitively defined as 0, false, no, off for False).
"""
conf = "auto"
if config is not None and config.has_option(cls.config_category, cls.name):
try:
conf = config.getboolean(cls.config_category, cls.name)
except ValueError:
conf = config.get(cls.config_category, cls.name)
return conf
def check(self):
"""
Do not override this method!
For custom dependency checks override self.check_requirements().
Two things are checked: Configuration file and requirements.
"""
# Check configuration file
conf = self.get_config()
# Default "auto" state or install forced by user
if conf in [True, 'auto']:
message = "installing"
# Set non-optional if user sets `True` in config
if conf is True:
self.optional = False
# Configuration opt-out by user
else:
# Some backend extensions (e.g. Agg) need to be built for certain
# other GUI backends (e.g. TkAgg) even when manually disabled
if self.force is True:
message = "installing forced (config override)"
else:
raise CheckFailed("skipping due to configuration")
# Check requirements and add extra information (if any) to message.
# If requirements are not met a CheckFailed should be raised in there.
additional_info = self.check_requirements()
if additional_info:
message += ", " + additional_info
# No CheckFailed raised until now, return install message.
return message
def check_requirements(self):
"""
Override this method to do custom dependency checks.
- Raise CheckFailed() if requirements are not met.
- Return message with additional information, or an empty string
(or None) for no additional information.
"""
return ""
class OptionalBackendPackage(OptionalPackage):
config_category = "gui_support"
class Platform(SetupPackage):
name = "platform"
def check(self):
return sys.platform
class Python(SetupPackage):
name = "python"
def check(self):
major, minor1, minor2, s, tmp = sys.version_info
if major < 2:
raise CheckFailed(
"Requires Python 2.6 or later")
elif major == 2 and minor1 < 6:
raise CheckFailed(
"Requires Python 2.6 or later (in the 2.x series)")
elif major == 3 and minor1 < 1:
raise CheckFailed(
"Requires Python 3.1 or later (in the 3.x series)")
return sys.version
class Matplotlib(SetupPackage):
name = "matplotlib"
def check(self):
return versioneer.get_version()
def get_packages(self):
return [
'matplotlib',
'matplotlib.backends',
'matplotlib.backends.qt_editor',
'matplotlib.compat',
'matplotlib.projections',
'matplotlib.axes',
'matplotlib.sphinxext',
'matplotlib.style',
'matplotlib.testing',
'matplotlib.testing.jpl_units',
'matplotlib.tri',
]
def get_py_modules(self):
return ['pylab']
def get_package_data(self):
return {
'matplotlib':
[
'mpl-data/fonts/afm/*.afm',
'mpl-data/fonts/pdfcorefonts/*.afm',
'mpl-data/fonts/pdfcorefonts/*.txt',
'mpl-data/fonts/ttf/*.ttf',
'mpl-data/fonts/ttf/LICENSE_STIX',
'mpl-data/fonts/ttf/COPYRIGHT.TXT',
'mpl-data/fonts/ttf/README.TXT',
'mpl-data/fonts/ttf/RELEASENOTES.TXT',
'mpl-data/images/*.xpm',
'mpl-data/images/*.svg',
'mpl-data/images/*.gif',
'mpl-data/images/*.pdf',
'mpl-data/images/*.png',
'mpl-data/images/*.ppm',
'mpl-data/example/*.npy',
'mpl-data/matplotlibrc',
'backends/web_backend/*.*',
'backends/web_backend/jquery/js/*.min.js',
'backends/web_backend/jquery/css/themes/base/*.min.css',
'backends/web_backend/jquery/css/themes/base/images/*',
'backends/web_backend/css/*.*',
'backends/Matplotlib.nib/*',
'mpl-data/stylelib/*.mplstyle',
]}
class SampleData(OptionalPackage):
"""
This handles the sample data that ships with matplotlib. It is
technically optional, though most often will be desired.
"""
name = "sample_data"
def get_package_data(self):
return {
'matplotlib':
[
'mpl-data/sample_data/*.*',
'mpl-data/sample_data/axes_grid/*.*',
]}
class Toolkits(OptionalPackage):
name = "toolkits"
def get_packages(self):
return [
'mpl_toolkits',
'mpl_toolkits.mplot3d',
'mpl_toolkits.axes_grid',
'mpl_toolkits.axes_grid1',
'mpl_toolkits.axisartist',
]
def get_namespace_packages(self):
return ['mpl_toolkits']
class Tests(OptionalPackage):
name = "tests"
nose_min_version = '0.11.1'
def check(self):
super(Tests, self).check()
msgs = []
msg_template = ('{package} is required to run the matplotlib test '
'suite. Please install it with pip or your preferred'
' tool to run the test suite')
bad_nose = msg_template.format(
package='nose %s or later' % self.nose_min_version
)
try:
import nose
if is_min_version(nose.__version__, self.nose_min_version):
msgs += ['using nose version %s' % nose.__version__]
else:
msgs += [bad_nose]
except ImportError:
msgs += [bad_nose]
if sys.version_info >= (3, 3):
msgs += ['using unittest.mock']
else:
try:
import mock
msgs += ['using mock %s' % mock.__version__]
except ImportError:
msgs += [msg_template.format(package='mock')]
return ' / '.join(msgs)
def get_packages(self):
return [
'matplotlib.tests',
'matplotlib.sphinxext.tests',
]
def get_package_data(self):
baseline_images = [
'tests/baseline_images/%s/*' % x
for x in os.listdir('lib/matplotlib/tests/baseline_images')]
return {
'matplotlib':
baseline_images +
[
'tests/mpltest.ttf',
'tests/test_rcparams.rc',
'tests/test_utf32_be_rcparams.rc',
'sphinxext/tests/tinypages/*.rst',
'sphinxext/tests/tinypages/*.py',
'sphinxext/tests/tinypages/_static/*',
]}
class Toolkits_Tests(Tests):
name = "toolkits_tests"
def check_requirements(self):
conf = self.get_config()
toolkits_conf = Toolkits.get_config()
tests_conf = Tests.get_config()
if conf is True:
Tests.force = True
Toolkits.force = True
elif conf == "auto" and not (toolkits_conf and tests_conf):
# Only auto-install if both toolkits and tests are set
# to be installed
raise CheckFailed("toolkits_tests needs 'toolkits' and 'tests'")
return ""
def get_packages(self):
return [
'mpl_toolkits.tests',
]
def get_package_data(self):
baseline_images = [
'tests/baseline_images/%s/*' % x
for x in os.listdir('lib/mpl_toolkits/tests/baseline_images')]
return {'mpl_toolkits': baseline_images}
def get_namespace_packages(self):
return ['mpl_toolkits']
class DelayedExtension(Extension, object):
"""
A distutils Extension subclass where some of its members
may have delayed computation until reaching the build phase.
This is so we can, for example, get the Numpy include dirs
after pip has installed Numpy for us if it wasn't already
on the system.
"""
def __init__(self, *args, **kwargs):
super(DelayedExtension, self).__init__(*args, **kwargs)
self._finalized = False
self._hooks = {}
def add_hook(self, member, func):
"""
Add a hook to dynamically compute a member.
Parameters
----------
member : string
The name of the member
func : callable
The function to call to get dynamically-computed values
for the member.
"""
self._hooks[member] = func
def finalize(self):
self._finalized = True
class DelayedMember(property):
def __init__(self, name):
self._name = name
def __get__(self, obj, objtype=None):
result = getattr(obj, '_' + self._name, [])
if obj._finalized:
if self._name in obj._hooks:
result = obj._hooks[self._name]() + result
return result
def __set__(self, obj, value):
setattr(obj, '_' + self._name, value)
include_dirs = DelayedMember('include_dirs')
class Numpy(SetupPackage):
name = "numpy"
@staticmethod
def include_dirs_hook():
if sys.version_info[0] >= 3:
import builtins
if hasattr(builtins, '__NUMPY_SETUP__'):
del builtins.__NUMPY_SETUP__
import imp
import numpy
imp.reload(numpy)
else:
import __builtin__
if hasattr(__builtin__, '__NUMPY_SETUP__'):
del __builtin__.__NUMPY_SETUP__
import numpy
reload(numpy)
ext = Extension('test', [])
ext.include_dirs.append(numpy.get_include())
if not has_include_file(
ext.include_dirs, os.path.join("numpy", "arrayobject.h")):
warnings.warn(
"The C headers for numpy could not be found. "
"You may need to install the development package")
return [numpy.get_include()]
def check(self):
min_version = extract_versions()['__version__numpy__']
try:
import numpy
except ImportError:
raise CheckFailed(
"could not be found" )
if not is_min_version(numpy.__version__, min_version):
raise CheckFailed(
"requires numpy %s or later to build. (Found %s)" %
(min_version, numpy.__version__))
return 'version %s' % numpy.__version__
def add_flags(self, ext):
# Ensure that PY_ARRAY_UNIQUE_SYMBOL is uniquely defined for
# each extension
array_api_name = 'MPL_' + ext.name.replace('.', '_') + '_ARRAY_API'
ext.define_macros.append(('PY_ARRAY_UNIQUE_SYMBOL', array_api_name))
ext.add_hook('include_dirs', self.include_dirs_hook)
ext.define_macros.append(('NPY_NO_DEPRECATED_API',
'NPY_1_7_API_VERSION'))
def get_setup_requires(self):
return ['numpy>=1.6']
def get_install_requires(self):
return ['numpy>=1.6']
class LibAgg(SetupPackage):
name = 'libagg'
def check(self):
self.__class__.found_external = True
try:
return self._check_for_pkg_config(
'libagg', 'agg2/agg_basics.h', min_version='PATCH')
except CheckFailed as e:
self.__class__.found_external = False
return str(e) + ' Using local copy.'
def add_flags(self, ext, add_sources=True):
if self.found_external:
pkg_config.setup_extension(ext, 'libagg')
else:
ext.include_dirs.append('extern/agg24-svn/include')
if add_sources:
agg_sources = [
'agg_bezier_arc.cpp',
'agg_curves.cpp',
'agg_image_filters.cpp',
'agg_trans_affine.cpp',
'agg_vcgen_contour.cpp',
'agg_vcgen_dash.cpp',
'agg_vcgen_stroke.cpp',
'agg_vpgen_segmentator.cpp'
]
ext.sources.extend(
os.path.join('extern', 'agg24-svn', 'src', x) for x in agg_sources)
class FreeType(SetupPackage):
name = "freetype"
def check(self):
if sys.platform == 'win32':
check_include_file(get_include_dirs(), 'ft2build.h', 'freetype')
return 'Using unknown version found on system.'
status, output = getstatusoutput("freetype-config --ftversion")
if status == 0:
version = output
else:
version = None
# Early versions of freetype grep badly inside freetype-config,
# so catch those cases. (tested with 2.5.3).
if version is None or 'No such file or directory\ngrep:' in version:
version = self.version_from_header()
# pkg_config returns the libtool version rather than the
# freetype version so we need to explicitly pass the version
# to _check_for_pkg_config
return self._check_for_pkg_config(
'freetype2', 'ft2build.h',
min_version='2.3', version=version)
def version_from_header(self):
version = 'unknown'
ext = self.get_extension()
if ext is None:
return version
# Return the first version found in the include dirs.
for include_dir in ext.include_dirs:
header_fname = os.path.join(include_dir, 'freetype.h')
if os.path.exists(header_fname):
major, minor, patch = 0, 0, 0
with open(header_fname, 'r') as fh:
for line in fh:
if line.startswith('#define FREETYPE_'):
value = line.rsplit(' ', 1)[1].strip()
if 'MAJOR' in line:
major = value
elif 'MINOR' in line:
minor = value
else:
patch = value
return '.'.join([major, minor, patch])
def add_flags(self, ext):
pkg_config.setup_extension(
ext, 'freetype2',
default_include_dirs=[
'include/freetype2', 'freetype2',
'lib/freetype2/include',
'lib/freetype2/include/freetype2'],
default_library_dirs=[
'freetype2/lib'],
default_libraries=['freetype', 'z'])
class FT2Font(SetupPackage):
name = 'ft2font'
def get_extension(self):
sources = [
'src/ft2font.cpp',
'src/ft2font_wrapper.cpp',
'src/mplutils.cpp'
]
ext = make_extension('matplotlib.ft2font', sources)
FreeType().add_flags(ext)
Numpy().add_flags(ext)
return ext
class Png(SetupPackage):
name = "png"
def check(self):
if sys.platform == 'win32':
check_include_file(get_include_dirs(), 'png.h', 'png')
return 'Using unknown version found on system.'
status, output = getstatusoutput("libpng-config --version")
if status == 0:
version = output
else:
version = None
try:
return self._check_for_pkg_config(
'libpng', 'png.h',
min_version='1.2', version=version)
except CheckFailed as e:
if has_include_file(get_include_dirs(), 'png.h'):
return str(e) + ' Using unknown version found on system.'
raise
def get_extension(self):
sources = [
'src/_png.cpp',
'src/mplutils.cpp'
]
ext = make_extension('matplotlib._png', sources)
pkg_config.setup_extension(
ext, 'libpng', default_libraries=['png', 'z'],
alt_exec='libpng-config --ldflags')
Numpy().add_flags(ext)
return ext
class Qhull(SetupPackage):
name = "qhull"
def check(self):
self.__class__.found_external = True
try:
return self._check_for_pkg_config(
'qhull', 'qhull/qhull_a.h', min_version='2003.1')
except CheckFailed as e:
self.__class__.found_pkgconfig = False
# Qhull may not be in the pkg-config system but may still be
# present on this system, so check if the header files can be
# found.
include_dirs = [
os.path.join(x, 'qhull') for x in get_include_dirs()]
if has_include_file(include_dirs, 'qhull_a.h'):
return 'Using system Qhull (version unknown, no pkg-config info)'
else:
self.__class__.found_external = False
return str(e) + ' Using local copy.'
def add_flags(self, ext):
if self.found_external:
pkg_config.setup_extension(ext, 'qhull',
default_libraries=['qhull'])
else:
ext.include_dirs.append('extern')
ext.sources.extend(glob.glob('extern/qhull/*.c'))
class TTConv(SetupPackage):
name = "ttconv"
def get_extension(self):
sources = [
'src/_ttconv.cpp',
'extern/ttconv/pprdrv_tt.cpp',
'extern/ttconv/pprdrv_tt2.cpp',
'extern/ttconv/ttutil.cpp'
]
ext = make_extension('matplotlib.ttconv', sources)
Numpy().add_flags(ext)
ext.include_dirs.append('extern')
return ext
class Path(SetupPackage):
name = "path"
def get_extension(self):
sources = [
'src/py_converters.cpp',
'src/_path_wrapper.cpp'
]
ext = make_extension('matplotlib._path', sources)
Numpy().add_flags(ext)
LibAgg().add_flags(ext)
return ext
class Image(SetupPackage):
name = "image"
def get_extension(self):
sources = [
'src/_image.cpp',
'src/mplutils.cpp',
'src/_image_wrapper.cpp'
]
ext = make_extension('matplotlib._image', sources)
Numpy().add_flags(ext)
LibAgg().add_flags(ext)
return ext
class ContourLegacy(SetupPackage):
name = "contour_legacy"
def get_extension(self):
sources = [
"src/cntr.c"
]
ext = make_extension('matplotlib._cntr', sources)
Numpy().add_flags(ext)
return ext
class Contour(SetupPackage):
name = "contour"
def get_extension(self):
sources = [
"src/_contour.cpp",
"src/_contour_wrapper.cpp",
]
ext = make_extension('matplotlib._contour', sources)
Numpy().add_flags(ext)
return ext
class Delaunay(SetupPackage):
name = "delaunay"
def get_packages(self):
return ['matplotlib.delaunay']
def get_extension(self):
sources = ["_delaunay.cpp", "VoronoiDiagramGenerator.cpp",
"delaunay_utils.cpp", "natneighbors.cpp"]
sources = [os.path.join('lib/matplotlib/delaunay', s) for s in sources]
ext = make_extension('matplotlib._delaunay', sources)
Numpy().add_flags(ext)
return ext
class QhullWrap(SetupPackage):
name = "qhull_wrap"
def get_extension(self):
sources = ['src/qhull_wrap.c']
ext = make_extension('matplotlib._qhull', sources,
define_macros=[('MPL_DEVNULL', os.devnull)])
Numpy().add_flags(ext)
Qhull().add_flags(ext)
return ext
class Tri(SetupPackage):
name = "tri"
def get_extension(self):
sources = [
"lib/matplotlib/tri/_tri.cpp",
"lib/matplotlib/tri/_tri_wrapper.cpp",
"src/mplutils.cpp"
]
ext = make_extension('matplotlib._tri', sources)
Numpy().add_flags(ext)
return ext
class Externals(SetupPackage):
name = "externals"
def get_packages(self):
return ['matplotlib.externals']
class Pytz(SetupPackage):
name = "pytz"
def check(self):
try:
import pytz
except ImportError:
raise CheckFailed(
"could not be found")
return "using pytz version %s" % pytz.__version__
def get_install_requires(self):
return ['pytz']
class Cycler(SetupPackage):
name = "cycler"
def check(self):
try:
import cycler
except ImportError:
raise CheckFailed(
"could not be found")
return "using cycler version %s" % cycler.__version__
def get_install_requires(self):
return ['cycler']
class Dateutil(SetupPackage):
name = "dateutil"
def __init__(self, version=None):
self.version = version
def check(self):
try:
import dateutil
except ImportError:
# dateutil 2.1 has a file encoding bug that breaks installation on
# python 3.3
# https://github.com/matplotlib/matplotlib/issues/2373
# hack around the problem by installing the (working) v2.0
#major, minor1, _, _, _ = sys.version_info
#if self.version is None and (major, minor1) == (3, 3):
#self.version = '!=2.1'
raise CheckFailed (
"could not be found")
major, minor1, _, _, _ = sys.version_info
if dateutil.__version__ == '2.1' and (major, minor1) == (3, 3):
raise CheckFailed (
"dateutil v. 2.1 has a bug that breaks installation"
"on python 3.3.x, use another dateutil version")
return "using dateutil version %s" % dateutil.__version__
def get_install_requires(self):
dateutil = 'python-dateutil'
if self.version is not None:
dateutil += self.version
return [dateutil]
class Tornado(SetupPackage):
name = "tornado"
def check(self):
try:
import tornado
except ImportError:
raise CheckFailed (
"could not be found")
return "using tornado version %s" % tornado.version
class Pyparsing(SetupPackage):
name = "pyparsing"
# pyparsing 2.0.4 has broken python 3 support.
# pyparsing 2.1.2 is broken in python3.4/3.3.
def is_ok(self):
# pyparsing 2.0.0 bug, but it may be patched in distributions
try:
import pyparsing
f = pyparsing.Forward()
f <<= pyparsing.Literal('a')
return f is not None
except (ImportError, TypeError):
return False
def check(self):
try:
import pyparsing
except ImportError:
raise CheckFailed(
"could not be found")
required = [1, 5, 6]
if [int(x) for x in pyparsing.__version__.split('.')] < required:
raise CheckFailed(
"matplotlib requires pyparsing >= {0}".format(
'.'.join(str(x) for x in required)))
if not self.is_ok():
return (
"Your pyparsing contains a bug that will be monkey-patched by "
"matplotlib. For best results, upgrade to pyparsing 2.0.1 or "
"later.")
return "using pyparsing version %s" % pyparsing.__version__
def get_install_requires(self):
versionstring = 'pyparsing>=1.5.6,!=2.0.4,!=2.1.2'
if self.is_ok():
return [versionstring]
else:
return [versionstring + ',!=2.0.0']
class BackendAgg(OptionalBackendPackage):
name = "agg"
force = True
def get_extension(self):
sources = [
"src/mplutils.cpp",
"src/py_converters.cpp",
"src/_backend_agg.cpp",
"src/_backend_agg_wrapper.cpp"
]
ext = make_extension('matplotlib.backends._backend_agg', sources)
Numpy().add_flags(ext)
LibAgg().add_flags(ext)
FreeType().add_flags(ext)
return ext
class BackendTkAgg(OptionalBackendPackage):
name = "tkagg"
force = True
def check(self):
return "installing; run-time loading from Python Tcl / Tk"
def get_extension(self):
sources = [
'src/py_converters.cpp',
'src/_tkagg.cpp'
]
ext = make_extension('matplotlib.backends._tkagg', sources)
self.add_flags(ext)
Numpy().add_flags(ext)
LibAgg().add_flags(ext, add_sources=False)
return ext
def add_flags(self, ext):
ext.include_dirs.extend(['src'])
if sys.platform == 'win32':
# PSAPI library needed for finding Tcl / Tk at run time
ext.libraries.extend(['psapi'])
class BackendGtk(OptionalBackendPackage):
name = "gtk"
def check_requirements(self):
try:
import gtk
except ImportError:
raise CheckFailed("Requires pygtk")
except RuntimeError:
raise CheckFailed('pygtk present, but import failed.')
else:
version = (2, 2, 0)
if gtk.pygtk_version < version:
raise CheckFailed(
"Requires pygtk %d.%d.%d or later. "
"Found %d.%d.%d" % (version + gtk.pygtk_version))
ext = self.get_extension()
self.add_flags(ext)
check_include_file(ext.include_dirs,
os.path.join("gtk", "gtk.h"),
'gtk')
check_include_file(ext.include_dirs,
os.path.join("pygtk", "pygtk.h"),
'pygtk')
return 'Gtk: %s pygtk: %s' % (
".".join(str(x) for x in gtk.gtk_version),
".".join(str(x) for x in gtk.pygtk_version))
def get_package_data(self):
return {'matplotlib': ['mpl-data/*.glade']}
def get_extension(self):
sources = [
'src/_backend_gdk.c'
]
ext = make_extension('matplotlib.backends._backend_gdk', sources)
self.add_flags(ext)
Numpy().add_flags(ext)
return ext
def add_flags(self, ext):
if sys.platform == 'win32':
def getoutput(s):
ret = os.popen(s).read().strip()
return ret
if 'PKG_CONFIG_PATH' not in os.environ:
# If Gtk+ is installed, pkg-config is required to be installed
os.environ['PKG_CONFIG_PATH'] = 'C:\\GTK\\lib\\pkgconfig'
# popen broken on my win32 plaform so I can't use pkgconfig
ext.library_dirs.extend(
['C:/GTK/bin', 'C:/GTK/lib'])
ext.include_dirs.extend(
['win32_static/include/pygtk-2.0',
'C:/GTK/include',
'C:/GTK/include/gobject',
'C:/GTK/include/gext',
'C:/GTK/include/glib',
'C:/GTK/include/pango',
'C:/GTK/include/atk',
'C:/GTK/include/X11',
'C:/GTK/include/cairo',
'C:/GTK/include/gdk',
'C:/GTK/include/gdk-pixbuf',
'C:/GTK/include/gtk',
])
pygtkIncludes = getoutput(
'pkg-config --cflags-only-I pygtk-2.0').split()
gtkIncludes = getoutput(
'pkg-config --cflags-only-I gtk+-2.0').split()
includes = pygtkIncludes + gtkIncludes
ext.include_dirs.extend([include[2:] for include in includes])
pygtkLinker = getoutput('pkg-config --libs pygtk-2.0').split()
gtkLinker = getoutput('pkg-config --libs gtk+-2.0').split()
linkerFlags = pygtkLinker + gtkLinker
ext.libraries.extend(
[flag[2:] for flag in linkerFlags if flag.startswith('-l')])
ext.library_dirs.extend(
[flag[2:] for flag in linkerFlags if flag.startswith('-L')])
ext.extra_link_args.extend(
[flag for flag in linkerFlags if not
(flag.startswith('-l') or flag.startswith('-L'))])
# visual studio doesn't need the math library
if (sys.platform == 'win32' and
win32_compiler == 'msvc' and
'm' in ext.libraries):
ext.libraries.remove('m')
elif sys.platform != 'win32':
pkg_config.setup_extension(ext, 'pygtk-2.0')
pkg_config.setup_extension(ext, 'gtk+-2.0')
class BackendGtkAgg(BackendGtk):
name = "gtkagg"
def check(self):
try:
return super(BackendGtkAgg, self).check()
except:
raise
def get_package_data(self):
return {'matplotlib': ['mpl-data/*.glade']}
def get_extension(self):
sources = [
'src/py_converters.cpp',
'src/_gtkagg.cpp',
'src/mplutils.cpp'
]
ext = make_extension('matplotlib.backends._gtkagg', sources)
self.add_flags(ext)
LibAgg().add_flags(ext)
Numpy().add_flags(ext)
return ext
def backend_gtk3agg_internal_check(x):
try:
import gi
except ImportError:
return (False, "Requires pygobject to be installed.")
try:
gi.require_version("Gtk", "3.0")
except ValueError:
return (False, "Requires gtk3 development files to be installed.")
except AttributeError:
return (False, "pygobject version too old.")
try:
from gi.repository import Gtk, Gdk, GObject
except (ImportError, RuntimeError):
return (False, "Requires pygobject to be installed.")
return (True, "version %s.%s.%s" % (
Gtk.get_major_version(),
Gtk.get_micro_version(),
Gtk.get_minor_version()))
class BackendGtk3Agg(OptionalBackendPackage):
name = "gtk3agg"
def check_requirements(self):
if 'TRAVIS' in os.environ:
raise CheckFailed("Can't build with Travis")
# This check needs to be performed out-of-process, because
# importing gi and then importing regular old pygtk afterward
# segfaults the interpreter.
try:
p = multiprocessing.Pool()
except:
return "unknown (can not use multiprocessing to determine)"
try:
res = p.map_async(backend_gtk3agg_internal_check, [0])
success, msg = res.get(timeout=10)[0]
except multiprocessing.TimeoutError:
p.terminate()
# No result returned. Probaly hanging, terminate the process.
success = False
raise CheckFailed("Check timed out")
except:
p.close()
# Some other error.
success = False
msg = "Could not determine"
raise
else:
p.close()
finally:
p.join()
if success:
return msg
else:
raise CheckFailed(msg)
def get_package_data(self):
return {'matplotlib': ['mpl-data/*.glade']}
def backend_gtk3cairo_internal_check(x):
try:
import cairocffi
except ImportError:
try:
import cairo
except ImportError:
return (False, "Requires cairocffi or pycairo to be installed.")
try:
import gi
except ImportError:
return (False, "Requires pygobject to be installed.")
try:
gi.require_version("Gtk", "3.0")
except ValueError:
return (False, "Requires gtk3 development files to be installed.")
except AttributeError:
return (False, "pygobject version too old.")
try:
from gi.repository import Gtk, Gdk, GObject
except (RuntimeError, ImportError):
return (False, "Requires pygobject to be installed.")
return (True, "version %s.%s.%s" % (
Gtk.get_major_version(),
Gtk.get_micro_version(),
Gtk.get_minor_version()))
class BackendGtk3Cairo(OptionalBackendPackage):
name = "gtk3cairo"
def check_requirements(self):
if 'TRAVIS' in os.environ:
raise CheckFailed("Can't build with Travis")
# This check needs to be performed out-of-process, because
# importing gi and then importing regular old pygtk afterward
# segfaults the interpreter.
try:
p = multiprocessing.Pool()
except:
return "unknown (can not use multiprocessing to determine)"
try:
res = p.map_async(backend_gtk3cairo_internal_check, [0])
success, msg = res.get(timeout=10)[0]
except multiprocessing.TimeoutError:
p.terminate()
# No result returned. Probaly hanging, terminate the process.
success = False
raise CheckFailed("Check timed out")
except:
p.close()
success = False
raise
else:
p.close()
finally:
p.join()
if success:
return msg
else:
raise CheckFailed(msg)
def get_package_data(self):
return {'matplotlib': ['mpl-data/*.glade']}
class BackendWxAgg(OptionalBackendPackage):
name = "wxagg"
def check_requirements(self):
wxversioninstalled = True
try:
import wxversion
except ImportError:
wxversioninstalled = False
if wxversioninstalled:
try:
_wx_ensure_failed = wxversion.AlreadyImportedError
except AttributeError:
_wx_ensure_failed = wxversion.VersionError
try:
wxversion.ensureMinimal('2.8')
except _wx_ensure_failed:
pass
try:
import wx
backend_version = wx.VERSION_STRING
except ImportError:
raise CheckFailed("requires wxPython")
# Extra version check in case wxversion lacks AlreadyImportedError;
# then VersionError might have been raised and ignored when
# there really *is* a problem with the version.
major, minor = [int(n) for n in backend_version.split('.')[:2]]
if major < 2 or (major < 3 and minor < 8):
raise CheckFailed(
"Requires wxPython 2.8, found %s" % backend_version)
return "version %s" % backend_version
class BackendMacOSX(OptionalBackendPackage):
name = 'macosx'
def check_requirements(self):
if sys.platform != 'darwin':
raise CheckFailed("Mac OS-X only")
return 'darwin'
def get_extension(self):
sources = [
'src/_macosx.m',
'src/py_converters.cpp',
'src/path_cleanup.cpp'
]
ext = make_extension('matplotlib.backends._macosx', sources)
Numpy().add_flags(ext)
LibAgg().add_flags(ext)
ext.extra_link_args.extend(['-framework', 'Cocoa'])
return ext
class Windowing(OptionalBackendPackage):
"""
Builds the windowing extension.
"""
name = "windowing"
def check_requirements(self):
if sys.platform != 'win32':
raise CheckFailed("Microsoft Windows only")
config = self.get_config()
if config is False:
raise CheckFailed("skipping due to configuration")
return ""
def get_extension(self):
sources = [
"src/_windowing.cpp"
]
ext = make_extension('matplotlib._windowing', sources)
ext.include_dirs.extend(['C:/include'])
ext.libraries.extend(['user32'])
ext.library_dirs.extend(['C:/lib'])
ext.extra_link_args.append("-mwindows")
return ext
class BackendQtBase(OptionalBackendPackage):
def convert_qt_version(self, version):
version = '%x' % version
temp = []
while len(version) > 0:
version, chunk = version[:-2], version[-2:]
temp.insert(0, str(int(chunk, 16)))
return '.'.join(temp)
def check_requirements(self):
'''
If PyQt4/PyQt5 is already imported, importing PyQt5/PyQt4 will fail
so we need to test in a subprocess (as for Gtk3).
'''
try:
p = multiprocessing.Pool()
except:
# Can't do multiprocessing, fall back to normal approach ( this will fail if importing both PyQt4 and PyQt5 )
try:
# Try in-process
msg = self.callback(self)
except RuntimeError:
raise CheckFailed("Could not import: are PyQt4 & PyQt5 both installed?")
except:
# Raise any other exceptions
raise
else:
# Multiprocessing OK
try:
res = p.map_async(self.callback, [self])
msg = res.get(timeout=10)[0]
except multiprocessing.TimeoutError:
p.terminate()
# No result returned. Probaly hanging, terminate the process.
raise CheckFailed("Check timed out")
except:
# Some other error.
p.close()
raise
else:
# Clean exit
p.close()
finally:
# Tidy up multiprocessing
p.join()
return msg
def backend_pyside_internal_check(self):
try:
from PySide import __version__
from PySide import QtCore
except ImportError:
raise CheckFailed("PySide not found")
else:
return ("Qt: %s, PySide: %s" %
(QtCore.__version__, __version__))
def backend_pyqt4_internal_check(self):
try:
from PyQt4 import QtCore
except ImportError:
raise CheckFailed("PyQt4 not found")
try:
qt_version = QtCore.QT_VERSION
pyqt_version_str = QtCore.QT_VERSION_STR
except AttributeError:
raise CheckFailed('PyQt4 not correctly imported')
else:
return ("Qt: %s, PyQt: %s" % (self.convert_qt_version(qt_version), pyqt_version_str))
def backend_qt4_internal_check(self):
successes = []
failures = []
try:
successes.append(backend_pyside_internal_check(self))
except CheckFailed as e:
failures.append(str(e))
try:
successes.append(backend_pyqt4_internal_check(self))
except CheckFailed as e:
failures.append(str(e))
if len(successes) == 0:
raise CheckFailed('; '.join(failures))
return '; '.join(successes + failures)
class BackendQt4(BackendQtBase):
name = "qt4agg"
def __init__(self, *args, **kwargs):
BackendQtBase.__init__(self, *args, **kwargs)
self.callback = backend_qt4_internal_check
def backend_qt5_internal_check(self):
try:
from PyQt5 import QtCore
except ImportError:
raise CheckFailed("PyQt5 not found")
try:
qt_version = QtCore.QT_VERSION
pyqt_version_str = QtCore.QT_VERSION_STR
except AttributeError:
raise CheckFailed('PyQt5 not correctly imported')
else:
return ("Qt: %s, PyQt: %s" % (self.convert_qt_version(qt_version), pyqt_version_str))
class BackendQt5(BackendQtBase):
name = "qt5agg"
def __init__(self, *args, **kwargs):
BackendQtBase.__init__(self, *args, **kwargs)
self.callback = backend_qt5_internal_check
class BackendCairo(OptionalBackendPackage):
name = "cairo"
def check_requirements(self):
try:
import cairocffi
except ImportError:
try:
import cairo
except ImportError:
raise CheckFailed("cairocffi or pycairo not found")
else:
return "pycairo version %s" % cairo.version
else:
return "cairocffi version %s" % cairocffi.version
class DviPng(SetupPackage):
name = "dvipng"
optional = True
def check(self):
try:
output = check_output('dvipng -version', shell=True,
stderr=subprocess.STDOUT)
return "version %s" % output.splitlines()[1].decode().split()[-1]
except (IndexError, ValueError, subprocess.CalledProcessError):
raise CheckFailed()
class Ghostscript(SetupPackage):
name = "ghostscript"
optional = True
def check(self):
try:
if sys.platform == 'win32':
command = 'gswin32c --version'
try:
output = check_output(command, shell=True,
stderr=subprocess.STDOUT)
except subprocess.CalledProcessError:
command = 'gswin64c --version'
output = check_output(command, shell=True,
stderr=subprocess.STDOUT)
else:
command = 'gs --version'
output = check_output(command, shell=True,
stderr=subprocess.STDOUT)
return "version %s" % output.decode()[:-1]
except (IndexError, ValueError, subprocess.CalledProcessError):
raise CheckFailed()
class LaTeX(SetupPackage):
name = "latex"
optional = True
def check(self):
try:
output = check_output('latex -version', shell=True,
stderr=subprocess.STDOUT)
line = output.splitlines()[0].decode()
pattern = '(3\.1\d+)|(MiKTeX \d+.\d+)'
match = re.search(pattern, line)
return "version %s" % match.group(0)
except (IndexError, ValueError, AttributeError, subprocess.CalledProcessError):
raise CheckFailed()
class PdfToPs(SetupPackage):
name = "pdftops"
optional = True
def check(self):
try:
output = check_output('pdftops -v', shell=True,
stderr=subprocess.STDOUT)
for line in output.splitlines():
line = line.decode()
if 'version' in line:
return "version %s" % line.split()[2]
except (IndexError, ValueError, subprocess.CalledProcessError):
pass
raise CheckFailed()
class OptionalPackageData(OptionalPackage):
config_category = "package_data"
class Dlls(OptionalPackageData):
"""
On Windows, this packages any DLL files that can be found in the
lib/matplotlib/* directories.
"""
name = "dlls"
def check_requirements(self):
if sys.platform != 'win32':
raise CheckFailed("Microsoft Windows only")
def get_package_data(self):
return {'': ['*.dll']}
@classmethod
def get_config(cls):
"""
Look at `setup.cfg` and return one of ["auto", True, False] indicating
if the package is at default state ("auto"), forced by the user (True)
or opted-out (False).
"""
try:
return config.getboolean(cls.config_category, cls.name)
except:
return False # <-- default